use std::cell::{Cell, RefCell}; use std::rc::Rc; use rustc_ast::{ast, token::Delimiter, visit}; use rustc_data_structures::sync::Lrc; use rustc_span::{symbol, BytePos, Pos, Span}; use crate::attr::*; use crate::comment::{contains_comment, rewrite_comment, CodeCharKind, CommentCodeSlices}; use crate::config::Version; use crate::config::{BraceStyle, Config}; use crate::coverage::transform_missing_snippet; use crate::items::{ format_impl, format_trait, format_trait_alias, is_mod_decl, is_use_item, rewrite_extern_crate, rewrite_type_alias, FnBraceStyle, FnSig, ItemVisitorKind, StaticParts, StructParts, }; use crate::macros::{macro_style, rewrite_macro, rewrite_macro_def, MacroPosition}; use crate::modules::Module; use crate::parse::session::ParseSess; use crate::rewrite::{Rewrite, RewriteContext}; use crate::shape::{Indent, Shape}; use crate::skip::{is_skip_attr, SkipContext}; use crate::source_map::{LineRangeUtils, SpanUtils}; use crate::spanned::Spanned; use crate::stmt::Stmt; use crate::utils::{ self, contains_skip, count_newlines, depr_skip_annotation, format_unsafety, inner_attributes, last_line_width, mk_sp, ptr_vec_to_ref_vec, rewrite_ident, starts_with_newline, stmt_expr, }; use crate::{ErrorKind, FormatReport, FormattingError}; /// Creates a string slice corresponding to the specified span. pub(crate) struct SnippetProvider { /// A pointer to the content of the file we are formatting. big_snippet: Lrc, /// A position of the start of `big_snippet`, used as an offset. start_pos: usize, /// An end position of the file that this snippet lives. end_pos: usize, } impl SnippetProvider { pub(crate) fn span_to_snippet(&self, span: Span) -> Option<&str> { let start_index = span.lo().to_usize().checked_sub(self.start_pos)?; let end_index = span.hi().to_usize().checked_sub(self.start_pos)?; Some(&self.big_snippet[start_index..end_index]) } pub(crate) fn new(start_pos: BytePos, end_pos: BytePos, big_snippet: Lrc) -> Self { let start_pos = start_pos.to_usize(); let end_pos = end_pos.to_usize(); SnippetProvider { big_snippet, start_pos, end_pos, } } pub(crate) fn entire_snippet(&self) -> &str { self.big_snippet.as_str() } pub(crate) fn start_pos(&self) -> BytePos { BytePos::from_usize(self.start_pos) } pub(crate) fn end_pos(&self) -> BytePos { BytePos::from_usize(self.end_pos) } } pub(crate) struct FmtVisitor<'a> { parent_context: Option<&'a RewriteContext<'a>>, pub(crate) parse_sess: &'a ParseSess, pub(crate) buffer: String, pub(crate) last_pos: BytePos, // FIXME: use an RAII util or closure for indenting pub(crate) block_indent: Indent, pub(crate) config: &'a Config, pub(crate) is_if_else_block: bool, pub(crate) snippet_provider: &'a SnippetProvider, pub(crate) line_number: usize, /// List of 1-based line ranges which were annotated with skip /// Both bounds are inclusifs. pub(crate) skipped_range: Rc>>, pub(crate) macro_rewrite_failure: bool, pub(crate) report: FormatReport, pub(crate) skip_context: SkipContext, pub(crate) is_macro_def: bool, } impl<'a> Drop for FmtVisitor<'a> { fn drop(&mut self) { if let Some(ctx) = self.parent_context { if self.macro_rewrite_failure { ctx.macro_rewrite_failure.replace(true); } } } } impl<'b, 'a: 'b> FmtVisitor<'a> { fn set_parent_context(&mut self, context: &'a RewriteContext<'_>) { self.parent_context = Some(context); } pub(crate) fn shape(&self) -> Shape { Shape::indented(self.block_indent, self.config) } fn next_span(&self, hi: BytePos) -> Span { mk_sp(self.last_pos, hi) } fn visit_stmt(&mut self, stmt: &Stmt<'_>, include_empty_semi: bool) { debug!