// Formatting top-level items - functions, structs, enums, traits, impls. use std::borrow::Cow; use std::cmp::{max, min, Ordering}; use regex::Regex; use rustc_ast::visit; use rustc_ast::{ast, ptr}; use rustc_span::{symbol, BytePos, Span, DUMMY_SP}; use crate::attr::filter_inline_attrs; use crate::comment::{ combine_strs_with_missing_comments, contains_comment, is_last_comment_block, recover_comment_removed, recover_missing_comment_in_span, rewrite_missing_comment, FindUncommented, }; use crate::config::lists::*; use crate::config::{BraceStyle, Config, IndentStyle, Version}; use crate::expr::{ is_empty_block, is_simple_block_stmt, rewrite_assign_rhs, rewrite_assign_rhs_with, rewrite_assign_rhs_with_comments, RhsAssignKind, RhsTactics, }; use crate::lists::{definitive_tactic, itemize_list, write_list, ListFormatting, Separator}; use crate::macros::{rewrite_macro, MacroPosition}; use crate::overflow; use crate::rewrite::{Rewrite, RewriteContext}; use crate::shape::{Indent, Shape}; use crate::source_map::{LineRangeUtils, SpanUtils}; use crate::spanned::Spanned; use crate::stmt::Stmt; use crate::types::opaque_ty; use crate::utils::*; use crate::vertical::rewrite_with_alignment; use crate::visitor::FmtVisitor; const DEFAULT_VISIBILITY: ast::Visibility = ast::Visibility { kind: ast::VisibilityKind::Inherited, span: DUMMY_SP, tokens: None, }; fn type_annotation_separator(config: &Config) -> &str { colon_spaces(config) } // Statements of the form // let pat: ty = init; impl Rewrite for ast::Local { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { debug!( "Local::rewrite {:?} {} {:?}", self, shape.width, shape.indent ); skip_out_of_file_lines_range!(context, self.span); if contains_skip(&self.attrs) || matches!(self.kind, ast::LocalKind::InitElse(..)) { return None; } let attrs_str = self.attrs.rewrite(context, shape)?; let mut result = if attrs_str.is_empty() { "let ".to_owned() } else { combine_strs_with_missing_comments( context, &attrs_str, "let ", mk_sp( self.attrs.last().map(|a| a.span.hi()).unwrap(), self.span.lo(), ), shape, false, )? }; // 4 = "let ".len() let pat_shape = shape.offset_left(4)?; // 1 = ; let pat_shape = pat_shape.sub_width(1)?; let pat_str = self.pat.rewrite(context, pat_shape)?; result.push_str(&pat_str); // String that is placed within the assignment pattern and expression. let infix = { let mut infix = String::with_capacity(32); if let Some(ref ty) = self.ty { let separator = type_annotation_separator(context.config); let ty_shape = if pat_str.contains('\n') { shape.with_max_width(context.config) } else { shape } .offset_left(last_line_width(&result) + separator.len())? // 2 = ` =` .sub_width(2)?; let rewrite = ty.rewrite(context, ty_shape)?; infix.push_str(separator); infix.push_str(&rewrite); } if self.kind.init().is_some() { infix.push_str(" ="); } infix }; result.push_str(&infix); if let Some((init, _els)) = self.kind.init_else_opt() { // 1 = trailing semicolon; let nested_shape = shape.sub_width(1)?; result = rewrite_assign_rhs( context, result, init, &RhsAssignKind::Expr(&init.kind, init.span), nested_shape, )?; // todo else } result.push(';'); Some(result) } } // FIXME convert to using rewrite style rather than visitor // FIXME format modules in this style #[allow(dead_code)] #[derive(Debug)] struct Item<'a> { unsafety: ast::Unsafe, abi: Cow<'static, str>, vis: Option<&'a ast::Visibility>, body: Vec>, span: Span, } impl<'a> Item<'a> { fn from_foreign_mod(fm: &'a ast::ForeignMod, span: Span, config: &Config) -> Item<'a> { Item { unsafety: fm.unsafety, abi: format_extern( ast::Extern::from_abi(fm.abi, DUMMY_SP), config.force_explicit_abi(), true, ), vis: None, body: fm .items .iter() .map(|i| BodyElement::ForeignItem(i)) .collect(), span, } } } #[derive(Debug)] enum BodyElement<'a> { // Stmt(&'a ast::Stmt), // Field(&'a ast::ExprField), // Variant(&'a ast::Variant), // Item(&'a ast::Item), ForeignItem(&'a ast::ForeignItem), } /// Represents a fn's signature. pub(crate) struct FnSig<'a> { decl: &'a ast::FnDecl, generics: &'a ast::Generics, ext: ast::Extern, is_async: Cow<'a, ast::Async>, constness: ast::Const, defaultness: ast::Defaultness, unsafety: ast::Unsafe, visibility: &'a ast::Visibility, } impl<'a> FnSig<'a> { pub(crate) fn from_method_sig( method_sig: &'a ast::FnSig, generics: &'a ast::Generics, visibility: &'a ast::Visibility, ) -> FnSig<'a> { FnSig { unsafety: method_sig.header.unsafety, is_async: Cow::Borrowed(&method_sig.header.asyncness), constness: method_sig.header.constness, defaultness: ast::Defaultness::Final, ext: method_sig.header.ext, decl: &*method_sig.decl, generics, visibility, } } pub(crate) fn from_fn_kind( fn_kind: &'a visit::FnKind<'_>, decl: &'a ast::FnDecl, defaultness: ast::Defaultness, ) -> FnSig<'a> { match *fn_kind { visit::FnKind::Fn(fn_ctxt, _, fn_sig, vis, generics, _) => match fn_ctxt { visit::FnCtxt::Assoc(..) => { let mut fn_sig = FnSig::from_method_sig(fn_sig, generics, vis); fn_sig.defaultness = defaultness; fn_sig } _ => FnSig { decl, generics, ext: fn_sig.header.ext, constness: fn_sig.header.constness, is_async: Cow::Borrowed(&fn_sig.header.asyncness), defaultness, unsafety: fn_sig.header.unsafety, visibility: vis, }, }, _ => unreachable!(), } } fn to_str(&self, context: &RewriteContext<'_>) -> String { let mut result = String::with_capacity(128); // Vis defaultness constness unsafety abi. result.push_str(&*format_visibility(context, self.visibility)); result.push_str(format_defaultness(self.defaultness)); result.push_str(format_constness(self.constness)); result.push_str(format_async(&self.is_async)); result.push_str(format_unsafety(self.unsafety)); result.push_str(&format_extern( self.ext, context.config.force_explicit_abi(), false, )); result } } impl<'a> FmtVisitor<'a> { fn format_item(&mut self, item: &Item<'_>) { self.buffer.push_str(format_unsafety(item.unsafety)); self.buffer.push_str(&item.abi); let snippet = self.snippet(item.span); let brace_pos = snippet.find_uncommented("{").unwrap(); self.push_str("{"); if !item.body.is_empty() || contains_comment(&snippet[brace_pos..]) { // FIXME: this skips comments between the extern keyword and the opening // brace. self.last_pos = item.span.lo() + BytePos(brace_pos as u32 + 1); self.block_indent = self.block_indent.block_indent(self.config); if !item.body.is_empty() { for item in &item.body { self.format_body_element(item); } } self.format_missing_no_indent(item.span.hi() - BytePos(1)); self.block_indent = self.block_indent.block_unindent(self.config); let indent_str = self.block_indent.to_string(self.config); self.push_str(&indent_str); } self.push_str("}"); self.last_pos = item.span.hi(); } fn format_body_element(&mut self, element: &BodyElement<'_>) { match *element { BodyElement::ForeignItem(item) => self.format_foreign_item(item), } } pub(crate) fn format_foreign_mod(&mut self, fm: &ast::ForeignMod, span: Span) { let item = Item::from_foreign_mod(fm, span, self.config); self.format_item(&item); } fn format_foreign_item(&mut self, item: &ast::ForeignItem) { let rewrite = item.rewrite(&self.get_context(), self.shape()); let hi = item.span.hi(); let span = if item.attrs.is_empty() { item.span } else { mk_sp(item.attrs[0].span.lo(), hi) }; self.push_rewrite(span, rewrite); self.last_pos = hi; } pub(crate) fn rewrite_fn_before_block( &mut self, indent: Indent, ident: symbol::Ident, fn_sig: &FnSig<'_>, span: Span, ) -> Option<(String, FnBraceStyle)> { let context = self.get_context(); let mut fn_brace_style = newline_for_brace(self.config, &fn_sig.generics.where_clause); let (result, _, force_newline_brace) = rewrite_fn_base(&context, indent, ident, fn_sig, span, fn_brace_style)?; // 2 = ` {` if self.config.brace_style() == BraceStyle::AlwaysNextLine || force_newline_brace || last_line_width(&result) + 2 > self.shape().width { fn_brace_style = FnBraceStyle::NextLine } Some((result, fn_brace_style)) } pub(crate) fn rewrite_required_fn( &mut self, indent: Indent, ident: symbol::Ident, sig: &ast::FnSig, vis: &ast::Visibility, generics: &ast::Generics, span: Span, ) -> Option { // Drop semicolon or it will be interpreted as comment. let span = mk_sp(span.lo(), span.hi() - BytePos(1)); let context = self.get_context(); let (mut result, ends_with_comment, _) = rewrite_fn_base( &context, indent, ident, &FnSig::from_method_sig(sig, generics, vis), span, FnBraceStyle::None, )?; // If `result` ends with a comment, then remember to add a newline if ends_with_comment { result.push_str(&indent.to_string_with_newline(context.config)); } // Re-attach semicolon result.push(';'); Some(result) } pub(crate) fn single_line_fn( &self, fn_str: &str, block: &ast::Block, inner_attrs: Option<&[ast::Attribute]>, ) -> Option { if fn_str.contains('\n') || inner_attrs.map_or(false, |a| !a.is_empty()) { return None; } let context = self.get_context(); if self.config.empty_item_single_line() && is_empty_block(&context, block, None) && self.block_indent.width() + fn_str.len() + 3 <= self.config.max_width() && !last_line_contains_single_line_comment(fn_str) { return Some(format!("{} {{}}", fn_str)); } if !self.config.fn_single_line() || !is_simple_block_stmt(&context, block, None) { return None; } let res = Stmt::from_ast_node(block.stmts.first()?, true) .rewrite(&self.get_context(), self.shape())?; let width = self.block_indent.width() + fn_str.len() + res.len() + 5; if !res.contains('\n') && width <= self.config.max_width() { Some(format!