// Copyright 2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use std::cmp; use strings::string_buffer::StringBuffer; use syntax::{ast, ptr, visit}; use syntax::attr::HasAttrs; use syntax::codemap::{self, BytePos, CodeMap, Pos, Span}; use syntax::parse::ParseSess; use {Indent, Shape, Spanned}; use codemap::{LineRangeUtils, SpanUtils}; use comment::{contains_comment, recover_missing_comment_in_span, CodeCharKind, CommentCodeSlices, FindUncommented}; use comment::rewrite_comment; use config::{BraceStyle, Config}; use expr::{format_expr, ExprType}; use items::{format_impl, format_trait, rewrite_associated_impl_type, rewrite_associated_type, rewrite_static, rewrite_type_alias}; use lists::{itemize_list, write_list, DefinitiveListTactic, ListFormatting, SeparatorPlace, SeparatorTactic}; use macros::{rewrite_macro, MacroPosition}; use regex::Regex; use rewrite::{Rewrite, RewriteContext}; use utils::{self, contains_skip, mk_sp}; fn is_use_item(item: &ast::Item) -> bool { match item.node { ast::ItemKind::Use(_) => true, _ => false, } } fn is_extern_crate(item: &ast::Item) -> bool { match item.node { ast::ItemKind::ExternCrate(..) => true, _ => false, } } pub struct FmtVisitor<'a> { pub parse_session: &'a ParseSess, pub codemap: &'a CodeMap, pub buffer: StringBuffer, pub last_pos: BytePos, // FIXME: use an RAII util or closure for indenting pub block_indent: Indent, pub config: &'a Config, pub is_if_else_block: bool, } impl<'a> FmtVisitor<'a> { fn visit_stmt(&mut self, stmt: &ast::Stmt) { debug!( "visit_stmt: {:?} {:?}", self.codemap.lookup_char_pos(stmt.span.lo), self.codemap.lookup_char_pos(stmt.span.hi) ); match stmt.node { ast::StmtKind::Item(ref item) => { self.visit_item(item); } ast::StmtKind::Local(ref local) => { let rewrite = if contains_skip(&local.attrs) { None } else { stmt.rewrite( &self.get_context(), Shape::indented(self.block_indent, self.config), ) }; self.push_rewrite(stmt.span, rewrite); } ast::StmtKind::Expr(ref expr) => { let rewrite = format_expr( expr, ExprType::Statement, &self.get_context(), Shape::indented(self.block_indent, self.config), ); let span = if expr.attrs.is_empty() { stmt.span } else { mk_sp(expr.span().lo, stmt.span.hi) }; self.push_rewrite(span, rewrite) } ast::StmtKind::Semi(ref expr) => { let rewrite = stmt.rewrite( &self.get_context(), Shape::indented(self.block_indent, self.config), ); let span = if expr.attrs.is_empty() { stmt.span } else { mk_sp(expr.span().lo, stmt.span.hi) }; self.push_rewrite(span, rewrite) } ast::StmtKind::Mac(ref mac) => { let (ref mac, _macro_style, ref attrs) = **mac; if contains_skip(attrs) { self.push_rewrite(mac.span, None); } else { self.visit_mac(mac, None, MacroPosition::Statement); } self.format_missing(stmt.span.hi); } } } pub fn visit_block(&mut self, b: &ast::Block, inner_attrs: Option<&[ast::Attribute]>) { debug!( "visit_block: {:?} {:?}", self.codemap.lookup_char_pos(b.span.lo), self.codemap.lookup_char_pos(b.span.hi) ); // Check if this block has braces. let snippet = self.snippet(b.span); let has_braces = snippet.starts_with('{') || snippet.starts_with("unsafe"); let brace_compensation = if has_braces { BytePos(1) } else { BytePos(0) }; self.last_pos = self.last_pos + brace_compensation; self.block_indent = self.block_indent.block_indent(self.config); self.buffer.push_str("{"); if self.config.remove_blank_lines_at_start_or_end_of_block() { if let Some(first_stmt) = b.stmts.first() { let attr_lo = inner_attrs .and_then(|attrs| { utils::inner_attributes(attrs) .first() .map(|attr| attr.span.lo) }) .or_else(|| { // Attributes for an item in a statement position // do not belong to the statement. (rust-lang/rust#34459) if let