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363 lines
14 KiB
Rust
363 lines
14 KiB
Rust
use std::borrow::Cow;
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use rustc_ast as ast;
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use rustc_ast::NodeId;
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use rustc_errors::DiagCtxtHandle;
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use rustc_feature::{AttributeTemplate, Features};
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use rustc_hir::attrs::AttributeKind;
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use rustc_hir::lints::AttributeLint;
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use rustc_hir::{AttrArgs, AttrItem, AttrPath, Attribute, HashIgnoredAttrId, Target};
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use rustc_session::Session;
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use rustc_span::{DUMMY_SP, Span, Symbol, sym};
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use crate::context::{AcceptContext, FinalizeContext, SharedContext, Stage};
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use crate::parser::{ArgParser, MetaItemParser, PathParser};
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use crate::{Early, Late, OmitDoc, ShouldEmit};
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/// Context created once, for example as part of the ast lowering
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/// context, through which all attributes can be lowered.
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pub struct AttributeParser<'sess, S: Stage = Late> {
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pub(crate) tools: Vec<Symbol>,
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pub(crate) features: Option<&'sess Features>,
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pub(crate) sess: &'sess Session,
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pub(crate) stage: S,
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/// *Only* parse attributes with this symbol.
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///
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/// Used in cases where we want the lowering infrastructure for parse just a single attribute.
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parse_only: Option<Symbol>,
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}
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impl<'sess> AttributeParser<'sess, Early> {
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/// This method allows you to parse attributes *before* you have access to features or tools.
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/// One example where this is necessary, is to parse `feature` attributes themselves for
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/// example.
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///
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/// Try to use this as little as possible. Attributes *should* be lowered during
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/// `rustc_ast_lowering`. Some attributes require access to features to parse, which would
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/// crash if you tried to do so through [`parse_limited`](Self::parse_limited).
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///
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/// To make sure use is limited, supply a `Symbol` you'd like to parse. Only attributes with
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/// that symbol are picked out of the list of instructions and parsed. Those are returned.
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///
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/// No diagnostics will be emitted when parsing limited. Lints are not emitted at all, while
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/// errors will be emitted as a delayed bugs. in other words, we *expect* attributes parsed
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/// with `parse_limited` to be reparsed later during ast lowering where we *do* emit the errors
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pub fn parse_limited(
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sess: &'sess Session,
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attrs: &[ast::Attribute],
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sym: Symbol,
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target_span: Span,
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target_node_id: NodeId,
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features: Option<&'sess Features>,
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) -> Option<Attribute> {
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Self::parse_limited_should_emit(
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sess,
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attrs,
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sym,
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target_span,
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target_node_id,
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features,
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ShouldEmit::Nothing,
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)
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}
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/// Usually you want `parse_limited`, which defaults to no errors.
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pub fn parse_limited_should_emit(
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sess: &'sess Session,
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attrs: &[ast::Attribute],
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sym: Symbol,
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target_span: Span,
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target_node_id: NodeId,
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features: Option<&'sess Features>,
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should_emit: ShouldEmit,
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) -> Option<Attribute> {
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let mut parsed = Self::parse_limited_all(
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sess,
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attrs,
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Some(sym),
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Target::Crate, // Does not matter, we're not going to emit errors anyways
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target_span,
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target_node_id,
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features,
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should_emit,
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);
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assert!(parsed.len() <= 1);
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parsed.pop()
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}
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pub fn parse_limited_all(
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sess: &'sess Session,
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attrs: &[ast::Attribute],
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parse_only: Option<Symbol>,
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target: Target,
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target_span: Span,
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target_node_id: NodeId,
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features: Option<&'sess Features>,
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emit_errors: ShouldEmit,
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) -> Vec<Attribute> {
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let mut p =
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Self { features, tools: Vec::new(), parse_only, sess, stage: Early { emit_errors } };
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p.parse_attribute_list(