( "visit_stmt: {}", self.parse_sess.span_to_debug_info(stmt.span()) ); if stmt.is_empty() { // If the statement is empty, just skip over it. Before that, make sure any comment // snippet preceding the semicolon is picked up. let snippet = self.snippet(mk_sp(self.last_pos, stmt.span().lo())); let original_starts_with_newline = snippet .find(|c| c != ' ') .map_or(false, |i| starts_with_newline(&snippet[i..])); let snippet = snippet.trim(); if !snippet.is_empty() { // FIXME(calebcartwright 2021-01-03) - This exists strictly to maintain legacy // formatting where rustfmt would preserve redundant semicolons on Items in a // statement position. // See comment within `walk_stmts` for more info if include_empty_semi { self.format_missing(stmt.span().hi()); } else { if original_starts_with_newline { self.push_str("\n"); } self.push_str(&self.block_indent.to_string(self.config)); self.push_str(snippet); } } else if include_empty_semi { self.push_str(";"); } self.last_pos = stmt.span().hi(); return; } match stmt.as_ast_node().kind { ast::StmtKind::Item(ref item) => { self.visit_item(item); self.last_pos = stmt.span().hi(); } ast::StmtKind::Local(..) | ast::StmtKind::Expr(..) | ast::StmtKind::Semi(..) => { let attrs = get_attrs_from_stmt(stmt.as_ast_node()); if contains_skip(attrs) { self.push_skipped_with_span( attrs, stmt.span(), get_span_without_attrs(stmt.as_ast_node()), ); } else { let shape = self.shape(); let rewrite = self.with_context(|ctx| stmt.rewrite(ctx, shape)); self.push_rewrite(stmt.span(), rewrite) } } ast::StmtKind::MacCall(ref mac_stmt) => { if self.visit_attrs(&mac_stmt.attrs, ast::AttrStyle::Outer) { self.push_skipped_with_span( &mac_stmt.attrs, stmt.span(), get_span_without_attrs(stmt.as_ast_node()), ); } else { self.visit_mac(&mac_stmt.mac, None, MacroPosition::Statement); } self.format_missing(stmt.span().hi()); } ast::StmtKind::Empty => (), } } /// Remove spaces between the opening brace and the first statement or the inner attribute /// of the block. fn trim_spaces_after_opening_brace( &mut self, b: &ast::Block, inner_attrs: Option<&[ast::Attribute]>, ) { if let Some(first_stmt) = b.stmts.first() { let hi = inner_attrs .and_then(|attrs| inner_attributes(attrs).first().map(|attr| attr.span.lo())) .unwrap_or_else(|| first_stmt.span().lo()); let missing_span = self.next_span(hi); let snippet = self.snippet(missing_span); let len = CommentCodeSlices::new(snippet) .next() .and_then(|(kind, _, s)| { if kind == CodeCharKind::Normal { s.rfind('\n') } else { None } }); if let Some(len) = len { self.last_pos = self.last_pos + BytePos::from_usize(len); } } } pub(crate) fn visit_block( &mut self, b: &ast::Block, inner_attrs: Option<&[ast::Attribute]>, has_braces: bool, ) { debug!( "visit_block: {}", self.parse_sess.span_to_debug_info(b.span), ); // Check if this block has braces. let brace_compensation = BytePos(if has_braces { 1 } else { 0 }); self.last_pos = self.last_pos + brace_compensation; self.block_indent = self.block_indent.block_indent(self.config); self.push_str("{"); self.trim_spaces_after_opening_brace(b, inner_attrs); // Format inner attributes if available. if let Some(attrs) = inner_attrs { self.visit_attrs(attrs, ast::AttrStyle::Inner); } self.walk_block_stmts(b); if !b.stmts.is_empty() { if let Some(expr) = stmt_expr(&b.stmts[b.stmts.len() - 1]) { if utils::semicolon_for_expr(&self.get_context(), expr) { self.push_str(";"); } } } let rest_span = self.next_span(b.span.hi()); if out_of_file_lines_range!