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2023-11-19rustdoc-search: add support for associated typesMichael Howell-0/+44
2023-11-17Rollup merge of #117338 - workingjubilee:asmjs-meets-thanatos, r=b-naberMatthias Krüger-1/+0
Remove asmjs Fulfills [MCP 668](https://github.com/rust-lang/compiler-team/issues/668). `asmjs-unknown-emscripten` does not work as-specified, and lacks essential upstream support for generating asm.js, so it should not exist at all.
2023-11-15Re-format code with new rustfmtMark Rousskov-61/+75
2023-11-14finish `RegionKind` renamelcnr-7/+7
- `ReFree` -> `ReLateParam` - `ReEarlyBound` -> `ReEarlyParam`
2023-11-13rename `ReLateBound` to `ReBound`lcnr-9/+5
other changes: - `Region::new_late_bound` -> `Region::new_bound` - `Region::is_late_bound` -> `Region::is_bound`
2023-11-08Rollup merge of #117531 - ↵Matthias Krüger-6/+3
fmease:rustdoc-effects-properly-elide-x-crate-host-args, r=GuillaumeGomez rustdoc: properly elide cross-crate host effect args Fixes FIXMEs introduced in #116670.
2023-11-08rustdoc: minor changes suggested by clippy perf lints.Nicholas Nethercote-2/+3
2023-11-05rustdoc: properly elide cross-crate host effect argsLeón Orell Valerian Liehr-6/+3
2023-11-02Minimize `pub` usage in `source_map.rs`.Nicholas Nethercote-2/+1
Most notably, this commit changes the `pub use crate::*;` in that file to `use crate::*;`. This requires a lot of `use` items in other crates to be adjusted, because everything defined within `rustc_span::*` was also available via `rustc_span::source_map::*`, which is bizarre. The commit also removes `SourceMap::span_to_relative_line_string`, which is unused.
2023-10-31Rollup merge of #113241 - poliorcetics:85138-doc-object-safety, r=GuillaumeGomezMatthias Krüger-0/+3
rustdoc: Document lack of object safety on affected traits Closes #85138 I saw the issue didn't have any recent activity, if there is another MR for it I missed it. I want the issue to move forward so here is my proposition. It takes some space just before the "Implementors" section and only if the trait is **not** object safe since it is the only case where special care must be taken in some cases and this has the benefit of avoiding generation of HTML in (I hope) the common case.
2023-10-31Auto merge of #117377 - dtolnay:deprecatedsince, r=cjgillotbors-3/+3
Store #[deprecated] attribute's `since` value in parsed form This PR implements the first followup bullet listed in https://github.com/rust-lang/rust/pull/117148#issue-1960240108. We centralize error handling to the attribute parsing code in `compiler/rustc_attr/src/builtin.rs`, and thereby remove some awkward error codepaths from later phases of compilation that had to make sense of these #\[deprecated\] attributes, namely `compiler/rustc_passes/src/stability.rs` and `compiler/rustc_middle/src/middle/stability.rs`.
2023-10-30Rollup merge of #112463 - fmease:rustdoc-elide-x-crate-def-gen-args, ↵Guillaume Gomez-31/+113
r=GuillaumeGomez rustdoc: elide cross-crate default generic arguments Elide cross-crate generic arguments if they coincide with their default. TL;DR: Most notably, no more `Box<…, Global>` in `std`'s docs, just `Box<…>` from now on. Fixes #80379. Also helps with #44306. Follow-up to #103885, #107637. r? ``@ghost``
2023-10-30rustdoc: elide cross-crate default generic argumentsLeón Orell Valerian Liehr-31/+113
2023-10-29Rename Since -> StableSince in preparation for a DeprecatedSinceDavid Tolnay-3/+3
2023-10-29feat: render Object Safety informations non-object safe traitsAlexis (Poliorcetics) Bourget-0/+3
2023-10-28Remove asmjs from toolsJubilee Young-1/+0
2023-10-29rustdoc: Use `ThinVec` in `GenericParamDefKind`Noah Lev-11/+11
This should hopefully reduce memory usage and improve performance since these vectors are often empty (and `GenericParamDefKind` is constructed *a lot*).
