# Unexpected output for multiple assignment with arrays [duplicate]

Consider

``````int b = 2;

int[] a = new int;

a[a[b]] = a[b] = b = 2;

for (int i = 0; i <= 3; i++)
{
System.out.println(a[i]);
}
``````

The output is

``````2
0
2
0
``````

I was expecting `a` to be zero.

• Why would you ever have such code? Any statement with three assignments in is a bad idea... – Jon Skeet Mar 25 '14 at 10:46
• @Pshemo: Great spot and the accepted answer on the duplicate is excellent. – Bathsheba Mar 25 '14 at 11:42
• @Bathsheba All credits to TheEnd. He found it and posted link in his answer. I just flagged it as duplicate. – Pshemo Mar 25 '14 at 11:44

Excerpt from JLS 15.26.1. Simple Assignment Operator =

If the left-hand operand is an array access expression (§15.13), possibly enclosed in one or more pairs of parentheses, then:

First, the array reference subexpression of the left-hand operand array access expression is evaluated. If this evaluation completes abruptly, then the assignment expression completes abruptly for the same reason; the index subexpression (of the left-hand operand array access expression) and the right-hand operand are not evaluated and no assignment occurs.

This means that `a[a[b]]` evaluates to `a` as it's evaluated first. Then we proceed simply as `a = a[b] = b = 2`, with the assignment taking place from right to left.

Because `a[a[b]]` is same as `a` and you are assigning value 2 for that..

``````b = 2, a[b] = 0 so a[a[b]] = 2
``````

`a[a[b]] = a[b]=b=2` , This executes from left hand side

First

``````a[a[b]] i.e, a[a] -> a //initially the value of a will be 0
``````

now,

``````a=a=b=2;
``````

so the output is,

``````2 0 2 0
``````

I guess this thread might help you to understand the evaluation order in java: What are the rules for evaluation order in Java?

The most important part of this problem is that the first `=` is the actual assignment. In java the index is always evaluated befor the asignment, therefor `a[a[b]]` is the fist one in the evaluation order. And at this point `a[b]` is `0`.

Let's see what `a[a[b]] = a[b]=b=2;` does in detail:

`a[a[b]]` : b is 2, `a` is 0, `a[a]` is `a`.

so `a[a[b]] = a[b]=b=2;` is evaluated to `a = a[b]=b=2;`

that is evaluated to `a = a =2;`, so `a` is 2 and `a` is equal to `a`

a[a[b]] = a[b]=b=2;

from right to left and expecting the array and b to be reevaluated at each step, when in fact it seems like a and b are frozen at the time of the assignment. Consider the equivalent code:

``````1) int b = 2;

//array initialized to 0
2) int[] a= new int; // 0 0 0 0

// at this point a[b] is a = 0, therefore  below a[a[b]]=2 is equivalent to  a=2
3) a[a[b]] = 2          // 2 0 0 0

// the same: a[b] = 2 is equivalent to a = 2  -note that the arrays are zero based
4) a[b]= 2              // 2 0 2 0

5) b=2;
``````