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I'd like to be able to swap out two variables without the use of a temp variable in C#. Can this be done?

decimal startAngle = Convert.ToDecimal(159.9);
decimal stopAngle = Convert.ToDecimal(355.87);

//swap each:
//startAngle becomes: 355.87
//stopAngle becomes: 159.9
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15 Answers 15

up vote 36 down vote accepted

yep, use this code:

startAngle = startAngle+stopAngle;
stopAngle = startAngle-stopAngle;
startAngle = startAngle-stopAngle;
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28  
That's fine for integers or fixed-point numbers. With floating point numbers you'll end up with minute rounding errors. They may or may not be big enough to matter, depends on how you're using the numbers. –  Kennet Belenky Apr 29 '09 at 23:32
5  
As long as you don't run into overflow issues, that works just fine –  patjbs Apr 29 '09 at 23:33
111  
The only good way to solve this problem is to use a temp variable. "Clever" code like this (and, by "clever", I mean "stupid") is far less readable and obvious than the temp-variable solution. If I saw code like this from one of my minions, they'd be subject to sanctions and sent back to do it right. I'm not having a go at you specifically, @CommuSoft (since you answered the question), but the question itself was rubbish. –  paxdiablo Apr 30 '09 at 0:01
16  
That works for all the wrong reasons imaginable... –  Marc Gravell Apr 30 '09 at 7:44
7  
This technique is more computationally expensive than using a temporary variable. –  Mike Dec 29 '12 at 15:21

The right way to swap two variables is:

decimal tempDecimal = startAngle;
startAngle = stopAngle;
stopAngle = tempDecimal;

In other words, use a temporary variable.

There you have it. No clever tricks, no maintainers of your code cursing you for decades to come, no entries to The Daily WTF, and no spending too much time trying to figure out why you needed it in one operation anyway since, at the lowest level, even the most complicated language feature is a series of simple operations.

Just a very simple, readable, easy to understand, t = a; a = b; b = t; solution.

In my opinion, developers who try to use tricks to, for example, "swap variables without using a temp" or "Duff's device" are just trying to show how clever they are (and failing miserably).

I liken them to those who read highbrow books solely for the purpose of seeming more interesting at parties (as opposed to expanding your horizons).

Solutions where you add and subtract, or the XOR-based ones, are less readable and most likely slower than a simple "temp variable" solution (arithmetic/boolean-ops instead of plain moves at an assembly level).

Do yourself, and others, a service by writing good quality readable code.

That's my rant. Thanks for listening :-)

As an aside, I'm quite aware this doesn't answer your specific question (and I'll apologise for that) but there's plenty of precedent on SO where people have asked how to do something and the correct answer is "Don't do it".

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5  
+1; and for more reasons: with the +/- (etc) tricks you are doing unnecessary arithmetic. With integers, that may be just about acceptable at a push (the rounding/overflow aren't issues, and the CPU cost is virtually nil), but with decimals, add and subtract are non-trivial operations. It can't even use the FPU, as they aren't float/double. So use a temp variable already!!! –  Marc Gravell Apr 30 '09 at 7:43
3  
of course this is the best way, but it was explicit asked without temp variable –  CommuSoft Apr 30 '09 at 11:52
    
+1 I agree with you. When you start complicating simple stuff you end up with all sort of problems to solve in the next few years... –  Nelson Reis May 1 '09 at 10:16
1  
Maybe there is a genuine reason for not using the temp variable. If the two variables are extremely big, you wouldn't want to create a new one hence having 3 extremely big in variables even not for long time. –  koumides Jul 7 '12 at 19:15
    
AFAIK, the problem it solved was how to unroll a loop in C, allowing for a non-integer multiplier on the first or last cycle. You can do that just as easily without reverting to Duff's Device, and in a much more readable way. If you think it solved a different problem that can't be solved more "readably", I'm open to being convinced. In any case, even if it solved a problem at some point in the past, it's almost never necessary nowadays, even on all but the puniest embedded systems. –  paxdiablo Jul 30 '13 at 8:02

Yes, use this code:

    stopAngle = Convert.ToDecimal(159.9);
    startAngle = Convert.ToDecimal(355.87);

The problem is harder for arbitrary values. :-)

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int a = 4, b = 6;

a^= b^= a^= b;

Works for all types including strings and floats.

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8  
I hope the XOR swap will be forgotten one day. –  helpermethod Oct 12 '10 at 10:30
2  
XOR swap is near the pinnacle of nerdiness. I had nirvana for a couple days after learning it in school. –  Gabriel Magana Nov 6 '10 at 13:25
2  
This does not seem to work at all stackoverflow.com/questions/5577140/… –  zespri Jul 28 '13 at 22:48
    
At least add a comment so it is also understandable for the non-"binary ninja's" –  Mike de Klerk 2 days ago

Not in C#. In native code you might be able to use the triple-XOR swap trick, but not in a high level type-safe language. (Anyway, I've heard that the XOR trick actually ends up being slower than using a temporary variable in many common CPU architectures.)

You should just use a temporary variable. There's no reason you can't use one; it's not like there's a limited supply.

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Most types that the XOR thing works for would fit in a register so the compiler shouldn't allocate stack space for it anyway. –  BCS Apr 29 '09 at 23:27
    
True, but it's more complex than that. You rarely need to swap values on a assembler level. The swapping can often be done as a side-effect of other arithmetic. Most of the time the swap is just required to express things in a high level language. After compiling the swap is no more and thus costs no time at all :-) –  Nils Pipenbrinck Apr 29 '09 at 23:31
    
If memory is in short supply, such as on an embedded device, then temp variables are in short supply sometimes. –  AsherMaximum Jul 18 '13 at 20:49

BenAlabaster showed a practical way of doing a variable switch, but the try-catch clause is not needed. This code is enough.

static void Swap<T>(ref T x, ref T y)
{
     T t = y;
     y = x;
     x = t;
}

The usage is the same as he shown:

float startAngle = 159.9F
float stopAngle = 355.87F
Swap(ref startAngle, ref stopAngle);

You could also use an extension method:

static class SwapExtension
{
    public static T Swap<T>(this T x, ref T y)
    {
        T t = y;
        y = x;
        return t;
    }
}

Use it like this:

float startAngle = 159.9F;
float stopAngle = 355.87F;
startAngle = startAngle.Swap(ref stopAngle);

Both ways uses a temporary variable in the method, but you don't need the temporary variable where you do the swapping.

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1  
This uses a temp variable (t).... –  Steve Mar 5 '13 at 18:22
    
Yes, but only in the method, not where you do the switch. –  Marcus Mar 5 '13 at 18:29
1  
Using an abstraction is a good way of solving the problem. It provides a general solution to a common problem and makes the calling code easier to read. Of course it uses a few extra bytes of memory and a few extra processor cycles, but unless you are calling this code millions of times, you won't notice any difference. –  Olivier Jacot-Descombes Oct 27 '13 at 14:10
    
@OlivierJacot-Descombes, I hope if you call it a million times, the JIT will optimize it. –  Sebastian Godelet Jan 7 at 14:57

<deprecated>

You can do it in 3 lines using basic math - in my example I used multiplication, but simple addition would work also.

float startAngle = 159.9F;
float stopAngle = 355.87F;

startAngle = startAngle * stopAngle;
stopAngle = startAngle / stopAngle;
startAngle = startAngle / stopAngle;

Edit: As noted in the comments, this wouldn't work if y = 0 as it would generate a divide by zero error which I hadn't considered. So the +/- solution alternatively presented would be the best way to go.

</deprecated>


To keep my code immediately comprehensible, I'd be more likely to do something like this. [Always think about the poor guy that's gonna have to maintain your code]:

static bool Swap<T>(ref T x, ref T y)
{
    try
    {
        T t = y;
        y = x;
        x = t;
        return true;
    }
    catch
    {
        return false;
    }
}

And then you can do it in one line of code:

float startAngle = 159.9F
float stopAngle = 355.87F
Swap<float>(ref startAngle, ref stopAngle);

Or...

MyObject obj1 = new MyObject("object1");
MyObject obj2 = new MyObject("object2");
Swap<MyObject>(ref obj1, ref obj2);

Done like dinner...you can now pass in any type of object and switch them around...

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little bit equal to my solution, but notice that multiplications and division operation cost a lot of CPU-time. And the upper- and lower-bounds of a float are more easy to reach with multiplication. –  CommuSoft Apr 29 '09 at 23:51
    
What do you mean with "Decimal doesn't allow for decimal places"? That sounds confusing as the decimal type does represent real numbers with a high precision (decimal d = 9.1m; is perfectly valid in C#). –  Dirk Vollmar - 0xA3 Apr 29 '09 at 23:57
    
and what if one of the variables is zero (or both), the second division will cause an error (division by zero). And the function created could better return false to warn the user, that the swap operation wasn't completed. –  CommuSoft Apr 30 '09 at 0:01
2  
What's up with your swap method? Why does it return a bool, why is that bool always true (if it exists)? Why does it swallow all exceptions (which could only be a ThreadAbortException in this case, I believe, since it doesn't allocate memory or enlarge the call stack)? –  Doug McClean Jul 5 '09 at 18:07
1  
Simple, strongly typed assignements not involving array variance will never throw exceptions. Type mismatches will be caught at compile time (this is what strong typing is about). –  Olivier Jacot-Descombes Oct 27 '13 at 14:24