(self, rest_span) { self.push_str(self.snippet(rest_span)); self.block_indent = self.block_indent.block_unindent(self.config); } else { // Ignore the closing brace. let missing_span = self.next_span(b.span.hi() - brace_compensation); self.close_block(missing_span, self.unindent_comment_on_closing_brace(b)); } self.last_pos = source!(self, b.span).hi(); } fn close_block(&mut self, span: Span, unindent_comment: bool) { let config = self.config; let mut last_hi = span.lo(); let mut unindented = false; let mut prev_ends_with_newline = false; let mut extra_newline = false; let skip_normal = |s: &str| { let trimmed = s.trim(); trimmed.is_empty() || trimmed.chars().all(|c| c == ';') }; let comment_snippet = self.snippet(span); let align_to_right = if unindent_comment && contains_comment(comment_snippet) { let first_lines = comment_snippet.splitn(2, '/').next().unwrap_or(""); last_line_width(first_lines) > last_line_width(comment_snippet) } else { false }; for (kind, offset, sub_slice) in CommentCodeSlices::new(comment_snippet) { let sub_slice = transform_missing_snippet(config, sub_slice); debug!("close_block: {:?} {:?} {:?}", kind, offset, sub_slice); match kind { CodeCharKind::Comment => { if !unindented && unindent_comment && !align_to_right { unindented = true; self.block_indent = self.block_indent.block_unindent(config); } let span_in_between = mk_sp(last_hi, span.lo() + BytePos::from_usize(offset)); let snippet_in_between = self.snippet(span_in_between); let mut comment_on_same_line = !snippet_in_between.contains('\n'); let mut comment_shape = Shape::indented(self.block_indent, config).comment(config); if self.config.version() == Version::Two && comment_on_same_line { self.push_str(" "); // put the first line of the comment on the same line as the // block's last line match sub_slice.find('\n') { None => { self.push_str(&sub_slice); } Some(offset) if offset + 1 == sub_slice.len() => { self.push_str(&sub_slice[..offset]); } Some(offset) => { let first_line = &sub_slice[..offset]; self.push_str(first_line); self.push_str(&self.block_indent.to_string_with_newline(config)); // put the other lines below it, shaping it as needed let other_lines = &sub_slice[offset + 1..]; let comment_str = rewrite_comment(other_lines, false, comment_shape, config); match comment_str { Some(ref s) => self.push_str(s), None => self.push_str(other_lines), } } } } else { if comment_on_same_line { // 1 = a space before `//` let offset_len = 1 + last_line_width(&self.buffer) .saturating_sub(self.block_indent.width()); match comment_shape .visual_indent(offset_len) .sub_width(offset_len) { Some(shp) => comment_shape = shp, None => comment_on_same_line = false, } }; if comment_on_same_line { self.push_str(" "); } else { if count_newlines(snippet_in_between) >= 2 || extra_newline { self.push_str("\n"); } self.push_str(&self.block_indent.to_string_with_newline(config)); } let comment_str = rewrite_comment(&sub_slice, false, comment_shape, config); match comment_str { Some(ref s) => self.push_str(s), None => self.push_str(&sub_slice), } } } CodeCharKind::Normal if skip_normal(&sub_slice) => { extra_newline = prev_ends_with_newline && sub_slice.contains('\n'); continue; } CodeCharKind::Normal => { self.push_str(&self.block_indent.to_string_with_newline(config)); self.push_str(sub_slice.trim()); } } prev_ends_with_newline = sub_slice.ends_with('\n'); extra_newline = false; last_hi = span.lo() + BytePos::from_usize(offset + sub_slice.len()); } if unindented { self.block_indent = self.block_indent.block_indent(self.config); } self.block_indent = self.block_indent.block_unindent(self.config); self.push_str(&self.block_indent.to_string_with_newline(config)); self.push_str("}"); } fn unindent_comment_on_closing_brace(&self, b: &ast::Block) -> bool { self.is_if_else_block && !b.stmts.is_empty() } // Note that this only gets called for function definitions. Required methods // on traits do not get handled here. pub(crate) fn visit_fn( &mut self, fk: visit::FnKind<'_>, fd: &ast::FnDecl, s: Span, defaultness: ast::Defaultness, inner_attrs: Option<&[ast::Attribute]>, ) { let indent = self.block_indent; let block; let rewrite = match fk { visit::FnKind::Fn(_, ident, _, _, _, Some(ref b)) => { block = b; self.rewrite_fn_before_block( indent, ident, &FnSig::from_fn_kind(&fk, fd, defaultness), mk_sp(s.lo(), b.span.lo()), ) } _ => unreachable!(), }; if let Some((fn_str, fn_brace_style)) = rewrite { self.format_missing_with_indent(source!(self, s).lo()); if let Some(rw) = self.single_line_fn(&fn_str, block, inner_attrs) { self.push_str(&rw); self.last_pos = s.hi(); return; } self.push_str(&fn_str); match fn_brace_style { FnBraceStyle::SameLine => self.push_str(" "), FnBraceStyle::NextLine => { self.push_str(&self.block_indent.to_string_with_newline(self.config)) } _ => unreachable!(), } self.last_pos = source!(self, block.span).lo(); } else { self.format_missing(source!(self, block.span).lo()); } self.visit_block(block, inner_attrs, true) } pub(crate) fn visit_item(&mut self, item: &ast::Item) { skip_out_of_file_lines_range_visitor!(self, item.span); // This is where we bail out if there is a skip attribute. This is only // complex in the module case. It is complex because the module could be // in a separate file and there might be attributes in both files, but // the AST lumps them all together. let filtered_attrs; let mut attrs = &item.attrs; let skip_context_saved = self.skip_context.clone(); self.skip_context.update_with_attrs(attrs); let should_visit_node_again = match item.kind { // For use/extern crate items, skip rewriting attributes but check for a skip attribute. ast::ItemKind::Use(..) | ast::ItemKind::ExternCrate(_) => { if contains_skip(attrs) { self.push_skipped_with_span(attrs.as_slice(), item.span(), item.span()); false } else { true } } // Module is inline, in this case we treat it like any other item. _ if !is_mod_decl(item) => { if self.visit_attrs(&item.attrs, ast::AttrStyle::Outer) { self.push_skipped_with_span(item.attrs.as_slice(), item.span(), item.span()); false } else { true } } // Module is not inline, but should be skipped. ast::ItemKind::Mod(..) if contains_skip(&item.attrs) => false, // Module is not inline and should not be skipped. We want // to process only the attributes in the current file. ast::ItemKind::Mod(..) => { filtered_attrs = filter_inline_attrs(&item.attrs, item.span()); // Assert because if we should skip it should be caught by // the above case. assert!(!self.visit_attrs(&filtered_attrs, ast::AttrStyle::Outer)); attrs = &filtered_attrs; true } _ => { if self.visit_attrs(&item.attrs, ast::AttrStyle::Outer) { self.push_skipped_with_span(item.attrs.as_slice(), item.span(), item.span()); false } else { true } } }; // TODO(calebcartwright): consider enabling box_patterns feature gate if should_visit_node_again { match item.kind { ast::ItemKind::Use(ref tree) => self.format_import(item, tree), ast::ItemKind::Impl(ref iimpl) => { let block_indent = self.block_indent; let rw = self.with_context(|ctx| format_impl(ctx, item, iimpl, block_indent)); self.push_rewrite(item.span, rw); } ast::ItemKind::Trait(..) => { let