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The following program fails to compile when cross-compiling from OS X to ARM:

#include <boost/cstdint.hpp>
#include <cstdint>
#include <type_traits>

static_assert(std::is_same<std::uint32_t, boost::uint32_t>::value, "");

int main() { }

I'm building with

arm-none-eabi-g++ -I /path/to/boost -std=c++11 -c main.cpp

where

> arm-none-eabi-g++ --version
arm-none-eabi-g++ (GNU Tools for ARM Embedded Processors) 4.9.3 20150529 (release) 
[ARM/embedded-4_9-branch revision 224288]

To try and diagnose the issue further, I tried the following trick:

template <typename T> struct show;
using A = show<std::uint32_t>::invalid;
using B = show<boost::uint32_t>::invalid;

The compiler gives me the following error message, which indicates that std::uint32_t == long unsigned int, while boost::uint32_t == unsigned int:

main.cpp:8:32: error: 'invalid' in 'struct show<long unsigned int>' does not name a type
 using A = show<std::uint32_t>::invalid;
                                ^
main.cpp:9:34: error: 'invalid' in 'struct show<unsigned int>' does not name a type
 using B = show<boost::uint32_t>::invalid;    

I find this situation very surprising. Shouldn't uint32_t always represent exactly the same type (a 32-bit width unsigned integer), regardless of the system on which we are? Is this a bug in Boost or simply me misunderstanding something?

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  • Multiple types may be able to represent a 32-bit unsigned integer. That's just an aspect of C++ you have to live with.
    – Neil Kirk
    Commented Nov 22, 2015 at 17:10
  • 1
    "Shouldn't uint32_t always represent exactly the same type (a 32-bit width unsigned integer), regardless of the system on which we are?" N.B. it isn't even required to exist on all systems! It only exists on systems where there is a type of exactly 32 bits. uint_least32_t always exists, but might be larger than 32 bits. Commented Nov 23, 2015 at 13:57

2 Answers 2

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uint32_t should always represent a 32-bit width unsigned integer, yes.

But it's perfectly possible for sizeof(long unsigned int) == sizeof(unsigned int) to be true. Those are two different types that can have the same width.

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  • Ah, yes, of course. Then, I think it is simply a QOI issue in Boost that boost::uint32_t isn't always the same as std::uint32_t, since it makes it more difficult to interoperate between both. Commented Nov 22, 2015 at 17:16
  • For reference, I followed up on the Boost.Devel mailing list regarding this issue. Commented Nov 22, 2015 at 17:26
  • Other than explicit specialization not matching, and mangling, what is the problem you are facing? @louisdionne Commented Nov 22, 2015 at 19:52
  • @Yakk An invalid conversion from some function pointer void (*)(boost::uint32_t) to void (*)(std::uint32_t). Commented Nov 22, 2015 at 21:01
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There is no guarantee that two 32 bit unsigned integer values are the same type.

In fact, long and int can be distinct types, and both can be 32 bit values, at the same time. Ditto for wchar_t and short being 16 bit values.

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  • Thanks for your answer. I'll accept orlp's answer because it came first, but yours is equally good. Commented Nov 22, 2015 at 17:17

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