This is because of operator precedence. The first case is equal to this:
x = (b ? (y=1) : 2); // Compiles OK.
While the second is:
x = (b ? 1 : y) = 2;
The first one compiles indeed fine, because an assignment gets evaluated to the new value. So, if
b is true, it will cause to be both
y equal to 1. The second one is like saying:
x = 1 = 2. So, yes, to fix this compiler error, add paratheses to your statement:
x = (b ? 1 : (y = 2)); // Outer () are not needed, but is clearer, IMHO.
The JLS §15.26 says this:
There are 12 assignment operators; all are syntactically right-associative (they group right-to-left). Thus,
a=(b=c), which assigns the value of
b and then assigns the value of
The result of the first operand of an assignment operator must be a variable, or a compile-time error occurs. (This explains the compile time error you face)
At run time, the result of the assignment expression is the value of the variable after the assignment has occurred. The result of an assignment expression is not itself a variable.
The second one indeed is not valid. Consider this:
x = 1 = 2; // No proper syntax! Same idea as case #2
Because this is right-associative, this can be written as:
x = (1 = 2);
Since the assignment
1 = 2, is invalid, because
1 is not a variable, it causes the compile time error.