block_indent = self.block_indent; let rw = self.with_context(|ctx| format_trait(ctx, item, block_indent)); self.push_rewrite(item.span, rw); } ast::ItemKind::TraitAlias(ref generics, ref generic_bounds) => { let shape = Shape::indented(self.block_indent, self.config); let rw = format_trait_alias( &self.get_context(), item.ident, &item.vis, generics, generic_bounds, shape, ); self.push_rewrite(item.span, rw); } ast::ItemKind::ExternCrate(_) => { let rw = rewrite_extern_crate(&self.get_context(), item, self.shape()); let span = if attrs.is_empty() { item.span } else { mk_sp(attrs[0].span.lo(), item.span.hi()) }; self.push_rewrite(span, rw); } ast::ItemKind::Struct(..) | ast::ItemKind::Union(..) => { self.visit_struct(&StructParts::from_item(item)); } ast::ItemKind::Enum(ref def, ref generics) => { self.format_missing_with_indent(source!(self, item.span).lo()); self.visit_enum(item.ident, &item.vis, def, generics, item.span); self.last_pos = source!(self, item.span).hi(); } ast::ItemKind::Mod(unsafety, ref mod_kind) => { self.format_missing_with_indent(source!(self, item.span).lo()); self.format_mod(mod_kind, unsafety, &item.vis, item.span, item.ident, attrs); } ast::ItemKind::MacCall(ref mac) => { self.visit_mac(mac, Some(item.ident), MacroPosition::Item); } ast::ItemKind::ForeignMod(ref foreign_mod) => { self.format_missing_with_indent(source!(self, item.span).lo()); self.format_foreign_mod(foreign_mod, item.span); } ast::ItemKind::Static(..) | ast::ItemKind::Const(..) => { self.visit_static(&StaticParts::from_item(item)); } ast::ItemKind::Fn(ref fn_kind) => { let ast::Fn { defaultness, ref sig, ref generics, ref body, } = **fn_kind; if let Some(ref body) = body { let inner_attrs = inner_attributes(&item.attrs); let fn_ctxt = match sig.header.ext { ast::Extern::None => visit::FnCtxt::Free, _ => visit::FnCtxt::Foreign, }; self.visit_fn( visit::FnKind::Fn( fn_ctxt, item.ident, sig, &item.vis, generics, Some(body), ), &sig.decl, item.span, defaultness, Some(&inner_attrs), ) } else { let indent = self.block_indent; let rewrite = self.rewrite_required_fn( indent, item.ident, sig, &item.vis, generics, item.span, ); self.push_rewrite(item.span, rewrite); } } ast::ItemKind::TyAlias(ref ty_alias) => { use ItemVisitorKind::Item; self.visit_ty_alias_kind(ty_alias, &Item(item), item.span); } ast::ItemKind::GlobalAsm(..) => { let snippet = Some(self.snippet(item.span).to_owned()); self.push_rewrite(item.span, snippet); } ast::ItemKind::MacroDef(ref def) => { let rewrite = rewrite_macro_def( &self.get_context(), self.shape(), self.block_indent, def, item.ident, &item.vis, item.span, ); self.push_rewrite(item.span, rewrite); } }; } self.skip_context = skip_context_saved; } fn visit_ty_alias_kind( &mut self, ty_kind: &ast::TyAlias, visitor_kind: &ItemVisitorKind<'_>, span: Span, ) { let rewrite = rewrite_type_alias( ty_kind, &self.get_context(), self.block_indent, visitor_kind, span, ); self.push_rewrite(span, rewrite); } fn visit_assoc_item(&mut self, visitor_kind: &ItemVisitorKind<'_>) { use ItemVisitorKind::*; // TODO(calebcartwright): Not sure the skip spans are correct let (ai, skip_span, assoc_ctxt) = match visitor_kind { AssocTraitItem(ai) => (*ai, ai.span(), visit::AssocCtxt::Trait), AssocImplItem(ai) => (*ai, ai.span, visit::AssocCtxt::Impl), _ => unreachable!(), }; skip_out_of_file_lines_range_visitor!