2023-10-27Auto merge of #116471 - notriddle:notriddle/js-trait-alias, r=GuillaumeGomezbors-10/+41
rustdoc: use JS to inline target type impl docs into alias Preview docs: - https://notriddle.com/rustdoc-html-demo-5/js-trait-alias/std/io/type.Result.html - https://notriddle.com/rustdoc-html-demo-5/js-trait-alias-compiler/rustc_middle/ty/type.PolyTraitRef.html This pull request also includes a bug fix for trait alias inlining across crates. This means more documentation is generated, and is why ripgrep runs slower (it's a thin wrapper on top of the `grep` crate, so 5% of its docs are now the Result type). - Before, built with rustdoc 1.75.0-nightly (aa1a71e9e 2023-10-26), Result type alias method docs are missing: http://notriddle.com/rustdoc-html-demo-5/ripgrep-js-nightly/rg/type.Result.html - After, built with this branch, all the methods on Result are shown: http://notriddle.com/rustdoc-html-demo-5/ripgrep-js-trait-alias/rg/type.Result.html *Review note: This is mostly just reverting https://github.com/rust-lang/rust/pull/115201. The last commit has the new work in it.* Fixes #115718 This is an attempt to balance three problems, each of which would be violated by a simpler implementation: - A type alias should show all the `impl` blocks for the target type, and vice versa, if they're applicable. If nothing was done, and rustdoc continues to match them up in HIR, this would not work. - Copying the target type's docs into its aliases' HTML pages directly causes far too much redundant HTML text to be generated when a crate has large numbers of methods and large numbers of type aliases. - Using JavaScript exclusively for type alias impl docs would be a functional regression, and could make some docs very hard to find for non-JS readers. - Making sure that only applicable docs are show in the resulting page requires a type checkers. Do not reimplement the type checker in JavaScript. So, to make it work, rustdoc stashes these type-alias-inlined docs in a JSONP "database-lite". The file is generated in `write_shared.rs`, included in a `<script>` tag added in `print_item.rs`, and `main.js` takes care of patching the additional docs into the DOM. The format of `trait.impl` and `type.impl` JS files are superficially similar. Each line, except the JSONP wrapper itself, belongs to a crate, and they are otherwise separate (rustdoc should be idempotent). The "meat" of the file is HTML strings, so the frontend code is very simple. Links are relative to the doc root, though, so the frontend needs to fix that up, and inlined docs can reuse these files. However, there are a few differences, caused by the sophisticated features that type aliases have. Consider this crate graph: ```text --------------------------------- | crate A: struct Foo<T> | | type Bar = Foo<i32> | | impl X for Foo<i8> | | impl Y for Foo<i32> | --------------------------------- | ---------------------------------- | crate B: type Baz = A::Foo<i8> | | type Xyy = A::Foo<i8> | | impl Z for Xyy | ---------------------------------- ``` The type.impl/A/struct.Foo.js JS file has a structure kinda like this: ```js JSONP({ "A": [["impl Y for Foo<i32>", "Y", "A::Bar"]], "B": [["impl X for Foo<i8>", "X", "B::Baz", "B::Xyy"], ["impl Z for Xyy", "Z", "B::Baz"]], }); ``` When the type.impl file is loaded, only the current crate's docs are actually used. The main reason to bundle them together is that there's enough duplication in them for DEFLATE to remove the redundancy. The contents of a crate are a list of impl blocks, themselves represented as lists. The first item in the sublist is the HTML block, the second item is the name of the trait (which goes in the sidebar), and all others are the names of type aliases that successfully match. This way: - There's no need to generate these files for types that have no aliases in the current crate. If a dependent crate makes a type alias, it'll take care of generating its own docs. - There's no need to reimplement parts of the type checker in JavaScript. The Rust backend does the checking, and includes its results in the file. - Docs defined directly on the type alias are dropped directly in the HTML by `render_assoc_items`, and are accessible without JavaScript. The JSONP file will not list impl items that are known to be part of the main HTML file already. [JSONP]: https://en.wikipedia.org/wiki/JSONP
2023-10-24Handle structured stable attribute 'since' version in rustdocDavid Tolnay-3/+3
2023-10-23Remove FIXME after fixMichael Howell-1/+0
Co-authored-by: León Orell Valerian Liehr <me@fmease.dev>
2023-10-22rustdoc: wrap Type with Box instead of GenericsMichael Howell-23/+23
When these `Box<Generics>` types were introduced, `Generics` was made with `Vec` and much larger. Now that it's made with `ThinVec`, `Type` is bigger and should be boxed instead.
