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denoland-deno/cli/lsp/documents.rs

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use super::cache::calculate_fs_version;
use super::text::LineIndex;
use super::tsc;
use super::tsc::AssetDocument;
use crate::args::ConfigFile;
use crate::file_fetcher::get_source_from_bytes;
use crate::file_fetcher::map_content_type;
use crate::file_fetcher::SUPPORTED_SCHEMES;
use crate::fs_util::specifier_to_file_path;
use crate::http_cache;
use crate::http_cache::HttpCache;
use crate::resolver::ImportMapResolver;
use crate::resolver::JsxResolver;
use crate::text_encoding;
use deno_ast::MediaType;
use deno_ast::SourceTextInfo;
use deno_core::error::custom_error;
use deno_core::error::AnyError;
use deno_core::parking_lot::Mutex;
use deno_core::url;
use deno_core::ModuleSpecifier;
use deno_graph::Module;
use deno_graph::Resolved;
use once_cell::sync::Lazy;
use std::collections::BTreeMap;
use std::collections::HashMap;
use std::collections::HashSet;
use std::fs;
use std::ops::Range;
use std::path::Path;
use std::path::PathBuf;
use std::str::FromStr;
use std::sync::Arc;
use tower_lsp::lsp_types as lsp;
static JS_HEADERS: Lazy<HashMap<String, String>> = Lazy::new(|| {
([(
"content-type".to_string(),
"application/javascript".to_string(),
)])
.iter()
.cloned()
.collect()
});
static JSX_HEADERS: Lazy<HashMap<String, String>> = Lazy::new(|| {
([("content-type".to_string(), "text/jsx".to_string())])
.iter()
.cloned()
.collect()
});
static TS_HEADERS: Lazy<HashMap<String, String>> = Lazy::new(|| {
([(
"content-type".to_string(),
"application/typescript".to_string(),
)])
.iter()
.cloned()
.collect()
});
static TSX_HEADERS: Lazy<HashMap<String, String>> = Lazy::new(|| {
([("content-type".to_string(), "text/tsx".to_string())])
.iter()
.cloned()
.collect()
});
/// The default parser from `deno_graph` does not include the configuration
/// options we require here, and so implementing an empty struct that provides
/// the trait.
#[derive(Debug, Default)]
struct SourceParser {}
impl deno_graph::SourceParser for SourceParser {
fn parse_module(
&self,
specifier: &ModuleSpecifier,
source: Arc<str>,
media_type: MediaType,
) -> Result<deno_ast::ParsedSource, deno_ast::Diagnostic> {
deno_ast::parse_module(deno_ast::ParseParams {
specifier: specifier.to_string(),
text_info: SourceTextInfo::new(source),
media_type,
capture_tokens: true,
scope_analysis: true,
maybe_syntax: None,
})
}
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum LanguageId {
JavaScript,
Jsx,
TypeScript,
Tsx,
Json,
JsonC,
Markdown,
Unknown,
}
impl LanguageId {
fn as_headers(&self) -> Option<&HashMap<String, String>> {
match self {
Self::JavaScript => Some(&JS_HEADERS),
Self::Jsx => Some(&JSX_HEADERS),
Self::TypeScript => Some(&TS_HEADERS),
Self::Tsx => Some(&TSX_HEADERS),
_ => None,
}
}
fn is_diagnosable(&self) -> bool {
matches!(
self,
Self::JavaScript | Self::Jsx | Self::TypeScript | Self::Tsx
)
}
}
impl FromStr for LanguageId {
type Err = AnyError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s {
"javascript" => Ok(Self::JavaScript),
"javascriptreact" | "jsx" => Ok(Self::Jsx),
"typescript" => Ok(Self::TypeScript),
"typescriptreact" | "tsx" => Ok(Self::Tsx),
"json" => Ok(Self::Json),
"jsonc" => Ok(Self::JsonC),
"markdown" => Ok(Self::Markdown),
_ => Ok(Self::Unknown),
}
}
}
#[derive(Debug, PartialEq, Eq)]
enum IndexValid {
All,
UpTo(u32),
}
impl IndexValid {
fn covers(&self, line: u32) -> bool {
match *self {
IndexValid::UpTo(to) => to > line,
IndexValid::All => true,
}
}
}
#[derive(Debug, Clone)]
pub enum AssetOrDocument {
Document(Document),
Asset(AssetDocument),
}
impl AssetOrDocument {
pub fn specifier(&self) -> &ModuleSpecifier {
match self {
AssetOrDocument::Asset(asset) => asset.specifier(),
AssetOrDocument::Document(doc) => doc.specifier(),
}
}
pub fn document(&self) -> Option<&Document> {
match self {
AssetOrDocument::Asset(_) => None,
AssetOrDocument::Document(doc) => Some(doc),
}
}
pub fn text(&self) -> Arc<str> {
match self {
AssetOrDocument::Asset(a) => a.text(),
AssetOrDocument::Document(d) => d.0.text_info.text(),
}
}
pub fn line_index(&self) -> Arc<LineIndex> {
match self {
AssetOrDocument::Asset(a) => a.line_index(),
AssetOrDocument::Document(d) => d.line_index(),
}
}
pub fn maybe_navigation_tree(&self) -> Option<Arc<tsc::NavigationTree>> {
