//! AST pretty printing. //! //! Note that HIR pretty printing is layered on top of this crate. mod expr; mod fixup; mod item; use std::borrow::Cow; use rustc_ast::attr::AttrIdGenerator; use rustc_ast::ptr::P; use rustc_ast::token::{ self, BinOpToken, CommentKind, Delimiter, IdentIsRaw, Nonterminal, Token, TokenKind, }; use rustc_ast::tokenstream::{Spacing, TokenStream, TokenTree}; use rustc_ast::util::classify; use rustc_ast::util::comments::{Comment, CommentStyle}; use rustc_ast::{ self as ast, AttrArgs, BindingMode, BlockCheckMode, ByRef, DelimArgs, GenericArg, GenericBound, InlineAsmOperand, InlineAsmOptions, InlineAsmRegOrRegClass, InlineAsmTemplatePiece, PatKind, RangeEnd, RangeSyntax, Safety, SelfKind, Term, attr, }; use rustc_data_structures::sync::Lrc; use rustc_span::edition::Edition; use rustc_span::source_map::{SourceMap, Spanned}; use rustc_span::symbol::{Ident, IdentPrinter, Symbol, kw, sym}; use rustc_span::{BytePos, CharPos, DUMMY_SP, FileName, Pos, Span}; use thin_vec::ThinVec; use crate::pp::Breaks::{Consistent, Inconsistent}; use crate::pp::{self, Breaks}; use crate::pprust::state::fixup::FixupContext; pub enum MacHeader<'a> { Path(&'a ast::Path), Keyword(&'static str), } pub enum AnnNode<'a> { Ident(&'a Ident), Name(&'a Symbol), Block(&'a ast::Block), Item(&'a ast::Item), SubItem(ast::NodeId), Expr(&'a ast::Expr), Pat(&'a ast::Pat), Crate(&'a ast::Crate), } pub trait PpAnn { fn pre(&self, _state: &mut State<'_>, _node: AnnNode<'_>) {} fn post(&self, _state: &mut State<'_>, _node: AnnNode<'_>) {} } struct NoAnn; impl PpAnn for NoAnn {} pub struct Comments<'a> { sm: &'a SourceMap, // Stored in reverse order so we can consume them by popping. reversed_comments: Vec, } /// Returns `None` if the first `col` chars of `s` contain a non-whitespace char. /// Otherwise returns `Some(k)` where `k` is first char offset after that leading /// whitespace. Note that `k` may be outside bounds of `s`. fn all_whitespace(s: &str, col: CharPos) -> Option { let mut idx = 0; for (i, ch) in s.char_indices().take(col.to_usize()) { if !ch.is_whitespace() { return None; } idx = i + ch.len_utf8(); } Some(idx) } fn trim_whitespace_prefix(s: &str, col: CharPos) -> &str { let len = s.len(); match all_whitespace(s, col) { Some(col) => { if col < len { &s[col..] } else { "" } } None => s, } } fn split_block_comment_into_lines(text: &str, col: CharPos) -> Vec { let mut res: Vec = vec![]; let mut lines = text.lines(); // just push the first line res.extend(lines.next().map(|it| it.to_string())); // for other lines, strip common whitespace prefix for line in lines { res.push(trim_whitespace_prefix(line, col).to_string()) } res } fn gather_comments(sm: &SourceMap, path: FileName, src: String) -> Vec { let sm = SourceMap::new(sm.path_mapping().clone()); let source_file = sm.new_source_file(path, src); let text = Lrc::clone(&(*source_file.src.as_ref().unwrap())); let text: &str = text.as_str(); let start_bpos = source_file.start_pos; let mut pos = 0; let mut comments: Vec = Vec::new(); let mut code_to_the_left = false; if let Some(shebang_len) = rustc_lexer::strip_shebang(text) { comments.push(Comment { style: CommentStyle::Isolated, lines: vec![text[..shebang_len].to_string()], pos: start_bpos, }); pos += shebang_len; } for token in rustc_lexer::tokenize(&text[pos..]) { let token_text = &text[pos..pos + token.len as usize]; match token.kind { rustc_lexer::TokenKind::Whitespace => { if let Some(mut idx) = token_text.find('\n') { code_to_the_left = false; while let Some(next_newline) = &token_text[idx + 1..].find('\n') { idx += 1 + next_newline; comments.push(Comment { style: CommentStyle::BlankLine, lines: vec![], pos: start_bpos + BytePos((pos + idx) as u32), }); } } } rustc_lexer::TokenKind::BlockComment { doc_style, .. } => { if doc_style.is_none() { let code_to_the_right = !matches!( text[pos + token.len as usize..].chars().next(), Some('\r' | '\n') ); let style = match (code_to_the_left, code_to_the_right) { (_, true) => CommentStyle::Mixed, (false, false) => CommentStyle::Isolated, (true, false) => CommentStyle::Trailing, }; // Count the number of chars since the start of the line by rescanning. let pos_in_file = start_bpos + BytePos(pos as u32); let line_begin_in_file = source_file.line_begin_pos(pos_in_file); let line_begin_pos = (line_begin_in_file - start_bpos).to_usize(); let col = CharPos(text[line_begin_pos..pos].chars().count()); let lines = split_block_comment_into_lines(token_text, col); comments.push(Comment { style, lines, pos: pos_in_file }) } } rustc_lexer::TokenKind::LineComment { doc_style } => { if doc_style.is_none() { comments.push(Comment { style: if code_to_the_left { CommentStyle::Trailing } else { CommentStyle::Isolated }, lines: vec![token_text.to_string()], pos: start_bpos + BytePos(pos as u32), }) } } _ => { code_to_the_left = true; } } pos += token.len as usize; } comments } impl<'a> Comments<'a> { pub fn new(sm: &'a SourceMap, filename: FileName, input: String) -> Comments<'a> { let mut comments = gather_comments(sm, filename, input); comments.reverse(); Comments { sm, reversed_comments: comments } } fn peek(&self) -> Option<&Comment> { self.reversed_comments.last() } fn next(&mut self) -> Option { self.reversed_comments.pop() } fn trailing_comment( &mut self, span: rustc_span::Span, next_pos: Option, ) -> Option { if let Some(cmnt) = self.peek() { if cmnt.style != CommentStyle::Trailing { return None; } let span_line = self.sm.lookup_char_pos(span.hi()); let comment_line = self.sm.lookup_char_pos(cmnt.pos); let next = next_pos.unwrap_or_else(|| cmnt.pos + BytePos(1)); if span.hi() < cmnt.pos && cmnt.pos < next && span_line.line == comment_line.line { return Some(self.next().unwrap()); } } None } } pub struct State<'a> { pub s: pp::Printer, comments: Option>, ann: &'a (dyn PpAnn + 'a), } const INDENT_UNIT: isize = 4; /// Requires you to pass an input filename and reader so that /// it can scan the input text for comments to copy forward. pub fn print_crate<'a>( sm: &'a SourceMap, krate: &ast::Crate, filename: FileName, input: String, ann: &'a dyn PpAnn, is_expanded: bool, edition: Edition, g: &AttrIdGenerator, ) -> String { let mut s = State { s: pp::Printer::new(), comments: Some(Comments::new(sm, filename, input)), ann }; if is_expanded && !krate.attrs.iter().any(|attr| attr.has_name(sym::no_core)) { // We need to print `#![no_std]` (and its feature gate) so that // compiling pretty-printed