src/librustdoc/passes/lint/check_code_block_syntax.rs - toolchain/rustc - Git at Google

 //! Validates syntax inside Rust code blocks (\`\`\`rust).
 use rustc_data_structures::sync::{Lock, Lrc};
 use rustc_errors::{
     emitter::Emitter,
     translation::{to_fluent_args, Translate},
     Applicability, DiagCtxt, Diagnostic, LazyFallbackBundle,
 };
 use rustc_parse::parse_stream_from_source_str;
 use rustc_resolve::rustdoc::source_span_for_markdown_range;
 use rustc_session::parse::ParseSess;
 use rustc_span::hygiene::{AstPass, ExpnData, ExpnKind, LocalExpnId, Transparency};
 use rustc_span::source_map::{FilePathMapping, SourceMap};
 use rustc_span::{FileName, InnerSpan, DUMMY_SP};

 use crate::clean;
 use crate::core::DocContext;
 use crate::html::markdown::{self, RustCodeBlock};

 pub(crate) fn visit_item(cx: &DocContext<'_>, item: &clean::Item) {
     if let Some(dox) = &item.opt_doc_value() {
         let sp = item.attr_span(cx.tcx);
         let extra = crate::html::markdown::ExtraInfo::new(cx.tcx, item.item_id.expect_def_id(), sp);
         for code_block in
             markdown::rust_code_blocks(dox, &extra, cx.tcx.features().custom_code_classes_in_docs)
         {
             check_rust_syntax(cx, item, dox, code_block);
         }
     }
 }

 fn check_rust_syntax(
     cx: &DocContext<'_>,
     item: &clean::Item,
     dox: &str,
     code_block: RustCodeBlock,
 ) {
     let buffer = Lrc::new(Lock::new(Buffer::default()));
     let fallback_bundle = rustc_errors::fallback_fluent_bundle(
         rustc_driver::DEFAULT_LOCALE_RESOURCES.to_vec(),
         false,
     );
     let emitter = BufferEmitter { buffer: Lrc::clone(&buffer), fallback_bundle };

     let sm = Lrc::new(SourceMap::new(FilePathMapping::empty()));
     let dcx = DiagCtxt::with_emitter(Box::new(emitter)).disable_warnings();
     let source = dox[code_block.code].to_owned();
     let sess = ParseSess::with_dcx(dcx, sm);

     let edition = code_block.lang_string.edition.unwrap_or_else(|| cx.tcx.sess.edition());
     let expn_data =
         ExpnData::default(ExpnKind::AstPass(AstPass::TestHarness), DUMMY_SP, edition, None, None);
     let expn_id = cx.tcx.with_stable_hashing_context(|hcx| LocalExpnId::fresh(expn_data, hcx));
     let span = DUMMY_SP.apply_mark(expn_id.to_expn_id(), Transparency::Transparent);

     let is_empty = rustc_driver::catch_fatal_errors(|| {
         parse_stream_from_source_str(
             FileName::Custom(String::from("doctest")),
             source,
             &sess,
             Some(span),
         )
         .is_empty()
     })
     .unwrap_or(false);
     let buffer = buffer.borrow();

     if !buffer.has_errors && !is_empty {
         // No errors in a non-empty program.
         return;
     }

     let Some(local_id) = item.item_id.as_def_id().and_then(|x| x.as_local()) else {
         // We don't need to check the syntax for other crates so returning
         // without doing anything should not be a problem.
         return;
     };

     let empty_block = code_block.lang_string == Default::default() && code_block.is_fenced;
     let is_ignore = code_block.lang_string.ignore != markdown::Ignore::None;

     // The span and whether it is precise or not.
     let (sp, precise_span) = match source_span_for_markdown_range(
         cx.tcx,
         dox,
         &code_block.range,
         &item.attrs.doc_strings,
     ) {
         Some(sp) => (sp, true),
         None => (item.attr_span(cx.tcx), false),
     };

     let msg = if buffer.has_errors {
         "could not parse code block as Rust code"
     } else {
         "Rust code block is empty"
     };