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attrs,
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target_span,
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target_node_id,
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target,
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OmitDoc::Skip,
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std::convert::identity,
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|lint| {
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crate::lints::emit_attribute_lint(&lint, sess);
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},
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)
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}
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pub fn parse_single<T>(
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sess: &'sess Session,
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attr: &ast::Attribute,
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target_span: Span,
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target_node_id: NodeId,
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features: Option<&'sess Features>,
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emit_errors: ShouldEmit,
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parse_fn: fn(cx: &mut AcceptContext<'_, '_, Early>, item: &ArgParser<'_>) -> Option<T>,
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template: &AttributeTemplate,
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) -> Option<T> {
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let mut parser = Self {
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features,
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tools: Vec::new(),
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parse_only: None,
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sess,
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stage: Early { emit_errors },
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};
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let ast::AttrKind::Normal(normal_attr) = &attr.kind else {
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panic!("parse_single called on a doc attr")
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};
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let parts =
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normal_attr.item.path.segments.iter().map(|seg| seg.ident.name).collect::<Vec<_>>();
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let meta_parser = MetaItemParser::from_attr(normal_attr, &parts, &sess.psess, emit_errors)?;
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let path = meta_parser.path();
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let args = meta_parser.args();
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let mut cx: AcceptContext<'_, 'sess, Early> = AcceptContext {
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shared: SharedContext {
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cx: &mut parser,
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target_span,
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target_id: target_node_id,
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emit_lint: &mut |lint| {
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crate::lints::emit_attribute_lint(&lint, sess);
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},
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},
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attr_span: attr.span,
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attr_style: attr.style,
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template,
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attr_path: path.get_attribute_path(),
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};
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parse_fn(&mut cx, args)
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}
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}
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impl<'sess, S: Stage> AttributeParser<'sess, S> {
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pub fn new(
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sess: &'sess Session,
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features: &'sess Features,
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tools: Vec<Symbol>,
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stage: S,
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) -> Self {
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Self { features: Some(features), tools, parse_only: None, sess, stage }
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}
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pub(crate) fn sess(&self) -> &'sess Session {
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&self.sess
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}
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pub(crate) fn features(&self) -> &'sess Features {
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self.features.expect("features not available at this point in the compiler")
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}
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pub(crate) fn features_option(&self) -> Option<&'sess Features> {
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self.features
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}
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pub(crate) fn dcx(&self) -> DiagCtxtHandle<'sess> {
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self.sess().dcx()
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}
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/// Parse a list of attributes.
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///
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/// `target_span` is the span of the thing this list of attributes is applied to,
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/// and when `omit_doc` is set, doc attributes are filtered out.
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pub fn parse_attribute_list(
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&mut self,
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attrs: &[ast::Attribute],
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target_span: Span,
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target_id: S::Id,
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target: Target,
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omit_doc: OmitDoc,
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lower_span: impl Copy + Fn(Span) -> Span,
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mut emit_lint: impl FnMut(AttributeLint<S::Id>),
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) -> Vec<Attribute> {
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let mut attributes = Vec::new();
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let mut attr_paths = Vec::new();
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for attr in attrs {
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// If we're only looking for a single attribute, skip all the ones we don't care about.
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if let Some(expected) = self.parse_only {
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if !attr.has_name(expected) {
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continue;
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}
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}
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// Sometimes, for example for `#![doc = include_str!("readme.md")]`,
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// doc still contains a non-literal. You might say, when we're lowering attributes
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// that's expanded right? But no, sometimes, when parsing attributes on macros,
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// we already use the lowering logic and these are still there. So, when `omit_doc`
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// is set we *also* want to ignore these.