("{} {{ {} }}", fn_str, res)) } else { None } } pub(crate) fn visit_static(&mut self, static_parts: &StaticParts<'_>) { let rewrite = rewrite_static(&self.get_context(), static_parts, self.block_indent); self.push_rewrite(static_parts.span, rewrite); } pub(crate) fn visit_struct(&mut self, struct_parts: &StructParts<'_>) { let is_tuple = match struct_parts.def { ast::VariantData::Tuple(..) => true, _ => false, }; let rewrite = format_struct(&self.get_context(), struct_parts, self.block_indent, None) .map(|s| if is_tuple { s + ";" } else { s }); self.push_rewrite(struct_parts.span, rewrite); } pub(crate) fn visit_enum( &mut self, ident: symbol::Ident, vis: &ast::Visibility, enum_def: &ast::EnumDef, generics: &ast::Generics, span: Span, ) { let enum_header = format_header(&self.get_context(), "enum ", ident, vis, self.block_indent); self.push_str(&enum_header); let enum_snippet = self.snippet(span); let brace_pos = enum_snippet.find_uncommented("{").unwrap(); let body_start = span.lo() + BytePos(brace_pos as u32 + 1); let generics_str = format_generics( &self.get_context(), generics, self.config.brace_style(), if enum_def.variants.is_empty() { BracePos::ForceSameLine } else { BracePos::Auto }, self.block_indent, // make a span that starts right after `enum Foo` mk_sp(ident.span.hi(), body_start), last_line_width(&enum_header), ) .unwrap(); self.push_str(&generics_str); self.last_pos = body_start; match self.format_variant_list(enum_def, body_start, span.hi()) { Some(ref s) if enum_def.variants.is_empty() => self.push_str(s), rw => { self.push_rewrite(mk_sp(body_start, span.hi()), rw); self.block_indent = self.block_indent.block_unindent(self.config); } } } // Format the body of an enum definition fn format_variant_list( &mut self, enum_def: &ast::EnumDef, body_lo: BytePos, body_hi: BytePos, ) -> Option { if enum_def.variants.is_empty() { let mut buffer = String::with_capacity(128); // 1 = "}" let span = mk_sp(body_lo, body_hi - BytePos(1)); format_empty_struct_or_tuple( &self.get_context(), span, self.block_indent, &mut buffer, "", "}", ); return Some(buffer); } let mut result = String::with_capacity(1024); let original_offset = self.block_indent; self.block_indent = self.block_indent.block_indent(self.config); // If enum variants have discriminants, try to vertically align those, // provided the discrims are not shifted too much to the right let align_threshold: usize = self.config.enum_discrim_align_threshold(); let discr_ident_lens: Vec = enum_def .variants .iter() .filter(|var| var.disr_expr.is_some()) .map(|var| rewrite_ident(&self.get_context(), var.ident).len()) .collect(); // cut the list at the point of longest discrim shorter than the threshold // All of the discrims under the threshold will get padded, and all above - left as is. let pad_discrim_ident_to = *discr_ident_lens .iter() .filter(|&l| *l <= align_threshold) .max() .unwrap_or(&0); let itemize_list_with = |one_line_width: usize| { itemize_list( self.snippet_provider, enum_def.variants.iter(), "}", ",", |f| { if !f.attrs.is_empty() { f.attrs[0].span.lo() } else { f.span.lo() } }, |f| f.span.hi(), |f| self.format_variant(f, one_line_width, pad_discrim_ident_to), body_lo, body_hi, false, ) .collect() }; let mut items: Vec<_> = itemize_list_with(self.config.struct_variant_width()); // If one of the variants use multiple lines, use multi-lined formatting for all variants. let has_multiline_variant = items.iter().any(|item| item.inner_as_ref().contains('\n')); let has_single_line_variant = items.iter().any(|item| !item.inner_as_ref().contains('\n')); if has_multiline_variant && has_single_line_variant { items = itemize_list_with(0); } let shape = self.shape().sub_width(2)?; let fmt = ListFormatting::new(shape, self.config) .trailing_separator(self.config.trailing_comma()) .preserve_newline(true); let list = write_list(&items, &fmt)?; result.push_str(&list); result.push_str(&original_offset.to_string_with_newline(self.config)); result.push('}'); Some(result) } // Variant of an enum. fn format_variant( &self, field: &ast::Variant, one_line_width: usize, pad_discrim_ident_to: usize, ) -> Option { if contains_skip(&field.attrs) { let lo = field.attrs[0].span.lo(); let span = mk_sp(lo, field.span.hi()); return Some(self.snippet(span).to_owned()); } let context = self.get_context(); // 1 = ',' let shape = self.shape().sub_width(1)?; let attrs_str = field.attrs.rewrite(&context, shape)?; let lo = field .attrs .last() .map_or(field.span.lo(), |attr| attr.span.hi()); let span = mk_sp(lo, field.span.lo()); let variant_body = match field.data { ast::VariantData::Tuple(..) | ast::VariantData::Struct(..) => format_struct( &context, &StructParts::from_variant(field), self.block_indent, Some(one_line_width), )?, ast::VariantData::Unit(..) => rewrite_ident(&context, field.ident).to_owned(), }; let variant_body = if let Some(ref expr) = field.disr_expr { let lhs = format!("{:1$} =", variant_body, pad_discrim_ident_to); let ex = &*expr.value; rewrite_assign_rhs_with( &context, lhs, ex, shape, &RhsAssignKind::Expr(&ex.kind, ex.span), RhsTactics::AllowOverflow, )? } else { variant_body }; combine_strs_with_missing_comments(&context, &attrs_str, &variant_body, span, shape, false) } fn visit_impl_items(&mut self, items: &[ptr::P]) { if self.get_context().config.reorder_impl_items() { type TyOpt = Option>; use crate::ast::AssocItemKind::*; let is_type = |ty: &TyOpt| opaque_ty(ty).is_none(); let is_opaque = |ty: &TyOpt| opaque_ty(ty).is_some(); let both_type = |l: &TyOpt, r: &TyOpt| is_type(l) && is_type(r); let both_opaque = |l: &TyOpt, r: &TyOpt| is_opaque(l) && is_opaque(r); let need_empty_line = |a: &ast::AssocItemKind, b: &ast::AssocItemKind| match (a, b) { (Type(lty), Type(rty)) if both_type(<y.ty, &rty.ty) || both_opaque(<y.ty, &rty.ty) => { false } (Const(..), Const(..)) => false, _ => true, }; // Create visitor for each items, then reorder them. let mut buffer = vec![]; for item in items { self.visit_impl_item(item); buffer.push((self.buffer.clone(), item.clone())); self.buffer.clear(); } buffer.sort_by(|(_, a), (_, b)| match (&a.kind, &b.kind) { (Type(lty), Type(rty)) if both_type(<y.ty, &rty.ty) || both_opaque(<y.ty, &rty.ty) => { a.ident.as_str().cmp(b.ident.as_str()) } (Const(..), Const(..)) | (MacCall(..), MacCall(..)) => { a.ident.as_str().cmp(b.ident.as_str()) } (Fn(..), Fn(..)) => a.span.lo().cmp(&b.span.lo()), (Type(ty), _) if is_type(&ty.ty) => Ordering::Less, (_, Type(ty)) if is_type(&ty.ty) => Ordering::Greater, (Type(..), _) => Ordering::Less, (_, Type(..)) => Ordering::Greater, (Const(..), _) => Ordering::Less, (_, Const(..)) => Ordering::Greater, (MacCall(..), _) => Ordering::Less, (_, MacCall(..)) => Ordering::Greater, }); let mut prev_kind = None; for (buf, item) in buffer { // Make sure that there are at least a single empty line between // different impl items. if prev_kind .as_ref() .map_or(false, |prev_kind| need_empty_line(prev_kind, &item.kind)) { self.push_str("\n"); } let indent_str = self.block_indent.to_string_with_newline(self.config); self.push_str(&indent_str); self.push_str(buf.trim()); prev_kind = Some(item.kind.clone()); } } else { for item in items { self.visit_impl_item(item); } } } } pub(crate) fn format_impl( context: &RewriteContext<'_>, item: &ast::Item, iimpl: &ast::Impl, offset: Indent, ) -> Option { let ast::Impl { generics, self_ty, items, .. } = iimpl; let mut result = String::with_capacity(128); let ref_and_type = format_impl_ref_and_type(context, item, iimpl, offset)?; let sep = offset.to_string_with_newline(context.config); result.push_str(&ref_and_type); let where_budget = if result.contains('\n') { context.config.max_width() } else { context.budget(last_line_width(&result)) }; let mut option = WhereClauseOption::snuggled(&ref_and_type); let snippet = context.snippet(item.span); let open_pos = snippet.find_uncommented("{")? + 1; if !contains_comment(&snippet[open_pos..]) && items.is_empty() && generics.where_clause.predicates.len() == 1 && !result.contains('\n') { option.suppress_comma(); option.snuggle(); option.allow_single_line(); } let missing_span = mk_sp(self_ty.span.hi(), item.span.hi()); let where_span_end = context.snippet_provider.opt_span_before(missing_span, "{"); let where_clause_str = rewrite_where_clause( context, &generics.where_clause.predicates, generics.where_clause.span, context.config.brace_style(), Shape::legacy(where_budget, offset.block_only()), false, "{", where_span_end, self_ty.span.hi(), option, )?; // If there is no where-clause, we may have missing comments between the trait name and // the opening brace. if generics.where_clause.predicates.is_empty() { if let Some(hi) = where_span_end { match recover_missing_comment_in_span( mk_sp(self_ty.span.hi(), hi), Shape::indented(offset, context.config), context, last_line_width(&result), ) { Some(ref missing_comment) if !missing_comment.is_empty() => { result.push_str(missing_comment); } _ => (), } } } if is_impl_single_line(context, items.as_slice(), &result, &where_clause_str, item)? { result.push_str(&where_clause_str); if where_clause_str.contains('\n') || last_line_contains_single_line_comment(&result) { // if the where_clause contains extra comments AND // there is only one where-clause predicate // recover the suppressed comma in single line where_clause formatting if generics.where_clause.predicates.len() == 1 { result.push(','); } result.push_str(&format!("{}{{{}}}", sep, sep)); } else { result.push_str(" {}"); } return Some(result); } result.push_str(&where_clause_str); let need_newline = last_line_contains_single_line_comment(&result) || result.contains('\n'); match context.config.brace_style() { _ if need_newline => result.push_str(&sep), BraceStyle::AlwaysNextLine => result.push_str(&sep), BraceStyle::PreferSameLine => result.push(' '), BraceStyle::SameLineWhere => { if !where_clause_str.is_empty() { result.push_str(&sep); } else { result.push(' '); } } } result.push('{'); // this is an impl body snippet(impl SampleImpl { /* here */ }) let lo = max(self_ty.span.hi(), generics.where_clause.span.hi()); let snippet = context.snippet(mk_sp(lo, item.span.hi())); let open_pos = snippet.find_uncommented("{")? + 1; if !items.is_empty() || contains_comment(&snippet[open_pos..]) { let mut visitor = FmtVisitor::from_context(context); let item_indent = offset.block_only().block_indent(context.config); visitor.block_indent = item_indent; visitor.last_pos = lo + BytePos(open_pos as u32); visitor.visit_attrs(&item.attrs, ast::AttrStyle::Inner); visitor.visit_impl_items(items); visitor.format_missing(item.span.hi() - BytePos(1)); let inner_indent_str = visitor.block_indent.to_string_with_newline(context.config); let outer_indent_str = offset.block_only().to_string_with_newline(context.config); result.push_str(&inner_indent_str); result.push_str(visitor.buffer.trim()); result.push_str(&outer_indent_str); } else if need_newline || !context.config.empty_item_single_line() { result.push_str(&sep); } result.push('}'); Some(result) } fn is_impl_single_line( context: &RewriteContext<'_>, items: &[ptr::P], result: &str, where_clause_str: &str, item: &ast::Item, ) -> Option { let snippet = context.snippet(item.span); let open_pos = snippet.find_uncommented("{")? + 1; Some( context.config.empty_item_single_line() && items.is_empty() && !result.contains('\n') && result.len() + where_clause_str.len() <= context.config.max_width() && !contains_comment(&snippet[open_pos..]), ) } fn format_impl_ref_and_type( context: &RewriteContext<'_>, item: &ast::Item, iimpl: &ast::Impl, offset: Indent, ) -> Option { let ast::Impl { unsafety, polarity, defaultness, constness, ref generics, of_trait: ref trait_ref, ref self_ty, .. } = *iimpl; let mut result = String::with_capacity(128); result.push_str(&format_visibility(context, &item.vis)); result.push_str(format_defaultness(defaultness)); result.push_str(format_unsafety(unsafety)); let shape = if context.config.version() == Version::Two { Shape::indented(offset + last_line_width(&result), context.config) } else { generics_shape_from_config( context.config, Shape::indented(offset + last_line_width(&result), context.config), 0, )? }; let generics_str = rewrite_generics(context, "impl", generics, shape)?; result.push_str(&generics_str); result.push_str(format_constness_right(constness)); let