(self, ai.span); if self.visit_attrs(&ai.attrs, ast::AttrStyle::Outer) { self.push_skipped_with_span(ai.attrs.as_slice(), skip_span, skip_span); return; } // TODO(calebcartwright): consider enabling box_patterns feature gate match (&ai.kind, visitor_kind) { (ast::AssocItemKind::Const(..), AssocTraitItem(_)) => { self.visit_static(&StaticParts::from_trait_item(ai)) } (ast::AssocItemKind::Const(..), AssocImplItem(_)) => { self.visit_static(&StaticParts::from_impl_item(ai)) } (ast::AssocItemKind::Fn(ref fn_kind), _) => { let ast::Fn { defaultness, ref sig, ref generics, ref body, } = **fn_kind; if let Some(ref body) = body { let inner_attrs = inner_attributes(&ai.attrs); let fn_ctxt = visit::FnCtxt::Assoc(assoc_ctxt); self.visit_fn( visit::FnKind::Fn(fn_ctxt, ai.ident, sig, &ai.vis, generics, Some(body)), &sig.decl, ai.span, defaultness, Some(&inner_attrs), ); } else { let indent = self.block_indent; let rewrite = self.rewrite_required_fn(indent, ai.ident, sig, &ai.vis, generics, ai.span); self.push_rewrite(ai.span, rewrite); } } (ast::AssocItemKind::Type(ref ty_alias), _) => { self.visit_ty_alias_kind(ty_alias, visitor_kind, ai.span); } (ast::AssocItemKind::MacCall(ref mac), _) => { self.visit_mac(mac, Some(ai.ident), MacroPosition::Item); } _ => unreachable!(), } } pub(crate) fn visit_trait_item(&mut self, ti: &ast::AssocItem) { self.visit_assoc_item(&ItemVisitorKind::AssocTraitItem(ti)); } pub(crate) fn visit_impl_item(&mut self, ii: &ast::AssocItem) { self.visit_assoc_item(&ItemVisitorKind::AssocImplItem(ii)); } fn visit_mac(&mut self, mac: &ast::MacCall, ident: Option, pos: MacroPosition) { skip_out_of_file_lines_range_visitor!(self, mac.span()); // 1 = ; let shape = self.shape().saturating_sub_width(1); let rewrite = self.with_context(|ctx| rewrite_macro(mac, ident, ctx, shape, pos)); // As of v638 of the rustc-ap-* crates, the associated span no longer includes // the trailing semicolon. This determines the correct span to ensure scenarios // with whitespace between the delimiters and trailing semi (i.e. `foo!(abc) ;`) // are formatted correctly. let (span, rewrite) = match macro_style(mac, &self.get_context()) { Delimiter::Bracket | Delimiter::Parenthesis if MacroPosition::Item == pos => { let search_span = mk_sp(mac.span().hi(), self.snippet_provider.end_pos()); let hi = self.snippet_provider.span_before(search_span, ";"); let target_span = mk_sp(mac.span().lo(), hi + BytePos(1)); let rewrite = rewrite.map(|rw| { if !rw.ends_with(';') { format!("{};", rw) } else { rw } }); (target_span, rewrite) } _ => (mac.span(), rewrite), }; self.push_rewrite(span, rewrite); } pub(crate) fn push_str(&mut self, s: &str) { self.line_number += count_newlines(s); self.buffer.push_str(s); } #[allow(clippy::needless_pass_by_value)] fn push_rewrite_inner(&mut self, span: Span, rewrite: Option) { if let Some(ref s) = rewrite { self.push_str(s); } else { let snippet = self.snippet(span); self.push_str(snippet.trim()); } self.last_pos = source!(self, span).hi(); } pub(crate) fn push_rewrite(&mut self, span: Span, rewrite: Option) { self.format_missing_with_indent(source!(self, span).lo()); self.push_rewrite_inner(span, rewrite); } pub(crate) fn push_skipped_with_span( &mut self, attrs: &[ast::Attribute], item_span: Span, main_span: Span, ) { self.format_missing_with_indent(source!