# Swapping two variable value without using 3rd variable

One of the very tricky questions asked in an interview.

Swap the values of two variables like a=10 and b=15.

Generally to swap two variables values, we need 3rd variable like:

temp=a
a=b
b=temp

Now the requirement is, swap values of two variables without using 3rd variable.

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Wow. A poorly chosen interview question IMHO. This is a technique that's rarely, if ever, useful in practice. There's a good chance that it will only confuse the compiler's optimizer resulting in less efficient code than a "temporary swap". Unless this place you were interviewing at gets involved in very math-heavy stuff (think: encryption algorithm development or the like) I can't imagine any good reason to ask such a question. –  Dan Moulding Dec 1 '09 at 13:53
Indeed, that question doesn't tell you anything other than whether the candidate knows this particular trick that is pretty much useless in production code. I suppose you might run across the occasional wizard who figures it out on the fly, but people like that who don't already know the trick are likely to be pretty rare. –  ceo Dec 1 '09 at 14:49
May-be they want to weed out people who think knowing such tricks is what makes good programmer? Also, when reading about the xor-trick, pay attention to when it will fail (which IMO makes it pretty much completely useless for general-purpose integer swapping). –  UncleBens Dec 1 '09 at 15:09
It's not a matter of usefulness, it is programming culture. –  Null303 Dec 3 '09 at 17:52
+1 NICE QUESTION –  Kashif Mar 3 '11 at 16:36

Using the xor swap algorithm

void xorSwap (int* x, int* y) {
if (x != y) { //ensure that memory locations are different
*x ^= *y;
*y ^= *x;
*x ^= *y;
}
}

Why the test?

The test is to ensure that x and y have different memory locations (rather than different values). This is because (p xor p) = 0 and if both x and y share the same memory location, when one is set to 0, both are set to 0. When both *x and *y are 0, all other xor operations on *x and *y will equal 0 (as they are the same), which means that the function will set both *x and *y set to 0.

If they have the same values but not the same memory location, everything works as expected

*x = 0011
*y = 0011
//Note, x and y do not share an address. x != y

*x = *x xor *y  //*x = 0011 xor 0011
//So *x is 0000

*y = *x xor *y  //*y = 0000 xor 0011
//So *y is 0011

*x = *x xor *y  //*x = 0000 xor 0011
//So *x is 0011

Should this be used?

In general cases, no. The compiler will optimize away the temporary variable and given that swapping is a common procedure it should output the optimum machine code for your platform.

Take for example this quick test program written in C.

#include <stdlib.h>
#include <math.h>

#define USE_XOR

void xorSwap(int* x, int *y){
if ( x != y ){
*x ^= *y;
*y ^= *x;
*x ^= *y;
}
}

void tempSwap(int* x, int* y){
int t;
t = *y;
*y = *x;
*x = t;
}

int main(int argc, char* argv[]){
int x = 4;
int y = 5;
int z = pow(2,28);
while ( z-- ){
#       ifdef USE_XOR
xorSwap(&x,&y);
#       else
tempSwap(&x, &y);
#       endif
}
return x + y;
}

Compiled using:

gcc -Os main.c -o swap

The xor version takes

real    0m2.068s
user    0m2.048s
sys  0m0.000s

Where as the version with the temporary variable takes:

real    0m0.543s
user    0m0.540s
sys  0m0.000s
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Might be worth explaining the why of the test (i.e. that the triple xor approach fails horribly if x and y reference the same object). –  dmckee Dec 2 '09 at 0:06
look scary but +1 :) –  RvdK Dec 2 '09 at 10:08
I don't know how this got so many upvotes when the code is so broken. Both swaps in the tested code segment are completely incorrect. Look close. –  SoapBox Apr 3 '10 at 1:09
@SoapBox Good catch. Fixed and re-tested and I don't get any major difference in the timings. –  Yacoby Apr 3 '10 at 13:01
The questioner said two variables, not ints. :P –  Plumenator Oct 22 '10 at 9:03

Have you looked at XOR swap algorithm?

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Thanks for all of you, All shared very good solution, So I am giving 1+ to all... –  Muhammad Akhtar Dec 3 '09 at 6:47
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. –  matsjoyce Jan 24 at 16:10
@matsjoyce: Don't you think updating my answer from over 5 years ago to match what is already in accepted answer is not such good idea? –  MBO Jan 25 at 12:36
I don't know, but it popped up in the LQRQ, so it may get deleted if you don't edit it. There are already at least two xor examples here, so a third wouldn't make much difference. –  matsjoyce Jan 25 at 14:31
a = a + b
b = a - b // b = a
a = a - b
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Thanks for all of you, All shared very good solution, So I am giving 1+ to all... –  Muhammad Akhtar Dec 3 '09 at 6:49
What if a+b overflows? –  Alok Singhal Jan 6 '10 at 12:00
@Alok: That's not taken in considerations, thus it's impractical :) –  Dor Jan 6 '10 at 16:03
If a and b are of the same, basic, sized integer types (like int, unsigned short, ...), it still works out in the end, even with overflow, because if a + b overflows, then a - b will underflow. With these basic integer types, the values just rollover. –  Patrick Johnmeyer Apr 3 '10 at 14:10
In C, using this on unsigned integer types is OK and works always. On signed types, it would invoke undefined behaviour on overflow. –  jpalecek Apr 3 '10 at 14:31

As already noted by manu, XOR algorithm is a popular one which works for all integer values (that includes pointers then). For the sake of completeness I would like to mention another less powerful algorithm with addition/subtraction:

A = A + B
B = A - B
A = A - B

Here you have to be careful of overflows/underflows, but otherwise it works just as fine. You might even try this on floats/doubles in the case XOR isn't allowed on those.