ast::StmtKind::Item(ref item) = first_stmt.node { item.attrs.first() } else { first_stmt.attrs().first() }.and_then(|attr| { // Some stmts can have embedded attributes. // e.g. `match { #![attr] ... }` let attr_lo = attr.span.lo; if attr_lo < first_stmt.span.lo { Some(attr_lo) } else { None } }) }); let snippet = self.snippet(mk_sp(self.last_pos, attr_lo.unwrap_or(first_stmt.span.lo))); let len = CommentCodeSlices::new(&snippet).nth(0).and_then( |(kind, _, s)| if kind == CodeCharKind::Normal { s.rfind('\n') } else { None }, ); if let Some(len) = len { self.last_pos = self.last_pos + BytePos::from_usize(len); } } } // Format inner attributes if available. if let Some(attrs) = inner_attrs { self.visit_attrs(attrs, ast::AttrStyle::Inner); } for stmt in &b.stmts { self.visit_stmt(stmt) } if !b.stmts.is_empty() { if let Some(expr) = utils::stmt_expr(&b.stmts[b.stmts.len() - 1]) { if utils::semicolon_for_expr(&self.get_context(), expr) { self.buffer.push_str(";"); } } } let mut remove_len = BytePos(0); if self.config.remove_blank_lines_at_start_or_end_of_block() { if let Some(stmt) = b.stmts.last() { let snippet = self.snippet(mk_sp( stmt.span.hi, source!(self, b.span).hi - brace_compensation, )); let len = CommentCodeSlices::new(&snippet) .last() .and_then(|(kind, _, s)| { if kind == CodeCharKind::Normal && s.trim().is_empty() { Some(s.len()) } else { None } }); if let Some(len) = len { remove_len = BytePos::from_usize(len); } } } let mut unindent_comment = self.is_if_else_block && !b.stmts.is_empty(); if unindent_comment { let end_pos = source!(self, b.span).hi - brace_compensation - remove_len; let snippet = self.get_context().snippet(mk_sp(self.last_pos, end_pos)); unindent_comment = snippet.contains("//") || snippet.contains("/*"); } // FIXME: we should compress any newlines here to just one if unindent_comment { self.block_indent = self.block_indent.block_unindent(self.config); } self.format_missing_with_indent(source!(self, b.span).hi - brace_compensation - remove_len); if unindent_comment { self.block_indent = self.block_indent.block_indent(self.config); } self.close_block(unindent_comment); self.last_pos = source!(self, b.span).hi; } // FIXME: this is a terrible hack to indent the comments between the last // item in the block and the closing brace to the block's level. // The closing brace itself, however, should be indented at a shallower // level. fn close_block(&mut self, unindent_comment: bool) { let total_len = self.buffer.len; let chars_too_many = if unindent_comment { 0 } else if self.config.hard_tabs() { 1 } else { self.config.tab_spaces() }; self.buffer.truncate(total_len - chars_too_many); self.buffer.push_str("}"); self.block_indent = self.block_indent.block_unindent(self.config); } // Note that this only gets called for function definitions. Required methods // on traits do not get handled here. fn visit_fn( &mut self, fk: visit::FnKind, fd: &ast::FnDecl, s: Span, _: ast::NodeId, defaultness: ast::Defaultness, inner_attrs: Option<&[ast::Attribute]>, ) { let indent = self.block_indent; let block; let rewrite = match fk { visit::FnKind::ItemFn(ident, generics, unsafety, constness, abi, vis, b) => { block = b; self.rewrite_fn( indent, ident, fd, generics, unsafety, constness.node, defaultness, abi, vis, mk_sp(s.lo, b.span.lo), &b, ) } visit::FnKind::Method(ident, sig, vis, b) => { block = b; self.rewrite_fn( indent, ident, fd, &sig.generics, sig.unsafety, sig.constness.node, defaultness, sig.abi, vis.unwrap_or(&ast::Visibility::Inherited), mk_sp(s.lo, b.span.lo), &b, ) } visit::FnKind::Closure(_) => unreachable!(), }; if let Some(fn_str) = rewrite { self.format_missing_with_indent(source!