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I have a couple of integers, for example (in binary represetation):

00001000, 01111111, 10000000, 00000001

and I need to put them in sequence to array of bytes(chars), without the leading zeros, like so:

10001111 11110000 0001000

I understand that it is must be done by bit shifting with <<,>> and using binary or |. But I can't find the correct algorithm, can you suggest the best approach?

The integers I need to put there are unsigned long long ints, so the length of one can be anywhere from 1 bit to 8 bytes (64 bits).

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Please specify exactly what your input is, looks like, and what type it has and what your output should be, look like and what type it has. It's a bit unclear. – orlp Mar 10 '12 at 15:05
The input are unsigned long long ints of any value and the output is an char * array (array of bytes). I need to write the output to a file so I need to have it in bytes. – Smaug Mar 10 '12 at 15:08
Due to endian-ness you'll have to specify how things are stored now and supposed to be stored afterwards on a byte level, not a mix between bytes and long long ints. – Joachim Isaksson Mar 10 '12 at 15:09
Both input and output is Big-endian – Smaug Mar 10 '12 at 15:14

You could use a std::bitset:

#include <bitset>
#include <iostream>

int main() {
    unsigned i = 242122534;
    std::bitset<sizeof(i) * 8> bits;
    bits = i;
    std::cout << bits.to_string() << "\n";
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This is nice, combine with the trim_right() function examples from my answer below for likely the simplest possible solution. – Chad Mar 10 '12 at 15:37

There are doubtless other ways of doing it, but I would probably go with the simplest:

std::vector<unsigned char> integers; // Has your list of bytes
std::string str;                     // Will have your resulting string
for(unsigned int i=0; i < integers.size(); i++)
    for(int j=0; j<8; j++)
        str += ((integers[i]<<j) & 0x80 ? "1" : "0");
std::cout << str << "\n";
size_t begin = str.find("1");
if(begin > 0) str.erase(0,begin);
std::cout << str << "\n";

I wrote this up before you mentioned that you were using long ints or whatnot, but that doesn't actually change very much of this. The mask needs to change, and the j loop variable, but otherwise the above should work.

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Convert them to strings, then erase all leading zeros:

#include <iostream>
#include <sstream>
#include <string>
#include <cstdint>

std::string to_bin(uint64_t v)
   std::stringstream ss;

   for(size_t x = 0; x < 64; ++x)
       if(v & 0x8000000000000000)
          ss << "1";
          ss << "0";

        v <<= 1;

   return ss.str();

void trim_right(std::string& in)
   size_t non_zero = in.find_first_not_of("0");

   if(std::string::npos != non_zero)
      in.erase(in.begin(), in.begin() + non_zero);
       // no 1 in data set, what to do?
       in = "<no data>";

int main()
  uint64_t v1 = 437148234;
  uint64_t v2 = 1;
  uint64_t v3 = 0;

  std::string v1s = to_bin(v1);
  std::string v2s = to_bin(v2);
  std::string v3s = to_bin(v3);


  std::cout << v1s << "\n"
            << v2s << "\n"
            << v3s << "\n";

  return 0;
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A simple approach would be having the "current byte" (acc in the following), the associated number of used bits in it (bitcount) and a vector of fully processed bytes (output):

int acc = 0;
int bitcount = 0;
std::vector<unsigned char> output;

void writeBits(int size, unsigned long long x)
    while (size > 0)
        // sz = How many bit we're about to copy
        int sz = size;

        // max avail space in acc
        if (sz > 8 - bitcount) sz = 8 - bitcount;

        // get the bits
        acc |= ((x >> (size - sz)) << (8 - bitcount - sz));

        // zero them off in x
        x &= (1 << (size - sz)) - 1;

        // acc got bigger and x got smaller
        bitcount += sz;
        size -= sz;

        if (bitcount == 8)
            // got a full byte!
            acc = bitcount = 0;

void writeNumber(unsigned long long x)
    // How big is it?
    int size = 0;
    while (size < 64 && x >= (1ULL << size))
    writeBits(size, x);

Note that at the end of the processing you should check if there is any bit still in the accumulator (bitcount > 0) and you should flush them in that case by doing a output.push_back(acc);.

Note also that if speed is an issue then probably using a bigger accumulator is a good idea (however the output will depend on machine endianness) and also that discovering how many bits are used in a number can be made much faster than a linear search in C++ (for example x86 has a special machine language instruction BSR dedicated to this).

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