polarity_str = match polarity { ast::ImplPolarity::Negative(_) => "!", ast::ImplPolarity::Positive => "", }; let polarity_overhead; let trait_ref_overhead; if let Some(ref trait_ref) = *trait_ref { let result_len = last_line_width(&result); result.push_str(&rewrite_trait_ref( context, trait_ref, offset, polarity_str, result_len, )?); polarity_overhead = 0; // already written trait_ref_overhead = " for".len(); } else { polarity_overhead = polarity_str.len(); trait_ref_overhead = 0; } // Try to put the self type in a single line. let curly_brace_overhead = if generics.where_clause.predicates.is_empty() { // If there is no where-clause adapt budget for type formatting to take space and curly // brace into account. match context.config.brace_style() { BraceStyle::AlwaysNextLine => 0, _ => 2, } } else { 0 }; let used_space = last_line_width(&result) + polarity_overhead + trait_ref_overhead + curly_brace_overhead; // 1 = space before the type. let budget = context.budget(used_space + 1); if let Some(self_ty_str) = self_ty.rewrite(context, Shape::legacy(budget, offset)) { if !self_ty_str.contains('\n') { if trait_ref.is_some() { result.push_str(" for "); } else { result.push(' '); result.push_str(polarity_str); } result.push_str(&self_ty_str); return Some(result); } } // Couldn't fit the self type on a single line, put it on a new line. result.push('\n'); // Add indentation of one additional tab. let new_line_offset = offset.block_indent(context.config); result.push_str(&new_line_offset.to_string(context.config)); if trait_ref.is_some() { result.push_str("for "); } else { result.push_str(polarity_str); } let budget = context.budget(last_line_width(&result) + polarity_overhead); let type_offset = match context.config.indent_style() { IndentStyle::Visual => new_line_offset + trait_ref_overhead, IndentStyle::Block => new_line_offset, }; result.push_str(&*self_ty.rewrite(context, Shape::legacy(budget, type_offset))?); Some(result) } fn rewrite_trait_ref( context: &RewriteContext<'_>, trait_ref: &ast::TraitRef, offset: Indent, polarity_str: &str, result_len: usize, ) -> Option { // 1 = space between generics and trait_ref let used_space = 1 + polarity_str.len() + result_len; let shape = Shape::indented(offset + used_space, context.config); if let Some(trait_ref_str) = trait_ref.rewrite(context, shape) { if !trait_ref_str.contains('\n') { return Some(format!(" {}{}", polarity_str, trait_ref_str)); } } // We could not make enough space for trait_ref, so put it on new line. let offset = offset.block_indent(context.config); let shape = Shape::indented(offset, context.config); let trait_ref_str = trait_ref.rewrite(context, shape)?; Some(format!( "{}{}{}", offset.to_string_with_newline(context.config), polarity_str, trait_ref_str )) } pub(crate) struct StructParts<'a> { prefix: &'a str, ident: symbol::Ident, vis: &'a ast::Visibility, def: &'a ast::VariantData, generics: Option<&'a ast::Generics>, span: Span, } impl<'a> StructParts<'a> { fn format_header(&self, context: &RewriteContext<'_>, offset: Indent) -> String { format_header(context, self.prefix, self.ident, self.vis, offset) } fn from_variant(variant: &'a ast::Variant) -> Self { StructParts { prefix: "", ident: variant.ident, vis: &DEFAULT_VISIBILITY, def: &variant.data, generics: None, span: variant.span, } } pub(crate) fn from_item(item: &'a ast::Item) -> Self { let (prefix, def, generics) = match item.kind { ast::ItemKind::Struct(ref def, ref generics) => ("struct ", def, generics), ast::ItemKind::Union(ref def, ref generics) => ("union ", def, generics), _ => unreachable!(), }; StructParts { prefix, ident: item.ident, vis: &item.vis, def, generics: Some(generics), span: item.span, } } } fn format_struct( context: &RewriteContext<'_>, struct_parts: &StructParts<'_>, offset: Indent, one_line_width: Option, ) -> Option { match *struct_parts.def { ast::VariantData::Unit(..) => format_unit_struct(context, struct_parts, offset), ast::VariantData::Tuple(ref fields, _) => { format_tuple_struct(context, struct_parts, fields, offset) } ast::VariantData::Struct(ref fields, _) => { format_struct_struct(context, struct_parts, fields, offset, one_line_width) } } } pub(crate) fn format_trait( context: &RewriteContext<'_>, item: &ast::Item, offset: Indent, ) -> Option { if let ast::ItemKind::Trait(trait_kind) = &item.kind { let ast::Trait { is_auto, unsafety, ref generics, ref bounds, ref items, } = **trait_kind; let mut result = String::with_capacity(128); let header = format!( "{}{}{}trait ", format_visibility(context, &item.vis), format_unsafety(unsafety), format_auto(is_auto), ); result.push_str(&header); let body_lo = context.snippet_provider.span_after(item.span, "{"); let shape = Shape::indented(offset, context.config).offset_left(result.len())?; let generics_str = rewrite_generics(context, rewrite_ident(context, item.ident), generics, shape)?; result.push_str(&generics_str); // FIXME(#2055): rustfmt fails to format when there are comments between trait bounds. if !bounds.is_empty() { let ident_hi = context .snippet_provider .span_after(item.span, item.ident.as_str()); let bound_hi = bounds.last().unwrap().span().hi(); let snippet = context.snippet(mk_sp(ident_hi, bound_hi)); if contains_comment(snippet) { return None; } result = rewrite_assign_rhs_with( context, result + ":", bounds, shape, &RhsAssignKind::Bounds, RhsTactics::ForceNextLineWithoutIndent, )?; } // Rewrite where-clause. if !generics.where_clause.predicates.is_empty() { let where_on_new_line = context.config.indent_style() != IndentStyle::Block; let where_budget = context.budget(last_line_width(&result)); let pos_before_where = if bounds.is_empty() { generics.where_clause.span.lo() } else { bounds[bounds.len() - 1].span().hi() }; let option = WhereClauseOption::snuggled(&generics_str); let where_clause_str = rewrite_where_clause( context, &generics.where_clause.predicates, generics.where_clause.span, context.config.brace_style(), Shape::legacy(where_budget, offset.block_only()), where_on_new_line, "{", None, pos_before_where, option, )?; // If the where-clause cannot fit on the same line, // put the where-clause on a new line if !where_clause_str.contains('\n') && last_line_width(&result) + where_clause_str.len() + offset.width() > context.config.comment_width() { let width = offset.block_indent + context.config.tab_spaces() - 1; let where_indent = Indent::new(0, width); result.push_str(&where_indent.to_string_with_newline(context.config)); } result.push_str(&where_clause_str); } else { let item_snippet = context.snippet(item.span); if let Some(lo) = item_snippet.find('/') { // 1 = `{` let comment_hi = body_lo - BytePos(1); let comment_lo = item.span.lo() + BytePos(lo as u32); if comment_lo < comment_hi { match recover_missing_comment_in_span( mk_sp(comment_lo, comment_hi), Shape::indented(offset, context.config), context, last_line_width(&result), ) { Some(ref missing_comment) if !missing_comment.is_empty() => { result.push_str(missing_comment); } _ => (), } } } } let block_span = mk_sp(generics.where_clause.span.hi(), item.span.hi()); let snippet = context.snippet(block_span); let open_pos = snippet.find_uncommented("{")? + 1; match context.config.brace_style() { _ if last_line_contains_single_line_comment(&result) || last_line_width(&result) + 2 > context.budget(offset.width()) => { result.push_str(&offset.to_string_with_newline(context.config)); } _ if context.config.empty_item_single_line() && items.is_empty() && !result.contains('\n') && !contains_comment(&snippet[open_pos..]) => { result.push_str(" {}"); return Some(result); } BraceStyle::AlwaysNextLine => { result.push_str(&offset.to_string_with_newline(context.config)); } BraceStyle::PreferSameLine => result.push(' '), BraceStyle::SameLineWhere => { if result.contains('\n') || (!generics.where_clause.predicates.is_empty() && !items.is_empty()) { result.push_str(&offset.to_string_with_newline(context.config)); } else { result.push(' '); } } } result.push('{'); let outer_indent_str = offset.block_only().to_string_with_newline(context.config); if !items.is_empty() || contains_comment(&snippet[open_pos..]) { let mut visitor = FmtVisitor::from_context(context); visitor.block_indent = offset.block_only().block_indent(context.config); visitor.last_pos = block_span.lo() + BytePos(open_pos as u32); for item in items { visitor.visit_trait_item(item); } visitor.format_missing(item.span.hi() - BytePos(1)); let inner_indent_str = visitor.block_indent.to_string_with_newline(context.config); result.push_str(&inner_indent_str); result.push_str(visitor.buffer.trim()); result.push_str(&outer_indent_str); } else if result.contains('\n') { result.push_str(&outer_indent_str); } result.push('}'); Some(result) } else { unreachable!(); } } pub(crate) struct TraitAliasBounds<'a> { generic_bounds: &'a ast::GenericBounds, generics: &'a ast::Generics, } impl<'a> Rewrite for TraitAliasBounds<'a> { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { let generic_bounds_str = self.generic_bounds.rewrite(context, shape)?; let mut option = WhereClauseOption::new(true, WhereClauseSpace::None); option.allow_single_line(); let where_str = rewrite_where_clause( context, &self.generics.where_clause.predicates, self.generics.where_clause.span, context.config.brace_style(), shape, false, ";", None, self.generics.where_clause.span.lo(), option, )?; let fits_single_line = !generic_bounds_str.contains('\n') && !where_str.contains('\n') && generic_bounds_str.len() + where_str.len() < shape.width; let space = if generic_bounds_str.is_empty() || where_str.is_empty() { Cow::from("") } else if fits_single_line { Cow::from(" ") } else { shape.indent.to_string_with_newline(context.config) }; Some(format!("{}{}{}", generic_bounds_str, space, where_str)) } } pub(crate) fn format_trait_alias( context: &RewriteContext<'_>, ident: symbol::Ident, vis: &ast::Visibility, generics: &ast::Generics, generic_bounds: &ast::GenericBounds, shape: Shape, ) -> Option { let alias = rewrite_ident(context, ident); // 6 = "trait ", 2 = " =" let g_shape = shape.offset_left(6)?.sub_width(2)?; let generics_str = rewrite_generics(context, alias, generics, g_shape)?; let vis_str = format_visibility(context, vis); let lhs = format!("{}trait {} =", vis_str, generics_str); // 1 = ";" let trait_alias_bounds = TraitAliasBounds { generic_bounds, generics, }; rewrite_assign_rhs( context, lhs, &trait_alias_bounds, &RhsAssignKind::Bounds, shape.sub_width(1)?, ) .map(|s| s + ";") } fn format_unit_struct( context: &RewriteContext<'_>, p: &StructParts<'_>, offset: Indent, ) -> Option { let header_str = format_header(context, p.prefix, p.ident, p.vis, offset); let generics_str = if let Some(generics) = p.generics { let hi = context.snippet_provider.span_before(p.span, ";"); format_generics( context, generics, context.config.brace_style(), BracePos::None, offset, // make a span that starts right after `struct Foo` mk_sp(p.ident.span.hi(), hi), last_line_width(&header_str), )? } else { String::new() }; Some(format!