(self, s).lo); self.buffer.push_str(&fn_str); if let Some(c) = fn_str.chars().last() { if c == '}' { self.last_pos = source!(self, block.span).hi; return; } } } else { self.format_missing(source!(self, block.span).lo); } self.last_pos = source!(self, block.span).lo; self.visit_block(block, inner_attrs) } pub fn visit_item(&mut self, item: &ast::Item) { skip_out_of_file_lines_range_visitor!(self, item.span); // This is where we bail out if there is a skip attribute. This is only // complex in the module case. It is complex because the module could be // in a separate file and there might be attributes in both files, but // the AST lumps them all together. let mut attrs = item.attrs.clone(); match item.node { ast::ItemKind::Mod(ref m) => { let outer_file = self.codemap.lookup_char_pos(item.span.lo).file; let inner_file = self.codemap.lookup_char_pos(m.inner.lo).file; if outer_file.name == inner_file.name { // Module is inline, in this case we treat modules like any // other item. if self.visit_attrs(&item.attrs, ast::AttrStyle::Outer) { self.push_rewrite(item.span, None); return; } } else if utils::contains_skip(&item.attrs) { // Module is not inline, but should be skipped. return; } else { // Module is not inline and should not be skipped. We want // to process only the attributes in the current file. let filterd_attrs = item.attrs .iter() .filter_map(|a| { let attr_file = self.codemap.lookup_char_pos(a.span.lo).file; if attr_file.name == outer_file.name { Some(a.clone()) } else { None } }) .collect::>(); // Assert because if we should skip it should be caught by // the above case. assert!(!self.visit_attrs(&filterd_attrs, ast::AttrStyle::Outer)); attrs = filterd_attrs; } } _ => if self.visit_attrs(&item.attrs, ast::AttrStyle::Outer) { self.push_rewrite(item.span, None); return; }, } match item.node { ast::ItemKind::Use(ref vp) => { self.format_import(&item.vis, vp, item.span, &item.attrs); } ast::ItemKind::Impl(..) => { self.format_missing_with_indent(source!(self, item.span).lo); let snippet = self.get_context().snippet(item.span); let where_span_end = snippet .find_uncommented("{") .map(|x| (BytePos(x as u32)) + source!(self, item.span).lo); if let Some(impl_str) = format_impl(&self.get_context(), item, self.block_indent, where_span_end) { self.buffer.push_str(&impl_str); self.last_pos = source!(self, item.span).hi; } } ast::ItemKind::Trait(..) => { self.format_missing_with_indent(item.span.lo); if let Some(trait_str) = format_trait(&self.get_context(), item, self.block_indent) { self.buffer.push_str(&trait_str); self.last_pos = source!(self, item.span).hi; } } ast::ItemKind::ExternCrate(_) => { self.format_missing_with_indent(source!(self, item.span).lo); let new_str = self.snippet(item.span); if contains_comment(&new_str) { self.buffer.push_str(&new_str) } else { let no_whitespace = &new_str.split_whitespace().collect::>().join(" "); self.buffer .push_str(&Regex::new(r"\s;").unwrap().replace(no_whitespace, ";")); } self.last_pos = source!(self, item.span).hi; } ast::ItemKind::Struct(ref def, ref generics) => { let rewrite = { let indent = self.block_indent; let context = self.get_context(); ::items::format_struct( &context, "struct ", item.ident, &item.vis, def, Some(generics), item.span, indent, None, ).map(|s| match *def { ast::VariantData::Tuple(..) => s + ";", _ => s, }) }; self.push_rewrite(item.span, rewrite); } ast::ItemKind::Enum(ref def, ref generics) => { self.format_missing_with_indent(source!(self, item.span).lo); self.visit_enum(item.ident, &item.vis, def, generics, item.span); self.last_pos = source!(self, item.span).hi; } ast::ItemKind::Mod(ref module) => { self.format_missing_with_indent(source!