//! The main parser interface. #![feature(rustc_private, bool_to_option)] #![feature(crate_visibility_modifier)] use rustc_ast::ast; use rustc_ast::token::{self, Nonterminal}; use rustc_ast::tokenstream::{self, TokenStream, TokenTree}; use rustc_ast_pretty::pprust; use rustc_data_structures::sync::Lrc; use rustc_errors::{Diagnostic, FatalError, Level, PResult}; use rustc_session::parse::ParseSess; use rustc_span::{FileName, SourceFile, Span}; use std::path::{Path, PathBuf}; use std::str; use log::info; pub const MACRO_ARGUMENTS: Option<&'static str> = Some("macro arguments"); #[macro_use] pub mod parser; use parser::{emit_unclosed_delims, make_unclosed_delims_error, Parser}; pub mod lexer; pub mod validate_attr; #[macro_use] pub mod config; #[derive(Clone)] pub struct Directory { pub path: PathBuf, pub ownership: DirectoryOwnership, } #[derive(Copy, Clone)] pub enum DirectoryOwnership { Owned { // None if `mod.rs`, `Some("foo")` if we're in `foo.rs`. relative: Option, }, UnownedViaBlock, UnownedViaMod, } // A bunch of utility functions of the form `parse__from_` // where includes crate, expr, item, stmt, tts, and one that // uses a HOF to parse anything, and includes file and // `source_str`. /// A variant of 'panictry!' that works on a Vec instead of a single DiagnosticBuilder. macro_rules! panictry_buffer { ($handler:expr, $e:expr) => {{ use rustc_errors::FatalError; use std::result::Result::{Err, Ok}; match $e { Ok(e) => e, Err(errs) => { for e in errs { $handler.emit_diagnostic(&e); } FatalError.raise() } } }}; } pub fn parse_crate_from_file<'a>(input: &Path, sess: &'a ParseSess) -> PResult<'a, ast::Crate> { let mut parser = new_parser_from_file(sess, input); parser.parse_crate_mod() } pub fn parse_crate_attrs_from_file<'a>( input: &Path, sess: &'a ParseSess, ) -> PResult<'a, Vec> { let mut parser = new_parser_from_file(sess, input); parser.parse_inner_attributes() } pub fn parse_crate_from_source_str( name: FileName, source: String, sess: &ParseSess, ) -> PResult<'_, ast::Crate> { new_parser_from_source_str(sess, name, source).parse_crate_mod() } pub fn parse_crate_attrs_from_source_str( name: FileName, source: String, sess: &ParseSess, ) -> PResult<'_, Vec> { new_parser_from_source_str(sess, name, source).parse_inner_attributes() } pub fn parse_stream_from_source_str( name: FileName, source: String, sess: &ParseSess, override_span: Option, ) -> TokenStream { let (stream, mut errors) = source_file_to_stream(sess, sess.source_map().new_source_file(name, source), override_span); emit_unclosed_delims(&mut errors, &sess); stream } /// Creates a new parser from a source string. pub fn new_parser_from_source_str(sess: &ParseSess, name: FileName, source: String) -> Parser<'_> { panictry_buffer!(&sess.span_diagnostic, maybe_new_parser_from_source_str(sess, name, source)) } /// Creates a new parser from a source string. Returns any buffered errors from lexing the initial /// token stream. pub fn maybe_new_parser_from_source_str( sess: &ParseSess, name: FileName, source: String, ) -> Result, Vec> { let mut parser = maybe_source_file_to_parser(sess, sess.source_map().new_source_file(name, source))?; parser.recurse_into_file_modules = false; Ok(parser) } /// Creates a new parser, handling errors as appropriate if the file doesn't exist. pub fn new_parser_from_file<'a>(sess: &'a ParseSess, path: &Path) -> Parser<'a> { source_file_to_parser(sess, file_to_source_file(sess, path, None)) } /// Creates a new parser, returning buffered diagnostics if the file doesn't exist, /// or from lexing the initial token stream. pub fn maybe_new_parser_from_file<'a>( sess: &'a ParseSess, path: &Path, ) -> Result, Vec> { let file = try_file_to_source_file(sess, path, None).map_err(|db| vec![db])?; maybe_source_file_to_parser(sess, file) } /// Given a session, a crate config, a path, and a span, add /// the file at the given path to the `source_map`, and returns a parser. /// On an error, uses the given span as the source of the problem. pub fn new_sub_parser_from_file<'a>( sess: &'a ParseSess, path: &Path, directory_ownership: DirectoryOwnership, module_name: Option, sp: Span, ) -> Parser<'a> { let mut p = source_file_to_parser(sess, file_to_source_file(sess, path, Some(sp))); p.directory.ownership = directory_ownership; p.root_module_name = module_name; p } /// Given a `source_file` and config, returns a parser. fn source_file_to_parser(sess: &ParseSess, source_file: Lrc) -> Parser<'_> { panictry_buffer!