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Thanks for all of you, All shared very good solution, So I am giving 1+ to all... –  Muhammad Akhtar Dec 3 '09 at 6:46

the general form is:

A = A operation B
B = A inverse-operation B
A = A inverse-operation B

however you have to potentially watch out for overflows and also not all operations have an inverse that is well defined for all values that the operation is defined. e.g. * and / work until A or B is 0

xor is particularly pleasing as it is defined for all ints and is its own inverse

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+1 for generality –  int3 Dec 1 '09 at 17:38
Thanks for all of you, All shared very good solution, So I am giving 1+ to all... –  Muhammad Akhtar Dec 3 '09 at 6:47

void sw2ap(int& a, int& b) {
register int temp = a; // !
a = b;
b = temp;
}

The only good use of the register keyword.

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Is an object declared with storage-class register not a "variable"? Also I'm not convinced this is a good use of register, since if your compiler can't optimise this already then what's the point of even trying, you should either accept whatever rubbish you get or write the assembly yourself ;-) But as you say, a dodgy question deserves a dodgy answer. –  Steve Jessop Dec 1 '09 at 14:31
Pretty much all modern compilers ignore the register storage class, as they have a much better idea of what gets frequently accessed than you do. –  ceo Dec 1 '09 at 14:41
Note that this answer is intended for interview(er)s, not compilers. It especially takes advantage of the fact that the kind of interviewers who ask this kind of question don't really understand C++. So, they cannot reject this answer. (and there is no Standard answer; ISO C++ talks about objects not variables). –  MSalters Dec 1 '09 at 15:21
Ah, I get you. I was looking in the C standard for mention of variable as a noun, and not just meaning non-const. I found one in n1124, in the section on for loops defining the scope of "variables" declared in the initialiser. Then I realised the question was C++, and didn't bother searching to see if C++ had made the same typo anywhere. –  Steve Jessop Dec 1 '09 at 17:39
Stupid answers for valid questions gets a nice -1. –  OneOfOne Jan 30 '14 at 14:09

No-one has suggested using std::swap, yet.

std::swap(a, b);

I don't use and temporary variables and depending on the type of a and b the implementation may have a specalization that doesn't either. The implementation should be written knowing whether a 'trick' is appropriate or not. There's no point in trying to second guess.

More generally, I'd probably want to do something like this, as it would work for class types enabling ADL to find a better overload if possible.

using std::swap;
swap(a, b);

Of course, the interviewer's reaction to this answer might say a lot about the vacancy.

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of course in C++0x swap will use rvalue references so will be even better! –  jk. May 28 '10 at 10:06
Everyone wants to show off the shiny xor or other trick they learned, with various caveats about how to use it, but this indubitably is the best answer. –  Roger Pate Sep 19 '10 at 19:46
This is the answer. –  Alexandre C. Jan 25 '11 at 9:34
This is exactly what the beginner's need –  syed shah Oct 7 '13 at 18:35

The following code shows you how two swap between two values without being introduced the third variable.

int a;
int b;

cout<<" Enter A : ";
cin>>a;

cout<<" Enter B : ";
cin>>b;

a = a + b;
b = a - b;
a = a - b;

cout<<" After Swapping A is : "<<a;
cout<<" After Swapping B is : "<<b;

Output of Program:

Enter A : 12 Enter B : 21

After Swapping A is : 21 After Swapping B is : 12

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Three people already gave this answer, a year ago. –  Ben Voigt Jan 15 '11 at 23:27
#include<iostream.h>
#include<conio.h>
void main()
{
int a,b;
clrscr();
cout<<"\n==========Vikas==========";
cout<<"\n\nEnter the two no=:";
cin>>a>>b;
cout<<"\na"<<a<<"\nb"<<b;
a=a+b;
b=a-b;
a=a-b;

cout<<"\n\na="<<a<<"\nb="<<b;
getch();
}
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If you change a little the question to ask about 2 assembly registers instead of variables, you can use also the xchg operation as one option, and the stack operation as another one.

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#include <stdio.h>

int main()
{
int a, b;
printf("Enter A :");
scanf("%d",&a);
printf("Enter B :");
scanf("%d",&b);
a ^= b;
b ^= a;
a ^= b;
printf("\nValue of A=%d B=%d ",a,b);
return 1;
}
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a = a + b - (b=a);

It's very simple, but it may raise a warning.

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The warning being that it doesn't work? We don't know if b=a is performed before or after a + b. –  Bo Persson Feb 20 '13 at 21:27

Here is one more solution but a single risk.

code:

#include <iostream>
#include <conio.h>
void main()
{

int a =10 , b =45;
*(&a+1 ) = a;
a =b;
b =*(&a +1);
}

any value at location a+1 will be overridden.

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It was a useful answer, perhaps the value vanished. –  Bibi Tahira Sep 23 '13 at 9:04

Since the original solution is:

temp = x; y = x; x = temp;

You can make it a two liner by using:

temp = x; y = y + temp -(x=y);

Then make it a one liner by using:

x = x + y -(y=x);
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single line solution for swapping two values in c language.

a=(b=(a=a+b,a-b),a-b);
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This can be achieved by at least three methods: addition/subtraction, multiplication/division, and bitwise XOR. The folks at GeeksforGeeks have a great explanation and analysis found here.

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While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. –  matsjoyce Jan 24 at 16:08

that's the correct XOR swap algorithm

void xorSwap (int* x, int* y) {
if (x != y) { //ensure that memory locations are different
if (*x != *y) { //ensure that values are different
*x ^= *y;
*y ^= *x;
*x ^= *y;
}
}
}

you have to ensure that memory locations are different and also that the actual values are different because A XOR A = 0

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