use std::iter::ExactSizeIterator; use std::ops::Deref; use rustc_ast::ast::{self, FnRetTy, Mutability, Term}; use rustc_ast::ptr; use rustc_span::{symbol::kw, BytePos, Pos, Span}; use crate::comment::{combine_strs_with_missing_comments, contains_comment}; use crate::config::lists::*; use crate::config::{IndentStyle, TypeDensity, Version}; use crate::expr::{ format_expr, rewrite_assign_rhs, rewrite_call, rewrite_tuple, rewrite_unary_prefix, ExprType, RhsAssignKind, }; use crate::lists::{ definitive_tactic, itemize_list, write_list, ListFormatting, ListItem, Separator, }; use crate::macros::{rewrite_macro, MacroPosition}; use crate::overflow; use crate::pairs::{rewrite_pair, PairParts}; use crate::rewrite::{Rewrite, RewriteContext}; use crate::shape::Shape; use crate::source_map::SpanUtils; use crate::spanned::Spanned; use crate::utils::{ colon_spaces, extra_offset, first_line_width, format_extern, format_mutability, last_line_extendable, last_line_width, mk_sp, rewrite_ident, }; #[derive(Copy, Clone, Debug, Eq, PartialEq)] pub(crate) enum PathContext { Expr, Type, Import, } // Does not wrap on simple segments. pub(crate) fn rewrite_path( context: &RewriteContext<'_>, path_context: PathContext, qself: &Option>, path: &ast::Path, shape: Shape, ) -> Option { let skip_count = qself.as_ref().map_or(0, |x| x.position); let mut result = if path.is_global() && qself.is_none() && path_context != PathContext::Import { "::".to_owned() } else { String::new() }; let mut span_lo = path.span.lo(); if let Some(qself) = qself { result.push('<'); let fmt_ty = qself.ty.rewrite(context, shape)?; result.push_str(&fmt_ty); if skip_count > 0 { result.push_str(" as "); if path.is_global() && path_context != PathContext::Import { result.push_str("::"); } // 3 = ">::".len() let shape = shape.sub_width(3)?; result = rewrite_path_segments( PathContext::Type, result, path.segments.iter().take(skip_count), span_lo, path.span.hi(), context, shape, )?; } result.push_str(">::"); span_lo = qself.ty.span.hi() + BytePos(1); } rewrite_path_segments( path_context, result, path.segments.iter().skip(skip_count), span_lo, path.span.hi(), context, shape, ) } fn rewrite_path_segments<'a, I>( path_context: PathContext, mut buffer: String, iter: I, mut span_lo: BytePos, span_hi: BytePos, context: &RewriteContext<'_>, shape: Shape, ) -> Option where I: Iterator, { let mut first = true; let shape = shape.visual_indent(0); for segment in iter { // Indicates a global path, shouldn't be rendered. if segment.ident.name == kw::PathRoot { continue; } if first { first = false; } else { buffer.push_str("::"); } let extra_offset = extra_offset(&buffer, shape); let new_shape = shape.shrink_left(extra_offset)?; let segment_string = rewrite_segment( path_context, segment, &mut span_lo, span_hi, context, new_shape, )?; buffer.push_str(&segment_string); } Some(buffer) } #[derive(Debug)] pub(crate) enum SegmentParam<'a> { Const(&'a ast::AnonConst), LifeTime(&'a ast::Lifetime), Type(&'a ast::Ty), Binding(&'a ast::AssocConstraint), } impl<'a> SegmentParam<'a> { fn from_generic_arg(arg: &ast::GenericArg) -> SegmentParam<'_> { match arg { ast::GenericArg::Lifetime(ref lt) => SegmentParam::LifeTime(lt), ast::GenericArg::Type(ref ty) => SegmentParam::Type(ty), ast::GenericArg::Const(const_) => SegmentParam::Const(const_), } } } impl<'a> Spanned for SegmentParam<'a> { fn span(&self) -> Span { match *self { SegmentParam::Const(const_) => const_.value.span, SegmentParam::LifeTime(lt) => lt.ident.span, SegmentParam::Type(ty) => ty.span, SegmentParam::Binding(binding) => binding.span, } } } impl<'a> Rewrite for SegmentParam<'a> { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match *self { SegmentParam::Const(const_) => const_.rewrite(context, shape), SegmentParam::LifeTime(lt) => lt.rewrite(context, shape), SegmentParam::Type(ty) => ty.rewrite(context, shape), SegmentParam::Binding(atc) => atc.rewrite(context, shape), } } } impl Rewrite for ast::AssocConstraint { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { use ast::AssocConstraintKind::{Bound, Equality}; let mut result = String::with_capacity(128); result.push_str(rewrite_ident(context, self.ident)); if let Some(ref gen_args) = self.gen_args { let budget = shape.width.checked_sub(result.len())?; let shape = Shape::legacy(budget, shape.indent + result.len()); let gen_str = rewrite_generic_args(gen_args, context, shape, gen_args.span())?; result.push_str(&gen_str); } let infix = match (&self.kind, context.config.type_punctuation_density()) { (Bound { .. }, _) => ": ", (Equality { .. }, TypeDensity::Wide) => " = ", (Equality { .. }, TypeDensity::Compressed) => "=", }; result.push_str(infix); let budget = shape.width.checked_sub(result.len())?; let shape = Shape::legacy(budget, shape.indent + result.len()); let rewrite = self.kind.rewrite(context, shape)?; result.push_str(&rewrite); Some(result) } } impl Rewrite for ast::AssocConstraintKind { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match self { ast::AssocConstraintKind::Equality { term } => match term { Term::Ty(ty) => ty.rewrite(context, shape), Term::Const(c) => c.rewrite(context, shape), }, ast::AssocConstraintKind::Bound { bounds } => bounds.rewrite(context, shape), } } } // Formats a path segment. There are some hacks involved to correctly determine // the segment's associated span since it's not part of the AST. // // The span_lo is assumed to be greater than the end of any previous segment's // parameters and lesser or equal than the start of current segment. // // span_hi is assumed equal to the end of the entire path. // // When the segment contains a positive number of parameters, we update span_lo // so that invariants described above will hold for the next segment. fn rewrite_segment( path_context: PathContext, segment: &ast::PathSegment, span_lo: &mut BytePos, span_hi: BytePos, context: &RewriteContext<'_>, shape: Shape, ) -> Option { let mut result = String::with_capacity(128); result.push_str(rewrite_ident(context, segment.ident)); let ident_len = result.len(); let shape = if context.use_block_indent() { shape.offset_left(ident_len)? } else { shape.shrink_left(ident_len)? }; if let Some(ref args) = segment.args { let generics_str = rewrite_generic_args(args, context, shape, mk_sp(*span_lo, span_hi))?; match **args { ast::GenericArgs::AngleBracketed(ref data) if !data.args.is_empty() => { // HACK: squeeze out the span between the identifier and the parameters. // The hack is required so that we don't remove the separator inside macro calls. // This does not work in the presence of comment, hoping that people are // sane about where to put their comment. let separator_snippet = context .snippet(mk_sp(segment.ident.span.hi(), data.span.lo())) .trim(); let force_separator = context.inside_macro() && separator_snippet.starts_with("::"); let separator = if path_context == PathContext::Expr || force_separator { "::" } else { "" }; result.push_str(separator); // Update position of last bracket. *span_lo = context .snippet_provider .span_after(mk_sp(*span_lo, span_hi), "<"); } _ => (), } result.push_str(&generics_str) } Some(result) } fn format_function_type<'a, I>( inputs: I, output: &FnRetTy, variadic: bool, span: Span, context: &RewriteContext<'_>, shape: Shape, ) -> Option where I: ExactSizeIterator, ::Item: Deref, ::Target: Rewrite + Spanned + 'a, { debug!("format_function_type {:#?}", shape); let ty_shape = match context.config.indent_style() { // 4 = " -> " IndentStyle::Block => shape.offset_left(4)?, IndentStyle::Visual => shape.block_left(4)?, }; let output = match *output { FnRetTy::Ty(ref ty) => { let type_str = ty.rewrite(context, ty_shape)?; format!(" -> {}", type_str) } FnRetTy::Default(..) => String::new(), }; let list_shape = if context.use_block_indent() { Shape::indented( shape.block().indent.block_indent(context.config), context.config, ) } else { // 2 for () let budget = shape.width.checked_sub(2)?; // 1 for ( let offset = shape.indent + 1; Shape::legacy(budget, offset) }; let is_inputs_empty = inputs.len() == 0; let list_lo = context.snippet_provider.span_after(span, "("); let (list_str, tactic) = if is_inputs_empty { let tactic = get_tactics(&[], &output, shape); let list_hi = context.snippet_provider.span_before(span, ")"); let comment = context .snippet_provider .span_to_snippet(mk_sp(list_lo, list_hi))? .trim(); let comment = if comment.starts_with("//") { format!( "{}{}{}", &list_shape.indent.to_string_with_newline(context.config), comment, &shape.block().indent.to_string_with_newline(context.config) ) } else { comment.to_string() }; (comment, tactic) } else { let items = itemize_list( context.snippet_provider, inputs, ")", ",", |arg| arg.span().lo(), |arg| arg.span().hi(), |arg| arg.rewrite(context, list_shape), list_lo, span.hi(), false, ); let item_vec: Vec<_> = items.collect(); let tactic = get_tactics(&item_vec, &output, shape); let trailing_separator = if !context.use_block_indent() || variadic { SeparatorTactic::Never } else { context.config.trailing_comma() }; let fmt = ListFormatting::new(list_shape, context.config) .tactic(tactic) .trailing_separator(trailing_separator) .ends_with_newline(tactic.ends_with_newline(context.config.indent_style())) .preserve_newline(true); (write_list(&item_vec, &fmt)?, tactic) }; let args = if tactic == DefinitiveListTactic::Horizontal || !context.use_block_indent() || is_inputs_empty { format!("({})", list_str) } else { format!( "({}{}{})", list_shape.indent.to_string_with_newline(context.config), list_str, shape.block().indent.to_string_with_newline(context.config), ) }; if output.is_empty() || last_line_width(&args) + first_line_width(&output) <= shape.width { Some(format!("{}{}", args, output)) } else { Some(format!( "{}\n{}{}", args, list_shape.indent.to_string(context.config), output.trim_start() )) } } fn type_bound_colon(context: &RewriteContext<'_>) -> &'static str { colon_spaces(context.config) } // If the return type is multi-lined, then force to use multiple lines for // arguments as well. fn get_tactics(item_vec: &[ListItem], output: &str, shape: Shape) -> DefinitiveListTactic { if output.contains('\n') { DefinitiveListTactic::Vertical } else { definitive_tactic( item_vec, ListTactic::HorizontalVertical, Separator::Comma, // 2 is for the case of ',\n' shape.width.saturating_sub(2 + output.len()), ) } } impl Rewrite for ast::WherePredicate { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { // FIXME: dead spans? let result = match *self { ast::WherePredicate::BoundPredicate(ast::WhereBoundPredicate { ref bound_generic_params, ref bounded_ty, ref bounds, .. }) => { let type_str = bounded_ty.rewrite(context, shape)?; let colon = type_bound_colon(context).trim_end(); let lhs = if let Some(lifetime_str) = rewrite_lifetime_param(context, shape, bound_generic_params) { format!("for<{}> {}{}", lifetime_str, type_str, colon) } else { format!("{}{}", type_str, colon) }; rewrite_assign_rhs(context, lhs, bounds, &RhsAssignKind::Bounds, shape)? } ast::WherePredicate::RegionPredicate(ast::WhereRegionPredicate { ref lifetime, ref bounds, .. }) => rewrite_bounded_lifetime(lifetime, bounds, context, shape)?, ast::WherePredicate::EqPredicate(ast::WhereEqPredicate { ref lhs_ty, ref rhs_ty, .. }) => { let lhs_ty_str = lhs_ty.rewrite(context, shape).map(|lhs| lhs + " =")?; rewrite_assign_rhs(context, lhs_ty_str, &**rhs_ty, &RhsAssignKind::Ty, shape)? } }; Some(result) } } impl Rewrite for ast::GenericArg { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match *self { ast::GenericArg::Lifetime(ref lt) => lt.rewrite(context, shape), ast::GenericArg::Type(ref ty) => ty.rewrite(context, shape), ast::GenericArg::Const(ref