I have a code snippet(up.cpp) like this:

#include <stdio.h>

typedef unsigned long long Uint64;
int main()
    void *p = (void*)0xC0001234;
    Uint64 u64 = (Uint64)p;
    printf("{%llx}\n", u64);

    return 0;

Compiling it with 32-bit gcc 4.8.1, I get output:


Compiling it with 64-bit gcc 4.8.1, I get output:


Yes, the 64-bit one gives the 32-bit value. The gcc 4.8.1 is from openSUSE 13.1 .

I also tried it on Visual C++ 2010 x86 & x64 complier(a bit code change, __int64 and %I64x), and surprising get the same results.

Of course, I intend to get {c0001234} on both x86 & x64. But why is there such difference?

  • Because your using "ll" and not "llu". – barak manos Feb 11 '17 at 16:17
  • @barakmanos: He is using %llx where the x means both unsigned and hexadecimal. – Blagovest Buyukliev Feb 11 '17 at 16:19
  • But finally I want to control output flavor, "%llx" will give me 'abcdef' while "%llX" will give me 'ABCDEF'. – Jimm Chen Feb 11 '17 at 16:35
  • This question is tagged c but the filename ends in .cpp and you say you're compiling with Visual C++ but you also mention gcc. Are you compiling this as a C or C++ program? – David Conrad Feb 15 '17 at 6:43

The behavior of this

Uint64 u64 = (Uint64)p;

is not defined by the language. It is implementation-defined.

While 64-bit platforms will probably implement this as purely conceptual conversion (the pointer "fills" the entire target value), on 32-bit platforms implementations are faced with a dilemma: how to extend a 32-bit pointer value to a 64-bit integer value, with sign-extension or without? Apparently, your implementations decided to sign-extend the value.

Apparently your implementations believe that in a pointer-to-unsigned conversion the original pointer value should act as a signed value of sorts. This would be a rather strange decision though. I cannot reproduce it in GCC: http://coliru.stacked-crooked.com/a/9089ccda625bd65d

If that's really what happens on your platform, you should be able to suppress this behavior by converting to uintptr_t first (as an intermediate type), as suggested by @barak manos in the comments.

  • Probably uintptr_t will solve this platform-dependency (though I'm not sure that the C-language standard defines it). – barak manos Feb 11 '17 at 16:22
  • Of course it should do unsigned extend. It's so weird to imagine a pointer could be negative. – Jimm Chen Feb 11 '17 at 16:23
  • @JimmChen: The AMD64 memory model is divided into a lower half (user space, addresses starting with 0000) and an upper half (kernel space, addresses starting with FFFF). Viewed as signed integers, these are positive and negative, respectively. – dan04 Feb 11 '17 at 16:36
  • OK. That's a good insight. But this idea does not apply to 32-bit systems, right? – Jimm Chen Feb 11 '17 at 16:41

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