I am trying to go through the mess of COM interop definitions we have scattered across various projects and collect them into a single, known-good location from which the whole dev team can benefit. Part of this effort involves cleaning up the definitions that have been accumulated over the years.
Some of these are borrowed from other source code, some were copied verbatim from pinvoke.net, and some look to be directly translated from the SDK headers. One thing I notice is that there is no consistency about when to use the various marshalling attributes, (even among the pinvoke.net examples this is pretty hit-or-miss). Part of the problem is, I don't think anyone here (myself included) fully understands when the various attributes are needed or not, or what they actually do. Up to this point, getting these right seems to be a combination of guesswork and random changes until the COMExceptions stop happening, but I'd much rather the translations be correct because someone actually looked at them and declared them so.
So, I'm starting with
[Out]. I know what those two attributes do conceptually: they inform the marshaller which direction the data has to go. I assume the marshaller, for example, won't bother copying
[In] data back to the caller, or knows that
[Out] data might need to be freed on the callee side, etc. The things I don't know are:
- When is it necessary to use these attributes? That is, when is the default marshalling behavior wrong such that the attributes make it correct?
- When is it safe to use these attributes? That is, will specifying what should already be the default behavior change the way the marshaller works?
- When is it dangerous to use these attributes? I assume that explicitly marking an output parameter
[In]is bad, but is marking an input parameter
[In, Out]actually going to break anything?
So, given a hypothetical COM Interface method whose IDL looks like this:
HRESULT Foo( [in] ULONG a, [out] ULONG * b [in, out] ULONG * c);
I might see this translated as any of the following:
void Foo( uint cb, out uint b, ref uint c); void Foo( uint cb, [Out] out uint b, [In, Out] ref uint c); void Foo( [In] uint cb, [Out] out uint b, [In, Out] ref uint c);
Is there any functional difference between those three? Is any of them considered "better" than the others for reasons besides technical correctness?