This addition to C# 7.2 is not really a feature in the sense of adding or enabling any new capability in the so-marked value-type itself, Rather, it allows the developer to declare or publish a specific restriction which governs the allowable use of that type everywhere else.
[edit: see span-safety at the github/dotnet site]
So instead of considering what
ref struct designation gives the end-user of the struct, consider how it benefits the author. Adding any restriction on external use logically entails a related guarantee that the
ref struct thus assumes, so the effect of the keyword is to empower or "license" the
ref struct to do things that require those specific guarantees.
The point is that it's an indirect benefit, because the kinds of operations that are typically considered licensed by
ref struct are basically none of the keyword's concern, and could be implemented and attempted, perhaps successfully even, by wily code anywhere, regardless of the
ref struct marking (or not).
So much for the theoretical part. In reality, what is the "wily code" use-case that so existentially depends on the additional guarantees, even to the extreme point of accepting all the accompanying limitations? Essentially, it's the ability for a
struct to expose a managed reference to itself or one of its fields.
Normally, C# enforces strong restrictions against the
this reference leaking out of any instance method of a
error CS8170: Struct members cannot return 'this' or other instance members by reference
The compiler has to be certain that there's virtually no possibility for
this to leak out of the value-type because it's possible (in some uses, quite likely) that the struct instance has been temporarily boxed for the purpose of calling the instance method, in which case there would be no persistent
GetPinnableReference instance relative to which a managed pointer to the
struct (or its interior) might be taken.
With all the
ref enhancements in recent years, C# now goes to even further lengths to detect and disallow
this from escaping. For example, in addition to the above, we now have:
error CS8157: Cannot return 'x' by reference because it was initialized to a value that cannot be returned by reference
..and related errors such as...
error CS8374: Cannot ref-assign 'foo' to 'p' because 'foo' has a narrower escape scope than 'p'.
Sometimes the underlying reason for the compiler asserting
CS8157 can be convoluted or hard to see, but the compiler hews to the conservative "better safe than sorry" approach, and this can sometimes result in false positives where, for example, you have additional special knowledge that the escape is ultimately contained within the stack.
For cases where
CS8157 is genuinely unwarranted (i.e., in consideration of information that the compiler wasn't able to infer), these represent the "'perhaps even successful' wily code" examples I alluded to earlier, and generally there's no easy workaround, especially not via
ref struct. That's because the convoluted false-positives often only arise in higher-level
ref-passing code scenarios that would never be able to adopt the extreme limitations that are enforced for
ref struct in the first place.
ref struct is used for very simple value-types. By guaranteeing them that their
this reference will always be anchored in an upper stack frame--and thus crucially, will never be awash in the GC heap--such types thus gain the confidence to publish managed pointers to themselves or their interiors.
Remember, however, that I said
ref struct is agnostic about how, why, and what the relaxations it provides are used for. What I was specifically alluding to there is that unfortunately, using
ref struct does not make
CS8157 go away (I consider this a bug, see here and here).
ref struct code that should properly be allowed to return its own
this is still prevented by the compiler from doing so, you have to resort to some rather brutish techniques to get around the fatal error(s) when coding within the supposedly liberated
ref struct instance methods. To wit, value-type instance methods written in C# that legitimately need to override fatal errors
CS8157 can opaque the 'this' pointer by round-tripping it through an
IntPtr. This is left as an exercise for the reader, but one way to do this would be via the System.Runtime.CompilerServices.Unsafe package.