47

I know you can get the first byte by using

int x = number & ((1<<8)-1);

or

int x = number & 0xFF;

But I don't know how to get the nth byte of an integer. For example, 1234 is 00000000 00000000 00000100 11010010 as 32bit integer How can I get all of those bytes? first one would be 210, second would be 4 and the last two would be 0.

3
  • 1
    You're already using the bit shift operator << in your example. How could you use the shift operator to get different bits out of your number? Oct 16, 2011 at 21:24
  • Try the other bit-shift operator. Oct 16, 2011 at 21:26
  • 4
    Bear in mind that the "first byte" — as you've used it here — may not be the first byte in memory. Your example, 1234, may very easily be 11010010 at the lowest address, and, 00000000 at the highest address.
    – Thanatos
    Oct 16, 2011 at 22:01

5 Answers 5

90
int x = (number >> (8*n)) & 0xff;

where n is 0 for the first byte, 1 for the second byte, etc.

4
  • 19
    Please use parentheses! I can never member whether >> or * has higher precedence. Oct 16, 2011 at 21:25
  • 1
    Why doesn't this cause weirdness because of an arithmetic right shift? I know that it doesn't, I just don't understand why. Sep 11, 2019 at 1:48
  • @BrianPeterson The number gets shifted to the right so that the byte you want is in the rightmost position, and then it gets masked with the & 0xff, which outputs a one in any spot where both numbers have ones. For example n = 0000 0000 1011 0101 0xff = 0000 0000 0000 1111 n & 0xff = 0000 0000 0000 0101
    – FlexEast
    Jun 26, 2022 at 14:42
  • 1
    in response to @GregHewgill : it makes no sense to use parentheses when NOT needed. it brings confusion because a reviewer will think : oh, i need this parenthese, why ?
    – sandwood
    Aug 3, 2023 at 12:38
21

For the (n+1)th byte in whatever order they appear in memory (which is also least- to most- significant on little-endian machines like x86):

int x = ((unsigned char *)(&number))[n];

For the (n+1)th byte from least to most significant on big-endian machines:

int x = ((unsigned char *)(&number))[sizeof(int) - 1 - n];

For the (n+1)th byte from least to most significant (any endian):

int x = ((unsigned int)number >> (n << 3)) & 0xff;

Of course, these all assume that n < sizeof(int), and that number is an int.

2
  • If we have an array of int, How will the answer change? I mean how can I get the nth byte's value from the beginning of an int array ? Dec 24, 2017 at 4:49
  • @HoseinGhanbari Same way, but find the (n % sizeof(int))-th byte of the (n / sizeof(int))-th array element.
    – Dmitri
    Dec 24, 2017 at 6:36
4

int nth = (number >> (n * 8)) & 0xFF;

Carry it into the lowest byte and take it in the "familiar" manner.

1

If you are wanting a byte, wouldn't the better solution be:

byte x = (byte)(number >> (8 * n));

This way, you are returning and dealing with a byte instead of an int, so we are using less memory, and we don't have to do the binary and operation & 0xff just to mask the result down to a byte. I also saw that the person asking the question used an int in their example, but that doesn't make it right.

I know this question was asked a long time ago, but I just ran into this problem, and I think that this is a better solution regardless.

1
  • 2
    Standard C does not have a type named byte, could you be referring to either a uint8_t from C99 or unsigned char?
    – txk2048
    Jul 14, 2020 at 17:55
0
//was trying to do inplace, would have been better if I had swapped higher and lower bytes somehow

uint32_t reverseBytes(uint32_t value) {
uint32_t temp;
size_t size=sizeof(uint32_t);

for(int i=0; i<size/2; i++){

//get byte i
temp = (value >> (8*i)) & 0xff;

//put higher in lower byte
value = ((value & (~(0xff << (8*i)))) | (value & ((0xff << (8*(size-i-1)))))>>(8*(size-2*i-1))) ;

//move lower byte which was stored in temp to higher byte
value=((value & (~(0xff << (8*(size-i-1)))))|(temp << (8*(size-i-1))));              
}
return value;
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.