//! proc-macro server implementation //! //! Based on idea from //! The lib-proc-macro server backend is `TokenStream`-agnostic, such that //! we could provide any TokenStream implementation. //! The original idea from fedochet is using proc-macro2 as backend, //! we use tt instead for better integration with RA. //! //! FIXME: No span and source file information is implemented yet use super::proc_macro::{ self, bridge::{self, server}, }; mod token_stream; pub use token_stream::TokenStream; use token_stream::TokenStreamBuilder; mod symbol; pub use symbol::*; use std::ops::Bound; type Group = tt::Subtree; type TokenTree = tt::TokenTree; type Punct = tt::Punct; type Spacing = tt::Spacing; type Literal = tt::Literal; type Span = tt::TokenId; #[derive(Clone)] pub struct SourceFile { // FIXME stub } type Level = super::proc_macro::Level; type LineColumn = super::proc_macro::LineColumn; pub struct FreeFunctions; #[derive(Default)] pub struct RustAnalyzer { // FIXME: store span information here. } impl server::Types for RustAnalyzer { type FreeFunctions = FreeFunctions; type TokenStream = TokenStream; type SourceFile = SourceFile; type Span = Span; type Symbol = Symbol; } impl server::FreeFunctions for RustAnalyzer { fn track_env_var(&mut self, _var: &str, _value: Option<&str>) { // FIXME: track env var accesses // https://github.com/rust-lang/rust/pull/71858 } fn track_path(&mut self, _path: &str) {} fn literal_from_str( &mut self, s: &str, ) -> Result, ()> { // FIXME: keep track of LitKind and Suffix Ok(bridge::Literal { kind: bridge::LitKind::Err, symbol: Symbol::intern(s), suffix: None, span: tt::TokenId::unspecified(), }) } fn emit_diagnostic(&mut self, _: bridge::Diagnostic) { // FIXME handle diagnostic } } impl server::TokenStream for RustAnalyzer { fn is_empty(&mut self, stream: &Self::TokenStream) -> bool { stream.is_empty() } fn from_str(&mut self, src: &str) -> Self::TokenStream { use std::str::FromStr; Self::TokenStream::from_str(src).expect("cannot parse string") } fn to_string(&mut self, stream: &Self::TokenStream) -> String { stream.to_string() } fn from_token_tree( &mut self, tree: bridge::TokenTree, ) -> Self::TokenStream { match tree { bridge::TokenTree::Group(group) => { let group = Group { delimiter: delim_to_internal(group.delimiter), token_trees: match group.stream { Some(stream) => stream.into_iter().collect(), None => Vec::new(), }, }; let tree = TokenTree::from(group); Self::TokenStream::from_iter(vec![tree]) } bridge::TokenTree::Ident(ident) => { let text = ident.sym.text(); let text = if ident.is_raw { tt::SmolStr::from_iter(["r#", &text]) } else { text }; let ident: tt::Ident = tt::Ident { text, id: ident.span }; let leaf = tt::Leaf::from(ident); let tree = TokenTree::from(leaf); Self::TokenStream::from_iter(vec![tree]) } bridge::TokenTree::Literal(literal) => { let literal = LiteralFormatter(literal); let text = literal .with_stringify_parts(|parts| tt::SmolStr::from_iter(parts.iter().copied())); let literal = tt::Literal { text, id: literal.0.span }; let leaf = tt::Leaf::from(literal); let tree = TokenTree::from(leaf); Self::TokenStream::from_iter(vec![tree]) } bridge::TokenTree::Punct(p) => { let punct = tt::Punct { char: p.ch as char, spacing: if p.joint { Spacing::Joint } else { Spacing::Alone }, id: p.span, }; let leaf = tt::Leaf::from(punct); let tree = TokenTree::from(leaf); Self::TokenStream::from_iter(vec![tree]) } } } fn expand_expr(&mut self, self_: &Self::TokenStream) -> Result { Ok(self_.clone()) } fn concat_trees( &mut self, base: Option, trees: Vec>, ) -> Self::TokenStream { let mut builder = TokenStreamBuilder::new(); if let Some(base) = base { builder.push(base); } for tree in trees { builder.push(self.from_token_tree(tree)); } builder.build() } fn concat_streams( &mut self, base: Option, streams: Vec, ) -> Self::TokenStream { let mut builder = TokenStreamBuilder::new(); if let Some(base) = base { builder.push(base); } for stream in streams { builder.push(stream); } builder.build() } fn into_trees( &mut self, stream: Self::TokenStream, ) -> Vec> { stream .into_iter() .map(|tree| match tree { tt::TokenTree::Leaf(tt::Leaf::Ident(ident)) => { bridge::TokenTree::Ident(bridge::Ident { sym: Symbol::intern(ident.text.trim_start_matches("r#")), is_raw: ident.text.starts_with("r#"), span: ident.id, }) } tt::TokenTree::Leaf(tt::Leaf::Literal(lit)) => { bridge::TokenTree::Literal(bridge::Literal { // FIXME: handle literal kinds kind: bridge::LitKind::Err, symbol: Symbol::intern(&lit.text), // FIXME: handle suffixes suffix: None, span: lit.id, }) } tt::TokenTree::Leaf(tt::Leaf::Punct(punct)) => { bridge::TokenTree::Punct(bridge::Punct { ch: punct.char as u8, joint: punct.spacing == Spacing::Joint, span: punct.id, }) } tt::TokenTree::Subtree(subtree) => bridge::TokenTree::Group(bridge::Group { delimiter: delim_to_external(subtree.delimiter), stream: if subtree.token_trees.is_empty() { None } else { Some(subtree.token_trees.into_iter().collect()) }, span: bridge::DelimSpan::from_single( subtree.delimiter.map_or(Span::unspecified(), |del| del.id), ), }), }) .collect() } } fn delim_to_internal(d: proc_macro::Delimiter) -> Option { let kind = match d { proc_macro::Delimiter::Parenthesis => tt::DelimiterKind::Parenthesis, proc_macro::Delimiter::Brace => tt::DelimiterKind::Brace, proc_macro::Delimiter::Bracket => tt::DelimiterKind::Bracket, proc_macro::Delimiter::None => return None, }; Some(tt::Delimiter { id: tt::TokenId::unspecified(), kind }) } fn delim_to_external(d: Option) -> proc_macro::Delimiter { match d.map(|it| it.kind) { Some(tt::DelimiterKind::Parenthesis) => proc_macro::Delimiter::Parenthesis, Some(tt::DelimiterKind::Brace) => proc_macro::Delimiter::Brace, Some(tt::DelimiterKind::Bracket) => proc_macro::Delimiter::Bracket, None => proc_macro::Delimiter::None, } } fn spacing_to_internal(spacing: proc_macro::Spacing) -> Spacing { match spacing { proc_macro::Spacing::Alone => Spacing::Alone, proc_macro::Spacing::Joint => Spacing::Joint, } } fn spacing_to_external(spacing: Spacing) -> proc_macro::Spacing { match spacing { Spacing::Alone => proc_macro::Spacing::Alone, Spacing::Joint => proc_macro::Spacing::Joint, } } impl server::SourceFile for RustAnalyzer { // FIXME these are all stubs fn eq(&mut self, _file1: &Self::SourceFile, _file2: &Self::SourceFile) -> bool { true } fn path(&mut self, _file: &Self::SourceFile) -> String { String::new() } fn is_real(&mut self, _file: &Self::SourceFile) -> bool { true } } impl server::Span for RustAnalyzer { fn debug(&mut self, span: Self::Span) -> String { format!("{:?}", span.0) } fn source_file(&mut self, _span: Self::Span) -> Self::SourceFile { SourceFile {} } fn save_span(&mut self, _span: Self::Span) -> usize { // FIXME stub 0 } fn recover_proc_macro_span(&mut self, _id: usize) -> Self::Span { // FIXME stub tt::TokenId::unspecified() } /// Recent feature, not yet in the proc_macro /// /// See PR: /// https://github.com/rust-lang/rust/pull/55780 fn source_text(&mut self, _span: Self::Span) -> Option { None } fn parent(&mut self, _span: Self::Span) -> Option { // FIXME handle span None } fn source(&mut self, span: Self::Span) -> Self::Span { // FIXME handle span span } fn start(&mut self, _span: Self::Span) -> LineColumn { // FIXME handle span LineColumn { line: 0, column: 0 } } fn end(&mut self, _span: Self::Span) -> LineColumn { // FIXME handle span LineColumn { line: 0, column: 0 } } fn join(&mut self, first: Self::Span, _second: Self::Span) -> Option { // Just return the first span again, because some macros will unwrap the result. Some(first) } fn subspan( &mut self, span: Self::Span, _start: Bound, _end: Bound, ) -> Option { // Just return the span again, because some macros will unwrap the result. Some(span) } fn resolved_at(&mut self, _span: Self::Span, _at: Self::Span) -> Self::Span { // FIXME