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 |= 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 & 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?