("{}{};", header_str, generics_str)) } pub(crate) fn format_struct_struct( context: &RewriteContext<'_>, struct_parts: &StructParts<'_>, fields: &[ast::FieldDef], offset: Indent, one_line_width: Option, ) -> Option { let mut result = String::with_capacity(1024); let span = struct_parts.span; let header_str = struct_parts.format_header(context, offset); result.push_str(&header_str); let header_hi = struct_parts.ident.span.hi(); let body_lo = if let Some(generics) = struct_parts.generics { // Adjust the span to start at the end of the generic arguments before searching for the '{' let span = span.with_lo(generics.span.hi()); context.snippet_provider.span_after(span, "{") } else { context.snippet_provider.span_after(span, "{") }; let generics_str = match struct_parts.generics { Some(g) => format_generics( context, g, context.config.brace_style(), if fields.is_empty() { BracePos::ForceSameLine } else { BracePos::Auto }, offset, // make a span that starts right after `struct Foo` mk_sp(header_hi, body_lo), last_line_width(&result), )?, None => { // 3 = ` {}`, 2 = ` {`. let overhead = if fields.is_empty() { 3 } else { 2 }; if (context.config.brace_style() == BraceStyle::AlwaysNextLine && !fields.is_empty()) || context.config.max_width() < overhead + result.len() { format!("\n{}{{", offset.block_only().to_string(context.config)) } else { " {".to_owned() } } }; // 1 = `}` let overhead = if fields.is_empty() { 1 } else { 0 }; let total_width = result.len() + generics_str.len() + overhead; if !generics_str.is_empty() && !generics_str.contains('\n') && total_width > context.config.max_width() { result.push('\n'); result.push_str(&offset.to_string(context.config)); result.push_str(generics_str.trim_start()); } else { result.push_str(&generics_str); } if fields.is_empty() { let inner_span = mk_sp(body_lo, span.hi() - BytePos(1)); format_empty_struct_or_tuple(context, inner_span, offset, &mut result, "", "}"); return Some(result); } // 3 = ` ` and ` }` let one_line_budget = context.budget(result.len() + 3 + offset.width()); let one_line_budget = one_line_width.map_or(0, |one_line_width| min(one_line_width, one_line_budget)); let items_str = rewrite_with_alignment( fields, context, Shape::indented(offset.block_indent(context.config), context.config).sub_width(1)?, mk_sp(body_lo, span.hi()), one_line_budget, )?; if !items_str.contains('\n') && !result.contains('\n') && items_str.len() <= one_line_budget && !last_line_contains_single_line_comment(&items_str) { Some(format!("{} {} }}", result, items_str)) } else { Some(format!( "{}\n{}{}\n{}}}", result, offset .block_indent(context.config) .to_string(context.config), items_str, offset.to_string(context.config) )) } } fn get_bytepos_after_visibility(vis: &ast::Visibility, default_span: Span) -> BytePos { match vis.kind { ast::VisibilityKind::Restricted { .. } => vis.span.hi(), _ => default_span.lo(), } } // Format tuple or struct without any fields. We need to make sure that the comments // inside the delimiters are preserved. fn format_empty_struct_or_tuple( context: &RewriteContext<'_>, span: Span, offset: Indent, result: &mut String, opener: &str, closer: &str, ) { // 3 = " {}" or "();" let used_width = last_line_used_width(result, offset.width()) + 3; if used_width > context.config.max_width() { result.push_str(&offset.to_string_with_newline(context.config)) } result.push_str(opener); // indented shape for proper indenting of multi-line comments let shape = Shape::indented(offset.block_indent(context.config), context.config); match rewrite_missing_comment(span, shape, context) { Some(ref s) if s.is_empty() => (), Some(ref s) => { let is_multi_line = !is_single_line(s); if is_multi_line || first_line_contains_single_line_comment(s) { let nested_indent_str = offset .block_indent(context.config) .to_string_with_newline(context.config); result.push_str(&nested_indent_str); } result.push_str(s); if is_multi_line || last_line_contains_single_line_comment(s) { result.push_str(&offset.to_string_with_newline(context.config)); } } None => result.push_str(context.snippet(span)), } result.push_str(closer); } fn format_tuple_struct( context: &RewriteContext<'_>, struct_parts: &StructParts<'_>, fields: &[ast::FieldDef], offset: Indent, ) -> Option { let mut result = String::with_capacity(1024); let span = struct_parts.span; let header_str = struct_parts.format_header(context, offset); result.push_str(&header_str); let body_lo = if fields.is_empty() { let lo = get_bytepos_after_visibility(struct_parts.vis, span); context .snippet_provider .span_after(mk_sp(lo, span.hi()), "(") } else { fields[0].span.lo() }; let body_hi = if fields.is_empty() { context .snippet_provider .span_after(mk_sp(body_lo, span.hi()), ")") } else { // This is a dirty hack to work around a missing `)` from the span of the last field. let last_arg_span = fields[fields.len() - 1].span; context .snippet_provider .opt_span_after(mk_sp(last_arg_span.hi(), span.hi()), ")") .unwrap_or_else(|| last_arg_span.hi()) }; let where_clause_str = match struct_parts.generics { Some(generics) => { let budget = context.budget(last_line_width(&header_str)); let shape = Shape::legacy(budget, offset); let generics_str = rewrite_generics(context, "", generics, shape)?; result.push_str(&generics_str); let where_budget = context.budget(last_line_width(&result)); let option = WhereClauseOption::new(true, WhereClauseSpace::Newline); rewrite_where_clause( context, &generics.where_clause.predicates, generics.where_clause.span, context.config.brace_style(), Shape::legacy(where_budget, offset.block_only()), false, ";", None, body_hi, option, )? } None => "".to_owned(), }; if fields.is_empty() { let body_hi = context .snippet_provider .span_before(mk_sp(body_lo, span.hi()), ")"); let inner_span = mk_sp(body_lo, body_hi); format_empty_struct_or_tuple(context, inner_span, offset, &mut result, "(", ")"); } else { let shape = Shape::indented(offset, context.config).sub_width(1)?; let lo = if let Some(generics) = struct_parts.generics { generics.span.hi() } else { struct_parts.ident.span.hi() }; result = overflow::rewrite_with_parens( context, &result, fields.iter(), shape, mk_sp(lo, span.hi()), context.config.fn_call_width(), None, )?; } if !where_clause_str.is_empty() && !where_clause_str.contains('\n') && (result.contains('\n') || offset.block_indent + result.len() + where_clause_str.len() + 1 > context.config.max_width()) { // We need to put the where-clause on a new line, but we didn't // know that earlier, so the where-clause will not be indented properly. result.push('\n'); result.push_str( &(offset.block_only() + (context.config.tab_spaces() - 1)).to_string(context.config), ); } result.push_str(&where_clause_str); Some(result) } pub(crate) enum ItemVisitorKind<'a> { Item(&'a ast::Item), AssocTraitItem(&'a ast::AssocItem), AssocImplItem(&'a ast::AssocItem), ForeignItem(&'a ast::ForeignItem), } struct TyAliasRewriteInfo<'c, 'g>( &'c RewriteContext<'c>, Indent, &'g ast::Generics, (ast::TyAliasWhereClause, ast::TyAliasWhereClause), usize, symbol::Ident, Span, ); pub(crate) fn rewrite_type_alias<'a, 'b>( ty_alias_kind: &ast::TyAlias, context: &RewriteContext<'a>, indent: Indent, visitor_kind: &ItemVisitorKind<'b>, span: Span, ) -> Option { use ItemVisitorKind::*; let ast::TyAlias { defaultness, ref generics, ref bounds, ref ty, where_clauses, where_predicates_split, } = *ty_alias_kind; let ty_opt = ty.as_ref(); let (ident, vis) = match visitor_kind { Item(i) => (i.ident, &i.vis), AssocTraitItem(i) | AssocImplItem(i) => (i.ident, &i.vis), ForeignItem(i) => (i.ident, &i.vis), }; let rw_info = &TyAliasRewriteInfo( context, indent, generics, where_clauses, where_predicates_split, ident, span, ); let op_ty = opaque_ty(ty); // Type Aliases are formatted slightly differently depending on the context // in which they appear, whether they are opaque, and whether they are associated. // https://rustc-dev-guide.rust-lang.org/opaque-types-type-alias-impl-trait.html // https://github.com/rust-dev-tools/fmt-rfcs/blob/master/guide/items.md#type-aliases match (visitor_kind, &op_ty) { (Item(_) | AssocTraitItem(_) | ForeignItem(_), Some(op_bounds)) => { let op = OpaqueType { bounds: op_bounds }; rewrite_ty(rw_info, Some(bounds), Some(&op), vis) } (Item(_) | AssocTraitItem(_) | ForeignItem(_), None) => { rewrite_ty(rw_info, Some(bounds), ty_opt, vis) } (AssocImplItem(_), _) => { let result = if let Some(op_bounds) = op_ty { let op = OpaqueType { bounds: op_bounds }; rewrite_ty(rw_info, Some(bounds), Some(&op), &DEFAULT_VISIBILITY) } else { rewrite_ty(rw_info, Some(bounds), ty_opt, vis) }?; match defaultness { ast::Defaultness::Default(..) => Some(format!("default {}", result)), _ => Some(result), } } } } fn rewrite_ty( rw_info: &TyAliasRewriteInfo<'_, '_>, generic_bounds_opt: Option<&ast::GenericBounds>, rhs: Option<&R>, vis: &ast::Visibility, ) -> Option { let mut result = String::with_capacity(128); let TyAliasRewriteInfo( context, indent, generics, where_clauses, where_predicates_split, ident, span, ) = *rw_info; let (before_where_predicates, after_where_predicates) = generics .where_clause .predicates .split_at(where_predicates_split); if !after_where_predicates.is_empty() { return None; } result.push_str(&format!("{}type ", format_visibility(context, vis))); let ident_str = rewrite_ident(context, ident); if generics.params.is_empty() { result.push_str(ident_str) } else { // 2 = `= ` let g_shape = Shape::indented(indent, context.config) .offset_left(result.len())? .sub_width(2)?; let generics_str = rewrite_generics(context, ident_str, generics, g_shape)?; result.push_str(&generics_str); } if let Some(bounds) = generic_bounds_opt { if !bounds.is_empty() { // 2 = `: ` let shape = Shape::indented(indent, context.config).offset_left(result.len() + 2)?; let type_bounds = bounds.rewrite(context, shape).map(|s| format!(": {}", s))?; result.push_str(&type_bounds); } } let where_budget = context.budget(last_line_width(&result)); let mut option = WhereClauseOption::snuggled(&result); if rhs.is_none() { option.suppress_comma(); } let where_clause_str = rewrite_where_clause( context, before_where_predicates, where_clauses.0.1, context.config.brace_style(), Shape::legacy(where_budget, indent), false, "=", None, generics.span.hi(), option, )?; result.push_str(&where_clause_str); if let Some(ty) = rhs { // If there's a where clause, add a newline before the assignment. Otherwise just add a // space. let has_where = !before_where_predicates.is_empty(); if has_where { result.push_str(&indent.to_string_with_newline(context.config)); } else { result.push(' '); } let comment_span = context .snippet_provider .opt_span_before(span, "=") .map(|op_lo| mk_sp(where_clauses.0.1.hi(), op_lo)); let lhs = match comment_span { Some(comment_span) if contains_comment(context.snippet_provider.span_to_snippet(comment_span)?) => { let comment_shape = if has_where { Shape::indented(indent, context.config) } else { Shape::indented(indent, context.config) .block_left(context.config.tab_spaces())? }; combine_strs_with_missing_comments( context, result.trim_end(), "=", comment_span, comment_shape, true, )? } _ => format!