(&sess.span_diagnostic, maybe_source_file_to_parser(sess, source_file)) } /// Given a `source_file` and config, return a parser. Returns any buffered errors from lexing the /// initial token stream. fn maybe_source_file_to_parser( sess: &ParseSess, source_file: Lrc, ) -> Result, Vec> { let end_pos = source_file.end_pos; let (stream, unclosed_delims) = maybe_file_to_stream(sess, source_file, None)?; let mut parser = stream_to_parser(sess, stream, None); parser.unclosed_delims = unclosed_delims; if parser.token == token::Eof { parser.token.span = Span::new(end_pos, end_pos, parser.token.span.ctxt()); } Ok(parser) } // Must preserve old name for now, because `quote!` from the *existing* // compiler expands into it. pub fn new_parser_from_tts(sess: &ParseSess, tts: Vec) -> Parser<'_> { stream_to_parser(sess, tts.into_iter().collect(), crate::MACRO_ARGUMENTS) } // Base abstractions /// Given a session and a path and an optional span (for error reporting), /// add the path to the session's source_map and return the new source_file or /// error when a file can't be read. fn try_file_to_source_file( sess: &ParseSess, path: &Path, spanopt: Option, ) -> Result, Diagnostic> { sess.source_map().load_file(path).map_err(|e| { let msg = format!("couldn't read {}: {}", path.display(), e); let mut diag = Diagnostic::new(Level::Fatal, &msg); if let Some(sp) = spanopt { diag.set_span(sp); } diag }) } /// Given a session and a path and an optional span (for error reporting), /// adds the path to the session's `source_map` and returns the new `source_file`. fn file_to_source_file(sess: &ParseSess, path: &Path, spanopt: Option) -> Lrc { match try_file_to_source_file(sess, path, spanopt) { Ok(source_file) => source_file, Err(d) => { sess.span_diagnostic.emit_diagnostic(&d); FatalError.raise(); } } } /// Given a `source_file`, produces a sequence of token trees. pub fn source_file_to_stream( sess: &ParseSess, source_file: Lrc, override_span: Option, ) -> (TokenStream, Vec) { panictry_buffer!(&sess.span_diagnostic, maybe_file_to_stream(sess, source_file, override_span)) } /// Given a source file, produces a sequence of token trees. Returns any buffered errors from /// parsing the token stream. pub fn maybe_file_to_stream( sess: &ParseSess, source_file: Lrc, override_span: Option, ) -> Result<(TokenStream, Vec), Vec> { let srdr = lexer::StringReader::new(sess, source_file, override_span); let (token_trees, unmatched_braces) = srdr.into_token_trees(); match token_trees { Ok(stream) => Ok((stream, unmatched_braces)), Err(err) => { let mut buffer = Vec::with_capacity(1); err.buffer(&mut buffer); // Not using `emit_unclosed_delims` to use `db.buffer` for unmatched in unmatched_braces { if let Some(err) = make_unclosed_delims_error(unmatched, &sess) { err.buffer(&mut buffer); } } Err(buffer) } } } /// Given a stream and the `ParseSess`, produces a parser. pub fn stream_to_parser<'a>( sess: &'a ParseSess, stream: TokenStream, subparser_name: Option<&'static str>, ) -> Parser<'a> { Parser::new(sess, stream, None, true, false, subparser_name) } /// Given a stream, the `ParseSess` and the base directory, produces a parser. /// /// Use this function when you are creating a parser from the token stream /// and also care about the current working directory of the parser (e.g., /// you are trying to resolve modules defined inside a macro invocation). /// /// # Note /// /// The main usage of this function is outside of rustc, for those who uses /// librustc_ast as a library. Please do not remove this function while refactoring /// just because it is not used in rustc codebase! pub fn stream_to_parser_with_base_dir<'a>( sess: &'a ParseSess, stream: TokenStream, base_dir: Directory, ) -> Parser<'a> { Parser::new(sess, stream, Some(base_dir), true, false, None) } /// Runs the given subparser `f` on the tokens of the given `attr`'s item. pub fn parse_in<'a, T>( sess: &'a ParseSess, tts: TokenStream, name: &'static str, mut f: impl FnMut(&mut Parser<'a>) -> PResult<'a, T>, ) -> PResult<'a, T> { let mut parser = Parser::new(sess, tts, None, false, false, Some(name)); let result = f(&mut parser)?; if parser.token != token::Eof { parser.unexpected()?; } Ok(result) } // NOTE(Centril): The following probably shouldn't be here but it acknowledges the // fact that architecturally, we are using parsing (read on below to understand why). pub fn nt_to_tokenstream(nt: &Nonterminal, sess: &ParseSess, span: Span) -> TokenStream { // A `Nonterminal` is often a parsed AST item. At this point we now // need to convert the parsed AST to an actual token stream, e.g. // un-parse