How to get the sum of a struct's fields mem::size_of's? Or more generally, how to iterate over the fields of a struct in Rust? Is such stuff even possible with regular macros or do I need procedural macros or something else?
What do you mean with "not the best idea"? Serde for example must use some kind of "compile-time iteration" mechanism which makes it very powerful and generic and I'd like to understand how.
@purefanatic Well, doing macros for a dedicated feature in a library is one thing. Serde does use derive macros for that, but as Denys says, it's not a regular walk in the park, and might be too much for something as simple as making a sum.
@DenysSéguret Probably? :D Yes I avoided them for the most part. I just thought there might be some kind of simpler reflection API. But according to your suggestions I might continue staying away for now as it's not really that important for my case at hand...
I've a bunch of programs which were compiling and which randomly aren't anymore with last rust versions. Common points: several paths to the same crate (same version) due to republish
I'm tired to answer mails from blockchain companies. They seem to be ready to hire people whatever the cost... They have too much money, it's insane...
That's what I do now but it's quite a mess when I use minimad in a macro of termimad used in yet another crate... I have to manually import termimad::minimad even while minimad isn't visible because it's in the macro...
I'd so much like imports in macros to be done as if they were in functions...
short term it's OK. But I lost job security so the change will be confirmed to be OK when I have several recurring customers
> The string "0.1.12" is a semver version requirement. Since this string does not have any operators in it, it is interpreted the same way as if we had specified "^0.1.12", which is called a caret requirement.
> By default, the Cargo.lock file that is included with the package will be ignored.
@DenysSéguret using "=" just risks making things worse, since it won't lock transitive dependencies, so you may end up with 2 versions of the same crate in a way that wouldn't happen with "^" (implicit or explicit)
this is important e.g. when you implement a trait from crate A on type X and pass an X to crate B with a generic constraint on the same trait from crate A (if you have 2 versions of crate A, you're screwed)