source won't inject libstd again. // However, we don't want these attributes in the AST because // of the feature gate, so we fake them up here. // `#![feature(prelude_import)]` let fake_attr = attr::mk_attr_nested_word( g, ast::AttrStyle::Inner, Safety::Default, sym::feature, sym::prelude_import, DUMMY_SP, ); s.print_attribute(&fake_attr); // Currently, in Rust 2018 we don't have `extern crate std;` at the crate // root, so this is not needed, and actually breaks things. if edition.is_rust_2015() { // `#![no_std]` let fake_attr = attr::mk_attr_word( g, ast::AttrStyle::Inner, Safety::Default, sym::no_std, DUMMY_SP, ); s.print_attribute(&fake_attr); } } s.print_inner_attributes(&krate.attrs); for item in &krate.items { s.print_item(item); } s.print_remaining_comments(); s.ann.post(&mut s, AnnNode::Crate(krate)); s.s.eof() } /// Should two consecutive tokens be printed with a space between them? /// /// Note: some old proc macros parse pretty-printed output, so changes here can /// break old code. For example: /// - #63896: `#[allow(unused,` must be printed rather than `#[allow(unused ,` /// - #73345: `#[allow(unused)]` must be printed rather than `# [allow(unused)]` /// fn space_between(tt1: &TokenTree, tt2: &TokenTree) -> bool { use Delimiter::*; use TokenTree::{Delimited as Del, Token as Tok}; use token::*; fn is_punct(tt: &TokenTree) -> bool { matches!(tt, TokenTree::Token(tok, _) if tok.is_punct()) } // Each match arm has one or more examples in comments. The default is to // insert space between adjacent tokens, except for the cases listed in // this match. match (tt1, tt2) { // No space after line doc comments. (Tok(Token { kind: DocComment(CommentKind::Line, ..), .. }, _), _) => false, // `.` + NON-PUNCT: `x.y`, `tup.0` (Tok(Token { kind: Dot, .. }, _), tt2) if !is_punct(tt2) => false, // `$` + IDENT: `$e` (Tok(Token { kind: Dollar, .. }, _), Tok(Token { kind: Ident(..), .. }, _)) => false, // NON-PUNCT + `,`: `foo,` // NON-PUNCT + `;`: `x = 3;`, `[T; 3]` // NON-PUNCT + `.`: `x.y`, `tup.0` (tt1, Tok(Token { kind: Comma | Semi | Dot, .. }, _)) if !is_punct(tt1) => false, // IDENT + `!`: `println!()`, but `if !x { ... }` needs a space after the `if` (Tok(Token { kind: Ident(sym, is_raw), span }, _), Tok(Token { kind: Not, .. }, _)) if !Ident::new(*sym, *span).is_reserved() || matches!(is_raw, IdentIsRaw::Yes) => { false } // IDENT|`fn`|`Self`|`pub` + `(`: `f(3)`, `fn(x: u8)`, `Self()`, `pub(crate)`, // but `let (a, b) = (1, 2)` needs a space after the `let` (Tok(Token { kind: Ident(sym, is_raw), span }, _), Del(_, _, Parenthesis, _)) if !Ident::new(*sym, *span).is_reserved() || *sym == kw::Fn || *sym == kw::SelfUpper || *sym == kw::Pub || matches!(is_raw, IdentIsRaw::Yes) => { false } // `#` + `[`: `#[attr]` (Tok(Token { kind: Pound, .. }, _), Del(_, _, Bracket, _)) => false, _ => true, } } fn binop_to_string(op: BinOpToken) -> &'static str { match op { token::Plus => "+", token::Minus => "-", token::Star => "*", token::Slash => "/", token::Percent => "%", token::Caret => "^", token::And => "&", token::Or => "|", token::Shl => "<<", token::Shr => ">>", } } pub fn doc_comment_to_string( comment_kind: CommentKind, attr_style: ast::AttrStyle, data: Symbol, ) -> String { match (comment_kind, attr_style) { (CommentKind::Line, ast::AttrStyle::Outer) => format!("///{data}"), (CommentKind::Line, ast::AttrStyle::Inner) => format!("//!{data}"), (CommentKind::Block, ast::AttrStyle::Outer) => format!("/**{data}*/"), (CommentKind::Block, ast::AttrStyle::Inner) => format!("/*!{data}*/"), } } fn literal_to_string(lit: token::Lit) -> String { let token::Lit { kind, symbol, suffix } = lit; let mut out = match kind { token::Byte => format!("b'{symbol}'"), token::Char => format!("'{symbol}'"), token::Str => format!("\"{symbol}\""), token::StrRaw(n) => { format!("r{delim}\"{string}\"{delim}", delim = "#".repeat(n as usize), string = symbol) } token::ByteStr => format!("b\"{symbol}\""), token::ByteStrRaw(n) => { format!("br{delim}\"{string}\"{delim}", delim = "#".repeat(n as usize), string = symbol) } token::CStr => format!("c\"{symbol}\""), token::CStrRaw(n) => { format!("cr{delim}\"{symbol}\"{delim}", delim = "#".repeat(n as usize)) } token::Integer | token::Float | token::Bool | token::Err(_) => symbol.to_string(), }; if let Some(suffix) = suffix { out.push_str(suffix.as_str()) } out } impl std::ops::Deref for State<'_> { type Target = pp::Printer; fn deref(&self) -> &Self::Target { &self.s } } impl std::ops::DerefMut for State<'_> { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.s } } /// This trait is used for both AST and HIR pretty-printing. pub trait PrintState<'a>: std::ops::Deref + std::ops::DerefMut { fn comments(&self) -> Option<&Comments<'a>>; fn comments_mut(&mut self) -> Option<&mut Comments<'a>>; fn ann_post(&mut self, ident: Ident); fn print_generic_args(&mut self, args: &ast::GenericArgs, colons_before_params: bool); fn print_ident(&mut self, ident: Ident) { self.word(IdentPrinter::for_ast_ident(ident, ident.is_raw_guess()).to_string()); self.ann_post(ident) } fn strsep( &mut self, sep: &'static str, space_before: bool, b: Breaks, elts: &[T], mut op: F, ) where F: FnMut(&mut Self, &T), { self.rbox(0, b); if let Some((first, rest)) = elts.split_first() { op(self, first); for elt in rest { if space_before { self.space(); } self.word_space(sep); op(self, elt); } } self.end(); } fn commasep(&mut self, b: Breaks, elts: &[T], op: F) where F: FnMut(&mut Self, &T), { self.strsep(",", false, b, elts, op) } fn maybe_print_comment(&mut self, pos: BytePos) -> bool { let mut has_comment = false; while let Some(cmnt) = self.peek_comment() { if cmnt.pos >= pos { break; } has_comment = true; let cmnt = self.next_comment().unwrap(); self.print_comment(cmnt); } has_comment } fn print_comment(&mut self, cmnt: Comment) { match cmnt.style { CommentStyle::Mixed => { if !self.is_beginning_of_line() { self.zerobreak(); } if let Some((last, lines)) = cmnt.lines.split_last() { self.ibox(0); for line in lines { self.word(line.clone()); self.hardbreak() } self.word(last.clone()); self.space(); self.end(); } self.zerobreak() } CommentStyle::Isolated => { self.hardbreak_if_not_bol(); for line in &cmnt.lines { // Don't print empty lines because they will end up as trailing // whitespace. if !line.is_empty() { self.word(line.clone()); } self.hardbreak(); } } CommentStyle::Trailing => { if !self.is_beginning_of_line() { self.word(" "); } if