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
.



Here's a function that can be used to test any desired bit:
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 32bit value. The bitwiseand 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 nonzero. (This could actually be left out, but I like to make it explicit.) 


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. 





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. 


As an extension of @Daoks answer When doing bitmanipulation it really helps to have a very solid knowledge of bitwise operators. Also the bitwise "AND" operator in C is
Above I used the bitwise "AND" (& in C) to check whether a particular bit was set or not. I also used two different ways of formulating binary numbers. I highly recommend you check out the Wikipedia link above. 


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



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



Nobody's been wrong so far, but to give a method to check an arbitrary bit:
If the function returns nonzero, the bit is set. 


If you are using C++ and the standard library is allowed, I'd suggest storing your flags in a bitset:
as then you can check and set flags using the [] indexing operator. 


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:
Here you have a simple struct with four fields, each 1 bit in size. Then you can write your code using simple structure access.
You get the same small size advantage, plus readable code because you can give your fields meaningful names inside the structure. 