const_) => const_.rewrite(context, shape), } } } fn rewrite_generic_args( gen_args: &ast::GenericArgs, context: &RewriteContext<'_>, shape: Shape, span: Span, ) -> Option { match gen_args { ast::GenericArgs::AngleBracketed(ref data) if !data.args.is_empty() => { let args = data .args .iter() .map(|x| match x { ast::AngleBracketedArg::Arg(generic_arg) => { SegmentParam::from_generic_arg(generic_arg) } ast::AngleBracketedArg::Constraint(constraint) => { SegmentParam::Binding(constraint) } }) .collect::>(); overflow::rewrite_with_angle_brackets(context, "", args.iter(), shape, span) } ast::GenericArgs::Parenthesized(ref data) => format_function_type( data.inputs.iter().map(|x| &**x), &data.output, false, data.span, context, shape, ), _ => Some("".to_owned()), } } fn rewrite_bounded_lifetime( lt: &ast::Lifetime, bounds: &[ast::GenericBound], context: &RewriteContext<'_>, shape: Shape, ) -> Option { let result = lt.rewrite(context, shape)?; if bounds.is_empty() { Some(result) } else { let colon = type_bound_colon(context); let overhead = last_line_width(&result) + colon.len(); let result = format!( "{}{}{}", result, colon, join_bounds(context, shape.sub_width(overhead)?, bounds, true)? ); Some(result) } } impl Rewrite for ast::AnonConst { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { format_expr(&self.value, ExprType::SubExpression, context, shape) } } impl Rewrite for ast::Lifetime { fn rewrite(&self, context: &RewriteContext<'_>, _: Shape) -> Option { Some(rewrite_ident(context, self.ident).to_owned()) } } impl Rewrite for ast::GenericBound { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match *self { ast::GenericBound::Trait(ref poly_trait_ref, trait_bound_modifier) => { let snippet = context.snippet(self.span()); let has_paren = snippet.starts_with('(') && snippet.ends_with(')'); let rewrite = match trait_bound_modifier { ast::TraitBoundModifier::None => poly_trait_ref.rewrite(context, shape), ast::TraitBoundModifier::Maybe => poly_trait_ref .rewrite(context, shape.offset_left(1)?) .map(|s| format!("?{}", s)), ast::TraitBoundModifier::MaybeConst => poly_trait_ref .rewrite(context, shape.offset_left(7)?) .map(|s| format!("~const {}", s)), ast::TraitBoundModifier::MaybeConstMaybe => poly_trait_ref .rewrite(context, shape.offset_left(8)?) .map(|s| format!("~const ?{}", s)), }; rewrite.map(|s| if has_paren { format!("({})", s) } else { s }) } ast::GenericBound::Outlives(ref lifetime) => lifetime.rewrite(context, shape), } } } impl Rewrite for ast::GenericBounds { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { if self.is_empty() { return Some(String::new()); } join_bounds(context, shape, self, true) } } impl Rewrite for ast::GenericParam { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { let mut result = String::with_capacity(128); // FIXME: If there are more than one attributes, this will force multiline. match self.attrs.rewrite(context, shape) { Some(ref rw) if !rw.is_empty() => { result.push_str(rw); // When rewriting generic params, an extra newline should be put // if the attributes end with a doc comment if let Some(true) = self.attrs.last().map(|a| a.is_doc_comment()) { result.push_str(&shape.indent.to_string_with_newline(context.config)); } else { result.push(' '); } } _ => (), } if let ast::GenericParamKind::Const { ref ty, kw_span: _, default, } = &self.kind { result.push_str("const "); result.push_str(rewrite_ident(context, self.ident)); result.push_str(": "); result.push_str(&ty.rewrite(context, shape)?); if let Some(default) = default { let eq_str = match context.config.type_punctuation_density() { TypeDensity::Compressed => "=", TypeDensity::Wide => " = ", }; result.push_str(eq_str); let budget = shape.width.checked_sub(result.len())?; let rewrite = default.rewrite(context, Shape::legacy(budget, shape.indent))?; result.push_str(&rewrite); } } else { result.push_str(rewrite_ident(context, self.ident)); } if !self.bounds.is_empty() { result.push_str(type_bound_colon(context)); result.push_str(&self.bounds.rewrite(context, shape)?) } if let ast::GenericParamKind::Type { default: Some(ref def), } = self.kind { let eq_str = match context.config.type_punctuation_density() { TypeDensity::Compressed => "=", TypeDensity::Wide => " = ", }; result.push_str(eq_str); let budget = shape.width.checked_sub(result.len())?; let rewrite = def.rewrite(context, Shape::legacy(budget, shape.indent + result.len()))?; result.push_str(&rewrite); } Some(result) } } impl Rewrite for ast::PolyTraitRef { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { if let Some(lifetime_str) = rewrite_lifetime_param(context, shape, &self.bound_generic_params) { // 6 is "for<> ".len() let extra_offset = lifetime_str.len() + 6; let path_str = self .trait_ref .rewrite(context, shape.offset_left(extra_offset)?)?; Some(format!("for<{}> {}", lifetime_str, path_str)) } else { self.trait_ref.rewrite(context, shape) } } } impl Rewrite for ast::TraitRef { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { rewrite_path(context, PathContext::Type, &None, &self.path, shape) } } impl Rewrite for ast::Ty { fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option { match self.kind { ast::TyKind::TraitObject(ref bounds, tobj_syntax) => { // we have to consider 'dyn' keyword is used or not!!! let is_dyn = tobj_syntax == ast::TraitObjectSyntax::Dyn; // 4 is length of 'dyn ' let shape = if is_dyn { shape.offset_left(4)? } else { shape }; let mut res = bounds.rewrite(context, shape)?; // We may have falsely removed a trailing `+` inside macro call. if context.inside_macro() && bounds.len() == 1 { if context.snippet(self.span).ends_with('+') && !res.ends_with('+') { res.push('+'); } } if is_dyn { Some(format!("dyn {}", res)) } else { Some(res) } } ast::TyKind::Ptr(ref mt) => { let prefix = match mt.mutbl { Mutability::Mut => "*mut ", Mutability::Not => "*const ", }; rewrite_unary_prefix(context, prefix, &*mt.ty, shape) } ast::TyKind::Ref(ref lifetime, ref mt) => { let mut_str = format_mutability(mt.mutbl); let mut_len = mut_str.len(); let mut result = String::with_capacity(128); result.push('&'); let ref_hi = context.snippet_provider.span_after(self.span(), "&"); let mut cmnt_lo = ref_hi; if let Some(ref lifetime) = *lifetime { let lt_budget = shape.width.checked_sub(2 + mut_len)?; let lt_str = lifetime.rewrite( context, Shape::legacy(lt_budget, shape.indent + 2 + mut_len), )?; let before_lt_span = mk_sp(cmnt_lo, lifetime.ident.span.lo()); if contains_comment(context.snippet(before_lt_span)) { result = combine_strs_with_missing_comments( context, &result, <_str, before_lt_span, shape, true, )?; } else { result.push_str(<_str); } result.push(' '); cmnt_lo = lifetime.ident.span.hi(); } if ast::Mutability::Mut == mt.mutbl { let mut_hi = context.snippet_provider.span_after(self.span(), "mut"); let before_mut_span = mk_sp(cmnt_lo, mut_hi - BytePos::from_usize(3)); if contains_comment(context.snippet(before_mut_span)) { result = combine_strs_with_missing_comments( context, result.trim_end(), mut_str, before_mut_span, shape, true, )?; } else { result.push_str(mut_str); } cmnt_lo = mut_hi; } let before_ty_span = mk_sp(cmnt_lo, mt.ty.span.lo()); if contains_comment(context.snippet(before_ty_span)) { result = combine_strs_with_missing_comments( context, result.trim_end(), &mt.ty.rewrite(context, shape)?, before_ty_span, shape, true, )?; } else { let used_width = last_line_width(&result); let budget = shape.width.checked_sub(used_width)?; let ty_str = mt .ty .rewrite(context, Shape::legacy(budget, shape.indent + used_width))?; result.push_str(&ty_str); } Some(result) } // FIXME: we drop any comments here, even though it's a silly place to put // comments. ast::TyKind::Paren(ref ty) => { if context.config.version() == Version::One || context.config.indent_style() == IndentStyle::Visual { let budget = shape.width.checked_sub(2)?; return ty .rewrite(context, Shape::legacy(budget, shape.indent + 1)) .map(|ty_str| format!