let [line] = cmnt.lines.as_slice() { self.word(line.clone()); self.hardbreak() } else { self.visual_align(); for line in &cmnt.lines { if !line.is_empty() { self.word(line.clone()); } self.hardbreak(); } self.end(); } } CommentStyle::BlankLine => { // We need to do at least one, possibly two hardbreaks. let twice = match self.last_token() { Some(pp::Token::String(s)) => ";" == s, Some(pp::Token::Begin(_)) => true, Some(pp::Token::End) => true, _ => false, }; if twice { self.hardbreak(); } self.hardbreak(); } } } fn peek_comment<'b>(&'b self) -> Option<&'b Comment> where 'a: 'b, { self.comments().and_then(|c| c.peek()) } fn next_comment(&mut self) -> Option { self.comments_mut().and_then(|c| c.next()) } fn maybe_print_trailing_comment(&mut self, span: rustc_span::Span, next_pos: Option) { if let Some(cmnts) = self.comments_mut() { if let Some(cmnt) = cmnts.trailing_comment(span, next_pos) { self.print_comment(cmnt); } } } fn print_remaining_comments(&mut self) { // If there aren't any remaining comments, then we need to manually // make sure there is a line break at the end. if self.peek_comment().is_none() { self.hardbreak(); } while let Some(cmnt) = self.next_comment() { self.print_comment(cmnt) } } fn print_string(&mut self, st: &str, style: ast::StrStyle) { let st = match style { ast::StrStyle::Cooked => format!("\"{}\"", st.escape_debug()), ast::StrStyle::Raw(n) => { format!("r{delim}\"{string}\"{delim}", delim = "#".repeat(n as usize), string = st) } }; self.word(st) } fn print_inner_attributes(&mut self, attrs: &[ast::Attribute]) -> bool { self.print_either_attributes(attrs, ast::AttrStyle::Inner, false, true) } fn print_outer_attributes(&mut self, attrs: &[ast::Attribute]) -> bool { self.print_either_attributes(attrs, ast::AttrStyle::Outer, false, true) } fn print_either_attributes( &mut self, attrs: &[ast::Attribute], kind: ast::AttrStyle, is_inline: bool, trailing_hardbreak: bool, ) -> bool { let mut printed = false; for attr in attrs { if attr.style == kind { self.print_attribute_inline(attr, is_inline); if is_inline { self.nbsp(); } printed = true; } } if printed && trailing_hardbreak && !is_inline { self.hardbreak_if_not_bol(); } printed } fn print_attribute_inline(&mut self, attr: &ast::Attribute, is_inline: bool) { if !is_inline { self.hardbreak_if_not_bol(); } self.maybe_print_comment(attr.span.lo()); match &attr.kind { ast::AttrKind::Normal(normal) => { match attr.style { ast::AttrStyle::Inner => self.word("#!["), ast::AttrStyle::Outer => self.word("#["), } self.print_attr_item(&normal.item, attr.span); self.word("]"); } ast::AttrKind::DocComment(comment_kind, data) => { self.word(doc_comment_to_string(*comment_kind, attr.style, *data)); self.hardbreak() } } } fn print_attr_item(&mut self, item: &ast::AttrItem, span: Span) { self.ibox(0); match item.unsafety { ast::Safety::Unsafe(_) => { self.word("unsafe"); self.popen(); } ast::Safety::Default | ast::Safety::Safe(_) => {} } match &item.args { AttrArgs::Delimited(DelimArgs { dspan: _, delim, tokens }) => self.print_mac_common( Some(MacHeader::Path(&item.path)), false, None, *delim, tokens, true, span, ), AttrArgs::Empty => { self.print_path(&item.path, false, 0); } AttrArgs::Eq { expr, .. } => { self.print_path(&item.path, false, 0); self.space(); self.word_space("="); let token_str = self.expr_to_string(expr); self.word(token_str); } } match item.unsafety { ast::Safety::Unsafe(_) => self.pclose(), ast::Safety::Default | ast::Safety::Safe(_) => {} } self.end(); } /// This doesn't deserve to be called "pretty" printing, but it should be /// meaning-preserving. A quick hack that might help would be to look at the /// spans embedded in the TTs to decide where to put spaces and newlines. /// But it'd be better to parse these according to the grammar of the /// appropriate macro, transcribe back into the grammar we just parsed from, /// and then pretty-print the resulting AST nodes (so, e.g., we print /// expression arguments as expressions). It can be done! I think. fn print_tt(&mut self, tt: &TokenTree, convert_dollar_crate: bool) -> Spacing { match tt { TokenTree::Token(token, spacing) => { let token_str = self.token_to_string_ext(token, convert_dollar_crate); self.word(token_str); if let token::DocComment(..) = token.kind { self.hardbreak() } *spacing } TokenTree::Delimited(dspan, spacing, delim, tts) => { self.print_mac_common( None, false, None, *delim, tts, convert_dollar_crate, dspan.entire(), ); spacing.close } } } // The easiest way to implement token stream pretty printing would be to // print each token followed by a single space. But that would produce ugly // output, so we go to some effort to do better. // // First, we track whether each token that appears in source code is // followed by a space, with `Spacing`, and reproduce that in the output. // This works well in a lot of cases. E.g. `stringify!(x + y)` produces // "x + y" and `stringify!(x+y)` produces "x+y". // // But this doesn't work for code produced by proc macros (which have no // original source text representation) nor for code produced by decl // macros (which are tricky because the whitespace after tokens appearing // in macro rules isn't always what you want in the produced output). For // these we mostly use `Spacing::Alone`, which is the conservative choice. // // So we have a backup mechanism for when `Spacing::Alone` occurs between a // pair of tokens: we check if that pair of tokens can obviously go // together without a space between them. E.g. token `x` followed by token // `,` is better printed as `x,` than `x ,`. (Even if the original source // code was `x ,`.) // // Finally, we must be careful about changing the output. Token pretty // printing is used by `stringify!` and `impl Display for // proc_macro::TokenStream`, and some programs rely on the output having a // particular form, even though they shouldn't. In particular, some proc // macros do `format!