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if omit_doc == OmitDoc::Skip && attr.has_name(sym::doc) {
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continue;
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}
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match &attr.kind {
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ast::AttrKind::DocComment(comment_kind, symbol) => {
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if omit_doc == OmitDoc::Skip {
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continue;
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}
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attributes.push(Attribute::Parsed(AttributeKind::DocComment {
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style: attr.style,
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kind: *comment_kind,
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span: lower_span(attr.span),
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comment: *symbol,
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}))
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}
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// // FIXME: make doc attributes go through a proper attribute parser
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// ast::AttrKind::Normal(n) if n.has_name(sym::doc) => {
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// let p = GenericMetaItemParser::from_attr(&n, self.dcx());
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//
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// attributes.push(Attribute::Parsed(AttributeKind::DocComment {
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// style: attr.style,
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// kind: CommentKind::Line,
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// span: attr.span,
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// comment: p.args().name_value(),
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// }))
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// }
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ast::AttrKind::Normal(n) => {
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attr_paths.push(PathParser(Cow::Borrowed(&n.item.path)));
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let parts =
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n.item.path.segments.iter().map(|seg| seg.ident.name).collect::<Vec<_>>();
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if let Some(accepts) = S::parsers().accepters.get(parts.as_slice()) {
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let Some(parser) = MetaItemParser::from_attr(
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n,
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&parts,
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&self.sess.psess,
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self.stage.should_emit(),
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) else {
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continue;
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};
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let path = parser.path();
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let args = parser.args();
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for accept in accepts {
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let mut cx: AcceptContext<'_, 'sess, S> = AcceptContext {
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shared: SharedContext {
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cx: self,
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target_span,
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target_id,
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emit_lint: &mut emit_lint,
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},
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attr_span: lower_span(attr.span),
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attr_style: attr.style,
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template: &accept.template,
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attr_path: path.get_attribute_path(),
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};
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(accept.accept_fn)(&mut cx, args);
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if !matches!(cx.stage.should_emit(), ShouldEmit::Nothing) {
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Self::check_target(&accept.allowed_targets, target, &mut cx);
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}
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}
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} else {
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// If we're here, we must be compiling a tool attribute... Or someone
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// forgot to parse their fancy new attribute. Let's warn them in any case.
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// If you are that person, and you really think your attribute should
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// remain unparsed, carefully read the documentation in this module and if
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// you still think so you can add an exception to this assertion.
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// FIXME(jdonszelmann): convert other attributes, and check with this that
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// we caught em all
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// const FIXME_TEMPORARY_ATTR_ALLOWLIST: &[Symbol] = &[sym::cfg];
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// assert!(
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// self.tools.contains(&parts[0]) || true,
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// // || FIXME_TEMPORARY_ATTR_ALLOWLIST.contains(&parts[0]),
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// "attribute {path} wasn't parsed and isn't a know tool attribute",
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// );
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attributes.push(Attribute::Unparsed(Box::new(AttrItem {
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path: AttrPath::from_ast(&n.item.path),
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args: self.lower_attr_args(&n.item.args, lower_span),
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id: HashIgnoredAttrId { attr_id: attr.id },
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style: attr.style,
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span: lower_span(attr.span),
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})));
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}
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}
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}
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}
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let mut parsed_attributes = Vec::new();
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for f in &S::parsers().finalizers {
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if let Some(attr) = f(&mut FinalizeContext {
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shared: SharedContext {
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cx: self,
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target_span,
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target_id,
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emit_lint: &mut emit_lint,
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},
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all_attrs: &attr_paths,
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}) {
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parsed_attributes.push(Attribute::Parsed(attr));
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}
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}
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attributes.extend(parsed_attributes);
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attributes
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}
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/// Returns whether there is a parser for an attribute with this name
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pub fn is_parsed_attribute(path: &[Symbol]) -> bool {
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Late::parsers().accepters.contains_key(path)
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}
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fn lower_attr_args(&self, args: &ast::AttrArgs, lower_span: impl Fn(Span) -> Span) -> AttrArgs {
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match args {
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ast::AttrArgs::Empty => AttrArgs::Empty,
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ast::AttrArgs::Delimited(args) => AttrArgs::Delimited(args.clone()),
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// This is an inert key-value attribute - it will never be visible to macros
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// after it gets lowered to HIR. Therefore, we can extract literals to handle
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// nonterminals in `#[doc]` (e.g. `#[doc = $e]`).
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ast::AttrArgs::Eq { eq_span, expr } => {
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// In valid code the value always ends up as a single literal. Otherwise, a dummy
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// literal suffices because the error is handled elsewhere.
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let lit = if let ast::ExprKind::Lit(token_lit) = expr.kind
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&& let Ok(lit) =
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ast::MetaItemLit::from_token_lit(token_lit, lower_span(expr.span))
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{
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lit
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} else {
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let guar = self.dcx().span_delayed_bug(
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args.span().unwrap_or(DUMMY_SP),
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"expr in place where literal is expected (builtin attr parsing)",
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);
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ast::MetaItemLit {
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symbol: sym::dummy,
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suffix: None,
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kind: ast::LitKind::Err(guar),
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span: DUMMY_SP,
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}
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};
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AttrArgs::Eq { eq_span: lower_span(*eq_span), expr: lit }
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}
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}
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}
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}
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