Go designers distinguish between Go language as defined by Go spec and implementation details.
//go:fix is something understood by a particular implementation of Go. Another implementation could implement Go without implementing support for //go:fix and it would be a fully compliant implementation of Go, the language.
If they made it part of the syntax, that would require other implementations to implement it.
If the comments impact correctness (which inlining doesn't, but I believe there are other directives that do), saying it's "an implementation detail" waves away "it's an implementation detail that everyone needs" aka part of the spec.
The reason it feels like a kludge is that "comments" are normally understood to be non-impactful. Is a source transformation that removes all comments valid? If comments have no impact per the spec, yes. But that's not the case here.
In practice comments in go are defined to be able to carry semantic meaning extensibly. Whether they're safe to ignore depends on what meaning is given to the directives, e.g. conditional compilation directives.
There are directives and packages that affect correctness. E.g. the embed package allows you to initialize a variable using a directive. E.g. //go:embed foo.json followed by var jsonFile string initializes the jsonFile variable with the contents of the foo.json file. A compiler or tooling that doesn't support this results in broken code.
There's nothing unique to Go about this kind of tooling. It exists in C, Java, Rust, Typescript, and probably dozens of other settings as well. It's the standard way of implementing "after-market" opt-in directives.
Are we referring to 'go fix' as after market tooling?
It's certainly done in many places. JsDoc is the biggest example I can think of. But they're all walking the line of "this doesn't have an impact, except when it does".
It being done by the language owners just makes them the ones walking the line.
The part I object to is overloading comments, which aren't meant to be load bearing. A tool developed outside the language has no choice but to take something that has no meaning and overload it, but language owners weren't forced to take this route; they could've made directives not comments.
In practice, the Go language developers carved syntax out of comments, so that a comment is "anything that starts with //, unless the next characters are go:"
So these comments carry more weight than how those comment annotations might be consumed by optional tools for other languages.
For most of the listed examples, I think the corresponding C annotation would have been "[[deprecated]]", which has been added to the syntax as of C23.
That's why you find it in the comments. That is where tools have found a place to add their own syntax without breaking the Go code.
Absolutely you can do the same in Java. It exists to the exact same degree as it does in Go. I expect it isn't done as often in the Java world because it is much harder to parse Java code so the tools don't get built.
This also does not change th code. It is an advertisement to a linter-loke tool to take some action on the source code. Its most similar to linter directives which usually are comments.
> The reason it feels like a kludge is that "comments" are normally understood to be non-impactful. Is a source transformation that removes all comments valid? If comments have no impact per the spec, yes. But that's not the case here.
This is not inlining in the compiler. It's a directive to a source transformation (refactoring) tool. So yes, this has no impact on the code. It will do things if you run `go fix` on your codebase, otherwise it won't.
I don’t understand why that wouldn’t be valid. As far as I understand if you compile code with these go:fix comments, they will be ignored. But if instead of compiling the code you run ‘go fix’, the source code will be modified to inline the function call. Only after the source code has been modified in this way would compiling reflect the inlining. Do you have a different understanding?
I mean that directives other than inlining impact correctness. If you have a source file that only builds for one OS, stripping the build tag will break your build.
It only seems right because there are no other implementations and the distinction is meaningless. You don't want to live in the world of multiple slightly different implementations all of which you need to support, this is, roughly, what the C++ build story looks like, and it's not fun.
Because these are instructions for users for making tool-assisted changes to their source code, not a behavior that exists at runtime (or even compile time). A new syntax wouldn't make sense for it.
For other things, like `//go:noinline`, this is fair criticism. `//go:fix inline` is quite different in every way.
This is begging the question. Yes, but why did they do that over dedicated syntax?
(My personal theory is that early go had a somewhat misguided idea of simplicity, and preferred overloading existing concepts with special cases over introducing new keywords. Capitalization for visibility is another example of that.)
I'm no longer sure what you're saying. You asked why they didn't go with dedicated syntax, I listed two advantageous aspects of the chosen syntax. We know it's an overloaded comment: that's literally one of the advantages.
Well, I've been unable to follow you as well, then. Obviously if they'd used a different type of syntax (e.g. using # for annotations), those would also be compatible with the language spec, and other implementations would still be just as capable of ignoring all unknown annotations.
(Though for the record, talking about alternative implementations when discussing Go is kind of a funny joke.)
I suppose, to minimize its use. If annotations have the same syntactic weight as normal statements, such as “if” or “for” statements, there’s a temptation to use them liberally, which is clearly not a good fit for Go.
By making them comments, Go subtly signals that these are exceptional, making them less prominent and harder to abuse.
//go:fix is something understood by a particular implementation of Go. Another implementation could implement Go without implementing support for //go:fix and it would be a fully compliant implementation of Go, the language.
If they made it part of the syntax, that would require other implementations to implement it.