(self, item_span).lo()); // do not take into account the lines with attributes as part of the skipped range let attrs_end = attrs .iter() .map(|attr| self.parse_sess.line_of_byte_pos(attr.span.hi())) .max() .unwrap_or(1); let first_line = self.parse_sess.line_of_byte_pos(main_span.lo()); // Statement can start after some newlines and/or spaces // or it can be on the same line as the last attribute. // So here we need to take a minimum between the two. let lo = std::cmp::min(attrs_end + 1, first_line); self.push_rewrite_inner(item_span, None); let hi = self.line_number + 1; self.skipped_range.borrow_mut().push((lo, hi)); } pub(crate) fn from_context(ctx: &'a RewriteContext<'_>) -> FmtVisitor<'a> { let mut visitor = FmtVisitor::from_parse_sess( ctx.parse_sess, ctx.config, ctx.snippet_provider, ctx.report.clone(), ); visitor.skip_context.update(ctx.skip_context.clone()); visitor.set_parent_context(ctx); visitor } pub(crate) fn from_parse_sess( parse_session: &'a ParseSess, config: &'a Config, snippet_provider: &'a SnippetProvider, report: FormatReport, ) -> FmtVisitor<'a> { FmtVisitor { parent_context: None, parse_sess: parse_session, buffer: String::with_capacity(snippet_provider.big_snippet.len() * 2), last_pos: BytePos(0), block_indent: Indent::empty(), config, is_if_else_block: false, snippet_provider, line_number: 0, skipped_range: Rc::new(RefCell::new(vec![])), is_macro_def: false, macro_rewrite_failure: false, report, skip_context: Default::default(), } } pub(crate) fn opt_snippet(&'b self, span: Span) -> Option<&'a str> { self.snippet_provider.span_to_snippet(span) } pub(crate) fn snippet(&'b self, span: Span) -> &'a str { self.opt_snippet(span).unwrap() } // Returns true if we should skip the following item. pub(crate) fn visit_attrs(&mut self, attrs: &[ast::Attribute], style: ast::AttrStyle) -> bool { for attr in attrs { if attr.has_name(depr_skip_annotation()) { let file_name = self.parse_sess.span_to_filename(attr.span); self.report.append( file_name, vec![FormattingError::from_span( attr.span, self.parse_sess, ErrorKind::DeprecatedAttr, )], ); } else { match &attr.kind { ast::AttrKind::Normal(ref normal) if self.is_unknown_rustfmt_attr(&normal.item.path.segments) => { let file_name = self.parse_sess.span_to_filename(attr.span); self.report.append( file_name, vec![FormattingError::from_span( attr.span, self.parse_sess, ErrorKind::BadAttr, )], ); } _ => (), } } } if contains_skip(attrs) { return true; } let attrs: Vec<_> = attrs.iter().filter(|a| a.style == style).cloned().collect(); if attrs.is_empty() { return false; } let rewrite = attrs.rewrite(&self.get_context(), self.shape()); let span = mk_sp(attrs[0].span.lo(), attrs[attrs.len() - 1].span.hi()); self.push_rewrite(span, rewrite); false } fn is_unknown_rustfmt_attr(&self, segments: &[ast::PathSegment]) -> bool { if segments[0].ident.to_string() != "rustfmt" { return false; } !is_skip_attr(segments) } fn walk_mod_items(&mut self, items: &[rustc_ast::ptr::P]) { self.visit_items_with_reordering(&ptr_vec_to_ref_vec(items)); } fn walk_stmts(&mut self, stmts: &[Stmt<'_>], include_current_empty_semi: bool) { if stmts.is_empty() { return; } // Extract leading `use ...;`. let items: Vec<_> = stmts .iter() .take_while(|stmt| stmt.to_item().map_or(false, is_use_item)) .filter_map(|stmt| stmt.to_item()) .collect(); if items.is_empty() { self.visit_stmt(&stmts[0], include_current_empty_semi); // FIXME(calebcartwright 2021-01-03) - This exists strictly to maintain legacy // formatting where rustfmt would preserve redundant semicolons on Items in a // statement position. // // Starting in rustc-ap-* v692 (~2020-12-01) the rustc parser now parses this as // two separate statements (Item and Empty kinds), whereas before it was parsed as // a single statement with the statement's span including the redundant semicolon. // // rustfmt typically tosses unnecessary/redundant semicolons, and eventually we // should toss these as well, but doing so at this time would // break the Stability Guarantee // N.B. This could be updated to utilize the version gates. let include_next_empty = if stmts.len() > 1 { matches!