//! Format attributes and meta items. use rustc_ast::ast; use rustc_ast::HasAttrs; use rustc_span::{symbol::sym, Span, Symbol}; use self::doc_comment::DocCommentFormatter; use crate::comment::{contains_comment, rewrite_doc_comment, CommentStyle}; use crate::config::lists::*; use crate::config::IndentStyle; use crate::expr::rewrite_literal; use crate::lists::{definitive_tactic, itemize_list, write_list, ListFormatting, Separator}; use crate::overflow; use crate::rewrite::{Rewrite, RewriteContext}; use crate::shape::Shape; use crate::source_map::SpanUtils; use crate::types::{rewrite_path, PathContext}; use crate::utils::{count_newlines, mk_sp}; mod doc_comment; pub(crate) fn contains_name(attrs: &[ast::Attribute], name: Symbol) -> bool { attrs.iter().any(|attr| attr.has_name(name)) } pub(crate) fn first_attr_value_str_by_name( attrs: &[ast::Attribute], name: Symbol, ) -> Option { attrs .iter() .find(|attr| attr.has_name(name)) .and_then(|attr| attr.value_str()) } /// Returns attributes on the given statement. pub(crate) fn get_attrs_from_stmt(stmt: &ast::Stmt) -> &[ast::Attribute] { stmt.attrs() } pub(crate) fn get_span_without_attrs(stmt: &ast::Stmt) -> Span { match stmt.kind { ast::StmtKind::Local(ref local) => local.span, ast::StmtKind::Item(ref item) => item.span, ast::StmtKind::Expr(ref expr) | ast::StmtKind::Semi(ref expr) => expr.span, ast::StmtKind::MacCall(ref mac_stmt) => mac_stmt.mac.span(), ast::StmtKind::Empty => stmt.span, } } /// Returns attributes that are within `outer_span`. pub(crate) fn filter_inline_attrs(attrs: &[ast::Attribute], outer_span: Span) -> ast::AttrVec { attrs .iter() .filter(|a| outer_span.lo() <= a.span.lo() && a.span.hi() <= outer_span.hi()) .cloned() .collect() } fn is_derive(attr: &ast::Attribute) -> bool { attr.has_name(sym::derive) } // The shape of the arguments to a function-like attribute. fn argument_shape( left: usize, right: usize, combine: bool, shape: Shape, context: &RewriteContext<'_>, ) -> Option { match context.config.indent_style() { IndentStyle::Block => { if combine { shape.offset_left(left) } else { Some( shape .block_indent(context.config.tab_spaces()) .with_max_width(context.config), ) } } IndentStyle::Visual => shape .visual_indent(0) .shrink_left(left) .and_then(|s| s.sub_width(right)), } } fn format_derive( derives: &[ast::Attribute], shape: Shape, context: &RewriteContext<'_>, ) -> Option { // Collect all items from all attributes let all_items = derives .iter() .map(|attr| { // Parse the derive items and extract the span for each item; if any // attribute is not parseable, none of the attributes will be // reformatted. let item_spans = attr.meta_item_list().map(|meta_item_list| { meta_item_list .into_iter() .map(|nested_meta_item| nested_meta_item.span()) })?; let items = itemize_list( context.snippet_provider, item_spans, ")", ",", |span| span.lo(), |span| span.hi(), |span| Some(context.snippet(*span).to_owned()), // We update derive attribute spans to start after the opening '(' // This helps us focus parsing to just what's inside #[derive(...)] context.snippet_provider.span_after(attr.span, "("), attr.span.hi(), false, ); Some(items) }) // Fail if any attribute failed. .collect::>>()? // Collect the results into a single, flat, Vec. .into_iter() .flatten() .collect::>(); // Collect formatting parameters. let prefix = attr_prefix(&derives[0]); let argument_shape = argument_shape( "[derive()]".len() + prefix.len(), ")]".len(), false, shape, context, )?; let one_line_shape = shape .offset_left("[derive()]".len() + prefix.len())? .sub_width("()]".len())?; let one_line_budget = one_line_shape.width; let tactic = definitive_tactic( &all_items, ListTactic::HorizontalVertical, Separator::Comma, argument_shape.width, ); let trailing_separator = match context.config.indent_style() { // We always add the trailing comma and remove it if it is not needed. IndentStyle::Block => SeparatorTactic::Always, IndentStyle::Visual => SeparatorTactic::Never, }; // Format the collection of items. let fmt = ListFormatting::new(argument_shape, context.config) .tactic(tactic) .trailing_separator(trailing_separator) .ends_with_newline(false); let item_str = write_list(&all_items, &fmt)?; debug!