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portability - Why and how are C++ bitfields non-portable?

I've come across many comments on various questions regarding bitfields asserting that bitfields are non-portable, but I've never been able to find a source explaining precisely why.

At face value, I would have presumed all bitfields merely compile to variations of the same bitshifting code, but evidently there must be more too it than that or there would not be such vehement dislike for them.

So my question is what is it that makes bitfields non-portable?

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Bit fields are non-portable in the same sense as integers are non-portable. You can use integers to write a portable program, but you cannot expect to send a binary representation of int as is to a remote machine and expect it to interpret the data correctly.

This is because 1. word lengths of processors differ, and because of that, the sizes of integer types differ (1.1 byte length can differ too, but that is these days rare outside embedded systems). And because 2. the byte endianness differs across processors.

These problems are easy to overcome. Native endianness can be easily converted to agreed upon endianness (big endian is de facto standard for network communication), and the size can be inspected at compile time and fixed length integer types are available these days. Therefore integers can be used to communicate across network, as long as these details are taken care of.

Bit fields build upon regular integer types, so they have the same problems with endianness and integer sizes. But they have even more implementation specified behaviour.

  • Everything about the actual allocation details of bit fields within the class object

    • For example, on some platforms, bit fields don't straddle bytes, on others they do
    • Also, on some platforms, bit fields are packed left-to-right, on others right-to-left
  • Whether char, short, int, long, and long long bit fields are signed or unsigned (when not declared so explicitly).

Unlike endianness, it is not trivial to convert "everything about the actual allocation details" to a canonical form.

Also, while endianness is cpu architecture specific, the bit field details are specific to the compiler implementer. So, bit fields are not portable for communication even between separate processes within the same computer, unless we can guarantee that they were compiled using the same (or binary compatible) compiler.


TL;DR bit fields are not a portable way to communicate between computers. Integers aren't either, but their non-portability is easy to work around.


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