//! Builtin macro use base_db::AnchoredPath; use cfg::CfgExpr; use either::Either; use intern::{sym, Symbol}; use mbe::{expect_fragment, DelimiterKind}; use span::{Edition, EditionedFileId, Span}; use stdx::format_to; use syntax::{ format_smolstr, unescape::{unescape_byte, unescape_char, unescape_unicode, Mode}, }; use syntax_bridge::syntax_node_to_token_tree; use crate::{ builtin::quote::{dollar_crate, quote}, db::ExpandDatabase, hygiene::{span_with_call_site_ctxt, span_with_def_site_ctxt}, name, span_map::SpanMap, tt::{self, DelimSpan}, ExpandError, ExpandResult, HirFileIdExt, Lookup as _, MacroCallId, }; macro_rules! register_builtin { ( $LAZY:ident: $(($name:ident, $kind: ident) => $expand:ident),* , $EAGER:ident: $(($e_name:ident, $e_kind: ident) => $e_expand:ident),* ) => { #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] pub enum $LAZY { $($kind),* } #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] pub enum $EAGER { $($e_kind),* } impl BuiltinFnLikeExpander { fn expander(&self) -> fn (&dyn ExpandDatabase, MacroCallId, &tt::Subtree, Span) -> ExpandResult { match *self { $( BuiltinFnLikeExpander::$kind => $expand, )* } } } impl EagerExpander { fn expander(&self) -> fn (&dyn ExpandDatabase, MacroCallId, &tt::Subtree, Span) -> ExpandResult { match *self { $( EagerExpander::$e_kind => $e_expand, )* } } } fn find_by_name(ident: &name::Name) -> Option> { match ident { $( id if id == &sym::$name => Some(Either::Left(BuiltinFnLikeExpander::$kind)), )* $( id if id == &sym::$e_name => Some(Either::Right(EagerExpander::$e_kind)), )* _ => return None, } } }; } impl BuiltinFnLikeExpander { pub fn expand( &self, db: &dyn ExpandDatabase, id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let span = span_with_def_site_ctxt(db, span, id); self.expander()(db, id, tt, span) } pub fn is_asm(&self) -> bool { matches!(self, Self::Asm | Self::GlobalAsm | Self::NakedAsm) } } impl EagerExpander { pub fn expand( &self, db: &dyn ExpandDatabase, id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let span = span_with_def_site_ctxt(db, span, id); self.expander()(db, id, tt, span) } pub fn is_include(&self) -> bool { matches!(self, EagerExpander::Include) } pub fn is_include_like(&self) -> bool { matches!( self, EagerExpander::Include | EagerExpander::IncludeStr | EagerExpander::IncludeBytes ) } pub fn is_env_or_option_env(&self) -> bool { matches!(self, EagerExpander::Env | EagerExpander::OptionEnv) } } pub fn find_builtin_macro( ident: &name::Name, ) -> Option> { find_by_name(ident) } register_builtin! { BuiltinFnLikeExpander: (column, Column) => line_expand, (file, File) => file_expand, (line, Line) => line_expand, (module_path, ModulePath) => module_path_expand, (assert, Assert) => assert_expand, (stringify, Stringify) => stringify_expand, (asm, Asm) => asm_expand, (global_asm, GlobalAsm) => asm_expand, (naked_asm, NakedAsm) => asm_expand, (cfg, Cfg) => cfg_expand, (core_panic, CorePanic) => panic_expand, (std_panic, StdPanic) => panic_expand, (unreachable, Unreachable) => unreachable_expand, (log_syntax, LogSyntax) => log_syntax_expand, (trace_macros, TraceMacros) => trace_macros_expand, (format_args, FormatArgs) => format_args_expand, (const_format_args, ConstFormatArgs) => format_args_expand, (format_args_nl, FormatArgsNl) => format_args_nl_expand, (quote, Quote) => quote_expand, EagerExpander: (compile_error, CompileError) => compile_error_expand, (concat, Concat) => concat_expand, (concat_idents, ConcatIdents) => concat_idents_expand, (concat_bytes, ConcatBytes) => concat_bytes_expand, (include, Include) => include_expand, (include_bytes, IncludeBytes) => include_bytes_expand, (include_str, IncludeStr) => include_str_expand, (env, Env) => env_expand, (option_env, OptionEnv) => option_env_expand } fn mk_pound(span: Span) -> tt::Subtree { crate::builtin::quote::IntoTt::to_subtree( vec![crate::tt::Leaf::Punct(crate::tt::Punct { char: '#', spacing: crate::tt::Spacing::Alone, span, }) .into()], span, ) } fn module_path_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { // Just return a dummy result. ExpandResult::ok(quote! {span => "module::path" }) } fn line_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { // dummy implementation for type-checking purposes // Note that `line!` and `column!` will never be implemented properly, as they are by definition // not incremental ExpandResult::ok(tt::Subtree { delimiter: tt::Delimiter::invisible_spanned(span), token_trees: Box::new([tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: sym::INTEGER_0.clone(), span, kind: tt::LitKind::Integer, suffix: Some(sym::u32.clone()), }))]), }) } fn log_syntax_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { ExpandResult::ok(quote! {span =>}) } fn trace_macros_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { ExpandResult::ok(quote! {span =>}) } fn stringify_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let pretty = ::tt::pretty(&tt.token_trees); let expanded = quote! {span => #pretty }; ExpandResult::ok(expanded) } fn assert_expand( db: &dyn ExpandDatabase, id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let call_site_span = span_with_call_site_ctxt(db, span, id); let mut iter = ::tt::iter::TtIter::new(tt); let cond = expect_fragment( &mut iter, parser::PrefixEntryPoint::Expr, db.crate_graph()[id.lookup(db).krate].edition, tt::DelimSpan { open: tt.delimiter.open, close: tt.delimiter.close }, ); _ = iter.expect_char(','); let rest = iter.as_slice(); let dollar_crate = dollar_crate(span); let expanded = match cond.value { Some(cond) => { let panic_args = rest.iter().cloned(); let mac = if use_panic_2021(db, span) { quote! {call_site_span => #dollar_crate::panic::panic_2021!(##panic_args) } } else { quote! {call_site_span => #dollar_crate::panic!(##panic_args) } }; quote! {call_site_span =>{ if !(#cond) { #mac; } }} } None => quote! {call_site_span =>{}}, }; match cond.err { Some(err) => ExpandResult::new(expanded, err.into()), None => ExpandResult::ok(expanded), } } fn file_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { // FIXME: RA purposefully lacks knowledge of absolute file names // so just return "". let file_name = "file"; let expanded = quote! {span => #file_name }; ExpandResult::ok(expanded) } fn format_args_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let pound = mk_pound(span); let mut tt = tt.clone(); tt.delimiter.kind = tt::DelimiterKind::Parenthesis; ExpandResult::ok(quote! {span => builtin #pound format_args #tt }) } fn format_args_nl_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let pound = mk_pound(span); let mut tt = tt.clone(); tt.delimiter.kind = tt::DelimiterKind::Parenthesis; if let Some(tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, kind: tt::LitKind::Str, .. }))) = tt.token_trees.first_mut() { *text = Symbol::intern(&format_smolstr!("{}\\n", text.as_str())); } ExpandResult::ok(quote! {span => builtin #pound format_args #tt }) } fn asm_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let mut tt = tt.clone(); tt.delimiter.kind = tt::DelimiterKind::Parenthesis; let pound = mk_pound(span); let expanded = quote! {span => builtin #pound asm #tt }; ExpandResult::ok(expanded) } fn cfg_expand( db: &dyn ExpandDatabase, id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let loc = db.lookup_intern_macro_call(id); let expr = CfgExpr::parse(tt); let enabled = db.crate_graph()[loc.krate].cfg_options.check(&expr) != Some(false); let expanded = if enabled { quote!