I have reached a point in the design of a library where I am horrified by endianness.
I can easily deal with the order of bytes, but the order of bits introduces a huge level of complexity in my code.

What I am doing is converting a uint to bytes, in network byte order (big endian).
However, I use the most significant crumb (2 bits, from first [most significant] byte) for something else, storing another number.

Normally, I use these lines for writing and reading the crumb:

bytes[0] |= 0xC0 // Writing 11 to the most significant crumb. It could be 10 or 01 too. Before the disjunction, I know those two bits are 0.  
(bytes[0] & 0xC0) >> 6 // Getting the most significant crumb and shifting it to the right, in the least significant place.

To me, all these seem to assume that the most significant bit comes first.
If it didn't, my pair of operations would basically turn 00000011 into 00001100, which is not a value I need.
This data is stored in a file and may be accessed elsewhere. If the storing machine and the reading machine use different bit orders, the reader will get garbage.

I also don't remember ever reading a piece of code which reacts to the order of bits.

So, my question is: Am I just being paranoid or my C# library could ever be used on an LSB-first machine? (under .NET or Mono; Windows, Unix, Android, iOS, whatever)
If so, how can I efficiently handle the possibilities and be able to retrieve my 2-bit number correctly?

  • 3
    Endian does not affect bit order, only byte order. – Matthew Watson Jun 20 '14 at 9:45
  • en.wikipedia.org/wiki/Bit_numbering As if everybody decided that the most significant bit comes first... – Vercas Jun 20 '14 at 9:48
  • I think all .NET implementations are supposed to treat endian-ness the same (I think it was part of the spec), however, I might be wrong about this. However, the only place in a library I would consider accounting for things being wrong endian is at input-points to the library, ie. any method that's public and accept something that can be wrong. – Alxandr Jun 20 '14 at 9:53
  • There is no "first". The most significant bit is .. the most significant. It's neither first nor last. There is no measurement you can do on the system that could show a difference - operators on integers always work exactly the same way. – harold Jun 20 '14 at 9:57
  • @harold yes there is: you simply read the raw bytes as bytes, for example by using unsafe code to treat an int variable as a byte* – Marc Gravell Jun 20 '14 at 9:58

You don't have to worry about the bit order. However the bits are handled in the CPU, the corresponding bit operations work the same to the outside.

When you shift right, that is always towards the least significant bits. If the least significant bit is actually to the left inside the CPU, the physical bits are shifted to the left, but the representation of the number outside the CPU is still with the least significant bit to the right, and the meaning of the operator is the same on any CPU.

When you make a bitwise or with 0xC0 it doesn't matter where the bits are, because the most significant bit in the value and the most significant bit in 0xC0 is in the same place.

  • Alright, but the real issue is misinterpretation of the bits when the same data is transferred from an LSB-0 to a MSB-0 machine. – Vercas Jun 20 '14 at 10:07
  • @Vercas: However you transfer the data, the medium has a specific bit order, and the value gets translated at each step. In the end the byte value still has the same meaning. – Guffa Jun 20 '14 at 10:09
  • The "translation" you speak of - I can't imagine where and how that would take place. – Vercas Jun 20 '14 at 10:16
  • @Vercas: If you for example send the data over a network, then the bits are sent serially so there is no left or right, only first and last. On the other end it has to be translated back into a byte, so it has to know which bit goes where, i.e. which bit that is the most significant one. – Guffa Jun 20 '14 at 10:25
  • I must be seriously braindead right now to miss the points that you and Marc are trying to make... Or you don't understand what my question really is. You just said "it has to know which bit goes where, i.e. which bit that is the most significant one". Well, how? – Vercas Jun 20 '14 at 10:33

Since you are using things like shift operations: you're fine. Endianness doesn't impact these: they will behave the same on any *-endian architecture - simply: how it works internally may change between CPUs, but you'll always get the same answers, as seen from regular code.

Endianness really only affects direct value-to-bytes interpretations, for example using unsafe code or BitConverter to get (or set) the raw bytes behind an int or a double, an explicit layout "union" struct that overlaps the bytes of different fields. If you aren't doing that type of thing, then you don't need to worry about CPU endianness.

  • If on computer A I write 11000000, which would mean to it 128 + 64 = 192, and computer B uses the opposite order, it will read number 3. How would I solve this? – Vercas Jun 20 '14 at 10:05
  • @Vercas actually, in most endian discusses, the conflict there is over 192 vs -1073741824 (assuming that is an int); but you would only ever see that if you were reading raw butes: for example reading 4 bytes from a file or socket and coercing them via unsafe code directly to an int. And in that scenario, the fix is: make sure you account for endianness when reading raw data from a file or socket. In regular C#, including both arithmetic and bitwise operations: it will always act like 192 – Marc Gravell Jun 20 '14 at 10:08
  • @Vercas emphasis: endianness is almost always primarily about byte order, not bit order – Marc Gravell Jun 20 '14 at 10:11
  • Would every implementation of System.IO.Stream know if the source comes in reversed order? The only way I can think of is storing a "magic" byte at the beginning of my data blob, which would have a known value. If that happens to be different than expected when reading, all bits would have to be flipped in every byte. Also, I said 3 because I was talking about bits inside bytes specifically. I already account for byte endianness in my code. – Vercas Jun 20 '14 at 10:14
  • @Vercas no, streams don't have a concept of order at all: all they are is a sequence of bytes. So the important question is: what order are the bytes in? Bit order is not endinan-ness in the usual sense. You don't need to worry about that changing. – Marc Gravell Jun 20 '14 at 10:28

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