(self, item.span).lo); self.format_mod(module, &item.vis, item.span, item.ident, &attrs); } ast::ItemKind::Mac(ref mac) => { self.visit_mac(mac, Some(item.ident), MacroPosition::Item); } ast::ItemKind::ForeignMod(ref foreign_mod) => { self.format_missing_with_indent(source!(self, item.span).lo); self.format_foreign_mod(foreign_mod, item.span); } ast::ItemKind::Static(ref ty, mutability, ref expr) => { let rewrite = rewrite_static( "static", &item.vis, item.ident, ty, mutability, Some(expr), self.block_indent, item.span, &self.get_context(), ); self.push_rewrite(item.span, rewrite); } ast::ItemKind::Const(ref ty, ref expr) => { let rewrite = rewrite_static( "const", &item.vis, item.ident, ty, ast::Mutability::Immutable, Some(expr), self.block_indent, item.span, &self.get_context(), ); self.push_rewrite(item.span, rewrite); } ast::ItemKind::DefaultImpl(..) => { // FIXME(#78): format impl definitions. } ast::ItemKind::Fn(ref decl, unsafety, constness, abi, ref generics, ref body) => { self.visit_fn( visit::FnKind::ItemFn( item.ident, generics, unsafety, constness, abi, &item.vis, body, ), decl, item.span, item.id, ast::Defaultness::Final, Some(&item.attrs), ) } ast::ItemKind::Ty(ref ty, ref generics) => { let rewrite = rewrite_type_alias( &self.get_context(), self.block_indent, item.ident, ty, generics, &item.vis, item.span, ); self.push_rewrite(item.span, rewrite); } ast::ItemKind::Union(ref def, ref generics) => { let rewrite = ::items::format_struct_struct( &self.get_context(), "union ", item.ident, &item.vis, def.fields(), Some(generics), item.span, self.block_indent, None, ); self.push_rewrite(item.span, rewrite); } ast::ItemKind::GlobalAsm(..) => { let snippet = Some(self.snippet(item.span)); self.push_rewrite(item.span, snippet); } ast::ItemKind::MacroDef(..) => { // FIXME(#1539): macros 2.0 let snippet = Some(self.snippet(item.span)); self.push_rewrite(item.span, snippet); } } } pub fn visit_trait_item(&mut self, ti: &ast::TraitItem) { skip_out_of_file_lines_range_visitor!(self, ti.span); if self.visit_attrs(&ti.attrs, ast::AttrStyle::Outer) { self.push_rewrite(ti.span, None); return; } match ti.node { ast::TraitItemKind::Const(ref ty, ref expr_opt) => { let rewrite = rewrite_static( "const", &ast::Visibility::Inherited, ti.ident, ty, ast::Mutability::Immutable, expr_opt.as_ref(), self.block_indent, ti.span, &self.get_context(), ); self.push_rewrite(ti.span, rewrite); } ast::TraitItemKind::Method(ref sig, None) => { let indent = self.block_indent; let rewrite = self.rewrite_required_fn(indent, ti.ident, sig, ti.span); self.push_rewrite(ti.span, rewrite); } ast::TraitItemKind::Method(ref sig, Some(ref body)) => { self.visit_fn( visit::FnKind::Method(ti.ident, sig, None, body), &sig.decl, ti.span, ti.id, ast::Defaultness::Final, Some(&ti.attrs), ); } ast::TraitItemKind::Type(ref type_param_bounds, ref type_default) => { let rewrite = rewrite_associated_type( ti.ident, type_default.as_ref(), Some(type_param_bounds), &self.get_context(), self.block_indent, ); self.push_rewrite(ti.span, rewrite); } ast::TraitItemKind::Macro(ref mac) => { self.visit_mac(mac, Some(ti.ident), MacroPosition::Item); } } } pub fn visit_impl_item(&mut self, ii: &ast::ImplItem) { skip_out_of_file_lines_range_visitor!