// Copyright 2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use std::cmp::Ordering; use config::lists::*; use syntax::ast; use syntax::codemap::{BytePos, Span}; use codemap::SpanUtils; use config::IndentStyle; use lists::{definitive_tactic, itemize_list, write_list, ListFormatting, ListItem, Separator}; use rewrite::{Rewrite, RewriteContext}; use shape::Shape; use types::{rewrite_path, PathContext}; use utils::{format_visibility, mk_sp}; use visitor::FmtVisitor; /// Returns a name imported by a `use` declaration. e.g. returns `Ordering` /// for `std::cmp::Ordering` and `self` for `std::cmp::self`. pub fn path_to_imported_ident(path: &ast::Path) -> ast::Ident { path.segments.last().unwrap().identifier } fn rewrite_prefix(path: &ast::Path, context: &RewriteContext, shape: Shape) -> Option { if path.segments.len() > 1 && path_to_imported_ident(path).to_string() == "self" { let path = &ast::Path { span: path.span, segments: path.segments[..path.segments.len() - 1].to_owned(), }; rewrite_path(context, PathContext::Import, None, path, shape) } else { rewrite_path(context, PathContext::Import, None, path, shape) } } impl Rewrite for ast::UseTree { fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option { match self.kind { ast::UseTreeKind::Nested(ref items) => { rewrite_nested_use_tree(shape, &self.prefix, items, self.span, context) } ast::UseTreeKind::Glob => { let prefix_shape = shape.sub_width(3)?; if !self.prefix.segments.is_empty() { let path_str = rewrite_prefix(&self.prefix, context, prefix_shape)?; Some(format!("{}::*", path_str)) } else { Some("*".to_owned()) } } ast::UseTreeKind::Simple(ident) => { let ident_str = ident.to_string(); // 4 = " as ".len() let is_same_name_bind = path_to_imported_ident(&self.prefix) == ident; let prefix_shape = if is_same_name_bind { shape } else { shape.sub_width(ident_str.len() + 4)? }; let path_str = rewrite_prefix(&self.prefix, context, prefix_shape) .unwrap_or_else(|| context.snippet(self.prefix.span).to_owned()); if is_same_name_bind { Some(path_str) } else { Some(format!("{} as {}", path_str, ident_str)) } } } } } fn is_unused_import(tree: &ast::UseTree, attrs: &[ast::Attribute]) -> bool { attrs.is_empty() && is_unused_import_inner(tree) } fn is_unused_import_inner(tree: &ast::UseTree) -> bool { match tree.kind { ast::UseTreeKind::Nested(ref items) => match items.len() { 0 => true, 1 => is_unused_import_inner(&items[0].0), _ => false, }, _ => false, } } // Rewrite `use foo;` WITHOUT attributes. pub fn rewrite_import( context: &RewriteContext, vis: &ast::Visibility, tree: &ast::UseTree, attrs: &[ast::Attribute], shape: Shape, ) -> Option { let vis = format_visibility(vis); // 4 = `use `, 1 = `;` let rw = shape .offset_left(vis.len() + 4) .and_then(|shape| shape.sub_width(1)) .and_then(|shape| { // If we have an empty nested group with no attributes, we erase it if is_unused_import(tree, attrs) { Some("".to_owned()) } else { tree.rewrite(context, shape) } }); match rw { Some(ref s) if !s.is_empty() => Some(format!("{}use {};", vis, s)), _ => rw, } } impl<'a> FmtVisitor<'a> { pub fn format_import(&mut self, item: &ast::Item, tree: &ast::UseTree) { let span = item.span; let shape = self.shape(); let rw = rewrite_import(&self.get_context(), &item.vis, tree, &item.attrs, shape); match rw { Some(ref s) if s.is_empty() => { // Format up to last newline let prev_span = mk_sp(self.last_pos, source!(self, span).lo()); let trimmed_snippet = self.snippet(prev_span).trim_right(); let span_end = self.last_pos + BytePos(trimmed_snippet.len() as u32); self.format_missing(span_end); // We have an excessive newline from the removed import. if self.buffer.ends_with('\n') { self.buffer.pop(); self.line_number -= 1; } self.last_pos = source!(self, span).hi(); } Some(ref s) => { self.format_missing_with_indent(source!(self, span).lo()); self.push_str(s); self.last_pos = source!(self, span).hi(); } None => { self.format_missing_with_indent(source!(self, span).lo()); self.format_missing(source!(self, span).hi()); } } } } fn rewrite_nested_use_tree_single( context: &RewriteContext, path_str: &str, tree: &ast::UseTree, shape: Shape, ) -> Option { match tree.kind { ast::UseTreeKind::Simple(rename) => { let ident = path_to_imported_ident(&tree.prefix); let mut item_str = rewrite_prefix(&tree.prefix, context, shape)?; if item_str == "self" { item_str = "".to_owned(); } let path_item_str = if path_str.is_empty() { if item_str.is_empty() { "self".to_owned() } else { item_str } } else if item_str.is_empty() { path_str.to_owned() } else { format!("{}::{}", path_str, item_str) }; Some(if ident == rename { path_item_str } else { format!("{} as {}", path_item_str, rename) }) } ast::UseTreeKind::Glob | ast::UseTreeKind::Nested(..) => { // 2 = "::" let nested_shape = shape.offset_left(path_str.len() + 2)?; tree.rewrite(context, nested_shape) .map(|item| format!