( (&stmts[0].as_ast_node().kind, &stmts[1].as_ast_node().kind), (ast::StmtKind::Item(_), ast::StmtKind::Empty) ) } else { false }; self.walk_stmts(&stmts[1..], include_next_empty); } else { self.visit_items_with_reordering(&items); self.walk_stmts(&stmts[items.len()..], false); } } fn walk_block_stmts(&mut self, b: &ast::Block) { self.walk_stmts(&Stmt::from_ast_nodes(b.stmts.iter()), false) } fn format_mod( &mut self, mod_kind: &ast::ModKind, unsafety: ast::Unsafe, vis: &ast::Visibility, s: Span, ident: symbol::Ident, attrs: &[ast::Attribute], ) { let vis_str = utils::format_visibility(&self.get_context(), vis); self.push_str(&*vis_str); self.push_str(format_unsafety(unsafety)); self.push_str("mod "); // Calling `to_owned()` to work around borrow checker. let ident_str = rewrite_ident(&self.get_context(), ident).to_owned(); self.push_str(&ident_str); if let ast::ModKind::Loaded(ref items, ast::Inline::Yes, ref spans) = mod_kind { let ast::ModSpans { inner_span, inject_use_span: _, } = *spans; match self.config.brace_style() { BraceStyle::AlwaysNextLine => { let indent_str = self.block_indent.to_string_with_newline(self.config); self.push_str(&indent_str); self.push_str("{"); } _ => self.push_str(" {"), } // Hackery to account for the closing }. let mod_lo = self.snippet_provider.span_after(source!(self, s), "{"); let body_snippet = self.snippet(mk_sp(mod_lo, source!(self, inner_span).hi() - BytePos(1))); let body_snippet = body_snippet.trim(); if body_snippet.is_empty() { self.push_str("}"); } else { self.last_pos = mod_lo; self.block_indent = self.block_indent.block_indent(self.config); self.visit_attrs(attrs, ast::AttrStyle::Inner); self.walk_mod_items(items); let missing_span = self.next_span(inner_span.hi() - BytePos(1)); self.close_block(missing_span, false); } self.last_pos = source!(self, inner_span).hi(); } else { self.push_str(";"); self.last_pos = source!(self, s).hi(); } } pub(crate) fn format_separate_mod(&mut self, m: &Module<'_>, end_pos: BytePos) { self.block_indent = Indent::empty(); let skipped = self.visit_attrs(m.attrs(), ast::AttrStyle::Inner); assert!( !skipped, "Skipping module must be handled before reaching this line." ); self.walk_mod_items(&m.items); self.format_missing_with_indent(end_pos); } pub(crate) fn skip_empty_lines(&mut self, end_pos: BytePos) { while let Some(pos) = self .snippet_provider .opt_span_after(self.next_span(end_pos), "\n") { if let Some(snippet) = self.opt_snippet(self.next_span(pos)) { if snippet.trim().is_empty() { self.last_pos = pos; } else { return; } } } } pub(crate) fn with_context(&mut self, f: F) -> Option where F: Fn(&RewriteContext<'_>) -> Option, { let context = self.get_context(); let result = f(&context); self.macro_rewrite_failure |= context.macro_rewrite_failure.get(); result } pub(crate) fn get_context(&self) -> RewriteContext<'_> { RewriteContext { parse_sess: self.parse_sess, config: self.config, inside_macro: Rc::new(Cell::new(false)), use_block: Cell::new(false), is_if_else_block: Cell::new(false), force_one_line_chain: Cell::new(false), snippet_provider: self.snippet_provider, macro_rewrite_failure: Cell::new(false), is_macro_def: self.is_macro_def, report: self.report.clone(), skip_context: self.skip_context.clone(), skipped_range: self.skipped_range.clone(), } } }