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I want to use a function that returns a uint32_t which is supposed to contain 8 bits of information, in little-endian format. Could someone give me some c++ code on how to extract these bits from the uint32_t type into chars, booleans or into any other type that does not need the use of the Force to deal with! Because right now I do not have the patience to understand the whole concept of endianess. And the more I shallowly search the more complicated it seems...Thanks for your understanding!

PS. Although not what I am looking for, if someone could also post some code on how one could encode 8 bits(ex. 8 booleans) in an uint32_t would be interesting as I think it would help me understand the concept. Thanks!

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4 Answers 4

A sample in C, using union to force both an integer and combined bit values in the same address space, and with bitfields b0..b7 to hold single bit values:

#include <stdio.h>

union Bitfields {
    unsigned int as_int;
    struct {
        unsigned char b0:1,b1:1,b2:1,b3:1,
    } as_bit;

int main (void)
    Bitfields bitfield;

    bitfield.as_int = 73;

    printf ("%u %u %u\n", bitfield.as_int, bitfield.as_bit.b0, bitfield.as_bit.b1);

    return 0;

This allows easy read/write access to both the integer value and each one of your separate bits, whatever is more convenient.

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Endianness should not be an issue here. Have you tried it?

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Well, I ve tried "pushing" the uint32_t to a stringstream and get a string from it but the string I get only contains a zero. So I suppose it does not correctly extract the bits. – venkman Jul 28 '13 at 1:26
Your typical stringstream isn't supposed to extract bits. Just for the record: what language are we talking about? See also Bit manipulation for a primer on bit functions. – Jongware Jul 28 '13 at 1:51

When accessing a variable, it will be automatically loaded by the default endianness of the system (little endian in the case of x86), so if you want the 8 low bits, just apply a mask and get that value

x = someint32 & 0xff;

Likewise, assigning a char into an int or using it in an expression will extend (signed or zero depend on the signess of char), endianness should not be a problem here. Endianness should only be taken care if you want to directly access memory.

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Little endian means that the bytes that make up the uint32_t have the least significant byte stored at the lowest memory address and the most significant at the highest. Endian-ness should not enter the picture when extracting bits. It only enters the picture if you are doing things like accessing a uint32_t variable through a char *.

#include <iostream>
#include <cstdint>
using namespace std;

int main()
    unsigned char ch;
    uint32_t u32;
    bool b0, b1, b2, b3, b4, b5, b6, b7;

    // If the 8 bits you need are the least significant ones then getting
    // them is as easy as:
    u32 = 73;
    ch = u32 & 0xFF;
    cout << ch << endl;

    // To encode boolean variables is just as easy:
    b0 = b1 = b3 = b5 = 0;
    b2 = b4 = b6 = b7 = 1;
    u32 = (b0 << 0) | (b1 << 1) | (b2 << 2) | (b3 << 3) | (b4 << 4) |
        (b5 << 5) | (b6 << 6) | (b7 << 7);
    cout << hex << u32 << endl;

    return 0;
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