First of all, we are talking about local variables only. Effectively final does not apply to fields. This is important, since the semantics for
final fields are very distinct and are subject to heavy compiler optimizations and memory model promises, see $17.5.1 on the semantics of final fields.
On a surface level
effectively final for local variables are indeed identical. However, the JLS makes a clear distinction between the two which actually has a wide range of effects in special situations like this.
From JLS§4.12.4 about
A constant variable is a
final variable of primitive type or type String that is initialized with a constant expression (§15.29). Whether a variable is a constant variable or not may have implications with respect to class initialization (§12.4.1), binary compatibility (§13.1), reachability (§14.22), and definite assignment (§16.1.1).
int is primitive, the variable
a is such a constant variable.
Further, from the same chapter about
Certain variables that are not declared final are instead considered effectively final: ...
So from the way this is worded, it is clear that in the other example,
a is not considered a constant variable, as it is not final, but only effectively final.
Now that we have the distinction, lets lookup what is going on and why the output is different.
You are using the conditional operator
? : here, so we have to check its definition. From JLS§15.25:
There are three kinds of conditional expressions, classified according to the second and third operand expressions: boolean conditional expressions, numeric conditional expressions, and reference conditional expressions.
In this case, we are talking about a numeric conditional expressions, from JLS§15.25.2:
The type of a numeric conditional expression is determined as follows:
And that is the part where the two cases get classified differently.
The version that is
effectively final is matched by this rule:
Otherwise, general numeric promotion (§5.6) is applied to the second and third operands, and the type of the conditional expression is the promoted type of the second and third operands.
Which is the same behavior as if you would do
5 + 'd', i.e.
int + char, which results in
int. See JLS§5.6
Numeric promotion determines the promoted type of all the expressions in a numeric context. The promoted type is chosen such that each expression can be converted to the promoted type, and, in the case of an arithmetic operation, the operation is defined for values of the promoted type. The order of expressions in a numeric context is not significant for numeric promotion. The rules are as follows:
Next, widening primitive conversion (§5.1.2) and narrowing primitive conversion (§5.1.3) are applied to some expressions, according to the following rules:
In a numeric choice context, the following rules apply:
If any expression is of type
int and is not a constant expression (§15.29), then the promoted type is
int, and other expressions that are not of type
int undergo widening primitive conversion to
So everything is promoted to
a is an
int already. That explains the output of
The version with the
final variable is matched by this rule:
If one of the operands is of type
char, and the other operand is a constant expression (§15.29) of type
int whose value is representable in type
T, then the type of the conditional expression is
The final variable
a is of type
int and a constant expression (because it is
final). It is representable as
char, hence the outcome is of type
char. That concludes the output
The example with the string equality is based on the same core difference,
final variables are treated as constant expression/variable, and
effectively final is not.
In Java, string interning is based on constant expressions, hence
"a" + "b" + "c" == "abc"
true as well (dont use this construct in real code).
Moreover, a string literal always refers to the same instance of class String. This is because string literals - or, more generally, strings that are the values of constant expressions (§15.29) - are "interned" so as to share unique instances, using the method
Easy to overlook as it is primarily talking about literals, but it actually applies to constant expressions as well.