("{}=", result), }; // 1 = `;` let shape = Shape::indented(indent, context.config).sub_width(1)?; rewrite_assign_rhs(context, lhs, &*ty, &RhsAssignKind::Ty, shape).map(|s| s + ";") } else { Some(format!("{};", result)) } } fn type_annotation_spacing(config: &Config) -> (&str, &str) { ( if config.space_before_colon() { " " } else { "" }, if config.space_after_colon() { " " } else { "" }, ) } pub(crate) fn rewrite_struct_field_prefix( context: &RewriteContext<'_>, field: &ast::FieldDef, ) -> Option { let vis = format_visibility(context, &field.vis); let type_annotation_spacing = type_annotation_spacing(context.config); Some(match field.ident { Some(name) => format!( "{}{}{}:", vis, rewrite_ident(context, name), type_annotation_spacing.0 ), None => vis.to_string(), }) } impl Rewrite for ast::FieldDef { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { rewrite_struct_field(context, self, shape, 0) } } pub(crate) fn rewrite_struct_field( context: &RewriteContext<'_>, field: &ast::FieldDef, shape: Shape, lhs_max_width: usize, ) -> Option { if contains_skip(&field.attrs) { return Some(context.snippet(field.span()).to_owned()); } let type_annotation_spacing = type_annotation_spacing(context.config); let prefix = rewrite_struct_field_prefix(context, field)?; let attrs_str = field.attrs.rewrite(context, shape)?; let attrs_extendable = field.ident.is_none() && is_attributes_extendable(&attrs_str); let missing_span = if field.attrs.is_empty() { mk_sp(field.span.lo(), field.span.lo()) } else { mk_sp(field.attrs.last().unwrap().span.hi(), field.span.lo()) }; let mut spacing = String::from(if field.ident.is_some() { type_annotation_spacing.1 } else { "" }); // Try to put everything on a single line. let attr_prefix = combine_strs_with_missing_comments( context, &attrs_str, &prefix, missing_span, shape, attrs_extendable, )?; let overhead = trimmed_last_line_width(&attr_prefix); let lhs_offset = lhs_max_width.saturating_sub(overhead); for _ in 0..lhs_offset { spacing.push(' '); } // In this extreme case we will be missing a space between an attribute and a field. if prefix.is_empty() && !attrs_str.is_empty() && attrs_extendable && spacing.is_empty() { spacing.push(' '); } let orig_ty = shape .offset_left(overhead + spacing.len()) .and_then(|ty_shape| field.ty.rewrite(context, ty_shape)); if let Some(ref ty) = orig_ty { if !ty.contains('\n') && !contains_comment(context.snippet(missing_span)) { return Some(attr_prefix + &spacing + ty); } } let is_prefix_empty = prefix.is_empty(); // We must use multiline. We are going to put attributes and a field on different lines. let field_str = rewrite_assign_rhs(context, prefix, &*field.ty, &RhsAssignKind::Ty, shape)?; // Remove a leading white-space from `rewrite_assign_rhs()` when rewriting a tuple struct. let field_str = if is_prefix_empty { field_str.trim_start() } else { &field_str }; combine_strs_with_missing_comments(context, &attrs_str, field_str, missing_span, shape, false) } pub(crate) struct StaticParts<'a> { prefix: &'a str, vis: &'a ast::Visibility, ident: symbol::Ident, ty: &'a ast::Ty, mutability: ast::Mutability, expr_opt: Option<&'a ptr::P>, defaultness: Option, span: Span, } impl<'a> StaticParts<'a> { pub(crate) fn from_item(item: &'a ast::Item) -> Self { let (defaultness, prefix, ty, mutability, expr) = match item.kind { ast::ItemKind::Static(ref ty, mutability, ref expr) => { (None, "static", ty, mutability, expr) } ast::ItemKind::Const(defaultness, ref ty, ref expr) => { (Some(defaultness), "const", ty, ast::Mutability::Not, expr) } _ => unreachable!(), }; StaticParts { prefix, vis: &item.vis, ident: item.ident, ty, mutability, expr_opt: expr.as_ref(), defaultness, span: item.span, } } pub(crate) fn from_trait_item(ti: &'a ast::AssocItem) -> Self { let (defaultness, ty, expr_opt) = match ti.kind { ast::AssocItemKind::Const(defaultness, ref ty, ref expr_opt) => { (defaultness, ty, expr_opt) } _ => unreachable!(), }; StaticParts { prefix: "const", vis: &ti.vis, ident: ti.ident, ty, mutability: ast::Mutability::Not, expr_opt: expr_opt.as_ref(), defaultness: Some(defaultness), span: ti.span, } } pub(crate) fn from_impl_item(ii: &'a ast::AssocItem) -> Self { let (defaultness, ty, expr) = match ii.kind { ast::AssocItemKind::Const(defaultness, ref ty, ref expr) => (defaultness, ty, expr), _ => unreachable!(), }; StaticParts { prefix: "const", vis: &ii.vis, ident: ii.ident, ty, mutability: ast::Mutability::Not, expr_opt: expr.as_ref(), defaultness: Some(defaultness), span: ii.span, } } } fn rewrite_static( context: &RewriteContext<'_>, static_parts: &StaticParts<'_>, offset: Indent, ) -> Option { let colon = colon_spaces(context.config); let mut prefix = format!( "{}{}{} {}{}{}", format_visibility(context, static_parts.vis), static_parts.defaultness.map_or("", format_defaultness), static_parts.prefix, format_mutability(static_parts.mutability), rewrite_ident(context, static_parts.ident), colon, ); // 2 = " =".len() let ty_shape = Shape::indented(offset.block_only(), context.config).offset_left(prefix.len() + 2)?; let ty_str = match static_parts.ty.rewrite(context, ty_shape) { Some(ty_str) => ty_str, None => { if prefix.ends_with(' ') { prefix.pop(); } let nested_indent = offset.block_indent(context.config); let nested_shape = Shape::indented(nested_indent, context.config); let ty_str = static_parts.ty.rewrite(context, nested_shape)?; format!( "{}{}", nested_indent.to_string_with_newline(context.config), ty_str ) } }; if let Some(expr) = static_parts.expr_opt { let comments_lo = context.snippet_provider.span_after(static_parts.span, "="); let expr_lo = expr.span.lo(); let comments_span = mk_sp(comments_lo, expr_lo); let lhs = format!("{}{} =", prefix, ty_str); // 1 = ; let remaining_width = context.budget(offset.block_indent + 1); rewrite_assign_rhs_with_comments( context, &lhs, &**expr, Shape::legacy(remaining_width, offset.block_only()), &RhsAssignKind::Expr(&expr.kind, expr.span), RhsTactics::Default, comments_span, true, ) .and_then(|res| recover_comment_removed(res, static_parts.span, context)) .map(|s| if s.ends_with(';') { s } else { s + ";" }) } else { Some(format!("{}{};", prefix, ty_str)) } } // FIXME(calebcartwright) - This is a hack around a bug in the handling of TyKind::ImplTrait. // This should be removed once that bug is resolved, with the type alias formatting using the // defined Ty for the RHS directly. // https://github.com/rust-lang/rustfmt/issues/4373 // https://github.com/rust-lang/rustfmt/issues/5027 struct OpaqueType<'a> { bounds: &'a ast::GenericBounds, } impl<'a> Rewrite for OpaqueType<'a> { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { let shape = shape.offset_left(5)?; // `impl ` self.bounds .rewrite(context, shape) .map(|s| format!("impl {}", s)) } } impl Rewrite for ast::FnRetTy { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match *self { ast::FnRetTy::Default(_) => Some(String::new()), ast::FnRetTy::Ty(ref ty) => { if context.config.version() == Version::One || context.config.indent_style() == IndentStyle::Visual { let inner_width = shape.width.checked_sub(3)?; return ty .rewrite(context, Shape::legacy(inner_width, shape.indent + 3)) .map(|r| format!("-> {}", r)); } ty.rewrite(context, shape.offset_left(3)?) .map(|s| format!("-> {}", s)) } } } } fn is_empty_infer(ty: &ast::Ty, pat_span: Span) -> bool { match ty.kind { ast::TyKind::Infer => ty.span.hi() == pat_span.hi(), _ => false, } } /// Recover any missing comments between the param and the type. /// /// # Returns /// /// A 2-len tuple with the comment before the colon in first position, and the comment after the /// colon in second position. fn get_missing_param_comments( context: &RewriteContext<'_>, pat_span: Span, ty_span: Span, shape: Shape, ) -> (String, String) { let missing_comment_span = mk_sp(pat_span.hi(), ty_span.lo()); let span_before_colon = { let missing_comment_span_hi = context .snippet_provider .span_before(missing_comment_span, ":"); mk_sp(pat_span.hi(), missing_comment_span_hi) }; let span_after_colon = { let missing_comment_span_lo = context .snippet_provider .span_after(missing_comment_span, ":"); mk_sp(missing_comment_span_lo, ty_span.lo()) }; let comment_before_colon = rewrite_missing_comment(span_before_colon, shape, context) .filter(|comment| !comment.is_empty()) .map_or(String::new(), |comment| format!(" {}", comment)); let comment_after_colon = rewrite_missing_comment(span_after_colon, shape, context) .filter(|comment| !comment.is_empty()) .map_or(String::new(), |comment| format!("{} ", comment)); (comment_before_colon, comment_after_colon) } impl Rewrite for ast::Param { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { let param_attrs_result = self .attrs .rewrite(context, Shape::legacy(shape.width, shape.indent))?; // N.B. Doc comments aren't typically valid syntax, but could appear // in the presence of certain macros - https://github.com/rust-lang/rustfmt/issues/4936 let (span, has_multiple_attr_lines, has_doc_comments) = if !self.attrs.is_empty() { let num_attrs = self.attrs.len(); ( mk_sp(self.attrs[num_attrs - 1].span.hi(), self.pat.span.lo()), param_attrs_result.contains('\n'), self.attrs.iter().any(|a| a.is_doc_comment()), ) } else { (mk_sp(self.span.lo(), self.span.lo()), false, false) }; if let Some(ref explicit_self) = self.to_self() { rewrite_explicit_self( context, explicit_self, ¶m_attrs_result, span, shape, has_multiple_attr_lines, ) } else if is_named_param(self) { let param_name = &self .pat .rewrite(context, Shape::legacy(shape.width, shape.indent))?; let mut result = combine_strs_with_missing_comments( context, ¶m_attrs_result, param_name, span, shape, !has_multiple_attr_lines && !has_doc_comments, )?; if !is_empty_infer(&*self.ty, self.pat.span) { let (before_comment, after_comment) = get_missing_param_comments(context, self.pat.span, self.ty.span, shape); result.push_str(&before_comment); result.push_str(colon_spaces(context.config)); result.push_str(&after_comment); let overhead = last_line_width(&result); let max_width = shape.width.checked_sub(overhead)?; if let Some(ty_str) = self .ty .rewrite(context, Shape::legacy(max_width, shape.indent)) { result.push_str(&ty_str); } else { let prev_str = if param_attrs_result.is_empty() { param_attrs_result } else { param_attrs_result + &shape.to_string_with_newline(context.config) }; result = combine_strs_with_missing_comments( context, &prev_str, param_name, span, shape, !has_multiple_attr_lines, )?; result.push_str(&before_comment); result.push_str(colon_spaces(context.config)); result.push_str(&after_comment); let overhead = last_line_width(&result); let max_width = shape.width.checked_sub(overhead)?; let ty_str = self .ty .rewrite(context, Shape::legacy(max_width, shape.indent))?; result.push_str(&ty_str); } } Some(result) } else { self.ty.rewrite(context, shape) } } } fn rewrite_explicit_self( context: &RewriteContext<'_>, explicit_self: &ast::ExplicitSelf, param_attrs: &str, span: Span, shape: Shape, has_multiple_attr_lines: bool, ) -> Option { match explicit_self.node { ast::SelfKind::Region(lt, m) => { let mut_str = format_mutability(m); match lt { Some(ref l) => { let lifetime_str = l.rewrite( context, Shape::legacy(context.config.max_width(), Indent::empty()), )?; Some(combine_strs_with_missing_comments( context, param_attrs, &format!