1use crate::{kind::MarkdownSyntaxKind, language::MarkdownLanguage};
2use core::range::Range;
3use futures::{Future, FutureExt};
4use oak_core::{ElementRole, ElementType, Source, TokenType, tree::RedNode};
5use oak_hover::{Hover as HoverInfo, HoverProvider};
6use oak_lsp::{service::LanguageService, types::Hover as LspHover};
7use oak_vfs::Vfs;
8
9pub struct MarkdownHoverProvider;
11
12impl HoverProvider<MarkdownLanguage> for MarkdownHoverProvider {
13 fn hover(&self, node: &RedNode<'_, MarkdownLanguage>, _range: Range<usize>) -> Option<HoverInfo> {
14 let kind = node.green.kind;
15
16 let contents = match kind {
17 MarkdownSyntaxKind::Heading1 => "### Heading 1\nTop-level heading.",
18 MarkdownSyntaxKind::Heading2 => "### Heading 2\nSecond-level heading.",
19 MarkdownSyntaxKind::Link => "### Markdown Link\nLink to an external resource or internal anchor.",
20 MarkdownSyntaxKind::CodeBlock => "### Code Block\nA block of source code.",
21 MarkdownSyntaxKind::Strong => "### Strong Emphasis\nBold text.",
22 MarkdownSyntaxKind::Emphasis => "### Emphasis\nItalic text.",
23 _ => return None,
24 };
25
26 Some(HoverInfo { contents: contents.to_string(), range: Some(node.span()) })
27 }
28}
29
30pub struct MarkdownLanguageService<V: Vfs> {
31 vfs: V,
32 workspace: oak_lsp::workspace::WorkspaceManager,
33 hover_provider: MarkdownHoverProvider,
34}
35
36impl<V: Vfs> MarkdownLanguageService<V> {
37 pub fn new(vfs: V) -> Self {
38 Self { vfs, workspace: oak_lsp::workspace::WorkspaceManager::new(), hover_provider: MarkdownHoverProvider }
39 }
40
41 fn collect_definitions(&self, node: &RedNode<MarkdownLanguage>, name: &str, source: &str, uri: &str, definitions: &mut Vec<oak_lsp::LocationRange>) {
42 use oak_core::{language::UniversalElementRole, tree::RedTree};
43
44 let role = ElementType::role(&node.green.kind);
45 if ElementRole::universal(&role) == UniversalElementRole::Definition {
46 for child in node.children() {
47 if let RedTree::Leaf(leaf) = child {
48 if TokenType::is_universal(&leaf.kind, oak_core::language::UniversalTokenRole::Name) {
49 if &source[leaf.span.clone()] == name {
50 definitions.push(oak_lsp::LocationRange { uri: uri.into(), range: leaf.span });
51 return;
52 }
53 }
54 }
55 }
56 }
57
58 for child in node.children() {
59 if let RedTree::Node(child_node) = child {
60 self.collect_definitions(&child_node, name, source, uri, definitions);
61 }
62 }
63 }
64}
65
66impl<V: Vfs + Send + Sync + 'static + oak_vfs::WritableVfs> LanguageService for MarkdownLanguageService<V> {
67 type Lang = MarkdownLanguage;
68 type Vfs = V;
69
70 fn vfs(&self) -> &Self::Vfs {
71 &self.vfs
72 }
73
74 fn workspace(&self) -> &oak_lsp::workspace::WorkspaceManager {
75 &self.workspace
76 }
77
78 fn get_root(&self, _uri: &str) -> impl Future<Output = Option<RedNode<'_, MarkdownLanguage>>> + Send + '_ {
79 async move { None }
80 }
81
82 fn definition<'a>(&'a self, uri: &'a str, range: Range<usize>) -> impl Future<Output = Vec<oak_lsp::LocationRange>> + Send + 'a {
83 let uri = uri.to_string();
84 async move {
85 let root = self.get_root(&uri).await?;
86 let source = self.vfs().get_source(&uri)?;
87 let leaf = root.leaf_at_offset(range.start)?;
88
89 if !TokenType::is_universal(&leaf.kind, oak_core::language::UniversalTokenRole::Name) {
90 return None;
91 }
92
93 let name = source.get_text_in(leaf.span.clone());
94 let mut definitions = Vec::new();
95 let full_text = source.get_text_in(Range { start: 0, end: source.length() });
96 self.collect_definitions(&root, &name, &full_text, &uri, &mut definitions);
97 Some(definitions)
98 }
99 .map(|opt| opt.unwrap_or_default())
100 }
101
102 fn references<'a>(&'a self, uri: &'a str, range: Range<usize>) -> impl Future<Output = Vec<oak_lsp::LocationRange>> + Send + 'a {
103 let uri = uri.to_string();
104 async move {
105 let root = self.get_root(&uri).await?;
106 let source = self.vfs().get_source(&uri)?;
107 let leaf = root.leaf_at_offset(range.start)?;
108
109 if !TokenType::is_universal(&leaf.kind, oak_core::language::UniversalTokenRole::Name) {
110 return None;
111 }
112
113 let name = source.get_text_in(leaf.span.clone());
114 let name = name.to_string();
115
116 let mut all_refs = Vec::new();
117 let files = self.list_all_files(&uri).await;
118
119 for file_uri in files {
120 if let Some(file_root) = self.get_root(&file_uri).await {
121 if let Some(file_source) = self.vfs().get_source(&file_uri) {
122 let full_text = file_source.get_text_in(Range { start: 0, end: file_source.length() });
123 let refs = oak_navigation::SimpleReferenceFinder::find(&file_root, &name, &full_text, file_uri.clone());
124 all_refs.extend(refs.into_iter().map(|l| oak_lsp::LocationRange { uri: l.uri, range: l.range }));
125 }
126 }
127 }
128
129 Some(all_refs)
130 }
131 .map(|opt| opt.unwrap_or_default())
132 }
133
134 fn rename<'a>(&'a self, uri: &'a str, range: Range<usize>, new_name: String) -> impl Future<Output = Option<oak_lsp::WorkspaceEdit>> + Send + 'a {
135 let uri = uri.to_string();
136 async move {
137 let refs = self.references(&uri, range).await;
138 if refs.is_empty() {
139 return None;
140 }
141
142 let mut changes = std::collections::HashMap::new();
143 for r in refs {
144 changes.entry(r.uri.to_string()).or_insert_with(Vec::new).push(oak_lsp::TextEdit { range: r.range, new_text: new_name.clone() });
145 }
146 Some(oak_lsp::WorkspaceEdit { changes })
147 }
148 }
149
150 fn hover(&self, uri: &str, range: Range<usize>) -> impl Future<Output = Option<LspHover>> + Send + '_ {
151 let uri = uri.to_string();
152 async move { self.with_root(&uri, |root| self.hover_provider.hover(&root, range).map(|h| LspHover { contents: h.contents, range: h.range })).await.flatten() }
153 }
154}