# What's wrong with my string reversal function? (C#)

``````char[] a = { 'o', 'r', 'a', 'n', 'g', 'e' };

for (int i = 0; i < a.Length/2; i++)
{
a[i] = (char)(((uint)a[i])|((uint)a[a.Length-(i+1)]));
a[a.Length-(i+1)] = (char)(((uint)a[i])^((uint)a[a.Length-(i+1)]));
a[i] = (char)(((uint)a[i])^((uint)a[a.Length-(i+1)]));
}
``````

I know how to implement this using standard .NET functionality and temp vars. I am just curious what specifically I am doing wrong in the above example that causes it not to work when the following works fine:

``````int a = 5;
int b = 10;

a = a | b;
b = a ^ b;
a = a ^ b;
``````

Isn't the above string version just a series of those?

-
its horribly undecipherable? – Andrew Bullock Apr 8 '09 at 22:36
You can just write char[] a = "orange", I believe. – Ben Alpert Apr 8 '09 at 22:36
I was trying to extend the standard OR/XOR/XOR int swap to a string. That's all it is. – cakeforcerberus Apr 8 '09 at 22:37
– Ben Alpert Apr 8 '09 at 22:38
you are using c# so leave this C-based syntax. – boj Apr 8 '09 at 22:39

Hehe, there's no such thing as an OR/XOR/XOR swap - it should be a "triple xor" swap.

``````int a = 8, b = 10;
a ^= b;
b ^= a;
a ^= b;
``````

I don't see why you want to use it (aside from the novelty value)

-
Yep. You're right. Thanks! =) – cakeforcerberus Apr 8 '09 at 22:48
(And it was just novelty value) :P – cakeforcerberus Apr 8 '09 at 22:48

The reason it's not working is that you're using a bad example. You can't swap two values by using OR then XOR then XOR. It only worked in your example because 5 and 10 have no bits in common, so the first OR doesn't destroy any information:

``````a = 0101 #5
b = 1010 #10
# step 1 (OR into a)
a = 1111
b = 1010
# step 2 (XOR into b)
a = 1111
b = 0101
# step 3 (XOR into a)
a = 1010 #10
b = 0101 #5
``````

But it won't work if they have any bits in common - let's try with 13 and 10:

``````a = 1101 #13
b = 1010 #10
# step 1 (OR into a)
a = 1111
b = 1010
# step 2 (XOR into b)
a = 1111
b = 0101
# step 3 (XOR into a)
a = 1010 #10
b = 0101 #5
``````

Note that we now have the values 5 and 10 still, even though we started with 13 and 10. What you're looking for is a thrice-XOR swap:

``````a = 1101 #13
b = 1010 #10
# step 1 (XOR into a)
a = 0111
b = 1010
# step 2 (XOR into b)
a = 0111
b = 1101
# step 3 (XOR into a)
a = 1010 # 10
b = 1101 #13
``````
-

It's destructive (because of the bitwise OR). Why not use a temporary variable in your loop instead of the exclusive ORs:

``````int tmp = a[i];
a[i] = a[a.Length-(i+1)];
a[a.Length-(i+1)] = tmp;
``````

In answer to your second part, what you were doing in binary is:

``````a = 0101;
b = 1010;
a = 0101 | 1010 === 1111;
...
``````

When you OR the two values together, you destroy the original numbers. It works with 5 & 10 because none of the bits are common between the two numbers. When you do this with the following:

``````a = 0110;  // 6 (base ten)
b = 1010;  // 10 (base ten)
a = a | b; // this is now 1110, or 14 (base ten)
``````

You can not recover 6 and 10 again, because OR was an irreversible operation. Exclusive-OR is reversible.

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What's the fun in that? =) I certainly can do it with a temp var. I was just trying to work out the non-temp var version for kicks. – cakeforcerberus Apr 8 '09 at 22:42
That makes sense. Thanks Rick! – cakeforcerberus Apr 8 '09 at 22:53

Sorry if this is not the point of your question, but how about just:

`````` char[] a = { 'o', 'r', 'a', 'n', 'g', 'e' };
a = Array.Reverse(a)
``````

Am I missing something?

-

Others have already pointed out the correct solution using XOR operations... This isn't exactly an answer, but I thought I'd point you that the `Interlocked.Exchange` method is very suitable for this sort of task. (It performs the swap as an atomic operation and therefore works across threads, though that seems irrelevant here.) Nonetheless, I would almost always consider it the simplest/most elegant solution for swapping two variables.

Here's an example of how to use it with the code you posted.

``````char[] a = { 'o', 'r', 'a', 'n', 'g', 'e' };

for (int i = 0; i < a.Length/2; i++)
{
a[a.Length-(i+1)] = Interlocked.Exchange(ref a[a.Length-(i+1)], a[i]);
}
``````

Hope that helps, even if it isn't specifically an answer to your question...

-
Interesting. It is good to know about the Interlocked.Exchange. It may come in handy in the future. Thanks Noldorin! – cakeforcerberus Apr 8 '09 at 22:56
``````List<char> characters = new List<char>();