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with .NET things are fairly simple - it is all (including ARM ASFAIK) running little endian .

The question that I have is: what is happing on Mono and (potentially) big endian systems? Do the bits reverse (when compared to x86) in Int32 / Int64 structure or does the framework force little endian rule-set?


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I would guess it will be defined by the CLR spec –  Greg B Mar 24 '11 at 21:54
It can't hide endianness, far too expensive. See BitConverter.IsLittleEndian. –  Hans Passant Mar 24 '11 at 23:13

6 Answers 6

A list of behavioral changes I can think of at the moment (unchecked and incomplete):

and of course every (runtime library) function using these.

Usually Microsoft doesn't mention endianness in their docs - with some strange exceptions. For instance, BinaryReader.ReadUInt16 is defined to read little endian. Nothing mentioned for the other methods. One may assume that binary serialization is always little-endian, even on big-endian machines.

Note that XNA on XBox360 is big-endian, so this not just a theoretical problem with Mono.

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Sounds like I need to do some testing ... anyone has a good working QEMU image for ARM cpu with linux / mono installed on it? –  arthur Mar 26 '11 at 5:30

To know if bytes are "reversed", just check BitConverter.IsLittleEndian:

if (BitConverter.IsLittleEndian)
    // reverse bytes
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Your assertion that all MS .NET are little endian is not correct. It depends on the architecture that you are running on - the CLR spec says so:

From the CLI Annotated Standard (p.161) — Partition I, section 12.6.3: "Byte Ordering":

For data types larger than 1 byte, the byte ordering is dependent on the target CPU. Code that depends on byte ordering may not run on all platforms. [...]

(taken from this SO answer)

See this answer for more information on the internals of BitConverter and how it handles endianness.

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thanks , I completely forgot about CLR spec. –  arthur Mar 24 '11 at 22:04
This brings in an interesting question: "..dependent on the target CPU..." so what happens with mono running on Little Endian windows running on top of Big Endian ARM CPU? link MSFT Support forum –  arthur Mar 24 '11 at 22:11
Isn't that the CLI spec rather than the CLR spec? (The part you've quoted says CLI.) All this demonstrates is that the CLI spec accommodates the possibility of a big-endian implementation. This would not contradict the proposition that all flavours of the CLR (i.e., Microsoft's implementation) are little-endian. And as far as I know, they all are. Are you aware of any supported Microsoft .NET implementation that's big-endian? (I think Rotor, aka SSCLI supported it, but that's not the CLR.) –  Ian Griffiths Jul 8 '12 at 21:24

Considering how similar .Net and Mono are by design, I'd say they probably handle endianness the same.

You can always test it by creating a managed int with a known value, then using reflection or marshalling to access the memory and take a look.

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The only problem that I have is access to a big endian system with framework on it:) What I'm specifically looking to do is to convert an integer to a byte array -- the array needs to be in a big endian order for things to work; Since the code might end up on a big endian system at some point, I'm trying to make sure I don't end up reversing the bytes when it is not needed. –  arthur Mar 24 '11 at 22:01

c#/.Net does not make any claims on endian. int32/64 are atomic not structures.

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As far as I know such conversion would happen outside the scope of your code and hidden to you. It's called "managed code" for some reasons, including such potential issues.

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There are a number of places where endianness affects the code. BitConverter, Buffer.BlockCopy, unsafe code, etc. –  CodesInChaos Nov 28 '12 at 9:31

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