({stream})` on a token stream and then "parse" the // output with simple string matching that can't handle whitespace changes. // E.g. we have seen cases where a proc macro can handle `a :: b` but not // `a::b`. See #117433 for some examples. fn print_tts(&mut self, tts: &TokenStream, convert_dollar_crate: bool) { let mut iter = tts.trees().peekable(); while let Some(tt) = iter.next() { let spacing = self.print_tt(tt, convert_dollar_crate); if let Some(next) = iter.peek() { if spacing == Spacing::Alone && space_between(tt, next) { self.space(); } } } } fn print_mac_common( &mut self, header: Option>, has_bang: bool, ident: Option, delim: Delimiter, tts: &TokenStream, convert_dollar_crate: bool, span: Span, ) { if delim == Delimiter::Brace { self.cbox(INDENT_UNIT); } match header { Some(MacHeader::Path(path)) => self.print_path(path, false, 0), Some(MacHeader::Keyword(kw)) => self.word(kw), None => {} } if has_bang { self.word("!"); } if let Some(ident) = ident { self.nbsp(); self.print_ident(ident); } match delim { Delimiter::Brace => { if header.is_some() || has_bang || ident.is_some() { self.nbsp(); } self.word("{"); if !tts.is_empty() { self.space(); } self.ibox(0); self.print_tts(tts, convert_dollar_crate); self.end(); let empty = tts.is_empty(); self.bclose(span, empty); } delim => { let token_str = self.token_kind_to_string(&token::OpenDelim(delim)); self.word(token_str); self.ibox(0); self.print_tts(tts, convert_dollar_crate); self.end(); let token_str = self.token_kind_to_string(&token::CloseDelim(delim)); self.word(token_str); } } } fn print_mac_def( &mut self, macro_def: &ast::MacroDef, ident: &Ident, sp: Span, print_visibility: impl FnOnce(&mut Self), ) { let (kw, has_bang) = if macro_def.macro_rules { ("macro_rules", true) } else { print_visibility(self); ("macro", false) }; self.print_mac_common( Some(MacHeader::Keyword(kw)), has_bang, Some(*ident), macro_def.body.delim, ¯o_def.body.tokens.clone(), true, sp, ); if macro_def.body.need_semicolon() { self.word(";"); } } fn print_path(&mut self, path: &ast::Path, colons_before_params: bool, depth: usize) { self.maybe_print_comment(path.span.lo()); for (i, segment) in path.segments[..path.segments.len() - depth].iter().enumerate() { if i > 0 { self.word("::") } self.print_path_segment(segment, colons_before_params); } } fn print_path_segment(&mut self, segment: &ast::PathSegment, colons_before_params: bool) { if segment.ident.name != kw::PathRoot { self.print_ident(segment.ident); if let Some(args) = &segment.args { self.print_generic_args(args, colons_before_params); } } } fn head>>(&mut self, w: S) { let w = w.into(); // Outer-box is consistent. self.cbox(INDENT_UNIT); // Head-box is inconsistent. self.ibox(0); // Keyword that starts the head. if !w.is_empty() { self.word_nbsp(w); } } fn bopen(&mut self) { self.word("{"); self.end(); // Close the head-box. } fn bclose_maybe_open(&mut self, span: rustc_span::Span, empty: bool, close_box: bool) { let has_comment = self.maybe_print_comment(span.hi()); if !empty || has_comment { self.break_offset_if_not_bol(1, -INDENT_UNIT); } self.word("}"); if close_box { self.end(); // Close the outer-box. } } fn bclose(&mut self, span: rustc_span::Span, empty: bool) { let close_box = true; self.bclose_maybe_open(span, empty, close_box) } fn break_offset_if_not_bol(&mut self, n: usize, off: isize) { if !self.is_beginning_of_line() { self.break_offset(n, off) } else if off != 0 { if let Some(last_token) = self.last_token_still_buffered() { if last_token.is_hardbreak_tok() { // We do something pretty sketchy here: tuck the nonzero // offset-adjustment we were going to deposit along with the // break into the previous hardbreak. self.replace_last_token_still_buffered(pp::Printer::hardbreak_tok_offset(off)); } } } } fn nonterminal_to_string(&self, nt: &Nonterminal) -> String { // We extract the token stream from the AST fragment and pretty print // it, rather than using AST pretty printing, because `Nonterminal` is // slated for removal in #124141. (This method will also then be // removed.) self.tts_to_string(&TokenStream::from_nonterminal_ast(nt)) } /// Print the token kind precisely, without converting `$crate` into its respective crate name. fn token_kind_to_string(&self, tok: &TokenKind) -> Cow<'static, str> { self.token_kind_to_string_ext(tok, None) } fn token_kind_to_string_ext( &self, tok: &TokenKind, convert_dollar_crate: Option, ) -> Cow<'static, str> { match *tok { token::Eq => "=".into(), token::Lt => "<".into(), token::Le => "<=".into(), token::EqEq => "==".into(), token::Ne => "!=".into(), token::Ge => ">=".into(), token::Gt => ">".into(), token::Not => "!".into(), token::Tilde => "~".into(), token::OrOr => "||".into(), token::AndAnd => "&&".into(), token::BinOp(op) => binop_to_string(op).into(), token::BinOpEq(op) => format!("{}=", binop_to_string(op)).into(), /* Structural symbols */ token::At => "@".into(), token::Dot => ".".into(), token::DotDot => "..".into(), token::DotDotDot => "...".into(), token::DotDotEq => "..=".into(), token::Comma => ",".into(), token::Semi => ";".into(), token::Colon => ":".into(), token::PathSep => "::".into(), token::RArrow => "->".into(), token::LArrow => "<-".into(), token::FatArrow => "=>".into(), token::OpenDelim(Delimiter::Parenthesis) => "(".into(), token::CloseDelim(Delimiter::Parenthesis) => ")".into(), token::OpenDelim(Delimiter::Bracket) => "[".into(), token::CloseDelim(Delimiter::Bracket) => "]".into(), token::OpenDelim(Delimiter::Brace) => "{".into(), token::CloseDelim(Delimiter::Brace) => "}".into(), token::OpenDelim(Delimiter::Invisible(_)) | token::CloseDelim(Delimiter::Invisible(_)) => "".into(), token::Pound => "#".into(), token::Dollar => "$".into(), token::Question => "?".into(), token::SingleQuote => "'".into(), /* Literals */ token::Literal(lit) => literal_to_string(lit).into(), /* Name components */ token::Ident(name, is_raw) => { IdentPrinter::new(name, is_raw.into(), convert_dollar_crate).to_string().into() } token::NtIdent(ident, is_raw) => { IdentPrinter::for_ast_ident(ident, is_raw.into()).to_string().into() } token::Lifetime(name, IdentIsRaw::No) | token::NtLifetime(Ident { name, .. }, IdentIsRaw::No) => name.to_string().into(), token::Lifetime(name, IdentIsRaw::Yes) | token::NtLifetime(Ident { name, .. }, IdentIsRaw::Yes) => { format!