(span=>true) } else { quote!(span=>false) }; ExpandResult::ok(expanded) } fn panic_expand( db: &dyn ExpandDatabase, id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let dollar_crate = dollar_crate(span); let call_site_span = span_with_call_site_ctxt(db, span, id); let mac = if use_panic_2021(db, call_site_span) { sym::panic_2021.clone() } else { sym::panic_2015.clone() }; // Expand to a macro call `$crate::panic::panic_{edition}` let mut call = quote!(call_site_span =>#dollar_crate::panic::#mac!); // Pass the original arguments let mut subtree = tt.clone(); subtree.delimiter = tt::Delimiter { open: call_site_span, close: call_site_span, kind: tt::DelimiterKind::Parenthesis, }; // FIXME(slow): quote! have a way to expand to builder to make this a vec! call.push(tt::TokenTree::Subtree(subtree)); ExpandResult::ok(call) } fn unreachable_expand( db: &dyn ExpandDatabase, id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let dollar_crate = dollar_crate(span); let call_site_span = span_with_call_site_ctxt(db, span, id); let mac = if use_panic_2021(db, call_site_span) { sym::unreachable_2021.clone() } else { sym::unreachable_2015.clone() }; // Expand to a macro call `$crate::panic::panic_{edition}` let mut call = quote!(call_site_span =>#dollar_crate::panic::#mac!); // Pass the original arguments let mut subtree = tt.clone(); subtree.delimiter = tt::Delimiter { open: call_site_span, close: call_site_span, kind: tt::DelimiterKind::Parenthesis, }; // FIXME(slow): quote! have a way to expand to builder to make this a vec! call.push(tt::TokenTree::Subtree(subtree)); ExpandResult::ok(call) } #[allow(clippy::never_loop)] fn use_panic_2021(db: &dyn ExpandDatabase, span: Span) -> bool { // To determine the edition, we check the first span up the expansion // stack that does not have #[allow_internal_unstable(edition_panic)]. // (To avoid using the edition of e.g. the assert!() or debug_assert!() definition.) loop { let Some(expn) = db.lookup_intern_syntax_context(span.ctx).outer_expn else { break false; }; let expn = db.lookup_intern_macro_call(expn); // FIXME: Record allow_internal_unstable in the macro def (not been done yet because it // would consume quite a bit extra memory for all call locs...) // if let Some(features) = expn.def.allow_internal_unstable { // if features.iter().any(|&f| f == sym::edition_panic.clone()) { // span = expn.call_site; // continue; // } // } break expn.def.edition >= Edition::Edition2021; } } fn compile_error_expand( _db: &dyn ExpandDatabase, _id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let err = match &*tt.token_trees { [tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span: _, kind: tt::LitKind::Str | tt::LitKind::StrRaw(_), suffix: _, }))] => ExpandError::other(span, Box::from(unescape_str(text).as_str())), _ => ExpandError::other(span, "`compile_error!` argument must be a string"), }; ExpandResult { value: quote! {span =>}, err: Some(err) } } fn concat_expand( _db: &dyn ExpandDatabase, _arg_id: MacroCallId, tt: &tt::Subtree, call_site: Span, ) -> ExpandResult { let mut err = None; let mut text = String::new(); let mut span: Option = None; let mut record_span = |s: Span| match &mut span { Some(span) if span.anchor == s.anchor => span.range = span.range.cover(s.range), Some(_) => (), None => span = Some(s), }; for (i, mut t) in tt.token_trees.iter().enumerate() { // FIXME: hack on top of a hack: `$e:expr` captures get surrounded in parentheses // to ensure the right parsing order, so