use rustc_hash::FxHashSet; use syntax::{ ast::{self, AstNode, AstToken, VisibilityOwner}, Direction, NodeOrToken, SourceFile, SyntaxKind::{self, *}, SyntaxNode, TextRange, TextSize, }; #[derive(Debug, PartialEq, Eq)] pub enum FoldKind { Comment, Imports, Mods, Block, ArgList, Region, Consts, Statics, Array, WhereClause, ReturnType, } #[derive(Debug)] pub struct Fold { pub range: TextRange, pub kind: FoldKind, } // Feature: Folding // // Defines folding regions for curly braced blocks, runs of consecutive import // statements, and `region` / `endregion` comment markers. pub(crate) fn folding_ranges(file: &SourceFile) -> Vec { let mut res = vec![]; let mut visited_comments = FxHashSet::default(); let mut visited_imports = FxHashSet::default(); let mut visited_mods = FxHashSet::default(); let mut visited_consts = FxHashSet::default(); let mut visited_statics = FxHashSet::default(); // regions can be nested, here is a LIFO buffer let mut regions_starts: Vec = vec![]; for element in file.syntax().descendants_with_tokens() { // Fold items that span multiple lines if let Some(kind) = fold_kind(element.kind()) { let is_multiline = match &element { NodeOrToken::Node(node) => node.text().contains_char('\n'), NodeOrToken::Token(token) => token.text().contains('\n'), }; if is_multiline { res.push(Fold { range: element.text_range(), kind }); continue; } } match element { NodeOrToken::Token(token) => { // Fold groups of comments if let Some(comment) = ast::Comment::cast(token) { if !visited_comments.contains(&comment) { // regions are not real comments if comment.text().trim().starts_with("// region:") { regions_starts.push(comment.syntax().text_range().start()); } else if comment.text().trim().starts_with("// endregion") { if let Some(region) = regions_starts.pop() { res.push(Fold { range: TextRange::new( region, comment.syntax().text_range().end(), ), kind: FoldKind::Region, }) } } else { if let Some(range) = contiguous_range_for_comment(comment, &mut visited_comments) { res.push(Fold { range, kind: FoldKind::Comment }) } } } } } NodeOrToken::Node(node) => { // Fold groups of imports if node.kind() == USE && !visited_imports.contains(&node) { if let Some(range) = contiguous_range_for_group(&node, &mut visited_imports) { res.push(Fold { range, kind: FoldKind::Imports }) } } // Fold groups of mods if node.kind() == MODULE && !has_visibility(&node) && !visited_mods.contains(&node) { if let Some(range) = contiguous_range_for_group_unless(&node, has_visibility, &mut visited_mods) { res.push(Fold { range, kind: FoldKind::Mods }) } } // Fold groups of consts if node.kind() == CONST && !visited_consts.contains(&node) { if let Some(range) = contiguous_range_for_group(&node, &mut visited_consts) { res.push(Fold { range, kind: FoldKind::Consts }) } } // Fold groups of consts if node.kind() == STATIC && !visited_statics.contains(&node) { if let Some(range) = contiguous_range_for_group(&node, &mut visited_statics) { res.push(Fold { range, kind: FoldKind::Statics }) } } // Fold where clause if node.kind() == WHERE_CLAUSE { if let Some(range) = fold_range_for_where_clause(&node) { res.push(Fold { range, kind: FoldKind::WhereClause }) } } } } } res } fn fold_kind(kind: SyntaxKind) -> Option { match kind { COMMENT => Some(FoldKind::Comment), ARG_LIST | PARAM_LIST => Some(FoldKind::ArgList), ARRAY_EXPR => Some(FoldKind::Array), RET_TYPE => Some(FoldKind::ReturnType), ASSOC_ITEM_LIST | RECORD_FIELD_LIST | RECORD_PAT_FIELD_LIST | RECORD_EXPR_FIELD_LIST | ITEM_LIST | EXTERN_ITEM_LIST | USE_TREE_LIST | BLOCK_EXPR | MATCH_ARM_LIST | VARIANT_LIST | TOKEN_TREE => Some(FoldKind::Block), _ => None, } } fn has_visibility(node: &SyntaxNode) -> bool { ast::Module::cast(node.clone()).and_then(|m| m.visibility()).is_some() } fn contiguous_range_for_group( first: &SyntaxNode, visited: &mut FxHashSet, ) -> Option { contiguous_range_for_group_unless(first, |_| false, visited) } fn contiguous_range_for_group_unless( first: &SyntaxNode, unless: impl Fn(&SyntaxNode) -> bool, visited: &mut FxHashSet, ) -> Option { visited.insert(first.clone()); let mut last = first.clone(); for element in first.siblings_with_tokens(Direction::Next) { let node = match element { NodeOrToken::Token(token) => { if let Some(ws) = ast::Whitespace::cast(token) { if !ws.spans_multiple_lines() { // Ignore whitespace without blank lines continue; } } // There is a blank line or another token, which means that the // group ends here break; } NodeOrToken::Node(node) => node, }; // Stop if we find a node that doesn't belong to the group if node.kind() != first.kind() || unless(&node) { break; } visited.insert(node.clone()); last = node; } if first != &last { Some(TextRange::new(first.text_range().start(), last.text_range().end())) } else { // The group consists of only one element, therefore it cannot be folded None } } fn contiguous_range_for_comment( first: ast::Comment, visited: &mut FxHashSet, ) -> Option { visited.insert(first.clone()); // Only