2023-10-22rustdoc: use JS to inline target type impl docs into aliasMichael Howell-10/+41
This is an attempt to balance three problems, each of which would be violated by a simpler implementation: - A type alias should show all the `impl` blocks for the target type, and vice versa, if they're applicable. If nothing was done, and rustdoc continues to match them up in HIR, this would not work. - Copying the target type's docs into its aliases' HTML pages directly causes far too much redundant HTML text to be generated when a crate has large numbers of methods and large numbers of type aliases. - Using JavaScript exclusively for type alias impl docs would be a functional regression, and could make some docs very hard to find for non-JS readers. - Making sure that only applicable docs are show in the resulting page requires a type checkers. Do not reimplement the type checker in JavaScript. So, to make it work, rustdoc stashes these type-alias-inlined docs in a JSONP "database-lite". The file is generated in `write_shared.rs`, included in a `<script>` tag added in `print_item.rs`, and `main.js` takes care of patching the additional docs into the DOM. The format of `trait.impl` and `type.impl` JS files are superficially similar. Each line, except the JSONP wrapper itself, belongs to a crate, and they are otherwise separate (rustdoc should be idempotent). The "meat" of the file is HTML strings, so the frontend code is very simple. Links are relative to the doc root, though, so the frontend needs to fix that up, and inlined docs can reuse these files. However, there are a few differences, caused by the sophisticated features that type aliases have. Consider this crate graph: ```text --------------------------------- | crate A: struct Foo<T> | | type Bar = Foo<i32> | | impl X for Foo<i8> | | impl Y for Foo<i32> | --------------------------------- | ---------------------------------- | crate B: type Baz = A::Foo<i8> | | type Xyy = A::Foo<i8> | | impl Z for Xyy | ---------------------------------- ``` The type.impl/A/struct.Foo.js JS file has a structure kinda like this: ```js JSONP({ "A": [["impl Y for Foo<i32>", "Y", "A::Bar"]], "B": [["impl X for Foo<i8>", "X", "B::Baz", "B::Xyy"], ["impl Z for Xyy", "Z", "B::Baz"]], }); ``` When the type.impl file is loaded, only the current crate's docs are actually used. The main reason to bundle them together is that there's enough duplication in them for DEFLATE to remove the redundancy. The contents of a crate are a list of impl blocks, themselves represented as lists. The first item in the sublist is the HTML block, the second item is the name of the trait (which goes in the sidebar), and all others are the names of type aliases that successfully match. This way: - There's no need to generate these files for types that have no aliases in the current crate. If a dependent crate makes a type alias, it'll take care of generating its own docs. - There's no need to reimplement parts of the type checker in JavaScript. The Rust backend does the checking, and includes its results in the file. - Docs defined directly on the type alias are dropped directly in the HTML by `render_assoc_items`, and are accessible without JavaScript. The JSONP file will not list impl items that are known to be part of the main HTML file already. [JSONP]: https://en.wikipedia.org/wiki/JSONP
2023-10-20s/Generator/Coroutine/Oli Scherer-2/+2
2023-10-14Rollup merge of #115439 - fmease:rustdoc-priv-repr-transparent-heuristic, ↵Matthias Krüger-15/+36
r=GuillaumeGomez rustdoc: hide `#[repr(transparent)]` if it isn't part of the public ABI Fixes #90435. This hides `#[repr(transparent)]` when the non-1-ZST field the struct is "transparent" over is private. CC `@RalfJung` Tentatively nominating it for the release notes, feel free to remove the nomination. `@rustbot` label needs-fcp relnotes A-rustdoc-ui
2023-10-13Add some FIXMEs for remaining issues that we need to fix before using more ↵Oli Scherer-0/+4
const trait things in libcore
2023-10-12hide `host` param from generic parameter list of `~const` boundsOli Scherer-8/+16
2023-10-12Hide host effect params from docsOli Scherer-4/+7
2023-10-09Auto merge of #116142 - GuillaumeGomez:enum-variant-display, r=fmeasebors-15/+20
