#![feature(let_chains)] #![feature(proc_macro_span)] #![allow(clippy::needless_if, dead_code)] extern crate proc_macro; use core::mem; use proc_macro::token_stream::IntoIter; use proc_macro::Delimiter::{self, Brace, Parenthesis}; use proc_macro::Spacing::{self, Alone, Joint}; use proc_macro::{Group, Ident, Literal, Punct, Span, TokenStream, TokenTree as TT}; use syn::spanned::Spanned; type Result = core::result::Result; /// Make a `compile_error!` pointing to the given span. fn make_error(msg: &str, span: Span) -> TokenStream { TokenStream::from_iter([ TT::Ident(Ident::new("compile_error", span)), TT::Punct(punct_with_span('!', Alone, span)), TT::Group({ let mut msg = Literal::string(msg); msg.set_span(span); group_with_span(Parenthesis, TokenStream::from_iter([TT::Literal(msg)]), span) }), ]) } fn expect_tt(tt: Option, f: impl FnOnce(TT) -> Option, expected: &str, span: Span) -> Result { match tt { None => Err(make_error( &format!("unexpected end of input, expected {expected}"), span, )), Some(tt) => { let span = tt.span(); match f(tt) { Some(x) => Ok(x), None => Err(make_error(&format!("unexpected token, expected {expected}"), span)), } }, } } fn punct_with_span(c: char, spacing: Spacing, span: Span) -> Punct { let mut p = Punct::new(c, spacing); p.set_span(span); p } fn group_with_span(delimiter: Delimiter, stream: TokenStream, span: Span) -> Group { let mut g = Group::new(delimiter, stream); g.set_span(span); g } /// Token used to escape the following token from the macro's span rules. const ESCAPE_CHAR: char = '$'; /// Takes a single token followed by a sequence of tokens. Returns the sequence of tokens with their /// span set to that of the first token. Tokens may be escaped with either `#ident` or `#(tokens)`. #[proc_macro] pub fn with_span(input: TokenStream) -> TokenStream { let mut iter = input.into_iter(); let span = iter.next().unwrap().span(); let mut res = TokenStream::new(); if let Err(e) = write_with_span(span, iter, &mut res) { e } else { res } } /// Takes a sequence of tokens and return the tokens with the span set such that they appear to be /// from an external macro. Tokens may be escaped with either `#ident` or `#(tokens)`. #[proc_macro] pub fn external(input: TokenStream) -> TokenStream { let mut res = TokenStream::new(); if let Err(e) = write_with_span(Span::mixed_site(), input.into_iter(), &mut res) { e } else { res } } /// Copies all the tokens, replacing all their spans with the given span. Tokens can be escaped /// either by `#ident` or `#(tokens)`. fn write_with_span(s: Span, mut input: IntoIter, out: &mut TokenStream) -> Result<()> { while let Some(tt) = input.next() { match tt { TT::Punct(p) if p.as_char() == ESCAPE_CHAR => { expect_tt( input.next(), |tt| match tt { tt @ (TT::Ident(_) | TT::Literal(_)) => { out.extend([tt]); Some(()) }, TT::Punct(mut p) if p.as_char() == ESCAPE_CHAR => { p.set_span(s); out.extend([TT::Punct(p)]); Some(()) }, TT::Group(g) if g.delimiter() == Parenthesis => { out.extend([TT::Group(group_with_span(Delimiter::None, g.stream(), g.span()))]); Some(()) }, _ => None, }, "an ident, a literal, or parenthesized tokens", p.span(), )?; }, TT::Group(g) => { let mut stream = TokenStream::new(); write_with_span(s, g.stream().into_iter(), &mut stream)?; out.extend([TT::Group(group_with_span(g.delimiter(), stream, s))]); }, mut tt => { tt.set_span(s); out.extend([tt]); }, } } Ok(()) } /// Takes an array repeat expression such as `[0_u32; 2]`, and return the tokens with 10 times the /// original size, which turns to `[0_u32; 20]`. #[proc_macro] pub fn make_it_big(input: TokenStream) -> TokenStream { let mut expr_repeat = syn::parse_macro_input!(input as syn::ExprRepeat); let len_span = expr_repeat.len.span(); if let syn::Expr::Lit(expr_lit) = &mut *expr_repeat.len { if let syn::Lit::Int(lit_int) = &expr_lit.lit { let orig_val = lit_int.base10_parse::().expect("not a valid length parameter"); let new_val = orig_val.saturating_mul(10); expr_lit.lit = syn::parse_quote_spanned!( len_span => #new_val); } } quote::quote!(#expr_repeat).into() } /// Within the item this attribute is attached to, an `inline!` macro is available which expands the /// contained tokens as though they came from a macro expansion. /// /// Within the `inline!` macro, any token preceded by `$` is passed as though it were an argument /// with an automatically chosen fragment specifier. `$ident` will be passed as `ident`, `$1` or /// `$"literal"` will be passed as `literal`, `$'lt` will be passed as `lifetime`, and `$(...)` will /// pass the contained tokens as a `tt` sequence (the wrapping parenthesis are removed). If another /// specifier is required it can be specified within parenthesis like `$(@expr ...)`. This will /// expand the remaining tokens as a single argument. /// /// Multiple `inline!` macros may be nested within each other. This will expand as nested macro /// calls. However, any arguments will be passed as though they came from the outermost context. #[proc_macro_attribute] pub fn inline_macros(args: TokenStream, input: TokenStream) -> TokenStream { let mut args = args.into_iter(); let mac_name = match args.next() { Some(TT::Ident(name)) => Some(name), Some(tt) => { return make_error( "unexpected argument, expected either an ident or no arguments", tt.span(), ); }, None => None, }; if let Some(tt) = args.next() { return make_error( "unexpected argument, expected either an ident or no arguments", tt.span(), ); }; let mac_name = if let Some(mac_name) = mac_name { Ident::new(&format!("__inline_mac_{mac_name}"), Span::call_site()) } else { let mut input = match LookaheadIter::new(input.clone().into_iter()) { Some(x) => x, None => return input, }; loop { match input.next() { None => break Ident::new("__inline_mac", Span::call_site()), Some(TT::Ident(kind)) => match &*kind.to_string() { "impl" => break Ident::new("__inline_mac_impl", Span::call_site()), kind @ ("struct" | "enum" | "union" | "fn" | "mod" | "trait" | "type" | "const" | "static") => { if let TT::Ident(name) = &input.tt { break Ident::new(&format!("__inline_mac_{kind}_{name}"), Span::call_site()); } else { break Ident::new(&format!("__inline_mac_{kind}"), Span::call_site()); } }, _ => {}, }, _ => {}, } } }; let mut expander = Expander::default(); let mut mac = MacWriter::new(mac_name); if let Err(e) = expander.expand(input.into_iter(), &mut mac) { return e; } let mut out = TokenStream::new(); mac.finish(&mut out); out.extend(expander.expn); out } /// Wraps a `TokenStream` iterator with a single token lookahead. struct LookaheadIter { tt: TT, iter: IntoIter, } impl LookaheadIter { fn new(mut iter: IntoIter) -> Option { iter.next().map(|tt| Self { tt, iter }) } /// Get's the lookahead token, replacing it with the next token in the stream. /// Note: If there isn't a next token, this will not return the lookahead token. fn next(&mut self) -> Option { self.iter.next().map(|tt| mem::replace(&mut self.tt, tt)) } } /// Builds the macro used to implement all the `inline!