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E0623 highlights wrong parameter in async fn #74256
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related: #63499 |
Seems related to #74072. Triaging as On Deck since this is an incorrect diagnostic which can cause confusion. |
Another case: async fn async_fn(x: &i32, y: &mut &i32) {
*y = x;
}
fn sync_fn(x: &i32, y: &mut &i32) {
*y = x;
} Output (playground)
The error message for |
Output for the async functions in both cases with
Looks like this can be tagged as fixed by NLL. |
@SNCPlay42 - since this is tagged as fixed by NLL, do you think we can go ahead and close the whole issue? |
This still reproduces for me. Adding |
@rustbot claim |
I think we can make some more significant improvements to the error message here, since it's taken me awhile to figure out what it's really trying to tell me. Since this issue was filed, the error message has changed slightly (probably because of this change. Here's the current error message:
To me the most confusing thing, in both the sync and async case, is that it's not clear how the parameters and the return values are declared with different lifetimes. I thought "they aren't declared with any lifetime, can't the compiler infer one that works?" So I tried a similar example that does not use an impl:
For this one, the error is:
This one is a lot clearer to me. Basically, the compiler is saying "there are too many lifetimes here and I can't tell which ones you meant to relate to which others. Please be more explicit to help me figure it out." In the impl case, it seems like we have a lifetime elision rule that assumes returned references are borrowed from |
See #74597 |
I'm going to unassign myself from this for I can focus more on the generator captures issue. |
@rustbot claim |
@rustbot label +AsyncAwait-Polish |
Point at correct argument when async fn output type lifetime disagrees with signature Fixes most of rust-lang#74256. ## Problems fixed This PR fixes a couple of related problems in the error reporting code. ### Highlighting the wrong argument First, the error reporting code was looking at the desugared return type of an `async fn` to decide which parameter to highlight. For example, a function like ```rust async fn async_fn(self: &Struct, f: &u32) -> &u32 { f } ``` desugars to ```rust async fn async_fn<'a, 'b>(self: &'a Struct, f: &'b u32) -> impl Future<Output = &'a u32> + 'a + 'b { f } ``` Since `f: &'b u32` is returned but the output type is `&'a u32`, the error would occur when checking that `'a: 'b`. The reporting code would look to see if the "offending" lifetime `'b` was included in the return type, and because the code was looking at the desugared future type, it was included. So it defaulted to reporting that the source of the other lifetime `'a` (the `self` type) was the problem, when it was really the type of `f`. (Note that if it had chosen instead to look at `'a` first, it too would have been included in the output type, and it would have arbitrarily reported the error (correctly this time) on the type of `f`.) Looking at the actual future type isn't useful for this reason; it captures all input lifetimes. Using the written return type for `async fn` solves this problem and results in less confusing error messages for the user. This isn't a perfect fix, unfortunately; writing the "manually desugared" form of the above function still results in the wrong parameter being highlighted. Looking at the output type of every `impl Future` return type doesn't feel like a very principled approach, though it might work. The problem would remain for function signatures that look like the desugared one above but use different traits. There may be deeper changes required to pinpoint which part of each type is conflicting. ### Lying about await point capture causing lifetime conflicts The second issue fixed by this PR is the unnecessary complexity in `try_report_anon_anon_conflict`. It turns out that the root cause I suggested in rust-lang#76547 (comment) wasn't really the root cause. Adding special handling to report that a variable was captured over an await point only made the error messages less correct and pointed to a problem other than the one that actually occurred. Given the above discussion, it's easy to see why: `async fn`s capture all input lifetimes in their return type, so holding an argument across an await point should never cause a lifetime conflict! Removing the special handling simplified the code and improved the error messages (though they still aren't very good!) ## Future work * Fix error reporting on the "desugared" form of this code * Get the `suggest_adding_lifetime_params` suggestion firing on these examples * cc rust-lang#42703, I think r? `@estebank`
Point at correct argument when async fn output type lifetime disagrees with signature Fixes most of rust-lang#74256. ## Problems fixed This PR fixes a couple of related problems in the error reporting code. ### Highlighting the wrong argument First, the error reporting code was looking at the desugared return type of an `async fn` to decide which parameter to highlight. For example, a function like ```rust async fn async_fn(self: &Struct, f: &u32) -> &u32 { f } ``` desugars to ```rust async fn async_fn<'a, 'b>(self: &'a Struct, f: &'b u32) -> impl Future<Output = &'a u32> + 'a + 'b { f } ``` Since `f: &'b u32` is returned but the output type is `&'a u32`, the error would occur when checking that `'a: 'b`. The reporting code would look to see if the "offending" lifetime `'b` was included in the return type, and because the code was looking at the desugared future type, it was included. So it defaulted to reporting that the source of the other lifetime `'a` (the `self` type) was the problem, when it was really the type of `f`. (Note that if it had chosen instead to look at `'a` first, it too would have been included in the output type, and it would have arbitrarily reported the error (correctly this time) on the type of `f`.) Looking at the actual future type isn't useful for this reason; it captures all input lifetimes. Using the written return type for `async fn` solves this problem and results in less confusing error messages for the user. This isn't a perfect fix, unfortunately; writing the "manually desugared" form of the above function still results in the wrong parameter being highlighted. Looking at the output type of every `impl Future` return type doesn't feel like a very principled approach, though it might work. The problem would remain for function signatures that look like the desugared one above but use different traits. There may be deeper changes required to pinpoint which part of each type is conflicting. ### Lying about await point capture causing lifetime conflicts The second issue fixed by this PR is the unnecessary complexity in `try_report_anon_anon_conflict`. It turns out that the root cause I suggested in rust-lang#76547 (comment) wasn't really the root cause. Adding special handling to report that a variable was captured over an await point only made the error messages less correct and pointed to a problem other than the one that actually occurred. Given the above discussion, it's easy to see why: `async fn`s capture all input lifetimes in their return type, so holding an argument across an await point should never cause a lifetime conflict! Removing the special handling simplified the code and improved the error messages (though they still aren't very good!) ## Future work * Fix error reporting on the "desugared" form of this code * Get the `suggest_adding_lifetime_params` suggestion firing on these examples * cc rust-lang#42703, I think r? `@estebank`
There is a remaining issue not fixed by #92183 which I'll attempt to elucidate here. In This is a little broken. Just because a lifetime appears in the return type does not necessarily mean the return type had anything to do with the current error. We want to know what types the failing lifetime obligation came from, and the span of those types. For example, for each lifetime it could be
|
Current output:
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Output (playground)
The error in
sync_fn
is correct, but the one forasync_fn
incorrectly claims the return type lifetime is different fromself
's lifetime, when they are in fact the same per the elision rules.The text was updated successfully, but these errors were encountered: