pub(crate) mod tags; mod highlights; mod injector; mod highlight; mod format; mod macro_; mod inject; mod escape; mod html; #[cfg(test)] mod tests; use hir::{Name, Semantics}; use ide_db::{FxHashMap, RootDatabase, SymbolKind}; use syntax::{ ast, AstNode, AstToken, NodeOrToken, SyntaxKind::*, SyntaxNode, TextRange, WalkEvent, T, }; use crate::{ syntax_highlighting::{ escape::highlight_escape_string, format::highlight_format_string, highlights::Highlights, macro_::MacroHighlighter, tags::Highlight, }, FileId, HlMod, HlOperator, HlPunct, HlTag, }; pub(crate) use html::highlight_as_html; #[derive(Debug, Clone, Copy)] pub struct HlRange { pub range: TextRange, pub highlight: Highlight, pub binding_hash: Option, } #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub struct HighlightConfig { /// Whether to highlight strings pub strings: bool, /// Whether to highlight punctuation pub punctuation: bool, /// Whether to specialize punctuation highlights pub specialize_punctuation: bool, /// Whether to highlight operator pub operator: bool, /// Whether to specialize operator highlights pub specialize_operator: bool, /// Whether to inject highlights into doc comments pub inject_doc_comment: bool, /// Whether to highlight the macro call bang pub macro_bang: bool, /// Whether to highlight unresolved things be their syntax pub syntactic_name_ref_highlighting: bool, } // Feature: Semantic Syntax Highlighting // // rust-analyzer highlights the code semantically. // For example, `Bar` in `foo::Bar` might be colored differently depending on whether `Bar` is an enum or a trait. // rust-analyzer does not specify colors directly, instead it assigns a tag (like `struct`) and a set of modifiers (like `declaration`) to each token. // It's up to the client to map those to specific colors. // // The general rule is that a reference to an entity gets colored the same way as the entity itself. // We also give special modifier for `mut` and `&mut` local variables. // // // .Token Tags // // Rust-analyzer currently emits the following token tags: // // - For items: // + // [horizontal] // attribute:: Emitted for attribute macros. // enum:: Emitted for enums. // function:: Emitted for free-standing functions. // derive:: Emitted for derive macros. // macro:: Emitted for function-like macros. // method:: Emitted for associated functions, also knowns as methods. // namespace:: Emitted for modules. // struct:: Emitted for structs. // trait:: Emitted for traits. // typeAlias:: Emitted for type aliases and `Self` in `impl`s. // union:: Emitted for unions. // // - For literals: // + // [horizontal] // boolean:: Emitted for the boolean literals `true` and `false`. // character:: Emitted for character literals. // number:: Emitted for numeric literals. // string:: Emitted for string literals. // escapeSequence:: Emitted for escaped sequences inside strings like `\n`. // formatSpecifier:: Emitted for format specifiers `{:?}` in `format!`-like macros. // // - For operators: // + // [horizontal] // operator:: Emitted for general operators. // arithmetic:: Emitted for the arithmetic operators `+`, `-`, `*`, `/`, `+=`, `-=`, `*=`, `/=`. // bitwise:: Emitted for the bitwise operators `|`, `&`, `!`, `^`, `|=`, `&=`, `^=`. // comparison:: Emitted for the comparison operators `>`, `<`, `==`, `>=`, `<=`, `!=`. // logical:: Emitted for the logical operators `||`, `&&`, `!`. // // - For punctuation: // + // [horizontal] // punctuation:: Emitted for general punctuation. // attributeBracket:: Emitted for attribute invocation brackets, that is the `#[` and `]` tokens. // angle:: Emitted for `<>` angle brackets. // brace:: Emitted for `{}` braces. // bracket:: Emitted for `[]` brackets. // parenthesis:: Emitted for `()` parentheses. // colon:: Emitted for the `:` token. // comma:: Emitted for the `,` token. // dot:: Emitted for the `.` token. // semi:: Emitted for the `;` token. // macroBang:: Emitted for the `!