# How do I check if an integer is even or odd using bitwise operators

How do I check if an integer is even or odd using bitwise operators

Consider what being "even" and "odd" means in "bit" terms. Since binary integer data is stored with bits indicating multiples of 2, the lowest-order bit will correspond to 20, which is of course 1, while all of the other bits will correspond to multiples of 2 (21 = 2, 22 = 4, etc.). Gratuituous ASCII art:

```NNNNNNNN
||||||||
|||||||+−− bit 0, value =   1 (20)
||||||+−−− bit 1, value =   2 (21)
|||||+−−−− bit 2, value =   4 (22)
||||+−−−−− bit 3, value =   8 (23)
|||+−−−−−− bit 4, value =  16 (24)
||+−−−−−−− bit 5, value =  32 (25)
|+−−−−−−−− bit 6, value =  64 (26)
+−−−−−−−−− bit 7 (highest order bit), value = 128 (27) for unsigned numbers,
value = -128 (-27) for signed numbers (2's complement)
```

I've only shown 8 bits there, but you get the idea.

So you can tell whether an integer is even or odd by looking only at the lowest-order bit: If it's set, the number is odd. If not, it's even. You don't care about the other bits because they all denote multiples of 2, and so they can't make the value odd.

The way you look at that bit is by using the AND operator of your language. In C and many other languages syntactically derived from B (yes, B), that operator is `&`. In BASICs, it's usually `And`. You take your integer, AND it with 1 (which is a number with only the lowest-order bit set), and if the result is not equal to 0, the bit was set.

I'm intentionally not actually giving the code here, not only because I don't know what language you're using, but because you marked the question "homework." :-)

In C (and most C-like languages)

``````if (number & 1) {
// It's odd
}
``````
``````if (number & 1)
number is odd
else // (number & 1) == 0
number is even
``````

For example, let's take integer 25, which is odd. In binary 25 is `00011001`. Notice that the least significant bit `b0` is 1.

``````00011001
00000001   (00000001 is 1 in binary)
&
--------
00000001
``````

Just a footnote to Jim's answer.

In C#, unlike C, bitwise AND returns the resulting number, so you'd want to write:

``````if ((number & 1) == 1) {
// It's odd
}
``````
• I don't know C# (the question is tagged C anyway), but how does that make any difference? `number & 1` would return either 0 or 1. If in C# you write `if (8)` for example, doesn't the `8` evaluate to `true`? Mar 26 '13 at 13:39
• No, unlike C, an integer is not automatically cast to a Boolean in C#, so you'd get a compile error: "Constant value '8' cannot be converted to a 'bool'". Hence the extra syntax. I put this answer as a "footnote" so that people looking to use this in C# like I needed to would be able to use it. Mar 26 '13 at 15:06
• "In C#, unlike C, bitwise AND returns the resulting number..." Bitwise AND returns the resulting number in C, too. It'd be pretty useless if it didn't. It's the fact that `if` can operate on any integral type in C but not in C# that's different, not the result of the bitwise operator. Feb 11 '14 at 10:08
• My understanding is that in C, bitwise AND returns a Boolean result, whereas C# returns the value or 0. Take a look at the code samples in the OP and my answer to see the difference. Feb 18 '14 at 21:46
• The & operator, when used on integers, returns an integer by definition. `8 & 1` will give 0 as a result. However, in C, an if statement will cast 0 to false, and any non-zero number to true. Jun 17 '14 at 7:04
``````if(x & 1)                               // '&' is a bit-wise AND operator
printf("%d is ODD\n", x);
else
printf("%d is EVEN\n", x);
``````

Examples:

``````    For 9:

9 ->        1 0 0 1
1 ->     &  0 0 0 1
-------------------
result->    0 0 0 1
``````

So 9 AND 1 gives us 1, as the right most bit of every odd number is 1.

``````     For 14:

14 ->      1 1 1 0
1  ->   &  0 0 0 1
------------------
result->   0 0 0 0
``````

So 14 AND 1 gives us 0, as the right most bit of every even number is 0.

Also in Java you will have to use `if((number&1)==1){//then odd}`, because in Java and C# like languages the `int` is not casted to `boolean`. You'll have to use the relational operators to return a `boolean` value i.e `true` and `false` unlike C and C++ like languages which treats non-zero value as `true`.

You can do it simply using bitwise AND `&` operator.

``````if(num & 1)
{
//I am odd number.
}
``````

Read more over here - Checking even odd using bitwise operator in C

``````#include <iostream>
#include <algorithm>
#include <vector>

void BitConvert(int num, std::vector<int> &array){
while (num > 0){
array.push_back(num % 2);
num = num / 2;
}
}

void CheckEven(int num){
std::vector<int> array;
BitConvert(num, array);
if (array == 0)
std::cout << "Number is even";
else
std::cout << "Number is odd";
}

int main(){
int num;
std::cout << "Enter a number:";
std::cin >> num;

CheckEven(num);
std::cout << std::endl;

return 0;
}
``````

In Java,

``````if((num & 1)==0){
//its an even num
}
//otherwise its an odd num
``````
``````Check Number is Even or Odd using XOR Operator

Number = 11
1011  - 11 in Binary Format
^ 0001  - 1 in Binary Format
----
1010  - 10 in Binary Format

Number = 14

1110  - 14 in Binary Format
^ 0001  - 1 in Binary Format
----
1111  - 15 in Binary Format

AS It can observe XOR Of a number with 1, increments it by 1 if it is
even, decrements it by 1 if it is odd.
``````

Code:

``````if((n^1) == (n+1))
cout<<"even\n";
else
cout<<"odd\n";
``````
• This answer does not answer the OP's question. Instead of having a convoluted answer that's hard to understand, use AND. That's what it's there for... cout << (n & 0x01) ? "odd\n" : "even\n"; Jul 12 at 20:39

This is an old question, however the other answers have left this out.

In addition to using `num & 1`, you can also use `num | 1 > num`.

This works because if a number is odd, the resulting value will be the same since the original value `num` will have started with the ones bit set, however if the original value `num` was even, the ones bit won't have been set, so changing it to a 1 will make the new value greater by one.