     // Finally build and emit the completed diagnostic.
     // All points of divergence have been handled earlier so this can be
     // done the same way whether the span is precise or not.
     let hir_id = cx.tcx.local_def_id_to_hir_id(local_id);
     cx.tcx.node_span_lint(crate::lint::INVALID_RUST_CODEBLOCKS, hir_id, sp, msg, |lint| {
         let explanation = if is_ignore {
             "`ignore` code blocks require valid Rust code for syntax highlighting; \
                     mark blocks that do not contain Rust code as text"
         } else {
             "mark blocks that do not contain Rust code as text"
         };

         if precise_span {
             if is_ignore {
                 // giving an accurate suggestion is hard because `ignore` might not have come first in the list.
                 // just give a `help` instead.
                 lint.span_help(
                     sp.from_inner(InnerSpan::new(0, 3)),
                     format!("{explanation}: ```text"),
                 );
             } else if empty_block {
                 lint.span_suggestion(
                     sp.from_inner(InnerSpan::new(0, 3)).shrink_to_hi(),
                     explanation,
                     "text",
                     Applicability::MachineApplicable,
                 );
             }
         } else if empty_block || is_ignore {
             lint.help(format!("{explanation}: ```text"));
         }

         // FIXME(#67563): Provide more context for these errors by displaying the spans inline.
         for message in buffer.messages.iter() {
             lint.note(message.clone());
         }
     });
 }

 #[derive(Default)]
 struct Buffer {
     messages: Vec<String>,
     has_errors: bool,
 }

 struct BufferEmitter {
     buffer: Lrc<Lock<Buffer>>,
     fallback_bundle: LazyFallbackBundle,
 }

 impl Translate for BufferEmitter {
     fn fluent_bundle(&self) -> Option<&Lrc<rustc_errors::FluentBundle>> {
         None
     }

     fn fallback_fluent_bundle(&self) -> &rustc_errors::FluentBundle {
         &**self.fallback_bundle
     }
 }

 impl Emitter for BufferEmitter {
     fn emit_diagnostic(&mut self, diag: &Diagnostic) {
         let mut buffer = self.buffer.borrow_mut();

         let fluent_args = to_fluent_args(diag.args());
         let translated_main_message = self
             .translate_message(&diag.messages[0].0, &fluent_args)
             .unwrap_or_else(|e| panic!("{e}"));

         buffer.messages.push(format!("error from rustc: {translated_main_message}"));
         if diag.is_error() {
             buffer.has_errors = true;
         }
     }

     fn source_map(&self) -> Option<&Lrc<SourceMap>> {
         None
     }
 }
	//! Validates syntax inside Rust code blocks (\`\`\`rust).
	use rustc_data_structures::sync::{Lock, Lrc};
	use rustc_errors::{
	emitter::Emitter,
	translation::{to_fluent_args, Translate},
	Applicability, DiagCtxt, Diagnostic, LazyFallbackBundle,
	};
	use rustc_parse::parse_stream_from_source_str;
	use rustc_resolve::rustdoc::source_span_for_markdown_range;
	use rustc_session::parse::ParseSess;
	use rustc_span::hygiene::{AstPass, ExpnData, ExpnKind, LocalExpnId, Transparency};
	use rustc_span::source_map::{FilePathMapping, SourceMap};
	use rustc_span::{FileName, InnerSpan, DUMMY_SP};

	use crate::clean;
	use crate::core::DocContext;
	use crate::html::markdown::{self, RustCodeBlock};

	pub(crate) fn visit_item(cx: &DocContext<'_>, item: &clean::Item) {
	if let Some(dox) = &item.opt_doc_value() {
	let sp = item.attr_span(cx.tcx);
	let extra = crate::html::markdown::ExtraInfo::new(cx.tcx, item.item_id.expect_def_id(), sp);
	for code_block in
	markdown::rust_code_blocks(dox, &extra, cx.tcx.features().custom_code_classes_in_docs)
	{
	check_rust_syntax(cx, item, dox, code_block);
	}
	}
	}

	fn check_rust_syntax(
	cx: &DocContext<'_>,
	item: &clean::Item,
	dox: &str,
	code_block: RustCodeBlock,
	) {
	let buffer = Lrc::new(Lock::new(Buffer::default()));
	let fallback_bundle = rustc_errors::fallback_fluent_bundle(
	rustc_driver::DEFAULT_LOCALE_RESOURCES.to_vec(),
	false,
	);
	let emitter = BufferEmitter { buffer: Lrc::clone(&buffer), fallback_bundle };

	let sm = Lrc::new(SourceMap::new(FilePathMapping::empty()));
	let dcx = DiagCtxt::with_emitter(Box::new(emitter)).disable_warnings();
	let source = dox[code_block.code].to_owned();
	let sess = ParseSess::with_dcx(dcx, sm);

