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Could anyone tell me as to how to extract 'n' specific bits from a 32-bit unsigned integer in C.

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

unsigned last8bitsvalue=(32 bit integer) % 16
unsigned last16bitsvalue=(32 bit integer) % 32

Is this correct? Is there a better and more efficient way to do this?

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2  
Note that your code as written actually extracts the last 4 and 5 bits, respectively (not 8 and 16, as you wrote). – Aaron Dufour Nov 4 '11 at 16:20
up vote 17 down vote accepted

If you want n bits specific then you could first create a bitmask and then AND it with your number to take the desired bits.

Simple function to create mask from bit a to bit b.

unsigned createMask(unsigned a, unsigned b)
{
   unsigned r = 0;
   for (unsigned i=a; i<=b; i++)
       r |= 1 << i;

   return r;
}

You should check that a<=b.

If you want bits 12 to 16 call the function and then simply and r with your number N

r = createMask(12,16);
unsigned result = r & N;

If you want you can shift the result. Hope this helps

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8  
no need to spend time looping for a small mask. just ((1 << n) - 1) << b – Lưu Vĩnh Phúc Aug 29 '13 at 10:07
    
@pnezis I think your function fails with an edge-case. If I want to get the first two bits, createMask gives me the 2nd and 3rd bit because it would do 1 << 1, followed by 1 << 2. The bit mask returned is 110 - which zeros out the first bit. – Jack Mar 14 at 9:32
    
@Jack if you want the first two bits then you have to call createMask with 0 and 1 as arguments, in order to get the 0x03 mask. – pnezis Mar 16 at 13:09

Instead of thinking of it as 'extracting', I like to think of it as 'isolating'. Once the desired bits are isolated, you can do what you will with them.

To isolate any set of bits, apply an AND mask.

If you want the last X bits of a value, there is a simple trick that can be used.

unsigned  mask;
mask = (1 << X) - 1;
lastXbits = value & mask;

If you want to isolate a run of X bits in the middle of 'value' starting at 'startBit' ...

unsigned  mask;
mask = ((1 << X) - 1) << startBit;
isolatedXbits = value & mask;

Hope this helps.

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your emphasis on making Mask byte first is really helpful to solve such problems – Pranav Nandan Mar 8 at 14:12
    
Both methods are severely cool.. :) – AttitudeMonger Apr 7 at 19:32

Modulus works to get bottom bits (only), although I think value & 0x1ffff expresses "take the bottom 17 bits" more directly than value % 131072, and so is easier to understand as doing that.

The top 17 bits of a 32-bit unsigned value would be value & 0xffff8000 (if you want them still in their positions at the top), or value >> 15 if you want the top 17 bits of the value in the bottom 17 bits of the result.

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For the second part of your answer, you perhaps should have value >> 15 & 0x1ffff. The right-shift for integers is Implementation Defined; both GCC and MSVC have it arithmetic, not logical. – Joseph Quinsey Nov 4 '11 at 18:39
1  
@Joseph: question says that it's a 32bit unsigned integer, so the result of right shift is defined by the standard. If it were signed, the effect of right-shift on a negative value is (as you say) completely implementation-defined. It's not required to be either arithmetic or logical, the result could be anything. In practice of course everyone chooses an arithmetic shift for signed values, but if you're concerned about writing to the standard then it's better just to avoid it altogether (as the questioner has). – Steve Jessop Nov 4 '11 at 23:46

If you need the X last bits of your integer, use a binary mask :

unsigned last8bitsvalue=(32 bit integer) & 0xFF
unsigned last16bitsvalue=(32 bit integer) & 0xFFFF
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Bitwise AND your integer with the mask having exactly those bits set that you want to extract. Then shift the result right to reposition the extracted bits if desired.

unsigned int lowest_17_bits = myuint32 & 0x1FFFF;
unsigned int highest_17_bits = (myuint32 & (0x1FFFF << (32 - 17))) >> (32 - 17);

Edit: The latter repositions the highest 17 bits as the lowest 17; this can be useful if you need to extract an integer from “within” a larger one. You can omit the right shift (>>) if this is not desired.

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This is a briefer variation of the accepted answer: the function below extracts the bits from-to inclusive by creating a bitmask. After applying an AND logic over the original number the result is shifted so the function returns just the extracted bits. Skipped index/integrity checks for clarity.

uint16_t extractInt(uint16_t orig16BitWord, unsigned from, unsigned to) 
{
  unsigned mask = ( (1<<(to-from+1))-1) << from;
  return (orig16BitWord & mask) >> from;
}
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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).

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#define GENERAL__GET_BITS_FROM_U8(source,lsb,msb) \
    ((uint8_t)((source) & \
        ((uint8_t)(((uint8_t)(0xFF >> ((uint8_t)(7-((uint8_t)(msb) & 7))))) & \
             ((uint8_t)(0xFF << ((uint8_t)(lsb) & 7)))))))

#define GENERAL__GET_BITS_FROM_U16(source,lsb,msb) \
    ((uint16_t)((source) & \
        ((uint16_t)(((uint16_t)(0xFFFF >> ((uint8_t)(15-((uint8_t)(msb) & 15))))) & \
            ((uint16_t)(0xFFFF << ((uint8_t)(lsb) & 15)))))))

#define GENERAL__GET_BITS_FROM_U32(source,lsb,msb) \
    ((uint32_t)((source) & \
        ((uint32_t)(((uint32_t)(0xFFFFFFFF >> ((uint8_t)(31-((uint8_t)(msb) & 31))))) & \
            ((uint32_t)(0xFFFFFFFF << ((uint8_t)(lsb) & 31)))))))
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