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I found this code to swap two numbers without using a third variable, using the XOR ^ operator.


int i = 25;
int j = 36;
j ^= i;       
i ^= j;
j ^= i;

Console.WriteLine("i:" + i + " j:" + j);

//numbers Swapped correctly
//Output: i:36 j:25

Now I changed the above code to this equivalent code.

My Code:

int i = 25;
int j = 36;

j ^= i ^= j ^= i;   // I have changed to this equivalent (???).

Console.WriteLine("i:" + i + " j:" + j);

//Not Swapped correctly            
//Output: i:36 j:0

Now, I want to know, Why does my code give incorrect output?

share|improve this question
It would be the same answer as given for: or many of the others in the Related column. Even though they say C++ and this is C#, the same rules would apply. – Daemin Apr 7 '11 at 7:00
@Daemin: No, the same rules don't apply. It's undefined behaviour in C++, but I don't believe it's undefined in C#. – Jon Skeet Apr 7 '11 at 7:05
@Daemin - Here's a related post by Eric Lippert, just two days ago:… , specifically: "The other answers are pointing out that in the C and C++ programming languages, the language specifications do not specify in what order side effects appear to happen if the side effect and its observation are within the same "sequence point", as they are here. [...] C# does not permit that sort of lattitude. In C#, a side effect to the left is observed to have happened by the time that code to the right executes." – Kobi Apr 7 '11 at 7:08
Some day I want to think of a question that is interesting enough for Jon Skeet to tweet about... – David Johnstone Apr 7 '11 at 8:57
For those who closed the question - the other question deals with C, C++ where the result is undefined because of a lack of sequence points. Whereas this question deals with C#, where the answer is well defined, but different to what may be expected. So I wouldn't treat it as a duplicate question, because the answers are distinctly different. – Damien_The_Unbeliever Apr 7 '11 at 12:12
up vote 71 down vote accepted

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 ^= 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);


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 :(

share|improve this answer
The IL suggests that this is exactly what happens. – SWeko Apr 7 '11 at 7:30
@Lasse: Absolutely. Code like this is horrible. – Jon Skeet Apr 7 '11 at 7:38
Why is it that one of the greatest C# experts around with such frequency states "you should not use this code" in SO answers? ;-) – Fredrik Mörk Apr 7 '11 at 7:43
@Fredrik: In this case I didn't come up with the code to start with. It's somewhat different when someone asks how you can achieve something and I originate the horrible code :) – Jon Skeet Apr 7 '11 at 7:52
That looks right to me. – Eric Lippert Apr 7 '11 at 17:24

Checked the generated IL and it gives out different results;

The correct swap generates a straightforward:

IL_0001:  ldc.i4.s   25
IL_0003:  stloc.0        //create a integer variable 25 at position 0
IL_0004:  ldc.i4.s   36
IL_0006:  stloc.1        //create a integer variable 36 at position 1
IL_0007:  ldloc.1        //push variable at position 1 [36]
IL_0008:  ldloc.0        //push variable at position 0 [25]
IL_0009:  xor           
IL_000a:  stloc.1        //store result in location 1 [61]
IL_000b:  ldloc.0        //push 25
IL_000c:  ldloc.1        //push 61
IL_000d:  xor 
IL_000e:  stloc.0        //store result in location 0 [36]
IL_000f:  ldloc.1        //push 61
IL_0010:  ldloc.0        //push 36
IL_0011:  xor
IL_0012:  stloc.1        //store result in location 1 [25]

The incorrect swap generates this code:

IL_0001:  ldc.i4.s   25
IL_0003:  stloc.0        //create a integer variable 25 at position 0
IL_0004:  ldc.i4.s   36
IL_0006:  stloc.1        //create a integer variable 36 at position 1
IL_0007:  ldloc.1        //push 36 on stack (stack is 36)
IL_0008:  ldloc.0        //push 25 on stack (stack is 36-25)
IL_0009:  ldloc.1        //push 36 on stack (stack is 36-25-36)
IL_000a:  ldloc.0        //push 25 on stack (stack is 36-25-36-25)
IL_000b:  xor            //stack is 36-25-61
IL_000c:  dup            //stack is 36-25-61-61
IL_000d:  stloc.1        //store 61 into position 1, stack is 36-25-61
IL_000e:  xor            //stack is 36-36
IL_000f:  dup            //stack is 36-36-36
IL_0010:  stloc.0        //store 36 into positon 0, stack is 36-36 
IL_0011:  xor            //stack is 0, as the original 36 (instead of the new 61) is xor-ed)
IL_0012:  stloc.1        //store 0 into position 1

It's evident that the code generated in the second method is incorect, as the old value of j is used in a calculation where the new value is required.

share|improve this answer
I checked the output and it gives different results :). The question is why that happens... – Kobi Apr 7 '11 at 7:23
So it's loading all of the values it needs to evaluate the whole expression onto the stack first, then xoring and saving values back into the variables as it goes (so it will be using the initial values of i and j throughout evaluating the expression) – Damien_The_Unbeliever Apr 7 '11 at 7:23
Added explanation for the second IL – SWeko Apr 7 '11 at 7:28
It's a pity the code for a swap isn't just ldloc.0; ldloc.1; stloc.0; stloc.1. In C# anyway; it's perfectly valid IL. Now that i think about it...i wonder whether C# would optimize the temp variable out of a swap. – cHao Apr 7 '11 at 21:34

C# loads j, i, j, i on the stack, and stores each XOR result without updating the stack, so the leftmost XOR uses the initial value for j.

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