EDIT: Okay, got it.

The first point to make is that obviously you shouldn't use this code anyway. However, when you expand it, it becomes equivalent to:

```
j = j ^ (i = i ^ (j = j ^ i));
```

(If we were using a more complicated expression such as `foo.bar++ ^= i`

, it would be important that the `++`

was only evaluated once, but here I believe it's simpler.)

Now, the order of evaluation of the operands is always left to right, so to start with we get:

```
j = 36 ^ (i = i ^ (j = j ^ i));
```

**This (above) is the most important step.** We've ended up with 36 as the LHS for the XOR operation which is executed last. The LHS is not "the value of `j`

after the RHS has been evaluated".

The evaluation of the RHS of the ^ involves the "one level nested" expression, so it becomes:

```
j = 36 ^ (i = 25 ^ (j = j ^ i));
```

Then looking at the deepest level of nesting, we can substitute both `i`

and `j`

:

```
j = 36 ^ (i = 25 ^ (j = 25 ^ 36));
```

... which becomes

```
j = 36 ^ (i = 25 ^ (j = 61));
```

The assignment to `j`

in the RHS occurs first, but the result is then overwritten at the end anyway, so we can ignore that - there are no further evaluations of `j`

before the final assignment:

```
j = 36 ^ (i = 25 ^ 61);
```

This is now equivalent to:

```
i = 25 ^ 61;
j = 36 ^ (i = 25 ^ 61);
```

Or:

```
i = 36;
j = 36 ^ 36;
```

Which becomes:

```
i = 36;
j = 0;
```

I *think* that's all correct, and it gets to the right answer... apologies to Eric Lippert if some of the details about evaluation order are slightly off :(

don'tapply. It's undefined behaviour in C++, but I don't believe it's undefined in C#. – Jon Skeet Apr 7 '11 at 7:05