Real world use cases of bitwise operators [closed]

• Bit fields (flags)
  They're the most efficient way of representing something whose state is defined by several "yes or no" properties. ACLs are a good example; if you have let's say 4 discrete permissions (read, write, execute, change policy), it's better to store this in 1 byte rather than waste 4. These can be mapped to enumeration types in many languages for added convenience.

• Communication over ports/sockets
  Always involves checksums, parity, stop bits, flow control algorithms, and so on, which usually depend on the logic values of individual bytes as opposed to numeric values, since the medium may only be capable of transmitting one bit at a time.

• Compression, Encryption
  Both of these are heavily dependent on bitwise algorithms. Look at the deflate algorithm for an example - everything is in bits, not bytes.

• Finite State Machines
  I'm speaking primarily of the kind embedded in some piece of hardware, although they can be found in software too. These are combinatorial in nature - they might literally be getting "compiled" down to a bunch of logic gates, so they have to be expressed as AND, OR, NOT, etc.

• Graphics There's hardly enough space here to get into every area where these operators are used in graphics programming. XOR (or ^) is particularly interesting here because applying the same input a second time will undo the first. Older GUIs used to rely on this for selection highlighting and other overlays, in order to eliminate the need for costly redraws. They're still useful in slow graphics protocols (i.e. remote desktop).

Those were just the first few examples I came up with - this is hardly an exhaustive list.

Is it odd?

(value & 0x1) > 0

Is it divisible by two (even)?

(value & 0x1) == 0

I've used bitwise operations in implementing a security model for a CMS. It had pages which could be accessed by users if they were in appropriate groups. A user could be in multiple groups, so we needed to check if there was an intersection between the users groups and the pages groups. So we assigned each group a unique power-of-2 identifier, e.g.:

Group A = 1 --> 00000001
Group B = 2 --> 00000010
Group C = 3 --> 00000100

We OR these values together, and store the value (as a single int) with the page. E.g. if a page could be accessed by groups A & B, we store the value 3 (which in binary is 00000011) as the pages access control. In much the same way, we store a value of ORed group identifiers with a user to represent which groups they are in.

So to check if a given user can access a given page, you just need to AND the values together and check if the value is non-zero. This is very fast as this check is implemented in a single instruction, no looping, no database round-trips.