mirror of
https://github.com/rust-lang/rust-analyzer
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d68e549205
`cargo doc` generates a bunch of warnings on rust-analyzer. Fix all the bare URL and empty code block warnings.
508 lines
16 KiB
Rust
508 lines
16 KiB
Rust
//! Defines `Fixture` -- a convenient way to describe the initial state of
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//! rust-analyzer database from a single string.
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//!
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//! Fixtures are strings containing rust source code with optional metadata.
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//! A fixture without metadata is parsed into a single source file.
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//! Use this to test functionality local to one file.
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//!
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//! Simple Example:
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//! ```
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//! r#"
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//! fn main() {
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//! println!("Hello World")
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//! }
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//! "#
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//! ```
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//!
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//! Metadata can be added to a fixture after a `//-` comment.
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//! The basic form is specifying filenames,
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//! which is also how to define multiple files in a single test fixture
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//!
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//! Example using two files in the same crate:
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//! ```
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//! "
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//! //- /main.rs
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//! mod foo;
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//! fn main() {
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//! foo::bar();
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//! }
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//!
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//! //- /foo.rs
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//! pub fn bar() {}
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//! "
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//! ```
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//!
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//! Example using two crates with one file each, with one crate depending on the other:
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//! ```
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//! r#"
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//! //- /main.rs crate:a deps:b
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//! fn main() {
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//! b::foo();
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//! }
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//! //- /lib.rs crate:b
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//! pub fn b() {
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//! println!("Hello World")
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//! }
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//! "#
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//! ```
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//!
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//! Metadata allows specifying all settings and variables
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//! that are available in a real rust project. See [`Fixture`]
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//! for the syntax.
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//!
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//! Example using some available metadata:
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//! ```
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//! "
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//! //- /lib.rs crate:foo deps:bar,baz cfg:foo=a,bar=b env:OUTDIR=path/to,OTHER=foo
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//! fn insert_source_code_here() {}
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//! "
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//! ```
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use std::iter;
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use rustc_hash::FxHashMap;
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use stdx::trim_indent;
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#[derive(Debug, Eq, PartialEq)]
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pub struct Fixture {
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/// Specifies the path for this file. It must start with "/".
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pub path: String,
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/// Defines a new crate and make this file its root module.
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///
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/// Version and repository URL of the crate can optionally be specified; if
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/// either one is specified, the other must also be specified.
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///
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/// Syntax:
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/// - `crate:my_awesome_lib`
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/// - `crate:my_awesome_lib@0.0.1,https://example.com/repo.git`
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pub krate: Option<String>,
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/// Specifies dependencies of this crate. This must be used with `crate` meta.
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///
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/// Syntax: `deps:hir-def,ide-assists`
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pub deps: Vec<String>,
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/// Limits crates in the extern prelude. The set of crate names must be a
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/// subset of `deps`. This must be used with `crate` meta.
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///
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/// If this is not specified, all the dependencies will be in the extern prelude.
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///
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/// Syntax: `extern-prelude:hir-def,ide-assists`
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pub extern_prelude: Option<Vec<String>>,
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/// Specifies configuration options to be enabled. Options may have associated
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/// values.
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///
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/// Syntax: `cfg:test,dbg=false,opt_level=2`
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pub cfgs: Vec<(String, Option<String>)>,
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/// Specifies the edition of this crate. This must be used with `crate` meta. If
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/// this is not specified, ([`base_db::input::Edition::CURRENT`]) will be used.
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/// This must be used with `crate` meta.
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///
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/// Syntax: `edition:2021`
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pub edition: Option<String>,
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/// Specifies environment variables.
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///
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/// Syntax: `env:PATH=/bin,RUST_LOG=debug`
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pub env: FxHashMap<String, String>,
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/// Introduces a new [source root](base_db::input::SourceRoot). This file **and
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/// the following files** will belong the new source root. This must be used
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/// with `crate` meta.
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///
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/// Use this if you want to test something that uses `SourceRoot::is_library()`
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/// to check editability.
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///
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/// Note that files before the first fixture with `new_source_root` meta will
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/// belong to an implicitly defined local source root.