("'r#{}", &name.as_str()[1..]).into() } /* Other */ token::DocComment(comment_kind, attr_style, data) => { doc_comment_to_string(comment_kind, attr_style, data).into() } token::Eof => "".into(), token::Interpolated(ref nt) => self.nonterminal_to_string(&nt).into(), } } /// Print the token precisely, without converting `$crate` into its respective crate name. fn token_to_string(&self, token: &Token) -> Cow<'static, str> { self.token_to_string_ext(token, false) } fn token_to_string_ext(&self, token: &Token, convert_dollar_crate: bool) -> Cow<'static, str> { let convert_dollar_crate = convert_dollar_crate.then_some(token.span); self.token_kind_to_string_ext(&token.kind, convert_dollar_crate) } fn ty_to_string(&self, ty: &ast::Ty) -> String { Self::to_string(|s| s.print_type(ty)) } fn pat_to_string(&self, pat: &ast::Pat) -> String { Self::to_string(|s| s.print_pat(pat)) } fn expr_to_string(&self, e: &ast::Expr) -> String { Self::to_string(|s| s.print_expr(e, FixupContext::default())) } fn meta_item_lit_to_string(&self, lit: &ast::MetaItemLit) -> String { Self::to_string(|s| s.print_meta_item_lit(lit)) } fn stmt_to_string(&self, stmt: &ast::Stmt) -> String { Self::to_string(|s| s.print_stmt(stmt)) } fn item_to_string(&self, i: &ast::Item) -> String { Self::to_string(|s| s.print_item(i)) } fn path_to_string(&self, p: &ast::Path) -> String { Self::to_string(|s| s.print_path(p, false, 0)) } fn vis_to_string(&self, v: &ast::Visibility) -> String { Self::to_string(|s| s.print_visibility(v)) } fn block_to_string(&self, blk: &ast::Block) -> String { Self::to_string(|s| { // Containing cbox, will be closed by `print_block` at `}`. s.cbox(INDENT_UNIT); // Head-ibox, will be closed by `print_block` after `{`. s.ibox(0); s.print_block(blk) }) } fn attr_item_to_string(&self, ai: &ast::AttrItem) -> String { Self::to_string(|s| s.print_attr_item(ai, ai.path.span)) } fn tts_to_string(&self, tokens: &TokenStream) -> String { Self::to_string(|s| s.print_tts(tokens, false)) } fn to_string(f: impl FnOnce(&mut State<'_>)) -> String { let mut printer = State::new(); f(&mut printer); printer.s.eof() } } impl<'a> PrintState<'a> for State<'a> { fn comments(&self) -> Option<&Comments<'a>> { self.comments.as_ref() } fn comments_mut(&mut self) -> Option<&mut Comments<'a>> { self.comments.as_mut() } fn ann_post(&mut self, ident: Ident) { self.ann.post(self, AnnNode::Ident(&ident)); } fn print_generic_args(&mut self, args: &ast::GenericArgs, colons_before_params: bool) { if colons_before_params { self.word("::") } match args { ast::GenericArgs::AngleBracketed(data) => { self.word("<"); self.commasep(Inconsistent, &data.args, |s, arg| match arg { ast::AngleBracketedArg::Arg(a) => s.print_generic_arg(a), ast::AngleBracketedArg::Constraint(c) => s.print_assoc_item_constraint(c), }); self.word(">") } ast::GenericArgs::Parenthesized(data) => { self.word("("); self.commasep(Inconsistent, &data.inputs, |s, ty| s.print_type(ty)); self.word(")"); self.print_fn_ret_ty(&data.output); } ast::GenericArgs::ParenthesizedElided(_) => { self.word("("); self.word(".."); self.word(")"); } } } } impl<'a> State<'a> { pub fn new() -> State<'a> { State { s: pp::Printer::new(), comments: None, ann: &NoAnn } } fn commasep_cmnt(&mut self, b: Breaks, elts: &[T], mut op: F, mut get_span: G) where F: FnMut(&mut State<'_>, &T), G: FnMut(&T) -> rustc_span::Span, { self.rbox(0, b); let len = elts.len(); let mut i = 0; for elt in elts { self.maybe_print_comment(get_span(elt).hi()); op(self, elt); i += 1; if i < len { self.word(","); self.maybe_print_trailing_comment(get_span(elt), Some(get_span(&elts[i]).hi())); self.space_if_not_bol(); } } self.end(); } fn commasep_exprs(&mut self, b: Breaks, exprs: &[P]) { self.commasep_cmnt(b, exprs, |s, e| s.print_expr(e, FixupContext::default()), |e| e.span) } pub fn print_opt_lifetime(&mut self, lifetime: &Option) { if let Some(lt) = *lifetime { self.print_lifetime(lt); self.nbsp(); } } pub fn print_assoc_item_constraint(&mut self, constraint: &ast::AssocItemConstraint) { self.print_ident(constraint.ident); if let Some(args) = constraint.gen_args.as_ref() { self.print_generic_args(args, false) } self.space(); match &constraint.kind { ast::AssocItemConstraintKind::Equality { term } => { self.word_space("="); match term { Term::Ty(ty) => self.print_type(ty), Term::Const(c) => self.print_expr_anon_const(c, &[]), } } ast::AssocItemConstraintKind::Bound { bounds } => { if !bounds.is_empty() { self.word_nbsp(":"); self.print_type_bounds(bounds); } } } } pub fn print_generic_arg(&mut self, generic_arg: &GenericArg) { match generic_arg { GenericArg::Lifetime(lt) => self.print_lifetime(*lt), GenericArg::Type(ty) => self.print_type(ty), GenericArg::Const(ct) => self.print_expr(&ct.value, FixupContext::default()), } } pub fn print_type(&mut self, ty: &ast::Ty) { self.maybe_print_comment(ty.span.lo()); self.ibox(0); match &ty.kind { ast::TyKind::Slice(ty) => { self.word("["); self.print_type(ty); self.word("]"); } ast::TyKind::Ptr(mt) => { self.word("*"); self.print_mt(mt, true); } ast::TyKind::Ref(lifetime, mt) => { self.word("&"); self.print_opt_lifetime(lifetime); self.print_mt(mt, false); } ast::TyKind::PinnedRef(lifetime, mt) => { self.word("&"); self.print_opt_lifetime(lifetime); self.word("pin "); self.print_mt(mt, true); } ast::TyKind::Never => { self.word("!"); } ast::TyKind::Tup(elts) => { self.popen(); self.commasep(Inconsistent, elts, |s, ty| s.print_type(ty)); if elts.len() == 1 { self.word(","); } self.pclose(); } ast::TyKind::Paren(typ) => { self.popen(); self.print_type(typ); self.pclose(); } ast::TyKind::BareFn(f) => { self.print_ty_fn(f.ext, f.safety, &f.decl, None, &f.generic_params); } ast::TyKind::UnsafeBinder(f) => { self.ibox(INDENT_UNIT); self.word("unsafe"); self.print_generic_params(&f.generic_params); self.nbsp(); self.print_type(&f.inner_ty); self.end(); } ast::TyKind::Path(None, path) => { self.print_path(path, false, 0); } ast::TyKind::Path(Some(qself), path) => self.print_qpath(path, qself, false), ast::TyKind::TraitObject(bounds, syntax) => { if *syntax == ast::TraitObjectSyntax::Dyn { self.word_nbsp("dyn"); } self.print_type_bounds(bounds); } ast::TyKind::ImplTrait(_, bounds) => { self.word_nbsp("impl"); self.print_type_bounds(bounds); } ast::TyKind::Array(ty, length) => { self.word("["); self.print_type(ty); self.word("; "); self.print_expr(&length.value, FixupContext::default()); self.word("]"); } ast::TyKind::Typeof(e) => { self.word("typeof("); self.print_expr(&e.value, FixupContext::default()); self.word(")"); } ast::TyKind::Infer => { self.word("_"); } ast::TyKind::Err(_) => { self.popen(); self.word("/*ERROR*/"); self.pclose(); } ast::TyKind::Dummy => { self.popen(); self.word("/*DUMMY*/"); self.pclose(); } ast::TyKind::ImplicitSelf => { self.word("Self"); } ast::TyKind::MacCall(m) => { self.print_mac(m); } ast::TyKind::CVarArgs => { self.word("..."); } ast::TyKind::Pat(ty, pat) => { self.print_type(ty); self.word(" is "); self.print_pat(pat); } } self.end(); } fn print_trait_ref(&mut