[rustdoc] Show enum discrimant if it is a C-like variant Fixes https://github.com/rust-lang/rust/issues/101337. We currently display values for associated constant items in traits: ![image](https://github.com/rust-lang/rust/assets/3050060/03e566ec-c670-47b4-8ca2-b982baa7a0f4) And we also display constant values like [here](file:///home/imperio/rust/rust/build/x86_64-unknown-linux-gnu/doc/std/f32/consts/constant.E.html). I think that for coherency, we should display values of C-like enum variants. With this change, it looks like this: ![image](https://github.com/rust-lang/rust/assets/3050060/b53fbbe0-bdb1-4289-8537-f2dd4988e9ac) As for the display of the constant value itself, I used what we already have to keep coherency. We display the C-like variants value in the following scenario: 1. It is a C-like variant with a value set => all the time 2. It is a C-like variant without a value set: All other variants are C-like variants and at least one them has its value set. Here is the result in code: ```rust // Ax and Bx value will be displayed. enum A { Ax = 12, Bx, } // Ax and Bx value will not be displayed enum B { Ax, Bx, } // Bx value will not be displayed enum C { Ax(u32), Bx, } // Bx value will not be displayed, Cx value will be displayed. #[repr(u32)] enum D { Ax(u32), Bx, Cx = 12, } ``` r? `@notriddle`
2023-10-09Improve codeGuillaume Gomez-24/+12
2023-10-04Rollup merge of #116388 - ↵Matthias Krüger-99/+66
fmease:rustdoc-fix-n-clean-up-x-crate-higher-ranked-params, r=notriddle rustdoc: fix & clean up handling of cross-crate higher-ranked parameters Preparatory work for the refactoring planned in #113015 (for correctness & maintainability). --- 1. Render the higher-ranked parameters of cross-crate function pointer types **(*)**. 2. Replace occurrences of `collect_referenced_late_bound_regions()` (CRLBR) with `bound_vars()`. The former is quite problematic and the use of the latter allows us to yank a lot of hacky code **(†)** as you can tell from the diff! :) 3. Add support for cross-crate higher-ranked types (`#![feature(non_lifetime_binders)]`). We were previously ICE'ing on them (see `inline_cross/non_lifetime_binders.rs`). --- **(*)**: Extracted from test `inline_cross/fn-type.rs`: ```diff - fn(_: &'z fn(_: &'b str), _: &'a ()) -> &'a () + for<'z, 'a, '_unused> fn(_: &'z for<'b> fn(_: &'b str), _: &'a ()) -> &'a () ``` **(†)**: It returns an `FxHashSet` which isn't *predictable* or *stable* wrt. source code (`.rmeta`) changes. To elaborate, the ordering of late-bound regions doesn't necessarily reflect the ordering found in the source code. It does seem to be stable across compilations but modifying the source code of the to-be-documented crates (like adding or renaming items) may result in a different order: <details><summary>Example</summary> Let's assume that we're documenting the cross-crate re-export of `produce` from the code below. On `master`, rustdoc would render the list of binders as `for<'x, 'y, 'z>`. However, once you add back the functions `a`–`l`, it would be rendered as `for<'z, 'y, 'x>` (reverse order)! Results may vary. `bound_vars()` fixes this as it returns them in source order. ```rs // pub fn a() {} // pub fn b() {} // pub fn c() {} // pub fn d() {} // pub fn e() {} // pub fn f() {} // pub fn g() {} // pub fn h() {} // pub fn i() {} // pub fn j() {} // pub fn k() {} // pub fn l() {} pub fn produce() -> impl for<'x, 'y, 'z> Trait<'z, 'y, 'x> {} pub trait Trait<'a, 'b, 'c> {} impl Trait<'_, '_, '_> for () {} ``` </details> Further, as the name suggests, CRLBR only collects *referenced* regions and thus we drop unused binders. `bound_vars()` contains unused binders on the other hand. Let's stay closer to the source where possible and keep unused binders. Lastly, using `bound_vars()` allows us to get rid of * the deduplication and alphabetical sorting hack in `simplify.rs` * the weird field `bound_params` on `EqPredicate` both of which were introduced by me in #102707 back when I didn't know better. To illustrate, let's look at the cross-crate bound `T: for<'a, 'b> Trait<A<'a> = (), B<'b> = ()>`. * With CRLBR + `EqPredicate.bound_params`, *before* bounds simplification we would have the bounds `T: Trait`, `for<'a> <T as Trait>::A<'a> == ()` and `for<'b> <T as Trait>::B<'b> == ()` which required us to merge `for<>`, `for<'a>` and `for<'b>` into `for<'a, 'b>` in a deterministic manner and without introducing duplicate binders. * With `bound_vars()`, we now have the bounds `for<'a, b> T: Trait`, `<T as Trait>::A<'a> == ()` and `<T as Trait>::B<'b> == ()` before bound simplification similar to rustc itself. This obviously no longer requires any funny merging of `for<>`s. On top of that `for<'a, 'b>` is guaranteed to be in source order.