("({})", ty_str)); } // 2 = () if let Some(sh) = shape.sub_width(2) { if let Some(ref s) = ty.rewrite(context, sh) { if !s.contains('\n') { return Some(format!("({})", s)); } } } let indent_str = shape.indent.to_string_with_newline(context.config); let shape = shape .block_indent(context.config.tab_spaces()) .with_max_width(context.config); let rw = ty.rewrite(context, shape)?; Some(format!( "({}{}{})", shape.to_string_with_newline(context.config), rw, indent_str )) } ast::TyKind::Slice(ref ty) => { let budget = shape.width.checked_sub(4)?; ty.rewrite(context, Shape::legacy(budget, shape.indent + 1)) .map(|ty_str| format!("[{}]", ty_str)) } ast::TyKind::Tup(ref items) => { rewrite_tuple(context, items.iter(), self.span, shape, items.len() == 1) } ast::TyKind::Path(ref q_self, ref path) => { rewrite_path(context, PathContext::Type, q_self, path, shape) } ast::TyKind::Array(ref ty, ref repeats) => rewrite_pair( &**ty, &*repeats.value, PairParts::new("[", "; ", "]"), context, shape, SeparatorPlace::Back, ), ast::TyKind::Infer => { if shape.width >= 1 { Some("_".to_owned()) } else { None } } ast::TyKind::BareFn(ref bare_fn) => rewrite_bare_fn(bare_fn, self.span, context, shape), ast::TyKind::Never => Some(String::from("!")), ast::TyKind::MacCall(ref mac) => { rewrite_macro(mac, None, context, shape, MacroPosition::Expression) } ast::TyKind::ImplicitSelf => Some(String::from("")), ast::TyKind::ImplTrait(_, ref it) => { // Empty trait is not a parser error. if it.is_empty() { return Some("impl".to_owned()); } let rw = if context.config.version() == Version::One { it.rewrite(context, shape) } else { join_bounds(context, shape, it, false) }; rw.map(|it_str| { let space = if it_str.is_empty() { "" } else { " " }; format!("impl{}{}", space, it_str) }) } ast::TyKind::CVarArgs => Some("...".to_owned()), ast::TyKind::Err => Some(context.snippet(self.span).to_owned()), ast::TyKind::Typeof(ref anon_const) => rewrite_call( context, "typeof", &[anon_const.value.clone()], self.span, shape, ), } } } fn rewrite_bare_fn( bare_fn: &ast::BareFnTy, span: Span, context: &RewriteContext<'_>, shape: Shape, ) -> Option { debug!("rewrite_bare_fn {:#?}", shape); let mut result = String::with_capacity(128); if let Some(ref lifetime_str) = rewrite_lifetime_param(context, shape, &bare_fn.generic_params) { result.push_str("for<"); // 6 = "for<> ".len(), 4 = "for<". // This doesn't work out so nicely for multiline situation with lots of // rightward drift. If that is a problem, we could use the list stuff. result.push_str(lifetime_str); result.push_str("> "); } result.push_str(crate::utils::format_unsafety(bare_fn.unsafety)); result.push_str(&format_extern( bare_fn.ext, context.config.force_explicit_abi(), false, )); result.push_str("fn"); let func_ty_shape = if context.use_block_indent() { shape.offset_left(result.len())? } else { shape.visual_indent(result.len()).sub_width(result.len())? }; let rewrite = format_function_type( bare_fn.decl.inputs.iter(), &bare_fn.decl.output, bare_fn.decl.c_variadic(), span, context, func_ty_shape, )?; result.push_str(&rewrite); Some(result) } fn is_generic_bounds_in_order(generic_bounds: &[ast::GenericBound]) -> bool { let is_trait = |b: &ast::GenericBound| match b { ast::GenericBound::Outlives(..) => false, ast::GenericBound::Trait(..) => true, }; let is_lifetime = |b: &ast::GenericBound| !is_trait(b); let last_trait_index = generic_bounds.iter().rposition(is_trait); let first_lifetime_index = generic_bounds.iter().position(is_lifetime); match (last_trait_index, first_lifetime_index) { (Some(last_trait_index), Some(first_lifetime_index)) => { last_trait_index < first_lifetime_index } _ => true, } } fn join_bounds( context: &RewriteContext<'_>, shape: Shape, items: &[ast::GenericBound], need_indent: bool, ) -> Option { join_bounds_inner(context, shape, items, need_indent, false) } fn join_bounds_inner( context: &RewriteContext<'_>, shape: Shape, items: &[ast::GenericBound], need_indent: bool, force_newline: bool, ) -> Option { debug_assert!