Without a clear use case it is difficult to recommend the best approach.
There are basically two questions here:
- do you really need indexing?
- do you really need to use
u32
for indices?
When using functional programming style, indexing is generally unnecessary as you operate on iterators instead. In this case, the fact that Vec
only implements Index
for usize
really does not matter.
If your algorithm really needs indexing, then why not use usize
? There are many ways to convert from u32
to usize
, converting at the last moment possible is one possibility, but there are other sites where you could do the conversion, and if you find a chokepoint (or create it) you can get away with only a handful of conversions.
At least, that's the YAGNI point of view.
Personally, as a type freak, I tend to wrap things around a lot. I just like to add semantic information, because let's face it Vec<i32>
just doesn't mean anything.
Rust offers a simple way to create wrapper structures: struct MyType(WrappedType);
. That's it.
Once you have your own type, adding indexing is easy. There are several ways to add other operations:
- if only a few operations make sense, then adding explicitly is best.
- if many operations are necessary, and you do not mind exposing the fact that underneath is a
Vec<X>
, then you can expose it:
- by making it public:
struct MyType(pub WrappedType);
, users can then call .0
to access it.
- by implementing
AsRef
and AsMut
, or creating a getter.
- by implementing
Deref
and DerefMut
(which is implicit, make sure you really want to).
Of course, breaking encapsulation can be annoying later, as it also prevents the maintenance of invariants, so I would consider it a last ditch solution.
index
beusize
- either from the beginning or later, by a shadowinglet
binding.Index<usize>
andIndex<u32>
for a custom data type,let i = 1; foo[i]
becomes a type could not be inferred error.