handle span tt::TokenId::unspecified() } fn after(&mut self, _self_: Self::Span) -> Self::Span { tt::TokenId::unspecified() } fn before(&mut self, _self_: Self::Span) -> Self::Span { tt::TokenId::unspecified() } } impl server::Symbol for RustAnalyzer { fn normalize_and_validate_ident(&mut self, string: &str) -> Result { // FIXME: nfc-normalize and validate idents Ok(::intern_symbol(string)) } } impl server::Server for RustAnalyzer { fn globals(&mut self) -> bridge::ExpnGlobals { bridge::ExpnGlobals { def_site: Span::unspecified(), call_site: Span::unspecified(), mixed_site: Span::unspecified(), } } fn intern_symbol(ident: &str) -> Self::Symbol { Symbol::intern(&tt::SmolStr::from(ident)) } fn with_symbol_string(symbol: &Self::Symbol, f: impl FnOnce(&str)) { f(symbol.text().as_str()) } } struct LiteralFormatter(bridge::Literal); impl LiteralFormatter { /// Invokes the callback with a `&[&str]` consisting of each part of the /// literal's representation. This is done to allow the `ToString` and /// `Display` implementations to borrow references to symbol values, and /// both be optimized to reduce overhead. fn with_stringify_parts(&self, f: impl FnOnce(&[&str]) -> R) -> R { /// Returns a string containing exactly `num` '#' characters. /// Uses a 256-character source string literal which is always safe to /// index with a `u8` index. fn get_hashes_str(num: u8) -> &'static str { const HASHES: &str = "\ ################################################################\ ################################################################\ ################################################################\ ################################################################\ "; const _: () = assert!(HASHES.len() == 256); &HASHES[..num as usize] } self.with_symbol_and_suffix(|symbol, suffix| match self.0.kind { bridge::LitKind::Byte => f(&["b'", symbol, "'", suffix]), bridge::LitKind::Char => f(&["'", symbol, "'", suffix]), bridge::LitKind::Str => f(&["\"", symbol, "\"", suffix]), bridge::LitKind::StrRaw(n) => { let hashes = get_hashes_str(n); f(&["r", hashes, "\"", symbol, "\"", hashes, suffix]) } bridge::LitKind::ByteStr => f(&["b\"", symbol, "\"", suffix]), bridge::LitKind::ByteStrRaw(n) => { let hashes = get_hashes_str(n); f(&["br", hashes, "\"", symbol, "\"", hashes, suffix]) } _ => f(&[symbol, suffix]), }) } fn with_symbol_and_suffix(&self, f: impl FnOnce(&str, &str) -> R) -> R { let symbol = self.0.symbol.text(); let suffix = self.0.suffix.map(|s| s.text()).unwrap_or_default(); f(symbol.as_str(), suffix.as_str()) } } #[cfg(test)] mod tests { use super::*; #[test] fn test_ra_server_to_string() { let s = TokenStream { token_trees: vec![ tt::TokenTree::Leaf(tt::Leaf::Ident(tt::Ident { text: "struct".into(), id: tt::TokenId::unspecified(), })), tt::TokenTree::Leaf(tt::Leaf::Ident(tt::Ident { text: "T".into(), id: tt::TokenId::unspecified(), })), tt::TokenTree::Subtree(tt::Subtree { delimiter: Some(tt::Delimiter { id: tt::TokenId::unspecified(), kind: tt::DelimiterKind::Brace, }), token_trees: vec![], }), ], }; assert_eq!(s.to_string(), "struct T {}"); } #[test] fn test_ra_server_from_str() { use std::str::FromStr; let subtree_paren_a = tt::TokenTree::Subtree(tt::Subtree { delimiter: Some(tt::Delimiter { id: tt::TokenId::unspecified(), kind: tt::DelimiterKind::Parenthesis, }), token_trees: vec![tt::TokenTree::Leaf(tt::Leaf::Ident(tt::Ident { text: "a".into(), id: tt::TokenId::unspecified(), }))], }); let t1 = TokenStream::from_str("(a)").unwrap(); assert_eq!(t1.token_trees.len(), 1); assert_eq!(t1.token_trees[0], subtree_paren_a); let t2 = TokenStream::from_str("(a);").unwrap(); assert_eq!(t2.token_trees.len(), 2); assert_eq!(t2.token_trees[0], subtree_paren_a); let underscore = TokenStream::from_str("_").unwrap(); assert_eq!( underscore.token_trees[0], tt::TokenTree::Leaf(tt::Leaf::Ident(tt::Ident { text: "_".into(), id: tt::TokenId::unspecified(), })) ); } }