(!items.is_empty()); let generic_bounds_in_order = is_generic_bounds_in_order(items); let is_bound_extendable = |s: &str, b: &ast::GenericBound| match b { ast::GenericBound::Outlives(..) => true, ast::GenericBound::Trait(..) => last_line_extendable(s), }; let result = items.iter().enumerate().try_fold( (String::new(), None, false), |(strs, prev_trailing_span, prev_extendable), (i, item)| { let trailing_span = if i < items.len() - 1 { let hi = context .snippet_provider .span_before(mk_sp(items[i + 1].span().lo(), item.span().hi()), "+"); Some(mk_sp(item.span().hi(), hi)) } else { None }; let (leading_span, has_leading_comment) = if i > 0 { let lo = context .snippet_provider .span_after(mk_sp(items[i - 1].span().hi(), item.span().lo()), "+"); let span = mk_sp(lo, item.span().lo()); let has_comments = contains_comment(context.snippet(span)); (Some(mk_sp(lo, item.span().lo())), has_comments) } else { (None, false) }; let prev_has_trailing_comment = match prev_trailing_span { Some(ts) => contains_comment(context.snippet(ts)), _ => false, }; let shape = if need_indent && force_newline { shape .block_indent(context.config.tab_spaces()) .with_max_width(context.config) } else { shape }; let whitespace = if force_newline && (!prev_extendable || !generic_bounds_in_order) { shape .indent .to_string_with_newline(context.config) .to_string() } else { String::from(" ") }; let joiner = match context.config.type_punctuation_density() { TypeDensity::Compressed => String::from("+"), TypeDensity::Wide => whitespace + "+ ", }; let joiner = if has_leading_comment { joiner.trim_end() } else { &joiner }; let joiner = if prev_has_trailing_comment { joiner.trim_start() } else { joiner }; let (extendable, trailing_str) = if i == 0 { let bound_str = item.rewrite(context, shape)?; (is_bound_extendable(&bound_str, item), bound_str) } else { let bound_str = &item.rewrite(context, shape)?; match leading_span { Some(ls) if has_leading_comment => ( is_bound_extendable(bound_str, item), combine_strs_with_missing_comments( context, joiner, bound_str, ls, shape, true, )?, ), _ => ( is_bound_extendable(bound_str, item), String::from(joiner) + bound_str, ), } }; match prev_trailing_span { Some(ts) if prev_has_trailing_comment => combine_strs_with_missing_comments( context, &strs, &trailing_str, ts, shape, true, ) .map(|v| (v, trailing_span, extendable)), _ => Some((strs + &trailing_str, trailing_span, extendable)), } }, )?; if !force_newline && items.len() > 1 && (result.0.contains('\n') || result.0.len() > shape.width) { join_bounds_inner(context, shape, items, need_indent, true) } else { Some(result.0) } } pub(crate) fn opaque_ty(ty: &Option>) -> Option<&ast::GenericBounds> { ty.as_ref().and_then(|t| match &t.kind { ast::TyKind::ImplTrait(_, bounds) => Some(bounds), _ => None, }) } pub(crate) fn can_be_overflowed_type( context: &RewriteContext<'_>, ty: &ast::Ty, len: usize, ) -> bool { match ty.kind { ast::TyKind::Tup(..) => context.use_block_indent() && len == 1, ast::TyKind::Ref(_, ref mutty) | ast::TyKind::Ptr(ref mutty) => { can_be_overflowed_type(context, &*mutty.ty, len) } _ => false, } } /// Returns `None` if there is no `LifetimeDef` in the given generic parameters. pub(crate) fn rewrite_lifetime_param( context: &RewriteContext<'_>, shape: Shape, generic_params: &[ast::GenericParam], ) -> Option { let result = generic_params .iter() .filter(|p| matches!(p.kind, ast::GenericParamKind::Lifetime)) .map(|lt| lt.rewrite(context, shape)) .collect::>>()? .join(", "); if result.is_empty() { None } else { Some(result) } }