("&{} {}self", lifetime_str, mut_str), span, shape, !has_multiple_attr_lines, )?) } None => Some(combine_strs_with_missing_comments( context, param_attrs, &format!("&{}self", mut_str), span, shape, !has_multiple_attr_lines, )?), } } ast::SelfKind::Explicit(ref ty, mutability) => { let type_str = ty.rewrite( context, Shape::legacy(context.config.max_width(), Indent::empty()), )?; Some(combine_strs_with_missing_comments( context, param_attrs, &format!("{}self: {}", format_mutability(mutability), type_str), span, shape, !has_multiple_attr_lines, )?) } ast::SelfKind::Value(mutability) => Some(combine_strs_with_missing_comments( context, param_attrs, &format!("{}self", format_mutability(mutability)), span, shape, !has_multiple_attr_lines, )?), } } pub(crate) fn span_lo_for_param(param: &ast::Param) -> BytePos { if param.attrs.is_empty() { if is_named_param(param) { param.pat.span.lo() } else { param.ty.span.lo() } } else { param.attrs[0].span.lo() } } pub(crate) fn span_hi_for_param(context: &RewriteContext<'_>, param: &ast::Param) -> BytePos { match param.ty.kind { ast::TyKind::Infer if context.snippet(param.ty.span) == "_" => param.ty.span.hi(), ast::TyKind::Infer if is_named_param(param) => param.pat.span.hi(), _ => param.ty.span.hi(), } } pub(crate) fn is_named_param(param: &ast::Param) -> bool { if let ast::PatKind::Ident(_, ident, _) = param.pat.kind { ident.name != symbol::kw::Empty } else { true } } #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub(crate) enum FnBraceStyle { SameLine, NextLine, None, } // Return type is (result, force_new_line_for_brace) fn rewrite_fn_base( context: &RewriteContext<'_>, indent: Indent, ident: symbol::Ident, fn_sig: &FnSig<'_>, span: Span, fn_brace_style: FnBraceStyle, ) -> Option<(String, bool, bool)> { let mut force_new_line_for_brace = false; let where_clause = &fn_sig.generics.where_clause; let mut result = String::with_capacity(1024); result.push_str(&fn_sig.to_str(context)); // fn foo result.push_str("fn "); // Generics. let overhead = if let FnBraceStyle::SameLine = fn_brace_style { // 4 = `() {` 4 } else { // 2 = `()` 2 }; let used_width = last_line_used_width(&result, indent.width()); let one_line_budget = context.budget(used_width + overhead); let shape = Shape { width: one_line_budget, indent, offset: used_width, }; let fd = fn_sig.decl; let generics_str = rewrite_generics( context, rewrite_ident(context, ident), &fn_sig.generics, shape, )?; result.push_str(&generics_str); let snuggle_angle_bracket = generics_str .lines() .last() .map_or(false, |l| l.trim_start().len() == 1); // Note that the width and indent don't really matter, we'll re-layout the // return type later anyway. let ret_str = fd .output .rewrite(context, Shape::indented(indent, context.config))?; let multi_line_ret_str = ret_str.contains('\n'); let ret_str_len = if multi_line_ret_str { 0 } else { ret_str.len() }; // Params. let (one_line_budget, multi_line_budget, mut param_indent) = compute_budgets_for_params( context, &result, indent, ret_str_len, fn_brace_style, multi_line_ret_str, )?; debug!( "rewrite_fn_base: one_line_budget: {}, multi_line_budget: {}, param_indent: {:?}", one_line_budget, multi_line_budget, param_indent ); result.push('('); // Check if vertical layout was forced. if one_line_budget == 0 && !snuggle_angle_bracket && context.config.indent_style() == IndentStyle::Visual { result.push_str(¶m_indent.to_string_with_newline(context.config)); } let params_end = if fd.inputs.is_empty() { context .snippet_provider .span_after(mk_sp(fn_sig.generics.span.hi(), span.hi()), ")") } else { let last_span = mk_sp(fd.inputs[fd.inputs.len() - 1].span().hi(), span.hi()); context.snippet_provider.span_after(last_span, ")") }; let params_span = mk_sp( context .snippet_provider .span_after(mk_sp(fn_sig.generics.span.hi(), span.hi()), "("), params_end, ); let param_str = rewrite_params( context, &fd.inputs, one_line_budget, multi_line_budget, indent, param_indent, params_span, fd.c_variadic(), )?; let put_params_in_block = match context.config.indent_style() { IndentStyle::Block => param_str.contains('\n') || param_str.len() > one_line_budget, _ => false, } && !fd.inputs.is_empty(); let mut params_last_line_contains_comment = false; let mut no_params_and_over_max_width = false; if put_params_in_block { param_indent = indent.block_indent(context.config); result.push_str(¶m_indent.to_string_with_newline(context.config)); result.push_str(¶m_str); result.push_str(&indent.to_string_with_newline(context.config)); result.push(')'); } else { result.push_str(¶m_str); let used_width = last_line_used_width(&result, indent.width()) + first_line_width(&ret_str); // Put the closing brace on the next line if it overflows the max width. // 1 = `)` let closing_paren_overflow_max_width = fd.inputs.is_empty() && used_width + 1 > context.config.max_width(); // If the last line of params contains comment, we cannot put the closing paren // on the same line. params_last_line_contains_comment = param_str .lines() .last() .map_or(false, |last_line| last_line.contains("//")); if context.config.version() == Version::Two { if closing_paren_overflow_max_width { result.push(')'); result.push_str(&indent.to_string_with_newline(context.config)); no_params_and_over_max_width = true; } else if params_last_line_contains_comment { result.push_str(&indent.to_string_with_newline(context.config)); result.push(')'); no_params_and_over_max_width = true; } else { result.push(')'); } } else { if closing_paren_overflow_max_width || params_last_line_contains_comment { result.push_str(&indent.to_string_with_newline(context.config)); } result.push(')'); } } // Return type. if let ast::FnRetTy::Ty(..) = fd.output { let ret_should_indent = match context.config.indent_style() { // If our params are block layout then we surely must have space. IndentStyle::Block if put_params_in_block || fd.inputs.is_empty() => false, _ if params_last_line_contains_comment => false, _ if result.contains('\n') || multi_line_ret_str => true, _ => { // If the return type would push over the max width, then put the return type on // a new line. With the +1 for the signature length an additional space between // the closing parenthesis of the param and the arrow '->' is considered. let mut sig_length = result.len() + indent.width() + ret_str_len + 1; // If there is no where-clause, take into account the space after the return type // and the brace. if where_clause.predicates.is_empty() { sig_length += 2; } sig_length > context.config.max_width() } }; let ret_shape = if ret_should_indent { if context.config.version() == Version::One || context.config.indent_style() == IndentStyle::Visual { let indent = if param_str.is_empty() { // Aligning with non-existent params looks silly. force_new_line_for_brace = true; indent + 4 } else { // FIXME: we might want to check that using the param indent // doesn't blow our budget, and if it does, then fallback to // the where-clause indent. param_indent }; result.push_str(&indent.to_string_with_newline(context.config)); Shape::indented(indent, context.config) } else { let mut ret_shape = Shape::indented(indent, context.config); if param_str.is_empty() { // Aligning with non-existent params looks silly. force_new_line_for_brace = true; ret_shape = if context.use_block_indent() { ret_shape.offset_left(4).unwrap_or(ret_shape) } else { ret_shape.indent = ret_shape.indent + 4; ret_shape }; } result.push_str(&ret_shape.indent.to_string_with_newline(context.config)); ret_shape } } else { if context.config.version() == Version::Two { if !param_str.is_empty() || !no_params_and_over_max_width { result.push(' '); } } else { result.push(' '); } let ret_shape = Shape::indented(indent, context.config); ret_shape .offset_left(last_line_width(&result)) .unwrap_or(ret_shape) }; if multi_line_ret_str || ret_should_indent { // Now that we know the proper indent and width, we need to // re-layout the return type. let ret_str = fd.output.rewrite(context, ret_shape)?; result.push_str(&ret_str); } else { result.push_str(&ret_str); } // Comment between return type and the end of the decl. let snippet_lo = fd.output.span().hi(); if where_clause.predicates.is_empty() { let snippet_hi = span.hi(); let snippet = context.snippet(mk_sp(snippet_lo, snippet_hi)); // Try to preserve the layout of the original snippet. let original_starts_with_newline = snippet .find(|c| c != ' ') .map_or(false, |i| starts_with_newline(&snippet[i..])); let original_ends_with_newline = snippet .rfind(|c| c != ' ') .map_or(false, |i| snippet[i..].ends_with('\n')); let snippet = snippet.trim(); if !snippet.is_empty() { result.push(if original_starts_with_newline { '\n' } else { ' ' }); result.push_str(snippet); if original_ends_with_newline { force_new_line_for_brace = true; } } } } let pos_before_where = match fd.output { ast::FnRetTy::Default(..) => params_span.hi(), ast::FnRetTy::Ty(ref ty) => ty.span.hi(), }; let is_params_multi_lined = param_str.contains('\n'); let space = if put_params_in_block && ret_str.is_empty() { WhereClauseSpace::Space } else { WhereClauseSpace::Newline }; let mut option = WhereClauseOption::new(fn_brace_style == FnBraceStyle::None, space); if is_params_multi_lined { option.veto_single_line(); } let where_clause_str = rewrite_where_clause( context, &where_clause.predicates, where_clause.span, context.config.brace_style(), Shape::indented(indent, context.config), true, "{", Some(span.hi()), pos_before_where, option, )?; // If there are neither where-clause nor return type, we may be missing comments between // params and `{`. if where_clause_str.is_empty() { if let ast::FnRetTy::Default(ret_span) = fd.output { match recover_missing_comment_in_span( mk_sp(params_span.hi(), ret_span.hi()), shape, context, last_line_width(&result), ) { Some(ref missing_comment) if !missing_comment.is_empty() => { result.push_str(missing_comment); force_new_line_for_brace = true; } _ => (), } } } result.push_str(&where_clause_str); let ends_with_comment = last_line_contains_single_line_comment(&result); force_new_line_for_brace |= ends_with_comment; force_new_line_for_brace |= is_params_multi_lined && context.config.where_single_line() && !where_clause_str.is_empty(); Some((result, ends_with_comment, force_new_line_for_brace)) } /// Kind of spaces to put before `where`. #[derive(Copy, Clone)] enum WhereClauseSpace { /// A single space. Space, /// A new line. Newline, /// Nothing. None, } #[derive(Copy, Clone)] struct WhereClauseOption { suppress_comma: bool, // Force no trailing comma snuggle: WhereClauseSpace, allow_single_line: bool, // Try single line where-clause instead of vertical layout veto_single_line: bool, // Disallow a single-line where-clause. } impl WhereClauseOption { fn new(suppress_comma: bool, snuggle: WhereClauseSpace) -> WhereClauseOption { WhereClauseOption { suppress_comma, snuggle, allow_single_line: false, veto_single_line: false, } } fn snuggled(current: &str) -> WhereClauseOption { WhereClauseOption { suppress_comma: false, snuggle: if last_line_width(current) == 1 { WhereClauseSpace::Space } else { WhereClauseSpace::Newline }, allow_single_line: false, veto_single_line: false, } } fn suppress_comma(&mut self) { self.suppress_comma = true } fn allow_single_line(&mut self) { self.allow_single_line = true } fn snuggle(&mut self) { self.snuggle = WhereClauseSpace::Space } fn veto_single_line(&mut self) { self.veto_single_line = true; } } fn rewrite_params( context: &RewriteContext<'_>, params: &[ast::Param], one_line_budget: usize, multi_line_budget: usize, indent: Indent, param_indent: Indent, span: Span, variadic: bool, ) -> Option { if params.is_empty() { let comment = context .snippet(mk_sp( span.lo(), // to remove ')' span.hi() - BytePos(1), )) .trim(); return Some(comment.to_owned()); } let param_items: Vec<_> = itemize_list( context.snippet_provider, params.iter(), ")", ",", |param| span_lo_for_param(param), |param| param.ty.span.hi(), |param| { param .rewrite(context, Shape::legacy(multi_line_budget, param_indent)) .or_else(|| Some(context.snippet(param.span()).to_owned())) }, span.lo(), span.hi(), false, ) .collect(); let tactic = definitive_tactic( ¶m_items, context .config .fn_args_layout() .to_list_tactic(param_items.len()), Separator::Comma, one_line_budget, ); let budget = match tactic { DefinitiveListTactic::Horizontal => one_line_budget, _ => multi_line_budget, }; let indent = match context.config.indent_style() { IndentStyle::Block => indent.block_indent(context.config), IndentStyle::Visual => param_indent, }; let trailing_separator = if variadic { SeparatorTactic::Never } else { match context.config.indent_style() { IndentStyle::Block => context.config.trailing_comma(), IndentStyle::Visual => SeparatorTactic::Never, } }; let fmt = ListFormatting::new(Shape::legacy(budget, indent), context.config) .tactic(tactic) .trailing_separator(trailing_separator) .ends_with_newline(tactic.ends_with_newline(context.config.indent_style())) .preserve_newline(true); write_list(¶m_items, &fmt) } fn compute_budgets_for_params( context: &RewriteContext<'_>, result: &str, indent: Indent, ret_str_len: usize, fn_brace_style: FnBraceStyle, force_vertical_layout: bool, ) -> Option<(usize, usize, Indent)> { debug!( "compute_budgets_for_params {} {:?}, {}, {:?}", result.len(), indent, ret_str_len, fn_brace_style, ); // Try keeping everything on the same line. if !result.contains('\n') && !force_vertical_layout { // 2 = `()`, 3 = `() `, space is before ret_string. let overhead = if ret_str_len == 0 { 2 } else { 3 }; let mut used_space = indent.width() + result.len() + ret_str_len + overhead; match fn_brace_style { FnBraceStyle::None => used_space += 1, // 1 = `;` FnBraceStyle::SameLine => used_space += 2, // 2 = `{}` FnBraceStyle::NextLine => (), } let one_line_budget = context.budget(used_space); if one_line_budget > 0 { // 4 = "() {".len() let (indent, multi_line_budget) = match context.config.indent_style() { IndentStyle::Block => { let indent = indent.block_indent(context.config); (indent, context.budget(indent.width() + 1)) } IndentStyle::Visual => { let indent = indent + result.len() + 1; let multi_line_overhead = match fn_brace_style { FnBraceStyle::SameLine => 4, _ => 2, } + indent.width(); (indent, context.budget(multi_line_overhead)) } }; return Some((one_line_budget, multi_line_budget, indent)); } } // Didn't work. we must force vertical layout and put params on a newline. let new_indent = indent.block_indent(context.config); let used_space = match context.config.indent_style() { // 1 = `,` IndentStyle::Block => new_indent.width() + 1, // Account for `)` and possibly ` {`. IndentStyle::Visual => new_indent.width() + if ret_str_len == 0 { 1 } else { 3 }, }; Some((0, context.budget(used_space), new_indent)) } fn newline_for_brace(config: &Config, where_clause: &ast::WhereClause) -> FnBraceStyle { let predicate_count = where_clause.predicates.len(); if config.where_single_line() && predicate_count == 1 { return FnBraceStyle::SameLine; } let brace_style = config.brace_style(); let use_next_line = brace_style == BraceStyle::AlwaysNextLine || (brace_style == BraceStyle::SameLineWhere && predicate_count > 0); if use_next_line { FnBraceStyle::NextLine } else { FnBraceStyle::SameLine } } fn rewrite_generics( context: &RewriteContext<'_>, ident: &str, generics: &ast::Generics, shape: Shape, ) -> Option { // FIXME: convert bounds to where-clauses where they get too big or if // there is a where-clause at all. if generics.params.is_empty() { return Some(ident.to_owned()); } let params = generics.params.iter(); overflow::rewrite_with_angle_brackets(context, ident, params, shape, generics.span) } fn generics_shape_from_config(config: &Config, shape: Shape, offset: usize) -> Option { match config.indent_style() { IndentStyle::Visual => shape.visual_indent(1 + offset).sub_width(offset + 2), IndentStyle::Block => { // 1 = "," shape .block() .block_indent(config.tab_spaces()) .with_max_width(config) .sub_width(1) } } } fn rewrite_where_clause_rfc_style( context: &RewriteContext<'_>, predicates: &[ast::WherePredicate], where_span: Span, shape: Shape, terminator: &str, span_end: Option, span_end_before_where: BytePos, where_clause_option: WhereClauseOption, ) -> Option { let (where_keyword, allow_single_line) = rewrite_where_keyword( context, predicates, where_span, shape, span_end_before_where, where_clause_option, )?; // 1 = `,` let clause_shape = shape .block() .with_max_width(context.config) .block_left(context.config.tab_spaces())? .sub_width(1)?; let force_single_line = context.config.where_single_line() && predicates.len() == 1 && !where_clause_option.veto_single_line; let preds_str = rewrite_bounds_on_where_clause( context, predicates, clause_shape, terminator, span_end, where_clause_option, force_single_line, )?; // 6 = `where ` let clause_sep = if allow_single_line && !preds_str.contains('\n') && 6 + preds_str.len() <= shape.width || force_single_line { Cow::from(" ") } else { clause_shape.indent.to_string_with_newline(context.config) }; Some(format!("{}{}{}", where_keyword, clause_sep, preds_str)) } /// Rewrite `where` and comment around it. fn rewrite_where_keyword( context: &RewriteContext<'_>, predicates: &[ast::WherePredicate], where_span: Span, shape: Shape, span_end_before_where: BytePos, where_clause_option: WhereClauseOption, ) -> Option<(String, bool)> { let block_shape = shape.block().with_max_width(context.config); // 1 = `,` let clause_shape = block_shape .block_left(context.config.tab_spaces())? .sub_width(1)?; let comment_separator = |comment: &str, shape: Shape| { if comment.is_empty() { Cow::from("") } else { shape.indent.to_string_with_newline(context.config) } }; let (span_before, span_after) = missing_span_before_after_where(span_end_before_where, predicates, where_span); let (comment_before, comment_after) = rewrite_comments_before_after_where(context, span_before, span_after, shape)?; let starting_newline = match where_clause_option.snuggle { WhereClauseSpace::Space if comment_before.is_empty() => Cow::from(" "), WhereClauseSpace::None => Cow::from(""), _ => block_shape.indent.to_string_with_newline(context.config), }; let newline_before_where = comment_separator(&comment_before, shape); let newline_after_where = comment_separator(&comment_after, clause_shape); let result = format!( "{}{}{}where{}{}", starting_newline, comment_before, newline_before_where, newline_after_where, comment_after ); let allow_single_line = where_clause_option.allow_single_line && comment_before.is_empty() && comment_after.is_empty(); Some((result, allow_single_line)) } /// Rewrite bounds on a where clause. fn rewrite_bounds_on_where_clause( context: &RewriteContext<'_>, predicates: &[ast::WherePredicate], shape: Shape, terminator: &str, span_end: Option, where_clause_option: WhereClauseOption, force_single_line: bool, ) -> Option { let span_start = predicates[0].span().lo(); // If we don't have the start of the next span, then use the end of the // predicates, but that means we miss comments. let len = predicates.len(); let end_of_preds = predicates[len - 1].span().hi(); let span_end = span_end.unwrap_or(end_of_preds); let items = itemize_list( context.snippet_provider, predicates.iter(), terminator, ",", |pred| pred.span().lo(), |pred| pred.span().hi(), |pred| pred.rewrite(context, shape), span_start, span_end, false, ); let comma_tactic = if where_clause_option.suppress_comma || force_single_line { SeparatorTactic::Never } else { context.config.trailing_comma() }; // shape should be vertical only and only if we have `force_single_line` option enabled // and the number of items of the where-clause is equal to 1 let shape_tactic = if force_single_line { DefinitiveListTactic::Horizontal } else { DefinitiveListTactic::Vertical }; let fmt = ListFormatting::new(shape, context.config) .tactic(shape_tactic) .trailing_separator(comma_tactic) .preserve_newline(true); write_list(&items.collect::>(), &fmt) } fn rewrite_where_clause( context: &RewriteContext<'_>, predicates: &[ast::WherePredicate], where_span: Span, brace_style: BraceStyle, shape: Shape, on_new_line: bool, terminator: &str, span_end: Option, span_end_before_where: BytePos, where_clause_option: WhereClauseOption, ) -> Option { if predicates.is_empty() { return Some(String::new()); } if context.config.indent_style() == IndentStyle::Block { return rewrite_where_clause_rfc_style( context, predicates, where_span, shape, terminator, span_end, span_end_before_where, where_clause_option, ); } let extra_indent = Indent::new(context.config.tab_spaces(), 0); let offset = match context.config.indent_style() { IndentStyle::Block => shape.indent + extra_indent.block_indent(context.config), // 