("item_str: '{}'", item_str); // Determine if the result will be nested, i.e. if we're using the block // indent style and either the items are on multiple lines or we've exceeded // our budget to fit on a single line. let nested = context.config.indent_style() == IndentStyle::Block && (item_str.contains('\n') || item_str.len() > one_line_budget); // Format the final result. let mut result = String::with_capacity(128); result.push_str(prefix); result.push_str("[derive("); if nested { let nested_indent = argument_shape.indent.to_string_with_newline(context.config); result.push_str(&nested_indent); result.push_str(&item_str); result.push_str(&shape.indent.to_string_with_newline(context.config)); } else if let SeparatorTactic::Always = context.config.trailing_comma() { // Retain the trailing comma. result.push_str(&item_str); } else if item_str.ends_with(',') { // Remove the trailing comma. result.push_str(&item_str[..item_str.len() - 1]); } else { result.push_str(&item_str); } result.push_str(")]"); Some(result) } /// Returns the first group of attributes that fills the given predicate. /// We consider two doc comments are in different group if they are separated by normal comments. fn take_while_with_pred<'a, P>( context: &RewriteContext<'_>, attrs: &'a [ast::Attribute], pred: P, ) -> &'a [ast::Attribute] where P: Fn(&ast::Attribute) -> bool, { let mut len = 0; let mut iter = attrs.iter().peekable(); while let Some(attr) = iter.next() { if pred(attr) { len += 1; } else { break; } if let Some(next_attr) = iter.peek() { // Extract comments between two attributes. let span_between_attr = mk_sp(attr.span.hi(), next_attr.span.lo()); let snippet = context.snippet(span_between_attr); if count_newlines(snippet) >= 2 || snippet.contains('/') { break; } } } &attrs[..len] } /// Rewrite the any doc comments which come before any other attributes. fn rewrite_initial_doc_comments( context: &RewriteContext<'_>, attrs: &[ast::Attribute], shape: Shape, ) -> Option<(usize, Option)> { if attrs.is_empty() { return Some((0, None)); } // Rewrite doc comments let sugared_docs = take_while_with_pred(context, attrs, |a| a.is_doc_comment()); if !sugared_docs.is_empty() { let snippet = sugared_docs .iter() .map(|a| context.snippet(a.span)) .collect::>() .join("\n"); return Some(( sugared_docs.len(), Some(rewrite_doc_comment( &snippet, shape.comment(context.config), context.config, )?), )); } Some((0, None)) } impl Rewrite for ast::NestedMetaItem { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match self { ast::NestedMetaItem::MetaItem(ref meta_item) => meta_item.rewrite(context, shape), ast::NestedMetaItem::Lit(ref l) => { rewrite_literal(context, l.as_token_lit(), l.span, shape) } } } } fn has_newlines_before_after_comment(comment: &str) -> (&str, &str) { // Look at before and after comment and see if there are any empty lines. let comment_begin = comment.find('/'); let len = comment_begin.unwrap_or_else(|| comment.len()); let mlb = count_newlines(&comment[..len]) > 1; let mla = if comment_begin.is_none() { mlb } else { comment .chars() .rev() .take_while(|c| c.is_whitespace()) .filter(|&c| c == '\n') .count() > 1 }; (if mlb { "\n" } else { "" }, if mla { "\n" } else { "" }) } impl Rewrite for ast::MetaItem { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { Some(match self.kind { ast::MetaItemKind::Word => { rewrite_path(context, PathContext::Type, &None, &self.path, shape)? } ast::MetaItemKind::List(ref list) => { let path = rewrite_path(context, PathContext::Type, &None, &self.path, shape)?; let has_trailing_comma = crate::expr::span_ends_with_comma(context, self.span); overflow::rewrite_with_parens( context, &path, list.iter(), // 1 = "]" shape.sub_width(1)?, self.span, context.config.attr_fn_like_width(), Some(if has_trailing_comma { SeparatorTactic::Always } else { SeparatorTactic::Never }), )? } ast::MetaItemKind::NameValue(ref lit) => { let path = rewrite_path(context, PathContext::Type, &None, &self.path, shape)?; // 3 = ` = ` let lit_shape = shape.shrink_left(path.len() + 3)?; // `rewrite_literal` returns `None` when `lit` exceeds max // width. Since a literal is basically unformattable unless it // is a string literal (and only if `format_strings` is set), // we might be better off ignoring the fact that the attribute // is longer than the max width and continue on formatting. // See #2479 for example. let value = rewrite_literal(context, lit.as_token_lit(), lit.span, lit_shape) .unwrap_or_else(|| context.snippet(lit.span).to_owned()); format!("{} = {}", path, value) } }) } } impl Rewrite for ast::Attribute { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { let snippet = context.snippet(self.span); if self.is_doc_comment() { rewrite_doc_comment(snippet, shape.comment(context.config), context.config) } else { let should_skip = self .ident() .map(|s| context.skip_context.skip_attribute(s.name.as_str())) .unwrap_or(false); let prefix = attr_prefix(self); if should_skip || contains_comment(snippet) { return Some(snippet.to_owned()); } if let Some(ref meta) = self.meta() { // This attribute is possibly a doc attribute needing normalization to a doc comment if context.config.normalize_doc_attributes() && meta.has_name(sym::doc) { if let Some(ref literal) = meta.value_str() { let comment_style = match self.style { ast::AttrStyle::Inner => CommentStyle::Doc, ast::AttrStyle::Outer => CommentStyle::TripleSlash, }; let literal_str = literal.as_str(); let doc_comment_formatter = DocCommentFormatter::new(literal_str, comment_style); let doc_comment = format!