# Double structural equality operators: if(a==b==c)

I wrote some code by accident today and was surprised when Eclipse did not yell at me, for once. The code had a double use of the structural equality operator (`==`) similar to the below with the `if(a==b==c)` structure.

``````public class tripleEqual {
public static void main(String[] args) {
boolean[] a = { true, false };
boolean[] b = { true, false };
boolean[] c = { true, false };

for (int bDex = 0; bDex < 2; bDex++) {
for (int cDex = 0; cDex < 2; cDex++) {
if (a[aDex] == b[bDex] == c[cDex]) {
System.out.printf("Got a==b==c with %d %d %d\n", aDex, bDex, cDex);
}
}
}
}

}
}
``````

The output is

``````Got a==b==c with 0 0 0
Got a==b==c with 0 1 1
Got a==b==c with 1 0 1
Got a==b==c with 1 1 0
``````

Playing around, I notice I can't do `if(a==b==c)` with any type but `boolean`. From that the boolean expression is

``````( A'. B'. C') + ( A'. B . C ) + ( A . B'. C ) + ( A . B . C')
``````

which simplifies to `(A=B).'C + (A<>B).C`.

Thus, ignoring side-effect, `if(a==b==c)` is equal to `if(a==b && !c) || (a!=b && c))`.

Can anyone explain how the `if(a==b==c)` syntax suggests that?

Edit 1:

I found where my confusion was after so many people explained the left-associativity. Usually I write '1' for true and '0' for false but my minimized truth table/output in the above test, I had '0' for true and '1' for false. The negation of the expression `( A'. B'. C') + ( A'. B . C ) + ( A . B'. C ) + ( A . B . C')` is `(A=B)=C`!

• I've answered on a similar question a week ago (the question was about JavaScript, but the rules are the same): stackoverflow.com/questions/19955573/why-is-1-1-1-false/… – aga Nov 19 '13 at 17:44
• @John Those do evaluate to false, so I don't really follow what you are saying. I will say however my saying "same idea as 1+2+3" is misleading, as `+` over integers is associative and `==` over booleans is not (ie. ((a + b) + c) equals (a + (b + c)) over integers, but ((a == b) == c) does not equal (a == (b == c)) over booleans) – bengoesboom Nov 19 '13 at 19:10
• @bengoesboom I do see where my confusion was, in my test code I had the output being 0=true & 1=false. Which is the opposite of what I am used to. Negating (A=B).'C + (A<>B).C does give me (a=b)=c. – Lan Nov 19 '13 at 19:19

Playing around, I notice I can't do if(a==b==c) with any type but boolean.

You can't do it with any type but `boolean` because this comparison chain will be evaluated from the left side to the right. First comparison will be simplified to `true` or `false` value which has to be compared with the third value in chain (and result of this check will be compared to fourth value and so on, till the end of the chain). As for the primitive values, you can only compare primitives of the same type (e.g. boolean and boolean will work, while double and boolean won't) - that's why you can do it with booleans only - because the `==` returns the value of the same type as all the values in chain.
There's danger here: the result of all that comparison chain isn't equal to `true` when all values you've provided are `true`. You can see it from the second output: `true` == `false` == `false` raises `true`, which is right result if you evaluate it from left to right (as it happens during the program execution), but may seem wrong if you think that this comparison chain has to be evaluated all at once. The correct way to do it is two perform two explicit comparisons:

``````if (a == b && b == c) {
// do something
}
``````
• I've used if(a==b && b==c), the use of if(a==b==c) was a funny situation that came up. I 'knew' that a==b==c != (a==b && b==c) but when I typed if(a==b==c) and Eclipse didn't error I went to investigate. – Lan Nov 19 '13 at 19:12

The `==` operator is left-associative, so `a == b == c` is interpreted as `(a == b) == c`. So `a == b` returns a bool, which is then compared to `c`.

This is a side effect of the parser that is rarely useful in practice. As you've observed, it looks like it does one thing but does something very different (so even if it does what you want, it's not recommended). Some languages actually make the `==` operator non-associative, so `a == b == c` is a syntax error.

• I'd like to add that the construct works with three booleans but probably doesn't do what OP expects. E.g. `true == false == false` would be `true`. – André Stannek Nov 19 '13 at 17:38