6 = "where ".len() IndentStyle::Visual => shape.indent + extra_indent + 6, }; // FIXME: if indent_style != Visual, then the budgets below might // be out by a char or two. let budget = context.config.max_width() - offset.width(); let span_start = predicates[0].span().lo(); // If we don't have the start of the next span, then use the end of the // predicates, but that means we miss comments. let len = predicates.len(); let end_of_preds = predicates[len - 1].span().hi(); let span_end = span_end.unwrap_or(end_of_preds); let items = itemize_list( context.snippet_provider, predicates.iter(), terminator, ",", |pred| pred.span().lo(), |pred| pred.span().hi(), |pred| pred.rewrite(context, Shape::legacy(budget, offset)), span_start, span_end, false, ); let item_vec = items.collect::>(); // FIXME: we don't need to collect here let tactic = definitive_tactic(&item_vec, ListTactic::Vertical, Separator::Comma, budget); let mut comma_tactic = context.config.trailing_comma(); // Kind of a hack because we don't usually have trailing commas in where-clauses. if comma_tactic == SeparatorTactic::Vertical || where_clause_option.suppress_comma { comma_tactic = SeparatorTactic::Never; } let fmt = ListFormatting::new(Shape::legacy(budget, offset), context.config) .tactic(tactic) .trailing_separator(comma_tactic) .ends_with_newline(tactic.ends_with_newline(context.config.indent_style())) .preserve_newline(true); let preds_str = write_list(&item_vec, &fmt)?; let end_length = if terminator == "{" { // If the brace is on the next line we don't need to count it otherwise it needs two // characters " {" match brace_style { BraceStyle::AlwaysNextLine | BraceStyle::SameLineWhere => 0, BraceStyle::PreferSameLine => 2, } } else if terminator == "=" { 2 } else { terminator.len() }; if on_new_line || preds_str.contains('\n') || shape.indent.width() + " where ".len() + preds_str.len() + end_length > shape.width { Some(format!( "\n{}where {}", (shape.indent + extra_indent).to_string(context.config), preds_str )) } else { Some(format!(" where {}", preds_str)) } } fn missing_span_before_after_where( before_item_span_end: BytePos, predicates: &[ast::WherePredicate], where_span: Span, ) -> (Span, Span) { let missing_span_before = mk_sp(before_item_span_end, where_span.lo()); // 5 = `where` let pos_after_where = where_span.lo() + BytePos(5); let missing_span_after = mk_sp(pos_after_where, predicates[0].span().lo()); (missing_span_before, missing_span_after) } fn rewrite_comments_before_after_where( context: &RewriteContext<'_>, span_before_where: Span, span_after_where: Span, shape: Shape, ) -> Option<(String, String)> { let before_comment = rewrite_missing_comment(span_before_where, shape, context)?; let after_comment = rewrite_missing_comment( span_after_where, shape.block_indent(context.config.tab_spaces()), context, )?; Some((before_comment, after_comment)) } fn format_header( context: &RewriteContext<'_>, item_name: &str, ident: symbol::Ident, vis: &ast::Visibility, offset: Indent, ) -> String { let mut result = String::with_capacity(128); let shape = Shape::indented(offset, context.config); result.push_str(format_visibility(context, vis).trim()); // Check for a missing comment between the visibility and the item name. let after_vis = vis.span.hi(); if let Some(before_item_name) = context .snippet_provider .opt_span_before(mk_sp(vis.span.lo(), ident.span.hi()), item_name.trim()) { let missing_span = mk_sp(after_vis, before_item_name); if let Some(result_with_comment) = combine_strs_with_missing_comments( context, &result, item_name, missing_span, shape, /* allow_extend */ true, ) { result = result_with_comment; } } result.push_str(rewrite_ident(context, ident)); result } #[derive(PartialEq, Eq, Clone, Copy)] enum BracePos { None, Auto, ForceSameLine, } fn format_generics( context: &RewriteContext<'_>, generics: &ast::Generics, brace_style: BraceStyle, brace_pos: BracePos, offset: Indent, span: Span, used_width: usize, ) -> Option { let shape = Shape::legacy(context.budget(used_width + offset.width()), offset); let mut result = rewrite_generics(context, "", generics, shape)?; // If the generics are not parameterized then generics.span.hi() == 0, // so we use span.lo(), which is the position after `struct Foo`. let span_end_before_where = if !generics.params.is_empty() { generics.span.hi() } else { span.lo() }; let (same_line_brace, missed_comments) = if !generics.where_clause.predicates.is_empty() { let budget = context.budget(last_line_used_width(&result, offset.width())); let mut option = WhereClauseOption::snuggled(&result); if brace_pos == BracePos::None { option.suppress_comma = true; } let where_clause_str = rewrite_where_clause( context, &generics.where_clause.predicates, generics.where_clause.span, brace_style, Shape::legacy(budget, offset.block_only()), true, "{", Some(span.hi()), span_end_before_where, option, )?; result.push_str(&where_clause_str); ( brace_pos == BracePos::ForceSameLine || brace_style == BraceStyle::PreferSameLine, // missed comments are taken care of in #rewrite_where_clause None, ) } else { ( brace_pos == BracePos::ForceSameLine || (result.contains('\n') && brace_style == BraceStyle::PreferSameLine || brace_style != BraceStyle::AlwaysNextLine) || trimmed_last_line_width(&result) == 1, rewrite_missing_comment( mk_sp( span_end_before_where, if brace_pos == BracePos::None { span.hi() } else { context.snippet_provider.span_before(span, "{") }, ), shape, context, ), ) }; // add missing comments let missed_line_comments = missed_comments .filter(|missed_comments| !missed_comments.is_empty()) .map_or(false, |missed_comments| { let is_block = is_last_comment_block(&missed_comments); let sep = if is_block { " " } else { "\n" }; result.push_str(sep); result.push_str(&missed_comments); !is_block }); if brace_pos == BracePos::None { return Some(result); } let total_used_width = last_line_used_width(&result, used_width); let remaining_budget = context.budget(total_used_width); // If the same line brace if forced, it indicates that we are rewriting an item with empty body, // and hence we take the closer into account as well for one line budget. // We assume that the closer has the same length as the opener. let overhead = if brace_pos == BracePos::ForceSameLine { // 3 = ` {}` 3 } else { // 2 = ` {` 2 }; let forbid_same_line_brace = missed_line_comments || overhead > remaining_budget; if !forbid_same_line_brace && same_line_brace { result.push(' '); } else { result.push('\n'); result.push_str(&offset.block_only().to_string(context.config)); } result.push('{'); Some(result) } impl Rewrite for ast::ForeignItem { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { let attrs_str = self.attrs.rewrite(context, shape)?; // Drop semicolon or it will be interpreted as comment. // FIXME: this may be a faulty span from libsyntax. let span = mk_sp(self.span.lo(), self.span.hi() - BytePos(1)); let item_str = match self.kind { ast::ForeignItemKind::Fn(ref fn_kind) => { let ast::Fn { defaultness, ref sig, ref generics, ref body, } = **fn_kind; if let Some(ref body) = body { let mut visitor = FmtVisitor::from_context(context); visitor.block_indent = shape.indent; visitor.last_pos = self.span.lo(); let inner_attrs = inner_attributes(&self.attrs); let fn_ctxt = visit::FnCtxt::Foreign; visitor.visit_fn( visit::FnKind::Fn( fn_ctxt, self.ident, sig, &self.vis, generics, Some(body), ), &sig.decl, self.span, defaultness, Some(&inner_attrs), ); Some(visitor.buffer.to_owned()) } else { rewrite_fn_base( context, shape.indent, self.ident, &FnSig::from_method_sig(sig, generics, &self.vis), span, FnBraceStyle::None, ) .map(|(s, _, _)| format!("{};", s)) } } ast::ForeignItemKind::Static(ref ty, mutability, _) => { // FIXME(#21): we're dropping potential comments in between the // function kw here. let vis = format_visibility(context, &self.vis); let mut_str = format_mutability(mutability); let prefix = format!( "{}static {}{}:", vis, mut_str, rewrite_ident(context, self.ident) ); // 1 = ; rewrite_assign_rhs( context, prefix, &**ty, &RhsAssignKind::Ty, shape.sub_width(1)?, ) .map(|s| s + ";") } ast::ForeignItemKind::TyAlias(ref ty_alias) => { let (kind, span) = (&ItemVisitorKind::ForeignItem(self), self.span); rewrite_type_alias(ty_alias, context, shape.indent, kind, span) } ast::ForeignItemKind::MacCall(ref mac) => { rewrite_macro(mac, None, context, shape, MacroPosition::Item) } }?; let missing_span = if self.attrs.is_empty() { mk_sp(self.span.lo(), self.span.lo()) } else { mk_sp(self.attrs[self.attrs.len() - 1].span.hi(), self.span.lo()) }; combine_strs_with_missing_comments( context, &attrs_str, &item_str, missing_span, shape, false, ) } } /// Rewrite the attributes of an item. fn rewrite_attrs( context: &RewriteContext<'_>, item: &ast::Item, item_str: &str, shape: Shape, ) -> Option { let attrs = filter_inline_attrs(&item.attrs, item.span()); let attrs_str = attrs.rewrite(context, shape)?; let missed_span = if attrs.is_empty() { mk_sp(item.span.lo(), item.span.lo()) } else { mk_sp(attrs[attrs.len() - 1].span.hi(), item.span.lo()) }; let allow_extend = if attrs.len() == 1 { let line_len = attrs_str.len() + 1 + item_str.len(); !attrs.first().unwrap().is_doc_comment() && context.config.inline_attribute_width() >= line_len } else { false }; combine_strs_with_missing_comments( context, &attrs_str, item_str, missed_span, shape, allow_extend, ) } /// Rewrite an inline mod. /// The given shape is used to format the mod's attributes. pub(crate) fn rewrite_mod( context: &RewriteContext<'_>, item: &ast::Item, attrs_shape: Shape, ) -> Option { let mut result = String::with_capacity(32); result.push_str(&*format_visibility(context, &item.vis)); result.push_str("mod "); result.push_str(rewrite_ident(context, item.ident)); result.push(';'); rewrite_attrs(context, item, &result, attrs_shape) } /// Rewrite `extern crate foo;`. /// The given shape is used to format the extern crate's attributes. pub(crate) fn rewrite_extern_crate( context: &RewriteContext<'_>, item: &ast::Item, attrs_shape: Shape, ) -> Option { assert!(is_extern_crate(item)); let new_str = context.snippet(item.span); let item_str = if contains_comment(new_str) { new_str.to_owned() } else { let no_whitespace = &new_str.split_whitespace().collect::>().join(" "); String::from(&*Regex::new(r"\s;").unwrap().replace(no_whitespace, ";")) }; rewrite_attrs(context, item, &item_str, attrs_shape) } /// Returns `true` for `mod foo;`, false for `mod foo { .. }`. pub(crate) fn is_mod_decl(item: &ast::Item) -> bool { !matches!( item.kind, ast::ItemKind::Mod(_, ast::ModKind::Loaded(_, ast::Inline::Yes, _)) ) } pub(crate) fn is_use_item(item: &ast::Item) -> bool { matches!(item.kind, ast::ItemKind::Use(_)) } pub(crate) fn is_extern_crate(item: &ast::Item) -> bool { matches!(item.kind, ast::ItemKind::ExternCrate(..)) }