("{}::{}", path_str, item)) } } } #[derive(Eq, PartialEq)] enum ImportItem<'a> { // `self` or `self as a` SelfImport(&'a str), // name_one, name_two, ... SnakeCase(&'a str), // NameOne, NameTwo, ... CamelCase(&'a str), // NAME_ONE, NAME_TWO, ... AllCaps(&'a str), // Failed to format the import item Invalid, } impl<'a> ImportItem<'a> { fn from_str(s: &str) -> ImportItem { if s == "self" || s.starts_with("self as") { ImportItem::SelfImport(s) } else if s.chars().all(|c| c.is_lowercase() || c == '_' || c == ' ') { ImportItem::SnakeCase(s) } else if s.chars().all(|c| c.is_uppercase() || c == '_' || c == ' ') { ImportItem::AllCaps(s) } else { ImportItem::CamelCase(s) } } fn from_opt_str(s: Option<&String>) -> ImportItem { s.map_or(ImportItem::Invalid, |s| ImportItem::from_str(s)) } fn to_str(&self) -> Option<&str> { match *self { ImportItem::SelfImport(s) | ImportItem::SnakeCase(s) | ImportItem::CamelCase(s) | ImportItem::AllCaps(s) => Some(s), ImportItem::Invalid => None, } } fn to_u32(&self) -> u32 { match *self { ImportItem::SelfImport(..) => 0, ImportItem::SnakeCase(..) => 1, ImportItem::CamelCase(..) => 2, ImportItem::AllCaps(..) => 3, ImportItem::Invalid => 4, } } } impl<'a> PartialOrd for ImportItem<'a> { fn partial_cmp(&self, other: &ImportItem<'a>) -> Option { Some(self.cmp(other)) } } impl<'a> Ord for ImportItem<'a> { fn cmp(&self, other: &ImportItem<'a>) -> Ordering { let res = self.to_u32().cmp(&other.to_u32()); if res != Ordering::Equal { return res; } self.to_str().map_or(Ordering::Greater, |self_str| { other .to_str() .map_or(Ordering::Less, |other_str| self_str.cmp(other_str)) }) } } // Pretty prints a multi-item import. // If the path list is empty, it leaves the braces empty. fn rewrite_nested_use_tree( shape: Shape, path: &ast::Path, trees: &[(ast::UseTree, ast::NodeId)], span: Span, context: &RewriteContext, ) -> Option { // Returns a different option to distinguish `::foo` and `foo` let path_str = rewrite_path(context, PathContext::Import, None, path, shape)?; match trees.len() { 0 => { let shape = shape.offset_left(path_str.len() + 3)?; return rewrite_path(context, PathContext::Import, None, path, shape) .map(|path_str| format!("{}::{{}}", path_str)); } 1 => { return rewrite_nested_use_tree_single(context, &path_str, &trees[0].0, shape); } _ => (), } let path_str = if path_str.is_empty() { path_str } else { format!("{}::", path_str) }; // 2 = "{}" let remaining_width = shape.width.checked_sub(path_str.len() + 2).unwrap_or(0); let nested_indent = match context.config.imports_indent() { IndentStyle::Block => shape.indent.block_indent(context.config), // 1 = `{` IndentStyle::Visual => shape.visual_indent(path_str.len() + 1).indent, }; let nested_shape = match context.config.imports_indent() { IndentStyle::Block => Shape::indented(nested_indent, context.config).sub_width(1)?, IndentStyle::Visual => Shape::legacy(remaining_width, nested_indent), }; let mut items = { // Dummy value, see explanation below. let mut items = vec![ListItem::from_str("")]; let iter = itemize_list( context.snippet_provider, trees.iter().map(|tree| &tree.0), "}", ",", |tree| tree.span.lo(), |tree| tree.span.hi(), |tree| tree.rewrite(context, nested_shape), context.snippet_provider.span_after(span, "{"), span.hi(), false, ); items.extend(iter); items }; // We prefixed the item list with a dummy value so that we can // potentially move "self" to the front of the vector without touching // the rest of the items. let has_self = move_self_to_front(&mut items); let first_index = if has_self { 0 } else { 1 }; if context.config.reorder_imported_names() { items[1..].sort_by(|a, b| { let a = ImportItem::from_opt_str(a.item.as_ref()); let b = ImportItem::from_opt_str(b.item.as_ref()); a.cmp(&b) }); } let tactic = definitive_tactic( &items[first_index..], context.config.imports_layout(), Separator::Comma, remaining_width, ); let ends_with_newline = context.config.imports_indent() == IndentStyle::Block && tactic != DefinitiveListTactic::Horizontal; let fmt = ListFormatting { tactic, separator: ",", trailing_separator: if ends_with_newline { context.config.trailing_comma() } else { SeparatorTactic::Never }, separator_place: SeparatorPlace::Back, shape: nested_shape, ends_with_newline, preserve_newline: true, config: context.config, }; let list_str = write_list(&items[first_index..], &fmt)?; let result = if list_str.contains('\n') && context.config.imports_indent() == IndentStyle::Block { format!( "{}{{\n{}{}\n{}}}", path_str, nested_shape.indent.to_string(context.config), list_str, shape.indent.to_string(context.config) ) } else { format!("{}{{{}}}", path_str, list_str) }; Some(result) } // Returns true when self item was found. fn move_self_to_front(items: &mut Vec) -> bool { match items .iter() .position(|item| item.item.as_ref().map(|x| &x[..]) == Some("self")) { Some(pos) => { items[0] = items.remove(pos); true } None => false, } }