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///
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/// Syntax:
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/// - `new_source_root:library`
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/// - `new_source_root:local`
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pub introduce_new_source_root: Option<String>,
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/// Explicitly declares this crate as a library outside current workspace. This
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/// must be used with `crate` meta.
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///
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/// This is implied if this file belongs to a library source root.
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///
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/// Use this if you want to test something that checks if a crate is a workspace
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/// member via [`CrateOrigin`](base_db::input::CrateOrigin).
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///
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/// Syntax: `library`
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pub library: bool,
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/// Actual file contents. All meta comments are stripped.
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pub text: String,
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}
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pub struct MiniCore {
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activated_flags: Vec<String>,
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valid_flags: Vec<String>,
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}
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pub struct FixtureWithProjectMeta {
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pub fixture: Vec<Fixture>,
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pub mini_core: Option<MiniCore>,
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pub proc_macro_names: Vec<String>,
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pub toolchain: Option<String>,
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/// Specifies LLVM data layout to be used.
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///
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/// You probably don't want to manually specify this. See LLVM manual for the
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/// syntax, if you must: <https://llvm.org/docs/LangRef.html#data-layout>
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pub target_data_layout: String,
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}
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impl FixtureWithProjectMeta {
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/// Parses text which looks like this:
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///
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/// ```text
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/// //- some meta
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/// line 1
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/// line 2
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/// //- other meta
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/// ```
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///
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/// Fixture can also start with a proc_macros and minicore declaration (in that order):
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///
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/// ```text
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/// //- toolchain: nightly
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/// //- proc_macros: identity
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/// //- minicore: sized
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/// ```
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///
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/// That will set toolchain to nightly and include predefined proc macros and a subset of
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/// `libcore` into the fixture, see `minicore.rs` for what's available. Note that toolchain
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/// defaults to stable.
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pub fn parse(ra_fixture: &str) -> Self {
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let fixture = trim_indent(ra_fixture);
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let mut fixture = fixture.as_str();
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let mut toolchain = None;
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let mut target_data_layout =
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"e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128".to_owned();
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let mut mini_core = None;
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let mut res: Vec<Fixture> = Vec::new();
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let mut proc_macro_names = vec![];
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if let Some(meta) = fixture.strip_prefix("//- toolchain:") {
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let (meta, remain) = meta.split_once('\n').unwrap();
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toolchain = Some(meta.trim().to_owned());
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fixture = remain;
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}
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if let Some(meta) = fixture.strip_prefix("//- target_data_layout:") {
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let (meta, remain) = meta.split_once('\n').unwrap();
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meta.trim().clone_into(&mut target_data_layout);
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fixture = remain;
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}
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if let Some(meta) = fixture.strip_prefix("//- proc_macros:") {
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let (meta, remain) = meta.split_once('\n').unwrap();
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proc_macro_names = meta.split(',').map(|it| it.trim().to_owned()).collect();
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fixture = remain;
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}
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if let Some(meta) = fixture.strip_prefix("//- minicore:") {
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let (meta, remain) = meta.split_once('\n').unwrap();
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mini_core = Some(MiniCore::parse(meta));
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fixture = remain;
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}
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let default = if fixture.contains("//-") { None } else { Some("//- /main.rs") };
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for (ix, line) in default.into_iter().chain(fixture.split_inclusive('\n')).enumerate() {
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if line.contains("//-") {
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assert!(
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line.starts_with("//-"),
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"Metadata line {ix} has invalid indentation. \
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All metadata lines need to have the same indentation.\n\
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The offending line: {line:?}"
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);
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}
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if line.starts_with("//-") {
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let meta = Self::parse_meta_line(line);
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res.push(meta);
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} else {
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if line.starts_with("// ")
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&& line.contains(':')
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&& !line.contains("::")
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&& !line.contains('.')