it basically. // // Unfortunately there's not really a great way to do that in a // guaranteed lossless fashion right now. The fallback here is to just // stringify the AST node and reparse it, but this loses all span // information. // // As a result, some AST nodes are annotated with the token stream they // came from. Here we attempt to extract these lossless token streams // before we fall back to the stringification. let tokens = match *nt { Nonterminal::NtItem(ref item) => { prepend_attrs(sess, &item.attrs, item.tokens.as_ref(), span) } Nonterminal::NtIdent(ident, is_raw) => { Some(tokenstream::TokenTree::token(token::Ident(ident.name, is_raw), ident.span).into()) } Nonterminal::NtLifetime(ident) => { Some(tokenstream::TokenTree::token(token::Lifetime(ident.name), ident.span).into()) } Nonterminal::NtTT(ref tt) => Some(tt.clone().into()), _ => None, }; // FIXME(#43081): Avoid this pretty-print + reparse hack let source = pprust::nonterminal_to_string(nt); let filename = FileName::macro_expansion_source_code(&source); let tokens_for_real = parse_stream_from_source_str(filename, source, sess, Some(span)); // During early phases of the compiler the AST could get modified // directly (e.g., attributes added or removed) and the internal cache // of tokens my not be invalidated or updated. Consequently if the // "lossless" token stream disagrees with our actual stringification // (which has historically been much more battle-tested) then we go // with the lossy stream anyway (losing span information). // // Note that the comparison isn't `==` here to avoid comparing spans, // but it *also* is a "probable" equality which is a pretty weird // definition. We mostly want to catch actual changes to the AST // like a `#[cfg]` being processed or some weird `macro_rules!` // expansion. // // What we *don't* want to catch is the fact that a user-defined // literal like `0xf` is stringified as `15`, causing the cached token // stream to not be literal `==` token-wise (ignoring spans) to the // token stream we got from stringification. // // Instead the "probably equal" check here is "does each token // recursively have the same discriminant?" We basically don't look at // the token values here and assume that such fine grained token stream // modifications, including adding/removing typically non-semantic // tokens such as extra braces and commas, don't happen. if let Some(tokens) = tokens { if tokens.probably_equal_for_proc_macro(&tokens_for_real) { return tokens; } info!( "cached tokens found, but they're not \"probably equal\", \ going with stringified version" ); } return tokens_for_real; } fn prepend_attrs( sess: &ParseSess, attrs: &[ast::Attribute], tokens: Option<&tokenstream::TokenStream>, span: rustc_span::Span, ) -> Option { let tokens = tokens?; if attrs.is_empty() { return Some(tokens.clone()); } let mut builder = tokenstream::TokenStreamBuilder::new(); for attr in attrs { assert_eq!( attr.style, ast::AttrStyle::Outer, "inner attributes should prevent cached tokens from existing" ); let source = pprust::attribute_to_string(attr); let macro_filename = FileName::macro_expansion_source_code(&source); let item = match attr.kind { ast::AttrKind::Normal(ref item) => item, ast::AttrKind::DocComment(_) => { let stream = parse_stream_from_source_str(macro_filename, source, sess, Some(span)); builder.push(stream); continue; } }; // synthesize # [ $path $tokens ] manually here let mut brackets = tokenstream::TokenStreamBuilder::new(); // For simple paths, push the identifier directly if item.path.segments.len() == 1 && item.path.segments[0].args.is_none() { let ident = item.path.segments[0].ident; let token = token::Ident(ident.name, ident.as_str().starts_with("r#")); brackets.push(tokenstream::TokenTree::token(token, ident.span)); // ... and for more complicated paths, fall back to a reparse hack that // should eventually be removed. } else { let stream = parse_stream_from_source_str(macro_filename, source, sess, Some(span)); brackets.push(stream); } brackets.push(item.args.outer_tokens()); // The span we list here for `#` and for `[ ... ]` are both wrong in // that it encompasses more than each token, but it hopefully is "good // enough" for now at least. builder.push(tokenstream::TokenTree::token(token::Pound, attr.span)); let delim_span = tokenstream::DelimSpan::from_single(attr.span); builder.push(tokenstream::TokenTree::Delimited( delim_span, token::DelimToken::Bracket, brackets.build(), )); } builder.push(tokens.clone()); Some(builder.build()) }