self, t: &ast::TraitRef) { self.print_path(&t.path, false, 0) } fn print_formal_generic_params(&mut self, generic_params: &[ast::GenericParam]) { if !generic_params.is_empty() { self.word("for"); self.print_generic_params(generic_params); self.nbsp(); } } fn print_poly_trait_ref(&mut self, t: &ast::PolyTraitRef) { self.print_formal_generic_params(&t.bound_generic_params); let ast::TraitBoundModifiers { constness, asyncness, polarity } = t.modifiers; match constness { ast::BoundConstness::Never => {} ast::BoundConstness::Always(_) | ast::BoundConstness::Maybe(_) => { self.word_space(constness.as_str()); } } match asyncness { ast::BoundAsyncness::Normal => {} ast::BoundAsyncness::Async(_) => { self.word_space(asyncness.as_str()); } } match polarity { ast::BoundPolarity::Positive => {} ast::BoundPolarity::Negative(_) | ast::BoundPolarity::Maybe(_) => { self.word(polarity.as_str()); } } self.print_trait_ref(&t.trait_ref) } fn print_stmt(&mut self, st: &ast::Stmt) { self.maybe_print_comment(st.span.lo()); match &st.kind { ast::StmtKind::Let(loc) => { self.print_outer_attributes(&loc.attrs); self.space_if_not_bol(); self.ibox(INDENT_UNIT); self.word_nbsp("let"); self.ibox(INDENT_UNIT); self.print_local_decl(loc); self.end(); if let Some((init, els)) = loc.kind.init_else_opt() { self.nbsp(); self.word_space("="); self.print_expr_cond_paren( init, els.is_some() && classify::expr_trailing_brace(init).is_some(), FixupContext::default(), ); if let Some(els) = els { self.cbox(INDENT_UNIT); self.ibox(INDENT_UNIT); self.word(" else "); self.print_block(els); } } self.word(";"); self.end(); // `let` ibox } ast::StmtKind::Item(item) => self.print_item(item), ast::StmtKind::Expr(expr) => { self.space_if_not_bol(); self.print_expr_outer_attr_style(expr, false, FixupContext::new_stmt()); if classify::expr_requires_semi_to_be_stmt(expr) { self.word(";"); } } ast::StmtKind::Semi(expr) => { self.space_if_not_bol(); self.print_expr_outer_attr_style(expr, false, FixupContext::new_stmt()); self.word(";"); } ast::StmtKind::Empty => { self.space_if_not_bol(); self.word(";"); } ast::StmtKind::MacCall(mac) => { self.space_if_not_bol(); self.print_outer_attributes(&mac.attrs); self.print_mac(&mac.mac); if mac.style == ast::MacStmtStyle::Semicolon { self.word(";"); } } } self.maybe_print_trailing_comment(st.span, None) } fn print_block(&mut self, blk: &ast::Block) { self.print_block_with_attrs(blk, &[]) } fn print_block_unclosed_indent(&mut self, blk: &ast::Block) { self.print_block_maybe_unclosed(blk, &[], false) } fn print_block_with_attrs(&mut self, blk: &ast::Block, attrs: &[ast::Attribute]) { self.print_block_maybe_unclosed(blk, attrs, true) } fn print_block_maybe_unclosed( &mut self, blk: &ast::Block, attrs: &[ast::Attribute], close_box: bool, ) { match blk.rules { BlockCheckMode::Unsafe(..) => self.word_space("unsafe"), BlockCheckMode::Default => (), } self.maybe_print_comment(blk.span.lo()); self.ann.pre(self, AnnNode::Block(blk)); self.bopen(); let has_attrs = self.print_inner_attributes(attrs); for (i, st) in blk.stmts.iter().enumerate() { match &st.kind { ast::StmtKind::Expr(expr) if i == blk.stmts.len() - 1 => { self.maybe_print_comment(st.span.lo()); self.space_if_not_bol(); self.print_expr_outer_attr_style(expr, false, FixupContext::new_stmt()); self.maybe_print_trailing_comment(expr.span, Some(blk.span.hi())); } _ => self.print_stmt(st), } } let empty = !has_attrs && blk.stmts.is_empty(); self.bclose_maybe_open(blk.span, empty, close_box); self.ann.post(self, AnnNode::Block(blk)) } /// Print a `let pat = expr` expression. /// /// Parentheses are inserted surrounding `expr` if a round-trip through the /// parser would otherwise work out the wrong way in a condition position. /// /// For example each of the following would mean the wrong thing without /// parentheses. /// /// ```ignore (illustrative) /// if let _ = (Struct {}) {} /// /// if let _ = (true && false) {} /// ``` /// /// In a match guard, the second case still requires parens, but the first /// case no longer does because anything until `=>` is considered part of /// the match guard expression. Parsing of the expression is not terminated /// by `{` in that position. /// /// ```ignore (illustrative) /// match () { /// () if let _ = Struct {} => {} /// () if let _ = (true && false) => {} /// } /// ``` fn print_let(&mut self, pat: &ast::Pat, expr: &ast::Expr, fixup: FixupContext) { self.word("let "); self.print_pat(pat); self.space(); self.word_space("="); self.print_expr_cond_paren( expr, fixup.needs_par_as_let_scrutinee(expr), FixupContext::default(), ); } fn print_mac(&mut self, m: &ast::MacCall) { self.print_mac_common( Some(MacHeader::Path(&m.path)), true, None, m.args.delim, &m.args.tokens.clone(), true, m.span(), ); } fn print_inline_asm(&mut self, asm: &ast::InlineAsm) { enum AsmArg<'a> { Template(String), Operand(&'a InlineAsmOperand), ClobberAbi(Symbol), Options(InlineAsmOptions), } let mut args = vec![AsmArg::Template(InlineAsmTemplatePiece::to_string(&asm.template))]; args.extend(asm.operands.iter().map(|(o, _)| AsmArg::Operand(o))); for (abi, _) in &asm.clobber_abis { args.push(AsmArg::ClobberAbi(*abi)); } if !asm.options.is_empty() { args.push(AsmArg::Options(asm.options)); } self.popen(); self.commasep(Consistent, &args, |s, arg| match arg { AsmArg::Template(template) => s.print_string(template, ast::StrStyle::Cooked), AsmArg::Operand(op) => { let print_reg_or_class = |s: &mut Self, r: &InlineAsmRegOrRegClass| match r { InlineAsmRegOrRegClass::Reg(r) => s.print_symbol(*r, ast::StrStyle::Cooked), InlineAsmRegOrRegClass::RegClass(r) => s.word(r.to_string()), }; match op { InlineAsmOperand::In { reg, expr } => { s.word("in"); s.popen(); print_reg_or_class(s, reg); s.pclose(); s.space(); s.print_expr(expr, FixupContext::default()); } InlineAsmOperand::Out { reg, late, expr } => { s.word(if *late { "lateout" } else { "out" }); s.popen(); print_reg_or_class(s, reg); s.pclose(); s.space(); match expr { Some(expr) => s.print_expr(expr, FixupContext::default()), None => s.word("_"), } } InlineAsmOperand::InOut { reg, late, expr } => { s.word(if *late { "inlateout" } else { "inout" }); s.popen(); print_reg_or_class(s, reg); s.pclose(); s.space(); s.print_expr(expr, FixupContext::default()); } InlineAsmOperand::SplitInOut { reg, late, in_expr, out_expr } => { s.word(if *late { "inlateout" } else { "inout" }); s.popen(); print_reg_or_class(s, reg); s.pclose(); s.space(); s.print_expr(in_expr, FixupContext::default()); s.space(); s.word_space("=>"); match out_expr { Some(out_expr) => s.print_expr(out_expr, FixupContext::default()), None => s.word("_"), } } InlineAsmOperand::Const { anon_const } => { s.word("const"); s.space(); s.print_expr(&anon_const.value, FixupContext::default()); } InlineAsmOperand::Sym { sym } => { s.word("sym"); s.space(); if let Some(qself) = &sym.qself { s.print_qpath(&sym.path, qself, true); } else { s.print_path(&sym.path, true, 0); } } InlineAsmOperand::Label { block } => { s.head("label"); s.print_block(block); } } } AsmArg::ClobberAbi(abi) => { s.word("clobber_abi"); s.popen(); s.print_symbol(*abi, ast::StrStyle::Cooked); s.pclose(); } AsmArg::Options(opts) => { s.word("options"); s.popen(); s.commasep(Inconsistent, &opts.human_readable_names(), |s, &opt| { s.word(opt); }); s.pclose(); } }); self.pclose(); } fn print_local_decl(&mut self, loc: &ast::Local) { self.print_pat(&loc.pat); if let Some(ty) = &loc.ty { self.word_space(":"); self.print_type(ty); } } fn print_name(&mut self, name: Symbol) { self.word(name.to_string()); self.ann.post(self, AnnNode::Name(&name)) } fn print_qpath(&mut self, path: &ast::Path, qself: &ast::QSelf, colons_before_params: bool) { self.word("<"); self.print_type(&qself.ty); if qself.position > 0 { self.space(); self.word_space("as"); let depth = path.segments.len() - qself.position; self.print_path(path, false, depth); } self.word(">"); for item_segment in &path.segments[qself.position..] { self.word("::"); self.print_ident(item_segment.ident); if let Some(args) = &item_segment.args { self.print_generic_args(args, colons_before_params) } } } fn print_pat(&mut self, pat: &ast::Pat) { self.maybe_print_comment(pat.span.lo()); self.ann.pre(self, AnnNode::Pat(pat)); /* Pat isn't normalized, but the beauty of it is that it doesn't matter */ match &pat.kind { PatKind::Wild => self.word("_"), PatKind::Never => self.word("!"), PatKind::Ident(BindingMode(by_ref, mutbl), ident, sub) => { if mutbl.is_mut() { self.word_nbsp("mut"); } if let ByRef::Yes(rmutbl) = by_ref { self.word_nbsp("ref"); if rmutbl.is_mut() { self.word_nbsp("mut"); } } self.print_ident(*ident); if let Some(p) = sub { self.space(); self.word_space("@"); self.print_pat(p); } } PatKind::TupleStruct(qself, path, elts) => { if let Some(qself) = qself { self.print_qpath(path, qself, true); } else { self.print_path(path, true, 0); } self.popen(); self.commasep(Inconsistent, elts, |s, p| s.print_pat(p)); self.pclose(); } PatKind::Or(pats) => { self.strsep("|", true, Inconsistent, pats, |s, p| s.print_pat(p)); } PatKind::Path(None, path) => { self.print_path(path, true, 0); } PatKind::Path(Some(qself), path) => { self.print_qpath(path, qself, false); } PatKind::Struct(qself, path, fields, etc) => { if let Some(qself) = qself { self.print_qpath(path, qself, true); } else { self.print_path(path, true, 0); } self.nbsp(); self.word("{"); let empty = fields.is_empty() && *etc == ast::PatFieldsRest::None; if !empty { self.space(); } self.commasep_cmnt( Consistent, fields, |s, f| { s.cbox(INDENT_UNIT); if !f.is_shorthand { s.print_ident(f.ident); s.word_nbsp(":"); } s.print_pat(&f.pat); s.end(); }, |f| f.pat.span, ); if let ast::PatFieldsRest::Rest | ast::PatFieldsRest::Recovered(_) = etc { if !fields.is_empty() { self.word_space(","); } self.word(".."); if let ast::PatFieldsRest::Recovered(_) = etc { self.word("/* recovered parse error */"); } } if !empty { self.space(); } self.word("}"); } PatKind::Tuple(elts) => { self.popen(); self.commasep(Inconsistent, elts, |s, p| s.print_pat(p)); if elts.len() == 1 { self.word(","); } self.pclose(); } PatKind::Box(inner) => { self.word("box "); self.print_pat(inner); } PatKind::Deref(inner) => { self.word("deref!"); self.popen(); self.print_pat(inner); self.pclose(); } PatKind::Ref(inner, mutbl) => { self.word("&"); if mutbl.is_mut() { self.word("mut "); } if let PatKind::Ident(ast::BindingMode::MUT, ..) = inner.kind { self.popen(); self.print_pat(inner); self.pclose(); } else { self.print_pat(inner); } } PatKind::Lit(e) => self.print_expr(e, FixupContext::default()), PatKind::Range(begin, end, Spanned { node: end_kind, .. }) => { if let Some(e) = begin { self.print_expr(e, FixupContext::default()); } match end_kind { RangeEnd::Included(RangeSyntax::DotDotDot) => self.word("..."), RangeEnd::Included(RangeSyntax::DotDotEq) => self.word("..="), RangeEnd::Excluded => self.word(".."), } if let Some(e) = end { self.print_expr(e, FixupContext::default()); } } PatKind::Guard(subpat, condition) => { self.popen(); self.print_pat(subpat); self.space(); self.word_space("if"); self.print_expr(condition, FixupContext::default()); self.pclose(); } PatKind::Slice(elts) => { self.word("["); self.commasep(Inconsistent, elts, |s, p| s.print_pat(p)); self.word("]"); } PatKind::Rest => self.word(".."), PatKind::Paren(inner) => { self.popen(); self.print_pat(inner); self.pclose(); } PatKind::MacCall(m) => self.print_mac(m), PatKind::Err(_) => { self.popen(); self.word("/*ERROR*/"); self.pclose(); } } self.ann.post(self, AnnNode::Pat(pat)) } fn print_explicit_self(&mut self, explicit_self: &ast::ExplicitSelf) { match &explicit_self.node { SelfKind::Value(m) => { self.print_mutability(*m, false); self.word("self") } SelfKind::Region(lt, m) => { self.word("&"); self.print_opt_lifetime(lt); self.print_mutability(*m, false); self.word("self") } SelfKind::Explicit(typ, m) => { self.print_mutability(*m, false); self.word("self"); self.word_space(":"); self.print_type(typ) } } } fn print_coroutine_kind(&mut self, coroutine_kind: ast::CoroutineKind) { match coroutine_kind { ast::CoroutineKind::Gen { .. } => { self.word_nbsp("gen"); } ast::CoroutineKind::Async { .. } => { self.word_nbsp("async"); } ast::CoroutineKind::AsyncGen { .. } => { self.word_nbsp("async"); self.word_nbsp("gen"); } } } pub fn print_type_bounds(&mut self, bounds: &[ast::GenericBound]) { let mut first = true; for bound in bounds { if first { first = false; } else { self.nbsp(); self.word_space("+"); } match bound { GenericBound::Trait(tref) => { self.print_poly_trait_ref(tref); } GenericBound::Outlives(lt) => self.print_lifetime(*lt), GenericBound::Use(args, _) => { self.word("use"); self.word("<"); self.commasep(Inconsistent, args, |s, arg| match arg { ast::PreciseCapturingArg::Arg(p, _) => s.print_path(p, false, 0), ast::PreciseCapturingArg::Lifetime(lt) => s.print_lifetime(*lt), }); self.word(">") } } } } fn print_lifetime(&mut self, lifetime: ast::Lifetime) { self.print_name(lifetime.ident.name) } fn print_lifetime_bounds(&mut self, bounds: &ast::GenericBounds) { for (i, bound) in bounds.iter().enumerate() { if i != 0 { self.word(" + "); } match bound { ast::GenericBound::Outlives(lt) => self.print_lifetime(*lt), _ => { panic!