(self, ii.span); if self.visit_attrs(&ii.attrs, ast::AttrStyle::Outer) { self.push_rewrite(ii.span, None); return; } match ii.node { ast::ImplItemKind::Method(ref sig, ref body) => { self.visit_fn( visit::FnKind::Method(ii.ident, sig, Some(&ii.vis), body), &sig.decl, ii.span, ii.id, ii.defaultness, Some(&ii.attrs), ); } ast::ImplItemKind::Const(ref ty, ref expr) => { let rewrite = rewrite_static( "const", &ii.vis, ii.ident, ty, ast::Mutability::Immutable, Some(expr), self.block_indent, ii.span, &self.get_context(), ); self.push_rewrite(ii.span, rewrite); } ast::ImplItemKind::Type(ref ty) => { let rewrite = rewrite_associated_impl_type( ii.ident, ii.defaultness, Some(ty), None, &self.get_context(), self.block_indent, ); self.push_rewrite(ii.span, rewrite); } ast::ImplItemKind::Macro(ref mac) => { self.visit_mac(mac, Some(ii.ident), MacroPosition::Item); } } } fn visit_mac(&mut self, mac: &ast::Mac, ident: Option, pos: MacroPosition) { skip_out_of_file_lines_range_visitor!(self, mac.span); // 1 = ; let shape = Shape::indented(self.block_indent, self.config) .sub_width(1) .unwrap(); let rewrite = rewrite_macro(mac, ident, &self.get_context(), shape, pos); self.push_rewrite(mac.span, rewrite); } pub fn push_rewrite(&mut self, span: Span, rewrite: Option) { self.format_missing_with_indent(source!(self, span).lo); let result = rewrite.unwrap_or_else(|| self.snippet(span)); self.buffer.push_str(&result); self.last_pos = source!(self, span).hi; } pub fn from_codemap(parse_session: &'a ParseSess, config: &'a Config) -> FmtVisitor<'a> { FmtVisitor { parse_session: parse_session, codemap: parse_session.codemap(), buffer: StringBuffer::new(), last_pos: BytePos(0), block_indent: Indent::empty(), config: config, is_if_else_block: false, } } pub fn snippet(&self, span: Span) -> String { match self.codemap.span_to_snippet(span) { Ok(s) => s, Err(_) => { println!( "Couldn't make snippet for span {:?}->{:?}", self.codemap.lookup_char_pos(span.lo), self.codemap.lookup_char_pos(span.hi) ); "".to_owned() } } } // Returns true if we should skip the following item. pub fn visit_attrs(&mut self, attrs: &[ast::Attribute], style: ast::AttrStyle) -> bool { if utils::contains_skip(attrs) { return true; } let attrs: Vec<_> = attrs.iter().filter(|a| a.style == style).cloned().collect(); if attrs.is_empty() { return false; } let rewrite = attrs.rewrite( &self.get_context(), Shape::indented(self.block_indent, self.config), ); let span = mk_sp(attrs[0].span.lo, attrs[attrs.len() - 1].span.hi); self.push_rewrite(span, rewrite); false } fn reorder_items( &mut self, items_left: &[ptr::P], is_item: &F, in_group: bool, ) -> usize where F: Fn(&ast::Item) -> bool, { let mut last = self.codemap.lookup_line_range(items_left[0].span()); let item_length = items_left .iter() .take_while(|ppi| { is_item(&***ppi) && (!in_group || { let current = self.codemap.lookup_line_range(ppi.span()); let in_same_group = current.lo < last.hi + 2; last = current; in_same_group }) }) .count(); let items = &items_left[..item_length]; let at_least_one_in_file_lines = items .iter() .any(|item| !out_of_file_lines_range!(self, item.span)); if at_least_one_in_file_lines { self.format_imports(items); } else { for item in items { self.push_rewrite(item.span, None); } } item_length } fn walk_mod_items(&mut self, m: &ast::Mod) { let mut items_left: &[ptr::P] = &m.items; while !items_left.is_empty() { // If the next item is a `use` declaration, then extract it and any subsequent `use`s // to be potentially reordered within `format_imports`. Otherwise, just format the // next item for output. if self.config.reorder_imports() && is_use_item(&*items_left[0]) { let used_items_len = self.reorder_items( &items_left, &is_use_item, self.config.reorder_imports_in_group(), ); let (_, rest) = items_left.split_at(used_items_len); items_left = rest; } else if self.config.reorder_extern_crates() && is_extern_crate(&*items_left[0]) { let used_items_len = self.reorder_items( &items_left, &is_extern_crate, self.config.reorder_extern_crates_in_group(), ); let (_, rest) = items_left.split_at(used_items_len); items_left = rest; } else { // `unwrap()` is safe here because we know `items_left` // has elements from the loop condition let (item, rest) = items_left.split_first().unwrap(); self.visit_item(item); items_left = rest; } } } fn format_mod( &mut self, m: &ast::Mod, vis: &ast::Visibility, s: Span, ident: ast::Ident, attrs: &[ast::Attribute], ) { // Decide whether this is an inline mod or an external mod. let local_file_name = self.codemap.span_to_filename(s); let inner_span = source!