` token in macro calls. // // //- // // [horizontal] // builtinAttribute:: Emitted for names to builtin attributes in attribute path, the `repr` in `#[repr(u8)]` for example. // builtinType:: Emitted for builtin types like `u32`, `str` and `f32`. // comment:: Emitted for comments. // constParameter:: Emitted for const parameters. // deriveHelper:: Emitted for derive helper attributes. // enumMember:: Emitted for enum variants. // generic:: Emitted for generic tokens that have no mapping. // keyword:: Emitted for keywords. // label:: Emitted for labels. // lifetime:: Emitted for lifetimes. // parameter:: Emitted for non-self function parameters. // property:: Emitted for struct and union fields. // selfKeyword:: Emitted for the self function parameter and self path-specifier. // selfTypeKeyword:: Emitted for the Self type parameter. // toolModule:: Emitted for tool modules. // typeParameter:: Emitted for type parameters. // unresolvedReference:: Emitted for unresolved references, names that rust-analyzer can't find the definition of. // variable:: Emitted for locals, constants and statics. // // // .Token Modifiers // // Token modifiers allow to style some elements in the source code more precisely. // // Rust-analyzer currently emits the following token modifiers: // // [horizontal] // async:: Emitted for async functions and the `async` and `await` keywords. // attribute:: Emitted for tokens inside attributes. // callable:: Emitted for locals whose types implements one of the `Fn*` traits. // constant:: Emitted for consts. // consuming:: Emitted for locals that are being consumed when use in a function call. // controlFlow:: Emitted for control-flow related tokens, this includes the `?` operator. // crateRoot:: Emitted for crate names, like `serde` and `crate`. // declaration:: Emitted for names of definitions, like `foo` in `fn foo() {}`. // defaultLibrary:: Emitted for items from built-in crates (std, core, alloc, test and proc_macro). // documentation:: Emitted for documentation comments. // injected:: Emitted for doc-string injected highlighting like rust source blocks in documentation. // intraDocLink:: Emitted for intra doc links in doc-strings. // library:: Emitted for items that are defined outside of the current crate. // mutable:: Emitted for mutable locals and statics as well as functions taking `&mut self`. // public:: Emitted for items that are from the current crate and are `pub`. // reference:: Emitted for locals behind a reference and functions taking `self` by reference. // static:: Emitted for "static" functions, also known as functions that do not take a `self` param, as well as statics and consts. // trait:: Emitted for associated trait items. // unsafe:: Emitted for unsafe operations, like unsafe function calls, as well as the `unsafe` token. // // // image::https://user-images.githubusercontent.com/48062697/113164457-06cfb980-9239-11eb-819b-0f93e646acf8.png[] // image::https://user-images.githubusercontent.com/48062697/113187625-f7f50100-9250-11eb-825e-91c58f236071.png[] pub(crate) fn highlight( db: &RootDatabase, config: HighlightConfig, file_id: FileId, range_to_highlight: Option, ) -> Vec { let _p = profile::span("highlight"); let sema = Semantics::new(db); // Determine the root based on the given range. let (root, range_to_highlight) = { let source_file = sema.parse(file_id); let source_file = source_file.syntax(); match range_to_highlight { Some(range) => { let node = match source_file.covering_element(range) { NodeOrToken::Node(it) => it, NodeOrToken::Token(it) => it.parent().unwrap_or_else(|| source_file.clone()), }; (node, range) } None => (source_file.clone(), source_file.text_range()), } }; let mut hl = highlights::Highlights::new(root.text_range()); let krate = match sema.scope(&root) { Some(it) => it.krate(), None => return hl.to_vec(), }; traverse(&mut hl, &sema, config, file_id, &root, krate, range_to_highlight); hl.to_vec() } fn traverse( hl: &mut Highlights, sema: &Semantics<'_, RootDatabase>, config: HighlightConfig, file_id: FileId, root: &SyntaxNode, krate: hir::Crate, range_to_highlight: TextRange, ) { let is_unlinked = sema.to_module_def(file_id).is_none(); let mut bindings_shadow_count: FxHashMap = FxHashMap::default(); enum AttrOrDerive { Attr(ast::Item), Derive(ast::Item), } impl AttrOrDerive { fn item(&self) -> &ast::Item { match self { AttrOrDerive::Attr(item) | AttrOrDerive::Derive(item) => item, } } } let mut tt_level = 0; let mut attr_or_derive_item = None; let mut current_macro: Option = None; let mut macro_highlighter = MacroHighlighter::default(); let mut inside_attribute = false; // Walk all nodes, keeping track of whether we are inside a macro or not. // If in macro, expand it first and highlight the expanded code. for event in root.preorder_with_tokens() { use WalkEvent::{Enter, Leave}; let range = match &event { Enter(it) | Leave(it) => it.text_range(), }; // Element outside of the viewport, no need to highlight if range_to_highlight.intersect(range).is_none() { continue; } // set macro and attribute highlighting states match event.clone() { Enter(NodeOrToken::Node(node)) if ast::TokenTree::can_cast(node.kind()) => { tt_level += 1; } Leave(NodeOrToken::Node(node)) if ast::TokenTree::can_cast(node.kind()) => { tt_level -= 1; } Enter(NodeOrToken::Node(node)) if ast::Attr::can_cast(node.kind()) => { inside_attribute = true } Leave(NodeOrToken::Node(node)) if ast::Attr::can_cast(node.kind()) => { inside_attribute = false } Enter(NodeOrToken::Node(node)) if ast::Item::can_cast(node.kind()) => { match ast::Item::cast(node.clone()) { Some(ast::Item::MacroRules(mac)) => { macro_highlighter.init(); current_macro = Some(mac.into()); continue; } Some(ast::Item::MacroDef(mac)) => { macro_highlighter.init(); current_macro = Some(mac.into()); continue; } Some(item) => { if matches!(node.kind(), FN | CONST | STATIC) { bindings_shadow_count.clear(); } if attr_or_derive_item.is_none() { if sema.is_attr_macro_call(&item) { attr_or_derive_item = Some(AttrOrDerive::Attr(item)); } else { let adt = match item { ast::Item::Enum(it) => Some(ast::Adt::Enum(it)), ast::Item::Struct(it) => Some(ast::Adt::Struct(it)), ast::Item::Union(it) => Some(ast::Adt::Union(it)), _ => None, }; match adt { Some(adt) if sema.is_derive_annotated(&adt) => { attr_or_derive_item = Some(AttrOrDerive::Derive(ast::Item::from(adt))); } _ => (), } } } } _ => (), } } Leave(NodeOrToken::Node(node)) if ast::Item::can_cast(node.kind()) => { match ast::Item::cast(node.clone()) { Some(ast::Item::MacroRules(mac)) => { assert_eq!(current_macro, Some(mac.into())); current_macro = None; macro_highlighter = MacroHighlighter::default(); } Some(ast::Item::MacroDef(mac)) => { assert_eq!(current_macro, Some(mac.into())); current_macro = None; macro_highlighter = MacroHighlighter::default(); } Some(item) if attr_or_derive_item.as_ref().map_or(false, |it| *it.item() == item) => { attr_or_derive_item = None; } _ => (), } } _ => (), } let element = match event { Enter(NodeOrToken::Token(tok)) if tok.kind() == WHITESPACE => continue, Enter(it) => it, Leave(NodeOrToken::Token(_)) => continue, Leave(NodeOrToken::Node(node)) => { if config.inject_doc_comment { // Doc comment highlighting injection, we do this when leaving the node // so that we overwrite the highlighting of the doc comment itself. inject::doc_comment(hl, sema, config, file_id, &node); } continue; } }; if current_macro.is_some() { if let Some(tok) = element.as_token() { macro_highlighter.advance(tok); } } let element = match element.clone() { NodeOrToken::Node(n) => match ast::NameLike::cast(n) { Some(n) => NodeOrToken::Node(n), None => continue, }, NodeOrToken::Token(t) => NodeOrToken::Token(t), }; let token = element.as_token().cloned(); // Descending tokens into macros is expensive even if no descending occurs, so make sure // that we actually are in a position where descending is possible. let in_macro = tt_level > 0 || match attr_or_derive_item { Some(AttrOrDerive::Attr(_)) => true, Some(AttrOrDerive::Derive(_)) => inside_attribute, None => false, }; let descended_element = if in_macro { // Attempt to descend tokens into macro-calls. match element { NodeOrToken::Token(token) if token.kind() != COMMENT => { let token = match attr_or_derive_item { Some(AttrOrDerive::Attr(_)) => { sema.descend_into_macros_with_kind_preference(token) } Some(AttrOrDerive::Derive(_)) | None => { sema.descend_into_macros_single(token) } }; match token.parent().and_then(ast::NameLike::cast) { // Remap the token into the wrapping single token nodes Some(parent) => match (token.kind(), parent.syntax().kind()) { (T![self] | T![ident], NAME | NAME_REF) => NodeOrToken::Node(parent), (T![self] | T![super] | T![crate] | T![Self], NAME_REF) => { NodeOrToken::Node(parent) } (INT_NUMBER, NAME_REF) => NodeOrToken::Node(parent), (LIFETIME_IDENT, LIFETIME) => NodeOrToken::Node(parent), _ => NodeOrToken::Token(token), }, None => NodeOrToken::Token(token), } } e => e, } } else { element }; // FIXME: do proper macro def highlighting https://github.com/rust-lang/rust-analyzer/issues/6232 // Skip metavariables from being highlighted to prevent keyword highlighting in them if descended_element.as_token().and_then(|t| macro_highlighter.highlight(t)).is_some() { continue; } // string highlight injections, note this does not use the descended element as proc-macros // can rewrite string literals which invalidates our indices if let (Some(token), Some(descended_token)) = (token, descended_element.as_token()) { if ast::String::can_cast(token.kind()) && ast::String::can_cast(descended_token.kind()) { let string = ast::String::cast(token); let string_to_highlight = ast::String::cast(descended_token.clone()); if let Some((string, expanded_string)) = string.zip(string_to_highlight) { if string.is_raw() && inject::ra_fixture(hl, sema, config, &string, &expanded_string).is_some() { continue; } highlight_format_string(hl, &string, &expanded_string, range); highlight_escape_string(hl, &string, range.start()); } } else if ast::ByteString::can_cast(token.kind()) && ast::ByteString::can_cast(descended_token.kind()) { if let Some(byte_string) = ast::ByteString::cast(token) { highlight_escape_string(hl, &byte_string, range.start()); } } } let element = match descended_element { NodeOrToken::Node(name_like) => highlight::name_like( sema, krate, &mut bindings_shadow_count, config.syntactic_name_ref_highlighting, name_like, ), NodeOrToken::Token(token) => highlight::token(sema, token).zip(Some(None)), }; if let Some((mut highlight, binding_hash)) = element { if is_unlinked && highlight.tag == HlTag::UnresolvedReference { // do not emit unresolved references if the file is unlinked // let the editor do its highlighting for these tokens instead continue; } if highlight.tag == HlTag::UnresolvedReference && matches!(attr_or_derive_item, Some(AttrOrDerive::Derive(_)) if inside_attribute) { // do not emit unresolved references in derive helpers if the token mapping maps to // something unresolvable. FIXME: There should be a way to prevent that continue; } // apply config filtering match &mut highlight.tag { HlTag::StringLiteral if !config.strings => continue, // If punctuation is disabled, make the macro bang part of the macro call again. tag @ HlTag::Punctuation(HlPunct::MacroBang) => { if !config.macro_bang { *tag = HlTag::Symbol(SymbolKind::Macro); } else if !config.specialize_punctuation { *tag = HlTag::Punctuation(HlPunct::Other); } } HlTag::Punctuation(_) if !config.punctuation => continue, tag @ HlTag::Punctuation(_) if !config.specialize_punctuation => { *tag = HlTag::Punctuation(HlPunct::Other); } HlTag::Operator(_) if !config.operator && highlight.mods.is_empty() => continue, tag @ HlTag::Operator(_) if !config.specialize_operator => { *tag = HlTag::Operator(HlOperator::Other); } _ => (), } if inside_attribute { highlight |= HlMod::Attribute } hl.add(HlRange { range, highlight, binding_hash }); } } }