# How to check my byte flag?

I use a byte to store some flag like `10101010`and I would like to know how to verify that a specific bit is at `1` or `0`.

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Here's a function that can be used to test any desired bit:

``````bool is_bit_set(unsigned value, unsigned bitindex)
{
return (value & (1 << bitindex)) != 0;
}
``````

A bit of explanation:

The left shift operator (<<) is used to create a bit mask. (1 << 0) will be equal to 00000001, (1 << 1) will be equal to 00000010, (1 << 3) will be equal to 00001000, etc. So a shift of 0 tests the rightmost bit. A shift of 31 would be the leftmost bit of a 32-bit value.

The bitwise-and operator (&) gives a result where all the bits that are 1 on both sides are set. Examples: 1111 & 0001 = 0001; 1111 & 0010 == 0010; 0000 & 0001 = 0000. So, the expression (value & (1 << bitindex)) will return the bitmask if the associated bit is 1 in value, or will return 0 if the associated bit is 0.

Finally, we just check whether the result is non-zero. (This could actually be left out, but I like to make it explicit.)

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How about an assert when bitindex is > 31 ? – luke Sep 24 '08 at 13:23
I think the current functionality, which would return false in that case, is proper... – Chris Marasti-Georg Sep 24 '08 at 13:23
Is this endian safe? – luke Sep 24 '08 at 13:25
Why bit shift I do not understand :( – Pokus Sep 24 '08 at 13:26
It's really just an example, intended to demonstrate how to test bits. In production code you might want to add some error checking, but that would only add noise here. – Kristopher Johnson Sep 24 '08 at 13:26

As an extension of Daoks answer

When doing bit-manipulation it really helps to have a very solid knowledge of bitwise operators.

Also the bitwise and operator in C is &, so what you are wanting to do is

``````unsigned char a = 0xAA; // 10101010 in hex
unsigned char b = (1 << bitpos); //Where bitpos is the position you want to check

if(a & b) {
//bit set
}

else {
//not set
}
``````

Above I used the bitwise and (& in C) to check whether a particular bit was set or not. I also used two different ways or formulating binary numbers. I highly recommend you check out the wikipedia link above.

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Why do I need to bitshift? – Pokus Sep 24 '08 at 13:24
There is no reason for you to have to store the bitshift in a certain variable, I was using it as an example of a bitwise operator. However if you dont bitshift you will have to use an explicit value somewhere. The bitshift I used was an easy way to do 00000100 where bitpos is 2 in this example – mdec Sep 24 '08 at 13:28

You can use a AND operator. Example you have : 10101010 and you want to check the third bit you can do : (10101010 AND 00100000) and if you get 00100000 you know that you have the flag at the third position to 1.

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C doesn't have an "AND" operator. Furthermore, you need to use a bitwise AND, not a logical one. – Michael Carman Sep 24 '08 at 13:19

If you are using C++ and the standard library is allowed, I'd suggest storing your flags in a bitset:

``````#include <bitset>
//...
std::bitset<8> flags(someVariable);
``````

as then you can check and set flags using the [] indexing operator.

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Kristopher Johnson's answer is very good if you like working with individual fields like this. I prefer to make the code easier to read by using bit fields in C.

For example:

``````struct fieldsample
{
unsigned short field1 : 1;
unsigned short field2 : 1;
unsigned short field3 : 1;
unsigned short field4 : 1;
}
``````

Here you have a simple struct with four fields, each 1 bit in size. Then you can write your code using simple structure access.

``````void codesample()
{
//Declare the struct on the stack.
fieldsample fields;
//Initialize values.
fields.f1 = 1;
fields.f2 = 0;
fields.f3 = 0;
fields.f4 = 1;
...
//Check the value of a field.
if(fields.f1 == 1) {}
...
}
``````

You get the same small size advantage, plus readable code because you can give your fields meaningful names inside the structure.

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Note that a problem with using bit fields is that the way they are laid out in memory is implementation-dependent, so it might be difficult to use them with data that you exchange with other programs. – Kristopher Johnson Jan 19 '09 at 16:05
``````byte THIRDBIT = 4; // 4 = 00000100 i.e third bit is set

int isThirdBitSet(byte in) {
return in & THIRDBIT; // Returns 1 if the third bit is set, 0 otherwise
}
``````
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you can do as Daok says and you make a bit to bit OR to the resulting of the previous AND operation. In this case you will have a final result of 1 or 0.

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Traditionally, to check if the lowest bit is set, this will look something like:

``````int MY_FLAG = 0x0001;
if ((value & MY_FLAG) == MY_FLAG)
doSomething();
``````
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That tests that a specific bit and only that bit is set. – Michael Carman Sep 24 '08 at 13:22
No it doesn't... – Chris Marasti-Georg Sep 24 '08 at 13:28
Do not hardcode ! – Lucas G. Sánchez Sep 24 '08 at 14:34

Nobody's been wrong so far, but to give a method to check an arbitrary bit:

``````int checkBit( byte in, int bit )
{
return in & ( 1 << bit );
}
``````

If the function returns non-zero, the bit is set.

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Use a bitwise (not logical!) and to compare the value against a bitmask.

``````if (var & 0x08) {
/* the fourth bit is set */
}
``````
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