(self, m.inner); let is_internal = !(inner_span.lo.0 == 0 && inner_span.hi.0 == 0) && local_file_name == self.codemap.span_to_filename(inner_span); self.buffer.push_str(&*utils::format_visibility(vis)); self.buffer.push_str("mod "); self.buffer.push_str(&ident.to_string()); if is_internal { match self.config.item_brace_style() { BraceStyle::AlwaysNextLine => self.buffer .push_str(&format!("\n{}{{", self.block_indent.to_string(self.config))), _ => self.buffer.push_str(" {"), } // Hackery to account for the closing }. let mod_lo = self.codemap.span_after(source!(self, s), "{"); let body_snippet = self.snippet(mk_sp(mod_lo, source!(self, m.inner).hi - BytePos(1))); let body_snippet = body_snippet.trim(); if body_snippet.is_empty() { self.buffer.push_str("}"); } else { self.last_pos = mod_lo; self.block_indent = self.block_indent.block_indent(self.config); self.visit_attrs(attrs, ast::AttrStyle::Inner); self.walk_mod_items(m); self.format_missing_with_indent(source!(self, m.inner).hi - BytePos(1)); self.close_block(false); } self.last_pos = source!(self, m.inner).hi; } else { self.buffer.push_str(";"); self.last_pos = source!(self, s).hi; } } pub fn format_separate_mod(&mut self, m: &ast::Mod, filemap: &codemap::FileMap) { self.block_indent = Indent::empty(); self.walk_mod_items(m); self.format_missing_with_indent(filemap.end_pos); } pub fn get_context(&self) -> RewriteContext { RewriteContext { parse_session: self.parse_session, codemap: self.codemap, config: self.config, inside_macro: false, use_block: false, is_if_else_block: false, force_one_line_chain: false, } } } impl Rewrite for ast::NestedMetaItem { fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option { match self.node { ast::NestedMetaItemKind::MetaItem(ref meta_item) => meta_item.rewrite(context, shape), ast::NestedMetaItemKind::Literal(..) => Some(context.snippet(self.span)), } } } impl Rewrite for ast::MetaItem { fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option { Some(match self.node { ast::MetaItemKind::Word => String::from(&*self.name.as_str()), ast::MetaItemKind::List(ref list) => { let name = self.name.as_str(); // 3 = `#[` and `(`, 2 = `]` and `)` let item_shape = try_opt!( shape .shrink_left(name.len() + 3) .and_then(|s| s.sub_width(2)) ); let items = itemize_list( context.codemap, list.iter(), ")", |nested_meta_item| nested_meta_item.span.lo, |nested_meta_item| nested_meta_item.span.hi, |nested_meta_item| nested_meta_item.rewrite(context, item_shape), self.span.lo, self.span.hi, false, ); let item_vec = items.collect::>(); let fmt = ListFormatting { tactic: DefinitiveListTactic::Mixed, separator: ",", trailing_separator: SeparatorTactic::Never, separator_place: SeparatorPlace::Back, shape: item_shape, ends_with_newline: false, preserve_newline: false, config: context.config, }; format!("{}({})", name, try_opt!(write_list(&item_vec, &fmt))) } ast::MetaItemKind::NameValue(ref literal) => { let name = self.name.as_str(); let value = context.snippet(literal.span); if &*name == "doc" && contains_comment(&value) { let doc_shape = Shape { width: cmp::min(shape.width, context.config.comment_width()) .checked_sub(shape.indent.width()) .unwrap_or(0), ..shape }; format!( "{}", try_opt!