` macro calls. struct MacWriter { name: Ident, macros: TokenStream, next_idx: usize, } impl MacWriter { fn new(name: Ident) -> Self { Self { name, macros: TokenStream::new(), next_idx: 0, } } /// Inserts a new `inline!` call. fn insert(&mut self, name_span: Span, bang_span: Span, body: Group, expander: &mut Expander) -> Result<()> { let idx = self.next_idx; self.next_idx += 1; let mut inner = Expander::for_arm(idx); inner.expand(body.stream().into_iter(), self)?; let new_arm = inner.arm.unwrap(); self.macros.extend([ TT::Group(Group::new(Parenthesis, new_arm.args_def)), TT::Punct(Punct::new('=', Joint)), TT::Punct(Punct::new('>', Alone)), TT::Group(Group::new(Parenthesis, inner.expn)), TT::Punct(Punct::new(';', Alone)), ]); expander.expn.extend([ TT::Ident({ let mut name = self.name.clone(); name.set_span(name_span); name }), TT::Punct(punct_with_span('!', Alone, bang_span)), ]); let mut call_body = TokenStream::from_iter([TT::Literal(Literal::usize_unsuffixed(idx))]); if let Some(arm) = expander.arm.as_mut() { if !new_arm.args.is_empty() { arm.add_sub_args(new_arm.args, &mut call_body); } } else { call_body.extend(new_arm.args); } let mut g = Group::new(body.delimiter(), call_body); g.set_span(body.span()); expander.expn.extend([TT::Group(g)]); Ok(()) } /// Creates the macro definition. fn finish(self, out: &mut TokenStream) { if self.next_idx != 0 { out.extend([ TT::Ident(Ident::new("macro_rules", Span::call_site())), TT::Punct(Punct::new('!', Alone)), TT::Ident(self.name), TT::Group(Group::new(Brace, self.macros)), ]) } } } struct MacroArm { args_def: TokenStream, args: Vec, } impl MacroArm { fn add_single_arg_def(&mut self, kind: &str, dollar_span: Span, arg_span: Span, out: &mut TokenStream) { let mut name = Ident::new(&format!("_{}", self.args.len()), Span::call_site()); self.args_def.extend([ TT::Punct(Punct::new('$', Alone)), TT::Ident(name.clone()), TT::Punct(Punct::new(':', Alone)), TT::Ident(Ident::new(kind, Span::call_site())), ]); name.set_span(arg_span); out.extend([TT::Punct(punct_with_span('$', Alone, dollar_span)), TT::Ident(name)]); } fn add_parenthesized_arg_def(&mut self, kind: Ident, dollar_span: Span, arg_span: Span, out: &mut TokenStream) { let mut name = Ident::new(&format!("_{}", self.args.len()), Span::call_site()); self.args_def.extend([TT::Group(Group::new( Parenthesis, TokenStream::from_iter([ TT::Punct(Punct::new('$', Alone)), TT::Ident(name.clone()), TT::Punct(Punct::new(':', Alone)), TT::Ident(kind), ]), ))]); name.set_span(arg_span); out.extend([TT::Punct(punct_with_span('$', Alone, dollar_span)), TT::Ident(name)]); } fn add_multi_arg_def(&mut self, dollar_span: Span, arg_span: Span, out: &mut TokenStream) { let mut name = Ident::new(&format!