I want to test an implementation that uses a native function std::fs::metadata and preferably I want to use dependency injection. But I can't seem to figure out how to do it. I've defined the struct for the implementation with a generic that in my head would be the fs module. But it seems like Rust doesn't accept modules to be passed into the implementation like that? I get expected trait, found module fs`.
Hope all of that makes sense, I'm in a bit of a rush. It feels like I'm missing something very obvious but I can't seem to figure out what. Any help is appreciated.
@Tim I just commented, since I can't get it working either. @Shepmaster might have made a mistake or we two are stupid :3 (and yes, that nightly has the change -- unknown features lead to an error)
The PR introducing default-run is lacking explanation again. This is honestly one of the most annoying things in the Rust community to me. These PRs of regular contributors without any explanations of what changed. This one at least had a reference to the issue, but that's not really helping either.
Oh nevermind, maybe the change is not in the nightly yet °_° I think the feature actually existed before. Sorry! So we might need to wait for tomorrow nightly.
But if you think a step further: You don't specify the default run on the virtual manifest but for a sub crate. And iff you only have one binary, this will be executed
If you have multiple binarys in one crate, the defaulted will be used
So that crate is "a thin wrapper around std::collections::HashMap". And that hashmap does not have a deterministic ordering. It's a security measure, but the order of elements in the hash map is basically random.
The problem has nothing to do with your filter or for_each. It's simply that a HashMap (and thereby a multimap) doesn't keep the elements in a deterministic order.
@trentcl But yeah, if you reword it to this style, then I suppose you can say Copy (and might as well throw in Clone as well) and please link to whichever other Q is most useful
TL;DR: Because it enables local reasoning, and composability.
Your idea of replacing exit() -> ! by exit<T>() -> T only considers the type system and type inference. You are right that from a type inference point of view, both are equivalent. Yet, there is more to a language than the type system...