2023-10-03rustdoc: add support for cross-crate higher-ranked typesLeón Orell Valerian Liehr-1/+16
2023-10-03rustdoc: fix & clean up handling of cross-crate higher-ranked lifetimesLeón Orell Valerian Liehr-98/+50
2023-09-30rustdoc: reduce the amount of `asyncness` query executionsLeón Orell Valerian Liehr-1/+7
2023-09-29rustdoc: simplify sugared_async_return_typeLeón Orell Valerian Liehr-26/+9
2023-09-26Don't store lazyness in DefKindMichael Goulet-4/+4
2023-09-25Auto merge of #116084 - fmease:rustdoc-fix-x-crate-async-fn, r=GuillaumeGomezbors-30/+35
rustdoc: correctly render the return type of cross-crate async fns Fixes #115760.
2023-09-25rustdoc: correctly render ret ty of cross-crate async fnsLeón Orell Valerian Liehr-30/+35
2023-09-25Show enum variant value if it is a C-like variantGuillaume Gomez-15/+32
2023-09-23Remove GeneratorWitness and rename GeneratorWitnessMIR.Camille GILLOT-1/+0
2023-09-22Auto merge of #114776 - fee1-dead-contrib:enable-effects-in-libcore, r=oli-obkbors-0/+1
Enable effects for libcore ~~r? `@oli-obk~~` forgot you are on vacation, oops
2023-09-21Record asyncness span in HIRMichael Goulet-2/+6
2023-09-21Rollup merge of #115972 - RalfJung:const-consistency, r=oli-obkGuillaume Gomez-4/+4
rename mir::Constant -> mir::ConstOperand, mir::ConstKind -> mir::Const Also, be more consistent with the `to/eval_bits` methods... we had some that take a type and some that take a size, and then sometimes the one that takes a type is called `bits_for_ty`. Turns out that `ty::Const`/`mir::ConstKind` carry their type with them, so we don't need to even pass the type to those `eval_bits` functions at all. However this is not properly consistent yet: in `ty` we have most of the methods on `ty::Const`, but in `mir` we have them on `mir::ConstKind`. And indeed those two types are the ones that correspond to each other. So `mir::ConstantKind` should actually be renamed to `mir::Const`. But what to do with `mir::Constant`? It carries around a span, that's really more like a constant operand that appears as a MIR operand... it's more suited for `syntax.rs` than `consts.rs`, but the bigger question is, which name should it get if we want to align the `mir` and `ty` types? `ConstOperand`? `ConstOp`? `Literal`? It's not a literal but it has a field called `literal` so it would at least be consistently wrong-ish... ``@oli-obk`` any ideas?
2023-09-21rename mir::Constant -> mir::ConstOperand, mir::ConstKind -> mir::ConstRalf Jung-4/+4
2023-09-20ignore host effect params in rustdocDeadbeef-0/+1
2023-09-19Auto merge of #113955 - cjgillot:name-apit, r=WaffleLapkinbors-1/+1
Pretty-print argument-position impl trait to name it. This removes a corner case. RPIT and TAIT keep having no name, and it would be wrong to use the one in HIR (Ident::empty), so I make this case ICE.
