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My code is supposed to detect whether the integers stored in my array are in big endian or little endian order.

Here's my code:

#include <iostream>

using namespace std;

int main()
{
    int num[] = {0,0,0x04030201,0,0};

    //int num = 0x04030201;

    for (int i=0;i<5;i++) {
        if(*(char *)&num[i] == 1) {
            printf("\nLittle-Endian\n");
        }
        else {
            printf("Big-Endian\n");
        }
    }
    return 0;
}

Since my computer is intel, all the numbers should be stored in little endian. This means I expect the code to go through each integer in my array and print little endian, so it should just print little endian 5 times. But this is the output that I am currently getting:

Big-Endian
Big-Endian

How can I fix this?

4
  • Only one of your array elements has 1 as the least-significant byte of the value. The all-zero bytes of (int)0will of course not be == 1. Feb 25, 2018 at 3:29
  • Also, printf is defined in <stdio.h> or <cstdio>, not <iostream> Feb 25, 2018 at 3:31
  • @PeterCordes So would I fix the conditional for my if statement in that case such that the 0 can be detected as little endian? How would you solve this? Feb 25, 2018 at 3:37
  • Unless you already know the expected value of each element, the problem is insoluble.
    – user207421
    Feb 25, 2018 at 4:02

1 Answer 1

2

You can't test the endianness of arbitrary or unknown values. If all the bytes of an int are zero, it doesn't matter what order they're in.


Your code prints

Big-Endian
Big-Endian

Little-Endian
Big-Endian
Big-Endian

as expected on my x86-64 system, because your testing method is wrong. Your question makes it sound like it always printed Big-Endian!


Only one of your array elements has 1 as the least-significant byte of the value. The all-zero bytes of (int)0 will of course not be == 1.

You can't check endianness with a number where all the bytes have the same value, because regardless of endianness you'll load the same value.

The == 1 check works for 0x04030201 because the low byte of that value is 1. It doesn't work in general. You could equally do something like == 0x88 in 0x4455667788 to see if the first byte in memory is the 0x88 byte.

(I'm saying "byte" instead of char because we're talking about x86-64, which does have 8-bit bytes, and all the mainstream C++ implementations use 1-byte char and 32-bit int.)


How to fix it

Endianness is a property of the implementation for a certain target architecture, and can't be different for different array elements.

int  endian_test = 0x12345678;
char *p = (char*)&endian_test;

const char *endian_string = "unknown endian";
if (p[0] == 0x78 && p[1] == 0x56 && p[2] == 0x34 && p[3] = 0x12)
    endian_string = "Little-Endian";
if (p[3] == 0x78 && p[2] == 0x56 && p[1] == 0x34 && p[0] = 0x12)
    endian_string = "Big-Endian";
// test for PDP-endian if you want

for (int i=0;i<5;i++) {
    // It's guaranteed that all elements of the array have the same endianness as endian_test
    puts(endian_string);
}

Big and little aren't the only endiannesses possible.

Also note that you can and detect this with CPP macros. gcc at least provides macros that let you do

#if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
 ...
#else
#endif

But these macros aren't ISO C++ standard. The "runtime" check can optimize away to nothing (because the result is a compile-time constant true or false), but the preprocessor lets you disable code that wouldn't even compile.

In C++20, use std::endian type_traits.

3
  • You mean I can jut look at a number and tell the endianness? (ducking..) Feb 25, 2018 at 3:44
  • I tried the "== 0x88" instead of "== 1" and now it just prints all of it as Big-Endian. Can you clarify a bit further how I can do a more general check for little endianness that would also apply for the 0's in the array? Feb 25, 2018 at 3:48
  • @T0ny50pr4n0: == 0x88 only works when testing a value that's == 0x88 when you cast it to (char) (i.e. when you take the least significant 8 bits of the value). Feb 25, 2018 at 3:56

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