There is a single BEXTR (Bit field extract (with register)) x86 instruction on Intel and AMD CPUs and `UBFX`

on ARM. There are intrinsic functions such as `_bextr_u32()`

that allow to invoke this instruction explicitly.

They implement `(source >> offset) & ((1 << n) - 1)`

C code: get `n`

continuous bits from `source`

starting at the `offset`

bit. Here's a complete function definition that handles edge cases:

```
#include <limits.h>
unsigned getbits(unsigned value, unsigned offset, unsigned n)
{
const unsigned max_n = CHAR_BIT * sizeof(unsigned);
if (offset >= max_n)
return 0; /* value is padded with infinite zeros on the left */
value >>= offset; /* drop offset bits */
if (n >= max_n)
return value; /* all bits requested */
const unsigned mask = (1u << n) - 1; /* n '1's */
return value & mask;
}
```

For example, to get `3`

bits from `2273`

(`0b100011100001`

) starting at `5`

-th bit, call `getbits(2273, 5, 3)`

—it extracts 7 (`0b111`

).

For example, say I want the first 17 bits of the 32-bit value; what is it that I should do?

```
unsigned first_bits = value & ((1u << 17) - 1); // & 0x1ffff
```

Assuming `CHAR_BIT * sizeof(unsigned)`

is 32 on your system.

I presume I am supposed to use the modulus operator and I tried it and was able to get the last 8 bits and last 16 bits

```
unsigned last8bitsvalue = value & ((1u << 8) - 1); // & 0xff
unsigned last16bitsvalue = value & ((1u << 16) - 1); // & 0xffff
```

If the offset is always zero as in all your examples in the question then you don't need the more general `getbits()`

. There is a special cpu instruction BLSMSK that helps to compute the mask `((1 << n) - 1)`

.