skip the parentheses here. Ideally we'd // implement rustc's model. cc https://github.com/rust-lang/rust-analyzer/pull/10623 if let tt::TokenTree::Subtree(tt::Subtree { delimiter: delim, token_trees }) = t { if let [tt] = &**token_trees { if delim.kind == tt::DelimiterKind::Parenthesis { t = tt; } } } match t { tt::TokenTree::Leaf(tt::Leaf::Literal(it)) if i % 2 == 0 => { // concat works with string and char literals, so remove any quotes. // It also works with integer, float and boolean literals, so just use the rest // as-is. match it.kind { tt::LitKind::Char => { if let Ok(c) = unescape_char(it.symbol.as_str()) { text.push(c); } record_span(it.span); } tt::LitKind::Integer | tt::LitKind::Float => { format_to!(text, "{}", it.symbol.as_str()) } tt::LitKind::Str => { text.push_str(unescape_str(&it.symbol).as_str()); record_span(it.span); } tt::LitKind::StrRaw(_) => { format_to!(text, "{}", it.symbol.as_str()); record_span(it.span); } tt::LitKind::Byte | tt::LitKind::ByteStr | tt::LitKind::ByteStrRaw(_) | tt::LitKind::CStr | tt::LitKind::CStrRaw(_) | tt::LitKind::Err(_) => { err = Some(ExpandError::other(it.span, "unexpected literal")) } } } // handle boolean literals tt::TokenTree::Leaf(tt::Leaf::Ident(id)) if i % 2 == 0 && (id.sym == sym::true_ || id.sym == sym::false_) => { text.push_str(id.sym.as_str()); record_span(id.span); } tt::TokenTree::Leaf(tt::Leaf::Punct(punct)) if i % 2 == 1 && punct.char == ',' => (), _ => { err.get_or_insert(ExpandError::other(call_site, "unexpected token")); } } } let span = span.unwrap_or(tt.delimiter.open); ExpandResult { value: quote!(span =>#text), err } } fn concat_bytes_expand( _db: &dyn ExpandDatabase, _arg_id: MacroCallId, tt: &tt::Subtree, call_site: Span, ) -> ExpandResult { let mut bytes = String::new(); let mut err = None; let mut span: Option = None; let mut record_span = |s: Span| match &mut span { Some(span) if span.anchor == s.anchor => span.range = span.range.cover(s.range), Some(_) => (), None => span = Some(s), }; for (i, t) in tt.token_trees.iter().enumerate() { match t { tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind, suffix: _, })) => { record_span(*span); match kind { tt::LitKind::Byte => { if let Ok(b) = unescape_byte(text.as_str()) { bytes.extend( b.escape_ascii().filter_map(|it| char::from_u32(it as u32)), ); } } tt::LitKind::ByteStr => { bytes.push_str(text.as_str()); } tt::LitKind::ByteStrRaw(_) => { bytes.extend(text.as_str().escape_debug()); } _ => { err.get_or_insert(ExpandError::other(*span, "unexpected token")); break; } } } tt::TokenTree::Leaf(tt::Leaf::Punct(punct)) if i % 2 == 1 && punct.char == ',' => (), tt::TokenTree::Subtree(tree) if tree.delimiter.kind == tt::DelimiterKind::Bracket => { if let Err(e) = concat_bytes_expand_subtree(tree, &mut bytes, &mut record_span, call_site) { err.get_or_insert(e); break; } } _ => { err.get_or_insert(ExpandError::other(call_site, "unexpected token")); break; } } } let span = span.unwrap_or(tt.delimiter.open); ExpandResult { value: tt::Subtree { delimiter: tt::Delimiter::invisible_spanned(span), token_trees: vec![tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: Symbol::intern(&bytes), span, kind: tt::LitKind::ByteStr, suffix: None, }))] .into(), }, err, } } fn concat_bytes_expand_subtree( tree: &tt::Subtree, bytes: &mut String, mut record_span: impl FnMut(Span), err_span: Span, ) -> Result<(), ExpandError> { for (ti, tt) in tree.token_trees.iter().enumerate() { match tt { tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind: tt::LitKind::Byte, suffix: _, })) => { if let Ok(b) = unescape_byte(text.as_str()) { bytes.extend(b.escape_ascii().filter_map(|it| char::from_u32(it