I'm currently writing a C++ memory editing library and for the read/write APIs I use type traits (std::is_pod, std::is_same) and boost::enable_if to provide 3 overloads:
- POD types. e.g. MyMem.Read(SomeAddress);
- String types. e.g. MyMem.Read>(SomeAddress); (This doesn't actually read out a C++ string, it reads out a C-style string and converts it to a C++ string.)
- Vector types. e.g. MyMem.Read>(SomeAddress, NumElem); (This doesn't actually read out a vector, rather it reads out a C-style array and converts it to a vector.)
Overloads 2 and 3 are simply 'wrappers' around overload 1. (So if you're reading a std::vector or std::basic_string and T is not POD it will fail, as it should.)
Recently I wanted to use std::array for a bunch of reads and writes because I knew the size of the data I wanted to read and write at compile time (I was writing a wrapper around the PE file format).
I wrote the code to use std::array, and then intended to add another overload for detection and handling of std::array types, but I accidentally hit compile and to my surprise it worked!
I'm currently using MSVC 10 and it turns out that for std::array if T is POD then std::array is POD. (Which means I can just use overload 1 and it works.)
My question is whether this is guaranteed by the C++ standard or left up to the implementation.
I know I could check the standard myself, but I don't trust myself as much as I trust some of the language lawyers on this site, so I figured it would be best to get a 'second opinion'. ;)
P.S. Code available here (it's a header-only lib): http://code.google.com/p/hadesmem/source/browse/trunk/HadesMem-v2/Hades-Memory/Hades-Memory/MemoryMgr.h#86