On Thursday, February 15, 2018 17:53:54 Kyle via Digitalmars-d-learn wrote: > I want to be able to pass an int to a function, then in the > function ensure that the int is little-endian (whether it starts > out that way or needs to be converted) before additional stuff is > done to the passed int. The end goal is compliance with a remote > console protocol that expects a little-endian 32-bit signed > integer as part of a packet.
Well, in the general case, you can't actually test whether an integer is little endian or not, though if you know that it's only allowed to be within a specific range of values, I suppose that you could infer which it is. And normally, whether a value is little endian or big endian is supposed to be well-defined by where it's used, but if you do have some rare case where that's not true, then it could interesting. That's why UTF-16 files are supposed to have BOMs. Either way, there's nothing in std.bitmanip geared towards guessing the endianness of an integral value. It's all based on the idea that an integral value is in the native endianness of the system and that the application knows whether a ubyte[n] contains bytes arranged as little endian or big endian. - Jonathan M Davis