(rewrite_comment(&value, false, doc_shape, context.config)) ) } else { format!("{} = {}", name, value) } } }) } } impl Rewrite for ast::Attribute { fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option { try_opt!(self.meta()) .rewrite(context, shape) .map(|rw| if self.is_sugared_doc { rw } else { let original = context.snippet(self.span); let prefix = match self.style { ast::AttrStyle::Inner => "#!", ast::AttrStyle::Outer => "#", }; if contains_comment(&original) { original } else { format!("{}[{}]", prefix, rw) } }) } } impl<'a> Rewrite for [ast::Attribute] { fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option { let mut result = String::new(); if self.is_empty() { return Some(result); } let indent = shape.indent.to_string(context.config); let mut derive_args = Vec::new(); let mut iter = self.iter().enumerate().peekable(); let mut insert_new_line = true; let mut is_prev_sugared_doc = false; while let Some((i, a)) = iter.next() { let a_str = try_opt!(a.rewrite(context, shape)); // Write comments and blank lines between attributes. if i > 0 { let comment = context.snippet(mk_sp(self[i - 1].span.hi, a.span.lo)); // This particular horror show is to preserve line breaks in between doc // comments. An alternative would be to force such line breaks to start // with the usual doc comment token. let (multi_line_before, multi_line_after) = if a.is_sugared_doc || is_prev_sugared_doc { // Look at before and after comment and see if there are any empty lines. let comment_begin = comment.chars().position(|c| c == '/'); let len = comment_begin.unwrap_or(comment.len()); let mlb = comment.chars().take(len).filter(|c| *c == '\n').count() > 1; let mla = if comment_begin.is_none() { mlb } else { let comment_end = comment.chars().rev().position(|c| !c.is_whitespace()); let len = comment_end.unwrap(); comment .chars() .rev() .take(len) .filter(|c| *c == '\n') .count() > 1 }; (mlb, mla) } else { (false, false) }; let comment = try_opt!(recover_missing_comment_in_span( mk_sp(self[i - 1].span.hi, a.span.lo), shape.with_max_width(context.config), context, 0, )); if !comment.is_empty() { if multi_line_before { result.push('\n'); } result.push_str(&comment); result.push('\n'); if multi_line_after { result.push('\n') } } else if insert_new_line { result.push('\n'); if multi_line_after { result.push('\n') } } if derive_args.is_empty() { result.push_str(&indent); } insert_new_line = true; } // Write the attribute itself. if context.config.merge_derives() { // If the attribute is `#[derive(...)]`, take the arguments. if let Some(mut args) = get_derive_args(context, a) { derive_args.append(&mut args); match iter.peek() { // If the next attribute is `#[derive(...)]` as well, skip rewriting. Some(&(_, next_attr)) if is_derive(next_attr) => insert_new_line = false, // If not, rewrite the merged derives. _ => { result.push_str(&format!("#[derive({})]", derive_args.join(", "))); derive_args.clear(); } } } else { result.push_str(&a_str); } } else { result.push_str(&a_str); } is_prev_sugared_doc = a.is_sugared_doc; } Some(result) } } fn is_derive(attr: &ast::Attribute) -> bool { match attr.meta() { Some(meta_item) => match meta_item.node { ast::MetaItemKind::List(..) => meta_item.name.as_str() == "derive", _ => false, }, _ => false, } } /// Returns the arguments of `#[derive(...)]`. fn get_derive_args(context: &RewriteContext, attr: &ast::Attribute) -> Option> { attr.meta().and_then(|meta_item| match meta_item.node { ast::MetaItemKind::List(ref args) if meta_item.name.as_str() == "derive" => { // Every argument of `derive` should be `NestedMetaItemKind::Literal`. Some( args.iter() .map(|a| context.snippet(a.span)) .collect::>(), ) } _ => None, }) }