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&& line.chars().all(|it| !it.is_uppercase())
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{
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panic!("looks like invalid metadata line: {line:?}");
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}
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if let Some(entry) = res.last_mut() {
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entry.text.push_str(line);
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}
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}
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}
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Self { fixture: res, mini_core, proc_macro_names, toolchain, target_data_layout }
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}
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//- /lib.rs crate:foo deps:bar,baz cfg:foo=a,bar=b env:OUTDIR=path/to,OTHER=foo
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fn parse_meta_line(meta: &str) -> Fixture {
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assert!(meta.starts_with("//-"));
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let meta = meta["//-".len()..].trim();
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let mut components = meta.split_ascii_whitespace();
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let path = components.next().expect("fixture meta must start with a path").to_owned();
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assert!(path.starts_with('/'), "fixture path does not start with `/`: {path:?}");
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let mut krate = None;
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let mut deps = Vec::new();
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let mut extern_prelude = None;
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let mut edition = None;
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let mut cfgs = Vec::new();
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let mut env = FxHashMap::default();
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let mut introduce_new_source_root = None;
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let mut library = false;
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for component in components {
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if component == "library" {
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library = true;
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continue;
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}
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let (key, value) =
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component.split_once(':').unwrap_or_else(|| panic!("invalid meta line: {meta:?}"));
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match key {
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"crate" => krate = Some(value.to_owned()),
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"deps" => deps = value.split(',').map(|it| it.to_owned()).collect(),
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"extern-prelude" => {
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if value.is_empty() {
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extern_prelude = Some(Vec::new());
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} else {
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extern_prelude =
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Some(value.split(',').map(|it| it.to_owned()).collect::<Vec<_>>());
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}
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}
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"edition" => edition = Some(value.to_owned()),
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"cfg" => {
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for entry in value.split(',') {
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match entry.split_once('=') {
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Some((k, v)) => cfgs.push((k.to_owned(), Some(v.to_owned()))),
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None => cfgs.push((entry.to_owned(), None)),
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}
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}
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}
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"env" => {
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for key in value.split(',') {
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if let Some((k, v)) = key.split_once('=') {
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env.insert(k.into(), v.into());
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}
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}
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}
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"new_source_root" => introduce_new_source_root = Some(value.to_owned()),
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_ => panic!("bad component: {component:?}"),
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}
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}
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for prelude_dep in extern_prelude.iter().flatten() {
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assert!(
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deps.contains(prelude_dep),
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"extern-prelude {extern_prelude:?} must be a subset of deps {deps:?}"
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);
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}
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Fixture {
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path,
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text: String::new(),
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krate,
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deps,
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extern_prelude,
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cfgs,
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edition,
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env,
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introduce_new_source_root,
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library,
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}
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}
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}
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impl MiniCore {
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const RAW_SOURCE: &'static str = include_str!("./minicore.rs");
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fn has_flag(&self, flag: &str) -> bool {
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self.activated_flags.iter().any(|it| it == flag)
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}
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pub fn from_flags<'a>(flags: impl IntoIterator<Item = &'a str>) -> Self {
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MiniCore {
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activated_flags: flags.into_iter().map(|x| x.to_owned()).collect(),
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valid_flags: Vec::new(),
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}
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}
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#[track_caller]
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fn assert_valid_flag(&self, flag: &str) {
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if !self.valid_flags.iter().any(|it| it == flag) {
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panic!("invalid flag: {flag:?}, valid flags: {:?}", self.valid_flags);
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}
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}
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fn parse(line: &str) -> MiniCore {
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let mut res = MiniCore { activated_flags: Vec::new(), valid_flags: Vec::new() };
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for entry in line.trim().split(", ") {
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if res.has_flag(entry) {
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panic!("duplicate minicore flag: {entry:?}");
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}
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res.activated_flags.push(entry.to_owned());
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}
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res
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}
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pub fn available_flags() -> impl Iterator<Item = &'static str> {
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let lines = MiniCore::RAW_SOURCE.split_inclusive('\n');
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lines
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.map_while(|x| x.strip_prefix("//!"))
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.skip_while(|line| !line.contains("Available flags:"))
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.skip(1)
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.map(|x| x.split_once(':').unwrap().0.trim())
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}
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/// Strips parts of minicore.rs which are flagged by inactive flags.
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///
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/// This is probably over-engineered to support flags dependencies.
