It's a hack in the JIT, as noted in your quote. When the VM finds that there's a
SZArrayHelper, it treats the class differently, allowing more efficient code to be used.
Looking at the relevant code in the VM (note that I'm using an older, public version here - not the actual .NET VM):
A call to an array thru IList (or IEnumerable or ICollection) has to be handled specially.
These interfaces are "magic" (mostly due to working set concerned - they are created on demand internally
even though semantically, these are static interfaces.)
Arrays are a bit of a hack in .NET in the first place. When the generic interfaces were added, this posed a bit of a problem - for example,
int is an
Array, but it is also a special type, and array of int; this allowed arrays to be generic before real generic types were added.
Now, let's see a concrete example. You have an
int, and you want to use it in LINQ. Since
IEnumerable<int>, it gives you the full power of LINQ out of the box, and you can write something like this:
var positiveNumbers = numbers.Where(i => i > 0);
From C#'s point of view, there is no problem. However, from the point of the internals of the VM, this is a big problem, because
int doesn't actually implement
IEnumerable<int>! Even after introducing generics to .NET (and C#), arrays are still handled the old way.
The hack is to use
SZArrayHelper to handle any of those generic methods. So, for example,
GetEnumerator internally on the
IEnumerable<int>. The VM finds out that you're trying to call
GetEnumerator on an array, and instead of virtually dispatching
GetEnumerator on the array instance, it redirects the call to
This is a huge hack - if you look at the reference code for
SZArrayHelper, you'll find tons of warnings - for example, the
GetEnumerator<int> method is an instance method, but it's
this argument is actually the array (e.g.
But it allows us to treat arrays as if they did actually implement all those generic interfaces - even though they don't :)