("{}", doc_comment_formatter); return rewrite_doc_comment( &doc_comment, shape.comment(context.config), context.config, ); } } // 1 = `[` let shape = shape.offset_left(prefix.len() + 1)?; Some( meta.rewrite(context, shape) .map_or_else(|| snippet.to_owned(), |rw| format!("{}[{}]", prefix, rw)), ) } else { Some(snippet.to_owned()) } } } } impl Rewrite for [ast::Attribute] { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { if self.is_empty() { return Some(String::new()); } // The current remaining attributes. let mut attrs = self; let mut result = String::new(); // Determine if the source text is annotated with `#[rustfmt::skip::attributes(derive)]` // or `#![rustfmt::skip::attributes(derive)]` let skip_derives = context.skip_context.skip_attribute("derive"); // This is not just a simple map because we need to handle doc comments // (where we take as many doc comment attributes as possible) and possibly // merging derives into a single attribute. loop { if attrs.is_empty() { return Some(result); } // Handle doc comments. let (doc_comment_len, doc_comment_str) = rewrite_initial_doc_comments(context, attrs, shape)?; if doc_comment_len > 0 { let doc_comment_str = doc_comment_str.expect("doc comments, but no result"); result.push_str(&doc_comment_str); let missing_span = attrs .get(doc_comment_len) .map(|next| mk_sp(attrs[doc_comment_len - 1].span.hi(), next.span.lo())); if let Some(missing_span) = missing_span { let snippet = context.snippet(missing_span); let (mla, mlb) = has_newlines_before_after_comment(snippet); let comment = crate::comment::recover_missing_comment_in_span( missing_span, shape.with_max_width(context.config), context, 0, )?; let comment = if comment.is_empty() { format!("\n{}", mlb) } else { format!("{}{}\n{}", mla, comment, mlb) }; result.push_str(&comment); result.push_str(&shape.indent.to_string(context.config)); } attrs = &attrs[doc_comment_len..]; continue; } // Handle derives if we will merge them. if !skip_derives && context.config.merge_derives() && is_derive(&attrs[0]) { let derives = take_while_with_pred(context, attrs, is_derive); let derive_str = format_derive(derives, shape, context)?; result.push_str(&derive_str); let missing_span = attrs .get(derives.len()) .map(|next| mk_sp(attrs[derives.len() - 1].span.hi(), next.span.lo())); if let Some(missing_span) = missing_span { let comment = crate::comment::recover_missing_comment_in_span( missing_span, shape.with_max_width(context.config), context, 0, )?; result.push_str(&comment); if let Some(next) = attrs.get(derives.len()) { if next.is_doc_comment() { let snippet = context.snippet(missing_span); let (_, mlb) = has_newlines_before_after_comment(snippet); result.push_str(mlb); } } result.push('\n'); result.push_str(&shape.indent.to_string(context.config)); } attrs = &attrs[derives.len()..]; continue; } // If we get here, then we have a regular attribute, just handle one // at a time. let formatted_attr = attrs[0].rewrite(context, shape)?; result.push_str(&formatted_attr); let missing_span = attrs .get(1) .map(|next| mk_sp(attrs[0].span.hi(), next.span.lo())); if let Some(missing_span) = missing_span { let comment = crate::comment::recover_missing_comment_in_span( missing_span, shape.with_max_width(context.config), context, 0, )?; result.push_str(&comment); if let Some(next) = attrs.get(1) { if next.is_doc_comment() { let snippet = context.snippet(missing_span); let (_, mlb) = has_newlines_before_after_comment(snippet); result.push_str(mlb); } } result.push('\n'); result.push_str(&shape.indent.to_string(context.config)); } attrs = &attrs[1..]; } } } fn attr_prefix(attr: &ast::Attribute) -> &'static str { match attr.style { ast::AttrStyle::Inner => "#!", ast::AttrStyle::Outer => "#", } } pub(crate) trait MetaVisitor<'ast> { fn visit_meta_item(&mut self, meta_item: &'ast ast::MetaItem) { match meta_item.kind { ast::MetaItemKind::Word => self.visit_meta_word(meta_item), ast::MetaItemKind::List(ref list) => self.visit_meta_list(meta_item, list), ast::MetaItemKind::NameValue(ref lit) => self.visit_meta_name_value(meta_item, lit), } } fn visit_meta_list( &mut self, _meta_item: &'ast ast::MetaItem, list: &'ast [ast::NestedMetaItem], ) { for nm in list { self.visit_nested_meta_item(nm); } } fn visit_meta_word(&mut self, _meta_item: &'ast ast::MetaItem) {} fn visit_meta_name_value( &mut self, _meta_item: &'ast ast::MetaItem, _lit: &'ast ast::MetaItemLit, ) { } fn visit_nested_meta_item(&mut self, nm: &'ast ast::NestedMetaItem) { match nm { ast::NestedMetaItem::MetaItem(ref meta_item) => self.visit_meta_item(meta_item), ast::NestedMetaItem::Lit(ref lit) => self.visit_meta_item_lit(lit), } } fn visit_meta_item_lit(&mut self, _lit: &'ast ast::MetaItemLit) {} }