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 aDex = 0; aDex < 2; aDex++) {
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`

!

`+`

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