("expected a lifetime bound, found a trait bound") } } } } fn print_generic_params(&mut self, generic_params: &[ast::GenericParam]) { if generic_params.is_empty() { return; } self.word("<"); self.commasep(Inconsistent, generic_params, |s, param| { s.print_outer_attributes_inline(¶m.attrs); match ¶m.kind { ast::GenericParamKind::Lifetime => { let lt = ast::Lifetime { id: param.id, ident: param.ident }; s.print_lifetime(lt); if !param.bounds.is_empty() { s.word_nbsp(":"); s.print_lifetime_bounds(¶m.bounds) } } ast::GenericParamKind::Type { default } => { s.print_ident(param.ident); if !param.bounds.is_empty() { s.word_nbsp(":"); s.print_type_bounds(¶m.bounds); } if let Some(default) = default { s.space(); s.word_space("="); s.print_type(default) } } ast::GenericParamKind::Const { ty, default, .. } => { s.word_space("const"); s.print_ident(param.ident); s.space(); s.word_space(":"); s.print_type(ty); if !param.bounds.is_empty() { s.word_nbsp(":"); s.print_type_bounds(¶m.bounds); } if let Some(default) = default { s.space(); s.word_space("="); s.print_expr(&default.value, FixupContext::default()); } } } }); self.word(">"); } pub fn print_mutability(&mut self, mutbl: ast::Mutability, print_const: bool) { match mutbl { ast::Mutability::Mut => self.word_nbsp("mut"), ast::Mutability::Not => { if print_const { self.word_nbsp("const"); } } } } fn print_mt(&mut self, mt: &ast::MutTy, print_const: bool) { self.print_mutability(mt.mutbl, print_const); self.print_type(&mt.ty) } fn print_param(&mut self, input: &ast::Param, is_closure: bool) { self.ibox(INDENT_UNIT); self.print_outer_attributes_inline(&input.attrs); match input.ty.kind { ast::TyKind::Infer if is_closure => self.print_pat(&input.pat), _ => { if let Some(eself) = input.to_self() { self.print_explicit_self(&eself); } else { let invalid = if let PatKind::Ident(_, ident, _) = input.pat.kind { ident.name == kw::Empty } else { false }; if !invalid { self.print_pat(&input.pat); self.word(":"); self.space(); } self.print_type(&input.ty); } } } self.end(); } fn print_fn_ret_ty(&mut self, fn_ret_ty: &ast::FnRetTy) { if let ast::FnRetTy::Ty(ty) = fn_ret_ty { self.space_if_not_bol(); self.ibox(INDENT_UNIT); self.word_space("->"); self.print_type(ty); self.end(); self.maybe_print_comment(ty.span.lo()); } } fn print_ty_fn( &mut self, ext: ast::Extern, safety: ast::Safety, decl: &ast::FnDecl, name: Option, generic_params: &[ast::GenericParam], ) { self.ibox(INDENT_UNIT); self.print_formal_generic_params(generic_params); let generics = ast::Generics { params: ThinVec::new(), where_clause: ast::WhereClause { has_where_token: false, predicates: ThinVec::new(), span: DUMMY_SP, }, span: DUMMY_SP, }; let header = ast::FnHeader { safety, ext, ..ast::FnHeader::default() }; self.print_fn(decl, header, name, &generics); self.end(); } fn print_fn_header_info(&mut self, header: ast::FnHeader) { self.print_constness(header.constness); header.coroutine_kind.map(|coroutine_kind| self.print_coroutine_kind(coroutine_kind)); self.print_safety(header.safety); match header.ext { ast::Extern::None => {} ast::Extern::Implicit(_) => { self.word_nbsp("extern"); } ast::Extern::Explicit(abi, _) => { self.word_nbsp("extern"); self.print_token_literal(abi.as_token_lit(), abi.span); self.nbsp(); } } self.word("fn") } fn print_safety(&mut self, s: ast::Safety) { match s { ast::Safety::Default => {} ast::Safety::Safe(_) => self.word_nbsp("safe"), ast::Safety::Unsafe(_) => self.word_nbsp("unsafe"), } } fn print_constness(&mut self, s: ast::Const) { match s { ast::Const::No => {} ast::Const::Yes(_) => self.word_nbsp("const"), } } fn print_is_auto(&mut self, s: ast::IsAuto) { match s { ast::IsAuto::Yes => self.word_nbsp("auto"), ast::IsAuto::No => {} } } fn print_meta_item_lit(&mut self, lit: &ast::MetaItemLit) { self.print_token_literal(lit.as_token_lit(), lit.span) } fn print_token_literal(&mut self, token_lit: token::Lit, span: Span) { self.maybe_print_comment(span.lo()); self.word(token_lit.to_string()) } fn print_symbol(&mut self, sym: Symbol, style: ast::StrStyle) { self.print_string(sym.as_str(), style); } fn print_inner_attributes_no_trailing_hardbreak(&mut self, attrs: &[ast::Attribute]) -> bool { self.print_either_attributes(attrs, ast::AttrStyle::Inner, false, false) } fn print_outer_attributes_inline(&mut self, attrs: &[ast::Attribute]) -> bool { self.print_either_attributes(attrs, ast::AttrStyle::Outer, true, true) } fn print_attribute(&mut self, attr: &ast::Attribute) { self.print_attribute_inline(attr, false) } fn print_meta_list_item(&mut self, item: &ast::MetaItemInner) { match item { ast::MetaItemInner::MetaItem(mi) => self.print_meta_item(mi), ast::MetaItemInner::Lit(lit) => self.print_meta_item_lit(lit), } } fn print_meta_item(&mut self, item: &ast::MetaItem) { self.ibox(INDENT_UNIT); match &item.kind { ast::MetaItemKind::Word => self.print_path(&item.path, false, 0), ast::MetaItemKind::NameValue(value) => { self.print_path(&item.path, false, 0); self.space(); self.word_space("="); self.print_meta_item_lit(value); } ast::MetaItemKind::List(items) => { self.print_path(&item.path, false, 0); self.popen(); self.commasep(Consistent, items, |s, i| s.print_meta_list_item(i)); self.pclose(); } } self.end(); } pub(crate) fn bounds_to_string(&self, bounds: &[ast::GenericBound]) -> String { Self::to_string(|s| s.print_type_bounds(bounds)) } pub(crate) fn where_bound_predicate_to_string( &self, where_bound_predicate: &ast::WhereBoundPredicate, ) -> String { Self::to_string(|s| s.print_where_bound_predicate(where_bound_predicate)) } pub(crate) fn tt_to_string(&self, tt: &TokenTree) -> String { Self::to_string(|s| { s.print_tt(tt, false); }) } pub(crate) fn path_segment_to_string(&self, p: &ast::PathSegment) -> String { Self::to_string(|s| s.print_path_segment(p, false)) } pub(crate) fn meta_list_item_to_string(&self, li: &ast::MetaItemInner) -> String { Self::to_string(|s| s.print_meta_list_item(li)) } pub(crate) fn attribute_to_string(&self, attr: &ast::Attribute) -> String { Self::to_string(|s| s.print_attribute(attr)) } }