("_{}", self.args.len()), Span::call_site()); self.args_def.extend([TT::Group(Group::new( Parenthesis, TokenStream::from_iter([ TT::Punct(Punct::new('$', Alone)), TT::Group(Group::new( Parenthesis, TokenStream::from_iter([ TT::Punct(Punct::new('$', Alone)), TT::Ident(name.clone()), TT::Punct(Punct::new(':', Alone)), TT::Ident(Ident::new("tt", Span::call_site())), ]), )), TT::Punct(Punct::new('*', Alone)), ]), ))]); name.set_span(arg_span); out.extend([ TT::Punct(punct_with_span('$', Alone, dollar_span)), TT::Group(group_with_span( Parenthesis, TokenStream::from_iter([TT::Punct(punct_with_span('$', Alone, dollar_span)), TT::Ident(name)]), dollar_span, )), TT::Punct(punct_with_span('*', Alone, dollar_span)), ]); } fn add_arg(&mut self, dollar_span: Span, tt: TT, input: &mut IntoIter, out: &mut TokenStream) -> Result<()> { match tt { TT::Punct(p) if p.as_char() == ESCAPE_CHAR => out.extend([TT::Punct(p)]), TT::Punct(p) if p.as_char() == '\'' && p.spacing() == Joint => { let lt_name = expect_tt( input.next(), |tt| match tt { TT::Ident(x) => Some(x), _ => None, }, "lifetime name", p.span(), )?; let arg_span = p.span().join(lt_name.span()).unwrap_or(p.span()); self.add_single_arg_def("lifetime", dollar_span, arg_span, out); self.args.extend([TT::Punct(p), TT::Ident(lt_name)]); }, TT::Ident(x) => { self.add_single_arg_def("ident", dollar_span, x.span(), out); self.args.push(TT::Ident(x)); }, TT::Literal(x) => { self.add_single_arg_def("literal", dollar_span, x.span(), out); self.args.push(TT::Literal(x)); }, TT::Group(g) if g.delimiter() == Parenthesis => { let mut inner = g.stream().into_iter(); if let Some(TT::Punct(p)) = inner.next() && p.as_char() == '@' { let kind = expect_tt( inner.next(), |tt| match tt { TT::Ident(kind) => Some(kind), _ => None, }, "a macro fragment specifier", p.span(), )?; self.add_parenthesized_arg_def(kind, dollar_span, g.span(), out); self.args .push(TT::Group(group_with_span(Parenthesis, inner.collect(), g.span()))) } else { self.add_multi_arg_def(dollar_span, g.span(), out); self.args.push(TT::Group(g)); } }, tt => return Err(make_error("unsupported escape", tt.span())), }; Ok(()) } fn add_sub_args(&mut self, args: Vec, out: &mut TokenStream) { self.add_multi_arg_def(Span::call_site(), Span::call_site(), out); self.args .extend([TT::Group(Group::new(Parenthesis, TokenStream::from_iter(args)))]); } } #[derive(Default)] struct Expander { arm: Option, expn: TokenStream, } impl Expander { fn for_arm(idx: usize) -> Self { Self { arm: Some(MacroArm { args_def: TokenStream::from_iter([TT::Literal(Literal::usize_unsuffixed(idx))]), args: Vec::new(), }), expn: TokenStream::new(), } } fn write_tt(&mut self, tt: TT, mac: &mut MacWriter) -> Result<()> { match tt { TT::Group(g) => { let outer = mem::take(&mut self.expn); self.expand(g.stream().into_iter(), mac)?; let inner = mem::replace(&mut self.expn, outer); self.expn .extend([TT::Group(group_with_span(g.delimiter(), inner, g.span()))]); }, tt => self.expn.extend([tt]), } Ok(()) } fn expand(&mut self, input: IntoIter, mac: &mut MacWriter) -> Result<()> { let Some(mut input) = LookaheadIter::new(input) else { return Ok(()); }; while let Some(tt) = input.next() { if let TT::Punct(p) = &tt && p.as_char() == ESCAPE_CHAR && let Some(arm) = self.arm.as_mut() { arm.add_arg( p.span(), mem::replace(&mut input.tt, tt), &mut input.iter, &mut self.expn, )?; if input.next().is_none() { return Ok(()); } } else if let TT::Punct(p) = &input.tt && p.as_char() == '!' && let TT::Ident(name) = &tt && name.to_string() == "inline" { let g = expect_tt( input.iter.next(), |tt| match tt { TT::Group(g) => Some(g), _ => None, }, "macro arguments", p.span(), )?; mac.insert(name.span(), p.span(), g, self)?; if input.next().is_none() { return Ok(()); } } else { self.write_tt(tt, mac)?; } } self.write_tt(input.tt, mac) } }