fold comments of the same flavor let group_kind = first.kind(); if !group_kind.shape.is_line() { return None; } let mut last = first.clone(); for element in first.syntax().siblings_with_tokens(Direction::Next) { match element { NodeOrToken::Token(token) => { if let Some(ws) = ast::Whitespace::cast(token.clone()) { if !ws.spans_multiple_lines() { // Ignore whitespace without blank lines continue; } } if let Some(c) = ast::Comment::cast(token) { if c.kind() == group_kind { // regions are not real comments if c.text().trim().starts_with("// region:") || c.text().trim().starts_with("// endregion") { break; } else { visited.insert(c.clone()); last = c; continue; } } } // The comment group ends because either: // * An element of a different kind was reached // * A comment of a different flavor was reached break; } NodeOrToken::Node(_) => break, }; } if first != last { Some(TextRange::new(first.syntax().text_range().start(), last.syntax().text_range().end())) } else { // The group consists of only one element, therefore it cannot be folded None } } fn fold_range_for_where_clause(node: &SyntaxNode) -> Option { let first_where_pred = node.first_child(); let last_where_pred = node.last_child(); if first_where_pred != last_where_pred { let mut it = node.descendants_with_tokens(); if let (Some(_where_clause), Some(where_kw), Some(last_comma)) = (it.next(), it.next(), it.last()) { let start = where_kw.text_range().end(); let end = last_comma.text_range().end(); return Some(TextRange::new(start, end)); } } None } #[cfg(test)] mod tests { use test_utils::extract_tags; use super::*; fn check(ra_fixture: &str) { let (ranges, text) = extract_tags(ra_fixture, "fold"); let parse = SourceFile::parse(&text); let folds = folding_ranges(&parse.tree()); assert_eq!( folds.len(), ranges.len(), "The amount of folds is different than the expected amount" ); for (fold, (range, attr)) in folds.iter().zip(ranges.into_iter()) { assert_eq!(fold.range.start(), range.start()); assert_eq!(fold.range.end(), range.end()); let kind = match fold.kind { FoldKind::Comment => "comment", FoldKind::Imports => "imports", FoldKind::Mods => "mods", FoldKind::Block => "block", FoldKind::ArgList => "arglist", FoldKind::Region => "region", FoldKind::Consts => "consts", FoldKind::Statics => "statics", FoldKind::Array => "array", FoldKind::WhereClause => "whereclause", FoldKind::ReturnType => "returntype", }; assert_eq!(kind, &attr.unwrap()); } } #[test] fn test_fold_comments() { check( r#" // Hello // this is a multiline // comment // // But this is not fn main() { // We should // also // fold // this one. //! But this one is different //! because it has another flavor /* As does this multiline comment */ }"#, ); } #[test] fn test_fold_imports() { check( r#" use std::{ str, vec, io as iop }; fn main() { }"#, ); } #[test] fn test_fold_mods() { check( r#" pub mod foo; mod after_pub; mod after_pub_next; mod before_pub; mod before_pub_next; pub mod bar; mod not_folding_single; pub mod foobar; pub not_folding_single_next; #[cfg(test)] mod with_attribute; mod with_attribute_next; fn main() { }"#, ); } #[test] fn test_fold_import_groups() { check( r#" use std::str; use std::vec; use std::io as iop; use std::mem; use std::f64; use std::collections::HashMap; // Some random comment use std::collections::VecDeque; fn main() { }"#, ); } #[test] fn test_fold_import_and_groups() { check( r#" use std::str; use std::vec; use std::io as iop; use std::mem; use std::f64; use std::collections::{ HashMap, VecDeque, }; // Some random comment fn main() { }"#, ); } #[test] fn test_folds_structs() { check( r#" struct Foo { } "#, ); } #[test] fn test_folds_traits() { check( r#" trait Foo { } "#, ); } #[test] fn test_folds_macros() { check( r#" macro_rules! foo { ($($tt:tt)*) => { $($tt)* } } "#, ); } #[test] fn test_fold_match_arms() { check( r#" fn main() { match 0 { 0 => 0, _ => 1, } } "#, ); } #[test] fn fold_big_calls() { check( r#" fn main() { frobnicate( 1, 2, 3, ) } "#, ) } #[test] fn fold_record_literals() { check( r#" const _: S = S { }; "#, ) } #[test] fn fold_multiline_params() { check( r#" fn foo( x: i32, y: String, ) {} "#, ) } #[test] fn fold_multiline_array() { check( r#" const FOO: [usize; 4] = [ 1, 2, 3, 4, ]; "#, ) } #[test] fn fold_region() { check( r#" // 1. some normal comment // region: test // 2. some normal comment calling_function(x,y); // endregion: test "#, ) } #[test] fn fold_consecutive_const() { check( r#" const FIRST_CONST: &str = "first"; const SECOND_CONST: &str = "second"; "#, ) } #[test] fn fold_consecutive_static() { check( r#" static FIRST_STATIC: &str = "first"; static SECOND_STATIC: &str = "second"; "#, ) } #[test] fn fold_where_clause() { // fold multi-line and don't fold single line. check( r#" fn foo() where A: Foo, B: Foo, C: Foo, D: Foo, {} fn bar() where A: Bar, {} "#, ) } #[test] fn fold_return_type() { check( r#" fn foo()-> ( bool, bool, ) { (true, true) } fn bar() -> (bool, bool) { (true, true) } "#, ) } }