As stated in my comment...
First, it is important to note that Java evaluates left-to-right. We find that
getArray()[i++] attempts to access an element of
null treated as an array, which thus produces a
NullPointerException. This exception interrupts the evaluation of the expression
getArray()[i++][i++] before the outer array access expression is evaluated (whose index is computed as
i++) and thus the second increment never happens :-)
This is in conformance with §15.13 of the Java Language Specification, which describes array access expressions.
ExpressionName [ Expression ]
PrimaryNoNewArray [ Expression ]
The step-by-step procedure of evaluation of the expression is stated clearly in §15.13.1 Run-time Evaluation of Array Access:
An array access expression is evaluated using the following procedure:
First, the array reference expression is evaluated. If this evaluation completes abruptly, then the array access completes abruptly for the same reason and the index expression is not evaluated.
Otherwise, the index expression is evaluated. If this evaluation completes abruptly, then the array access completes abruptly for the same reason.
Otherwise, if the value of the array reference expression is
null, then a
NullPointerException is thrown.
Otherwise, the value of the array reference expression indeed refers to an array. If the value of the index expression is less than zero, or greater than or equal to the array's
length, then an
ArrayIndexOutOfBoundsException is thrown.
Otherwise, the result of the array access is the variable of type T, within the array, selected by the value of the index expression.
Now, to make sense of our results, you must realize that Java multidimensional arrays are inherently jagged and implemented as arrays of arrays; an
int is merely an array of
The true expression at hand involves two array access expressions, namely an outer array access expression whose index expression is
i++ and the array reference expression is itself an array access expression, namely one whose reference expression is
getArray() and whose index expression is
Following the rules of evaluation, to evaluate the expression
getArray()[i++][i++], we first must evaluate the array reference expression i.e.
getArray()[i++]. As it turns out, this is itself an array access and expression and we must apply the same rule. Evaluating
getArray() results in
null. The index expression
i++ also completes fully (incrementing
i), before reaching the step in which a
NullPointerException is thrown at this point. Since the outer array access expression's array reference expression ended abruptly, so too does it and thus the outer access expression's index expression (
i++) is not evaluated, meaning
i is only incremented once.
... and now you know ;-)