I'd also like to add that unless you're performing millions of gets/sets per frame, it's pretty much irrelevant whether these are inlined or not. It's honestly not worth losing sleep over.
Also, keep in mind that just because you put the word 'inline' in front of your declaration+definition, doesn't mean the compiler will inline your code. It's uses various heuristics to work out whether it makes sense, which is often the classic trade off of speed vs size. There is however the brute force '__forceinline' keyword, at lease in VC++ (I'm not sure what it is in GCC), which stomps on the compilers fancy heuristics. I really don't recommend it at all, and besides once you port to a different architecture, it'll likely be incorrect.
Try to put all function definitions in the implementation file, and leave the pure declarations for the headers (unless of course you're template metaprogramming (STL/BOOST/etc), in which case, pretty much everything is in the headers ;))
One of the classic places people like to inline (at least in video games, which is where I'm from), is in math headers. Cross/dot products, vector lengths, matrix clearing, etc are often placed in the header, which I just think is unnecessary. 9/10 it makes no difference to performance, and if you ever need to do a tight loop, such as transforming a large vector array by some matrix, you're probably better off manually doing the math inline, or even better coding it in platform-specific assembler.
Oh, and another point, if you feel you really need a class to be more data than code, consider using good old struct, which doesn't bring the OO baggage of abstraction with it, that's what it's there for. :)
Sorry, didn't mean to go on so much, but I just think it helps to consider real world use cases, and not get too hung up on pedantic compiler settings (trust me, I've been there ;))