2023-09-19Auto merge of #115865 - RalfJung:mir-mod, r=oli-obkbors-5/+4
move things out of mir/mod.rs This moves a bunch of things out of `mir/mod.rs`: - all const-related stuff to a new file consts.rs - all statement/place/operand-related stuff to a new file statement.rs - all pretty-printing related stuff to pretty.rs `mod.rs` started out with 3100 lines and ends up with 1600. :) Also there was some pretty-printing stuff in terminator.rs, that also got moved to pretty.rs, and I reordered things in pretty.rs so that it can be grouped by functionality. Only the commit "use pretty_print_const_value from MIR constant 'extra' printing" has any behavior changes; it resolves the issue of having a fancy and a very crude pretty-printer for `ConstValue`. r? `@oli-obk`
2023-09-19Rollup merge of #112725 - notriddle:notriddle/advanced-search, r=GuillaumeGomezGuillaume Gomez-4/+0
rustdoc-search: add support for type parameters r? `@GuillaumeGomez` ## Preview * https://notriddle.com/rustdoc-html-demo-4/advanced-search/rustdoc/read-documentation/search.html * https://notriddle.com/rustdoc-html-demo-4/advanced-search/std/index.html?search=option%3Coption%3CT%3E%3E%20-%3E%20option%3CT%3E * https://notriddle.com/rustdoc-html-demo-4/advanced-search/std/index.html?search=option%3CT%3E,%20E%20-%3E%20result%3CT,%20E%3E * https://notriddle.com/rustdoc-html-demo-4/advanced-search/std/index.html?search=-%3E%20option%3CT%3E ## Description When writing a type-driven search query in rustdoc, specifically one with more than one query element, non-existent types become generic parameters instead of auto-correcting (which is currently only done for single-element queries) or giving no result. You can also force a generic type parameter by writing `generic:T` (and can force it to not use a generic type parameter with something like `struct:T` or whatever, though if this happens it means the thing you're looking for doesn't exist and will give you no results). There is no syntax provided for specifying type constraints for generic type parameters. When you have a generic type parameter in a search query, it will only match up with generic type parameters in the actual function, not concrete types that match, not concrete types that implement a trait. It also strictly matches based on when they're the same or different, so `option<T>, option<U> -> option<U>` matches `Option::and`, but not `Option::or`. Similarly, `option<T>, option<T> -> option<T>` matches `Option::or`, but not `Option::and`. ## Motivation This feature is motivated by the many "combinitor"-type functions found in generic libraries, such as Option, Future, Iterator, and Entry. These highly-generic functions have names that are almost completely arbitrary, and a type signature that tells you what it actually does. This PR is a major step towards[^closure] being able to easily search for generic functions by their type signature instead of by name. Some examples of combinators that can be found using this PR (try them out in the preview): * `option<option<T>> -> option<T>` returns Option::flatten * `option<T> -> result<T>` returns Option::ok_or * `option<result<T>> -> result<option<T>>` returns Option::transpose * `entry<K, V>, FnOnce -> V` returns `Entry::or_insert_with` (and `or_insert_with_key`, since there's no way to specify the generics on FnOnce) [^closure]: For this feature to be as useful as it ought to be, you should be able to search for *trait-associated types* and *closures*. This PR does not implement either of these: they are **Future possibilities**. Trait-associated types would allow queries like `option<T> -> iterator<item=T>` to return `Option::iter`. We should also allow `option<T> -> iterator<T>` to match the associated type version. Closures would make a good way to query for things like `Option::map`. Closure support needs associated types to be represented in the search index, since `FnOnce() -> i32` desugars to `FnOnce<Output=i32, ()>`, so associated trait types should be implemented first. Also, we'd want to expose an easy way to query closures without specifying which of the three traits you want.
2023-09-19move ConstValue into mirRalf Jung-5/+4
this way we have mir::ConstValue and ty::ValTree as reasonably parallel
2023-09-18rustdoc: hide repr(transparent) if it isn't part of the public ABILeón Orell Valerian Liehr-15/+36
2023-09-13make the eval() functions on our const types return the resulting valueRalf Jung-2/+2