A Binary XOR Swap with a detailed example :

XOR Truth Table :

a b a^b
0 0  0
0 1  1
1 0  1
1 1  0

Input :

a = 4;
b = 6;

Step 1 : a = a ^ b

a   : 0100 
b   : 0110 
a^b : 0010 = 2 = a

Step 2 : b = a ^ b

a   : 0010 
b   : 0110 
a^b : 0100 = 4 = b

Step 3 : a = a ^ b

a   : 0010
b   : 0100
a^b : 0110 = 6 = a

Output :

a = 6;
b = 4;
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Beware of your environment!

For example, this doesn’t seem to work in ECMAscript

y^=x^=y^=x;

But this does

x^=y^=x;y^=x;

My advise? Assume as little as possible.

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Even on c, if pointers are involved (e.g in function) *a ^= *b ^= *a ^= *b does not work (local variable however works e.g c ^= d ^= c ^= d), but *a ^= *b ^= *a; *b ^= *a; works. My choice thus would be to use *a ^= *b; *b ^= *a; *a ^= *b; which works perfectly. –  razorxpress Oct 6 '12 at 13:17

If you can change from using decimal to double you can use the Interlocked class. Presumably this will be a good way of swapping variables performance wise. Also slightly more readable than XOR.

var startAngle = 159.9d;
var stopAngle = 355.87d;
stopAngle = Interlocked.Exchange(ref startAngle, stopAngle);

Msdn: Interlocked.Exchange Method (Double, Double)

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For completeness, here is the binary XOR swap:

int x = 42;
int y = 51236;
x ^= y;
y ^= x;
x ^= y;

This works for all atomic objects/references, as it deals directly with the bytes, but may require an unsafe context to work on decimals or, if you're feeling really twisted, pointers. And it may be slower than a temp variable in some circumstances as well.

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for binary types you can use this funky trick:

a %= b %= a %= b;

As long as a and b are not the exact same variable (e.g. aliases for the same memory) it works.

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also see Jens Alfke answer –  BCS Apr 29 '09 at 23:28

For the sake of future learners, and humanity, I submit this correction to the currently selected answer.

If you want to avoid using temp variables, there are only two sensible options that take first performance and then readability into consideration.

  • Use a temp variable in a generic Swap method. (Absolute best performance, next to inline temp variable)
  • Use Interlocked.Exchange. (5.9 times slower on my machine, but this is your only option if multiple threads will be swapping these variables simultaneously.)

Things you should never do:

  • Never use floating point arithmetic. (slow, rounding and overflow errors, hard to understand)
  • Never use non-primitive arithmetic. (slow, overflow errors, hard to understand) Decimal is not a CPU primitive and results in far more code than you realize.
  • Never use arithmetic period. Or bit hacks. (slow, hard to understand) That's the compiler's job. It can optimize for many different platforms.

Because everyone loves hard numbers, here's a program that compares your options. Run it in release mode from outside Visual Studio so that Swap is inlined. Results on my machine (Windows 7 64-bit i5-3470):

Inline:      00:00:00.7351931
Call:        00:00:00.7483503
Interlocked: 00:00:04.4076651

Code:

class Program
{
    static void Swap<T>(ref T obj1, ref T obj2)
    {
        var temp = obj1;
        obj1 = obj2;
        obj2 = temp;
    }

    static void Main(string[] args)
    {
        var a = new object();
        var b = new object();

        var s = new Stopwatch();

        Swap(ref a, ref b); // JIT the swap method outside the stopwatch

        s.Restart();
        for (var i = 0; i < 500000000; i++)
        {
            var temp = a;
            a = b;
            b = temp;
        }
        s.Stop();
        Console.WriteLine("Inline temp: " + s.Elapsed);


        s.Restart();
        for (var i = 0; i < 500000000; i++)
        {
            Swap(ref a, ref b);
        }
        s.Stop();
        Console.WriteLine("Call:        " + s.Elapsed);

        s.Restart();
        for (var i = 0; i < 500000000; i++)
        {
            b = Interlocked.Exchange(ref a, b);
        }
        s.Stop();
        Console.WriteLine("Interlocked: " + s.Elapsed);

        Console.ReadKey();
    }
}
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a=a+b b=a-b a=a-b

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var a = 15;
var b = -214;
a = b | !(b = a);

This works great.

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It doesn't work if a=0 –  Mageek Jul 7 '13 at 20:00
    
How it would work?? –  Atul Sureka Sep 28 '13 at 11:21

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