As a newbie in C++ I've been playing around with pointers a bit. I have written the following code to interpret a short array as an integer:

#include <iostream>
int main(){
    short array[2] = {10, 9};

    short* pointer = array;
    std::cout << pointer << ": " << *pointer << std::endl;
    // 0xffffcbdc: 10

    std::cout << pointer << ": " << *pointer << std::endl;
    // 0xffffcbde: 9

    int* pointer2 = (int*) array;
    std::cout << pointer2 << ": " << *pointer2 << std::endl;
    // 0xffffcbdc: 589834

Why is the value of the integer 589'834 (0009 000A) and not 655'369 (000A 0009)?

From the printed pointer addresses it looks like the array is in order in memory, why does casting to integer change that?

  • 4
    Look up big-endian. And little-endian. – nicomp Nov 10 '17 at 13:36
  • The "Undefined Behavior" police are out in force today -- I dare not post an answer. – nicomp Nov 10 '17 at 14:08
  • First, your integer representations as hex-value are wrong: 589'834 == 0x0009'000A and 655'369 == 0x000A'0009. Despite your int-pointer conversion is undefined behavior, your CPU seems to use "Little Endian" which means lower bytes are stored at lower memory addresses. In "Big Endian" higher bytes are stored at lower memory addresses. Using "Little Endian", no padding and 16-bit short ints your array has the following layout in memory: 0A 00 09 00. Using "Big Endian" instead, the memory looks like 00 0A 00 09. – CAF Nov 10 '17 at 15:32
up vote 8 down vote accepted

This behavior is undefined:

int* pointer2 = (int*) array;

You are allowed to reinterpret a pointer to T1 as a pointer to T2 only if alignment requirements of T2 are the same or less strict than alignment requirements of T1 (see reference for more details). Since alignment requirements for int are stricter than alignment requirements for short, your pointer re-interpretation is invalid.

Note that re-interpreting a pointer to int as a pointer to short would be valid.

Note: Since behavior is undefined, your program could do anything, including printing incorrect values or even crashing. However, the most likely reason for the behavior that you see is that your system stores higher bytes of an integer at lower addresses. This is one of two common options: the second one is to store higher bytes at higher addresses. These two options are called endianness. More information on it is here.

  • 1
    "Note that re-interpreting a pointer to int as a pointer to short would be valid." i want to add, that you may not deference the pointer because of strict aliasing rules. – phön Nov 10 '17 at 15:26

What you do is undefined behaviour, as you are violating the strict aliasing rule. Therefore, don't bother about any output you get from it.

  • 4
    @nicomp It is undefined, in the sense that the compiler is allowed to do anything with code. If the code produce any result at all it is purely coincidental and may change between versions of the compiler or even between invocations of the program. – Johan Nov 10 '17 at 13:40
  • 2
    @nicomp Any statements on endianess is pure speculation. It might be the reason for this behaviour, but that is nothing you can rely on. – Jodocus Nov 10 '17 at 13:44
  • 6
    People need to stop trying to rationalise/rehabilitate UB. Code that does things the language doesn't guarantee is bad, and that's the end of it. It's not interesting to endlessly speculate about how it'll probably be fine, it happens to work because of X, etc. – underscore_d Nov 10 '17 at 13:47
  • 1
    @underscore_d Nonsense. This issues is endlessly interesting. No field of study focuses solely on positive outcomes. – nicomp Nov 10 '17 at 13:58
  • 1
    @underscore_d it's not about speculating wether it is fine to use such code, it's clearly not fine. It's about learning about the underlying system. – kalsowerus Nov 10 '17 at 14:13

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