	let edition = code_block.lang_string.edition.unwrap_or_else(\|\| cx.tcx.sess.edition());
	let expn_data =
	ExpnData::default(ExpnKind::AstPass(AstPass::TestHarness), DUMMY_SP, edition, None, None);
	let expn_id = cx.tcx.with_stable_hashing_context(\|hcx\| LocalExpnId::fresh(expn_data, hcx));
	let span = DUMMY_SP.apply_mark(expn_id.to_expn_id(), Transparency::Transparent);

	let is_empty = rustc_driver::catch_fatal_errors(\|\| {
	parse_stream_from_source_str(
	FileName::Custom(String::from("doctest")),
	source,
	&sess,
	Some(span),
	)
	.is_empty()
	})
	.unwrap_or(false);
	let buffer = buffer.borrow();

	if !buffer.has_errors && !is_empty {
	// No errors in a non-empty program.
	return;
	}

	let Some(local_id) = item.item_id.as_def_id().and_then(\|x\| x.as_local()) else {
	// We don't need to check the syntax for other crates so returning
	// without doing anything should not be a problem.
	return;
	};

	let empty_block = code_block.lang_string == Default::default() && code_block.is_fenced;
	let is_ignore = code_block.lang_string.ignore != markdown::Ignore::None;

	// The span and whether it is precise or not.
	let (sp, precise_span) = match source_span_for_markdown_range(
	cx.tcx,
	dox,
	&code_block.range,
	&item.attrs.doc_strings,
	) {
	Some(sp) => (sp, true),
	None => (item.attr_span(cx.tcx), false),
	};

	let msg = if buffer.has_errors {
	"could not parse code block as Rust code"
	} else {
	"Rust code block is empty"
	};

	// Finally build and emit the completed diagnostic.
	// All points of divergence have been handled earlier so this can be
	// done the same way whether the span is precise or not.
	let hir_id = cx.tcx.local_def_id_to_hir_id(local_id);
	cx.tcx.node_span_lint(crate::lint::INVALID_RUST_CODEBLOCKS, hir_id, sp, msg, \|lint\| {
	let explanation = if is_ignore {
	"`ignore` code blocks require valid Rust code for syntax highlighting; \
	mark blocks that do not contain Rust code as text"
	} else {
	"mark blocks that do not contain Rust code as text"
	};

	if precise_span {
	if is_ignore {
	// giving an accurate suggestion is hard because `ignore` might not have come first in the list.
	// just give a `help` instead.
	lint.span_help(
	sp.from_inner(InnerSpan::new(0, 3)),
	format!("{explanation}: ```text"),
	);
	} else if empty_block {
	lint.span_suggestion(
	sp.from_inner(InnerSpan::new(0, 3)).shrink_to_hi(),
	explanation,
	"text",
	Applicability::MachineApplicable,
	);
	}
	} else if empty_block \|\| is_ignore {
	lint.help(format!("{explanation}: ```text"));
	}

	// FIXME(#67563): Provide more context for these errors by displaying the spans inline.
	for message in buffer.messages.iter() {
	lint.note(message.clone());
	}
	});
	}

	#[derive(Default)]
	struct Buffer {
	messages: Vec<String>,
	has_errors: bool,
	}

	struct BufferEmitter {
	buffer: Lrc<Lock<Buffer>>,
	fallback_bundle: LazyFallbackBundle,
	}

	impl Translate for BufferEmitter {
	fn fluent_bundle(&self) -> Option<&Lrc<rustc_errors::FluentBundle>> {
	None
	}

	fn fallback_fluent_bundle(&self) -> &rustc_errors::FluentBundle {
	&**self.fallback_bundle
	}
	}

	impl Emitter for BufferEmitter {
	fn emit_diagnostic(&mut self, diag: &Diagnostic) {
	let mut buffer = self.buffer.borrow_mut();

	let fluent_args = to_fluent_args(diag.args());
	let translated_main_message = self
	.translate_message(&diag.messages[0].0, &fluent_args)
	.unwrap_or_else(\|e\| panic!("{e}"));

	buffer.messages.push(format!("error from rustc: {translated_main_message}"));
	if diag.is_error() {
	buffer.has_errors = true;
	}
	}

	fn source_map(&self) -> Option<&Lrc<SourceMap>> {
	None
	}
	}