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pub fn source_code(mut self) -> String {
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let mut buf = String::new();
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let mut lines = MiniCore::RAW_SOURCE.split_inclusive('\n');
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let mut implications = Vec::new();
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// Parse `//!` preamble and extract flags and dependencies.
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let trim_doc: fn(&str) -> Option<&str> = |line| match line.strip_prefix("//!") {
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Some(it) => Some(it),
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None => {
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assert!(line.trim().is_empty(), "expected empty line after minicore header");
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None
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}
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};
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for line in lines
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.by_ref()
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.map_while(trim_doc)
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.skip_while(|line| !line.contains("Available flags:"))
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.skip(1)
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{
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let (flag, deps) = line.split_once(':').unwrap();
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let flag = flag.trim();
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self.valid_flags.push(flag.to_owned());
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implications.extend(
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iter::repeat(flag)
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.zip(deps.split(", ").map(str::trim).filter(|dep| !dep.is_empty())),
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);
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}
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for (_, dep) in &implications {
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self.assert_valid_flag(dep);
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}
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for flag in &self.activated_flags {
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self.assert_valid_flag(flag);
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}
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// Fixed point loop to compute transitive closure of flags.
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loop {
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let mut changed = false;
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for &(u, v) in &implications {
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if self.has_flag(u) && !self.has_flag(v) {
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self.activated_flags.push(v.to_owned());
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changed = true;
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}
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}
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if !changed {
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break;
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}
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}
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let mut active_regions = Vec::new();
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let mut seen_regions = Vec::new();
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for line in lines {
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let trimmed = line.trim();
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if let Some(region) = trimmed.strip_prefix("// region:") {
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active_regions.push(region);
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continue;
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}
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if let Some(region) = trimmed.strip_prefix("// endregion:") {
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let prev = active_regions.pop().unwrap();
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assert_eq!(prev, region, "unbalanced region pairs");
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continue;
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}
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let mut line_region = false;
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if let Some(idx) = trimmed.find("// :") {
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line_region = true;
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active_regions.push(&trimmed[idx + "// :".len()..]);
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}
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let mut keep = true;
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for ®ion in &active_regions {
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assert!(!region.starts_with(' '), "region marker starts with a space: {region:?}");
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self.assert_valid_flag(region);
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seen_regions.push(region);
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keep &= self.has_flag(region);
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}
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if keep {
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buf.push_str(line);
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}
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if line_region {
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active_regions.pop().unwrap();
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}
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}
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if !active_regions.is_empty() {
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panic!("unclosed regions: {active_regions:?} Add an `endregion` comment");
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}
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for flag in &self.valid_flags {
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if !seen_regions.iter().any(|it| it == flag) {
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panic!("unused minicore flag: {flag:?}");
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}
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}
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buf
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}
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}
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#[test]
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#[should_panic]
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fn parse_fixture_checks_further_indented_metadata() {
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FixtureWithProjectMeta::parse(
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r"
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//- /lib.rs
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mod bar;
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fn foo() {}
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//- /bar.rs
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pub fn baz() {}
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",
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);
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}
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#[test]
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fn parse_fixture_gets_full_meta() {
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let FixtureWithProjectMeta {
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fixture: parsed,
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mini_core,
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proc_macro_names,
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toolchain,
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target_data_layout: _,
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} = FixtureWithProjectMeta::parse(
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r#"
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//- toolchain: nightly
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//- proc_macros: identity
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//- minicore: coerce_unsized
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//- /lib.rs crate:foo deps:bar,baz cfg:foo=a,bar=b,atom env:OUTDIR=path/to,OTHER=foo
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mod m;
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"#,
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);
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assert_eq!(toolchain, Some("nightly".to_owned()));
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assert_eq!(proc_macro_names, vec!["identity".to_owned()]);
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assert_eq!(mini_core.unwrap().activated_flags, vec!["coerce_unsized".to_owned()]);
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assert_eq!(1, parsed.len());
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let meta = &parsed[0];
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assert_eq!("mod m;\n", meta.text);
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assert_eq!("foo", meta.krate.as_ref().unwrap());
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assert_eq!("/lib.rs", meta.path);
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assert_eq!(2, meta.env.len());
|
|
}
|