as u32))); } record_span(*span); } tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind: tt::LitKind::Integer, suffix: _, })) => { record_span(*span); if let Ok(b) = text.as_str().parse::() { bytes.extend(b.escape_ascii().filter_map(|it| char::from_u32(it as u32))); } } tt::TokenTree::Leaf(tt::Leaf::Punct(punct)) if ti % 2 == 1 && punct.char == ',' => (), _ => { return Err(ExpandError::other(err_span, "unexpected token")); } } } Ok(()) } fn concat_idents_expand( _db: &dyn ExpandDatabase, _arg_id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let mut err = None; let mut ident = String::new(); for (i, t) in tt.token_trees.iter().enumerate() { match t { tt::TokenTree::Leaf(tt::Leaf::Ident(id)) => { ident.push_str(id.sym.as_str()); } tt::TokenTree::Leaf(tt::Leaf::Punct(punct)) if i % 2 == 1 && punct.char == ',' => (), _ => { err.get_or_insert(ExpandError::other(span, "unexpected token")); } } } // FIXME merge spans let ident = tt::Ident { sym: Symbol::intern(&ident), span, is_raw: tt::IdentIsRaw::No }; ExpandResult { value: quote!(span =>#ident), err } } fn relative_file( db: &dyn ExpandDatabase, call_id: MacroCallId, path_str: &str, allow_recursion: bool, err_span: Span, ) -> Result { let lookup = call_id.lookup(db); let call_site = lookup.kind.file_id().original_file_respecting_includes(db).file_id(); let path = AnchoredPath { anchor: call_site, path: path_str }; let res = db .resolve_path(path) .ok_or_else(|| ExpandError::other(err_span, format!("failed to load file `{path_str}`")))?; // Prevent include itself if res == call_site && !allow_recursion { Err(ExpandError::other(err_span, format!("recursive inclusion of `{path_str}`"))) } else { Ok(EditionedFileId::new(res, db.crate_graph()[lookup.krate].edition)) } } fn parse_string(tt: &tt::Subtree) -> Result<(Symbol, Span), ExpandError> { tt.token_trees .first() .ok_or(tt.delimiter.open.cover(tt.delimiter.close)) .and_then(|tt| match tt { tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind: tt::LitKind::Str, suffix: _, })) => Ok((unescape_str(text), *span)), tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind: tt::LitKind::StrRaw(_), suffix: _, })) => Ok((text.clone(), *span)), // FIXME: We wrap expression fragments in parentheses which can break this expectation // here // Remove this once we handle none delims correctly tt::TokenTree::Subtree(tt) if tt.delimiter.kind == DelimiterKind::Parenthesis => { tt.token_trees.first().and_then(|tt| match tt { tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind: tt::LitKind::Str, suffix: _, })) => Some((unescape_str(text), *span)), tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: text, span, kind: tt::LitKind::StrRaw(_), suffix: _, })) => Some((text.clone(), *span)), _ => None, }) } .ok_or(tt.delimiter.open.cover(tt.delimiter.close)), ::tt::TokenTree::Leaf(l) => Err(*l.span()), ::tt::TokenTree::Subtree(tt) => Err(tt.delimiter.open.cover(tt.delimiter.close)), }) .map_err(|span| ExpandError::other(span, "expected string literal")) } fn include_expand( db: &dyn ExpandDatabase, arg_id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let file_id = match include_input_to_file_id(db, arg_id, tt) { Ok(it) => it, Err(e) => { return ExpandResult::new(tt::Subtree::empty(DelimSpan { open: span, close: span }), e) } }; let span_map = db.real_span_map(file_id); // FIXME: Parse errors ExpandResult::ok(syntax_node_to_token_tree( &db.parse(file_id).syntax_node(), SpanMap::RealSpanMap(span_map), span, syntax_bridge::DocCommentDesugarMode::ProcMacro, )) } pub fn include_input_to_file_id( db: &dyn ExpandDatabase, arg_id: MacroCallId, arg: &tt::Subtree, ) -> Result { let (s, span) = parse_string(arg)?; relative_file(db, arg_id, s.as_str(), false, span) } fn include_bytes_expand( _db: &dyn ExpandDatabase, _arg_id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { // FIXME: actually read the file here if the user asked for macro expansion let res = tt::Subtree { delimiter: tt::Delimiter::invisible_spanned(span), token_trees: Box::new([tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal { symbol: Symbol::empty(), span, kind: tt::LitKind::ByteStrRaw(1), suffix: None, }))]), }; ExpandResult::ok(res) } fn include_str_expand( db: &dyn ExpandDatabase, arg_id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let (path, span) = match parse_string(tt) { Ok(it) => it, Err(e) => { return ExpandResult::new(tt::Subtree::empty(DelimSpan { open: span, close: span }), e) } }; // FIXME: we're not able to read excluded files (which is most of them because // it's unusual to `include_str!` a Rust file), but we can return an empty string. // Ideally, we'd be able to offer a precise expansion if the user asks for macro // expansion. let file_id = match relative_file(db, arg_id, path.as_str(), true, span) { Ok(file_id) => file_id, Err(_) => { return ExpandResult::ok(quote!(span =>"")); } }; let text = db.file_text(file_id.file_id()); let text = &*text; ExpandResult::ok(quote!(span =>#text)) } fn get_env_inner(db: &dyn ExpandDatabase, arg_id: MacroCallId, key: &Symbol) -> Option { let krate = db.lookup_intern_macro_call(arg_id).krate; db.crate_graph()[krate].env.get(key.as_str()) } fn env_expand( db: &dyn ExpandDatabase, arg_id: MacroCallId, tt: &tt::Subtree, span: Span, ) -> ExpandResult { let (key, span) = match parse_string(tt) { Ok(it) => it, Err(e) => { return ExpandResult::new(tt::Subtree::empty(DelimSpan { open: span, close: span }), e) } }; let mut err = None; let s = get_env_inner(db, arg_id, &key).unwrap_or_else(|| { // The only variable rust-analyzer ever sets is `OUT_DIR`, so only diagnose that to avoid // unnecessary diagnostics for eg. `CARGO_PKG_NAME`. if key.as_str() == "OUT_DIR" { err = Some(ExpandError::other( span, r#"`OUT_DIR` not set, enable "build scripts" to fix"#, )); } // If the variable is unset, still return a dummy string to help type inference along. // We cannot use an empty string here, because for // `include!(concat!(env!("OUT_DIR"), "/foo.rs"))` will become // `include!("foo.rs"), which might go to infinite loop "UNRESOLVED_ENV_VAR".to_owned() }); let expanded = quote! {span => #s }; ExpandResult { value: expanded, err } } fn option_env_expand( db: &dyn ExpandDatabase, arg_id: MacroCallId, tt: &tt::Subtree, call_site: Span, ) -> ExpandResult { let (key, span) = match parse_string(tt) { Ok(it) => it, Err(e) => { return ExpandResult::new( tt::Subtree::empty(DelimSpan { open: call_site, close: call_site }), e, ) } }; let dollar_crate = dollar_crate(call_site); let expanded = match get_env_inner(db, arg_id, &key) { None => quote! {call_site => #dollar_crate::option::Option::None::<&str> }, Some(s) => { let s = quote! (span => #s); quote! {call_site => #dollar_crate::option::Option::Some(#s) } } }; ExpandResult::ok(expanded) } fn quote_expand( _db: &dyn ExpandDatabase, _arg_id: MacroCallId, _tt: &tt::Subtree, span: Span, ) -> ExpandResult { ExpandResult::new( tt::Subtree::empty(tt::DelimSpan { open: span, close: span }), ExpandError::other(span, "quote! is not implemented"), ) } fn unescape_str(s: &Symbol) -> Symbol { if s.as_str().contains('\\') { let s = s.as_str(); let mut buf = String::with_capacity(s.len()); unescape_unicode(s, Mode::Str, &mut |_, c| { if let Ok(c) = c { buf.push(c) } }); Symbol::intern(&buf) } else { s.clone() } }