match self {
AssetOrDocument::Asset(a) => a.maybe_navigation_tree(),
AssetOrDocument::Document(d) => d.maybe_navigation_tree(),
}
}
pub fn media_type(&self) -> MediaType {
match self {
AssetOrDocument::Asset(_) => MediaType::TypeScript, // assets are always TypeScript
AssetOrDocument::Document(d) => d.media_type(),
}
}
pub fn get_maybe_dependency(
&self,
position: &lsp::Position,
) -> Option<(String, deno_graph::Dependency, deno_graph::Range)> {
self
.document()
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.and_then(|d| d.get_maybe_dependency(position))
}
pub fn maybe_parsed_source(
&self,
) -> Option<Result<deno_ast::ParsedSource, deno_graph::ModuleGraphError>> {
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self.document().and_then(|d| d.maybe_parsed_source())
}
pub fn document_lsp_version(&self) -> Option<i32> {
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self.document().and_then(|d| d.maybe_lsp_version())
}
pub fn is_open(&self) -> bool {
self.document().map(|d| d.is_open()).unwrap_or(false)
}
}
#[derive(Debug, Clone)]
struct DocumentInner {
/// contains the last-known-good set of dependencies from parsing the module
dependencies: Arc<BTreeMap<String, deno_graph::Dependency>>,
fs_version: String,
line_index: Arc<LineIndex>,
maybe_language_id: Option<LanguageId>,
maybe_lsp_version: Option<i32>,
maybe_module:
Option<Result<deno_graph::Module, deno_graph::ModuleGraphError>>,
maybe_navigation_tree: Option<Arc<tsc::NavigationTree>>,
specifier: ModuleSpecifier,
text_info: SourceTextInfo,
}
#[derive(Debug, Clone)]
pub struct Document(Arc<DocumentInner>);
impl Document {
fn new(
specifier: ModuleSpecifier,
fs_version: String,
maybe_headers: Option<&HashMap<String, String>>,
content: Arc<str>,
maybe_resolver: Option<&dyn deno_graph::source::Resolver>,
) -> Self {
let parser = SourceParser::default();
// we only ever do `Document::new` on on disk resources that are supposed to
// be diagnosable, unlike `Document::open`, so it is safe to unconditionally
// parse the module.
let maybe_module = Some(deno_graph::parse_module(
&specifier,
maybe_headers,
content.clone(),
Some(&deno_graph::ModuleKind::Esm),
maybe_resolver,
Some(&parser),
));
let dependencies = if let Some(Ok(module)) = &maybe_module {
Arc::new(module.dependencies.clone())
} else {
Arc::new(BTreeMap::new())
};
let text_info = SourceTextInfo::new(content);
let line_index = Arc::new(LineIndex::new(text_info.text_str()));
Self(Arc::new(DocumentInner {
dependencies,
fs_version,
line_index,
maybe_language_id: None,
maybe_lsp_version: None,
maybe_module,
maybe_navigation_tree: None,
text_info,
specifier,
}))
}
fn open(
specifier: ModuleSpecifier,
version: i32,
language_id: LanguageId,
content: Arc<str>,
maybe_resolver: Option<&dyn deno_graph::source::Resolver>,
) -> Self {
let maybe_headers = language_id.as_headers();
let parser = SourceParser::default();
let maybe_module = if language_id.is_diagnosable() {
Some(deno_graph::parse_module(
&specifier,
maybe_headers,
content.clone(),
Some(&deno_graph::ModuleKind::Esm),
maybe_resolver,
Some(&parser),
))
} else {
None
};
let dependencies = if let Some(Ok(module)) = &maybe_module {
Arc::new(module.dependencies.clone())
} else {
Arc::new(BTreeMap::new())
};
let source = SourceTextInfo::new(content);
let line_index = Arc::new(LineIndex::new(source.text_str()));
Self(Arc::new(DocumentInner {
dependencies,
fs_version: "1".to_string(),
line_index,
maybe_language_id: Some(language_id),
maybe_lsp_version: Some(version),
maybe_module,
maybe_navigation_tree: None,
text_info: source,
specifier,
}))
}
fn with_change(
&self,
version: i32,
changes: Vec<lsp::TextDocumentContentChangeEvent>,
maybe_resolver: Option<&dyn deno_graph::source::Resolver>,
) -> Result<Document, AnyError> {
let mut content = self.0.text_info.text_str().to_string();
let mut line_index = self.0.line_index.clone();
let mut index_valid = IndexValid::All;
for change in changes {
if let Some(range) = change.range {
if !index_valid.covers(range.start.line) {
line_index = Arc::new(LineIndex::new(&content));
}
index_valid = IndexValid::UpTo(range.start.line);
let range = line_index.get_text_range(range)?;
content.replace_range(Range::<usize>::from(range), &change.text);
} else {
content = change.text;
index_valid = IndexValid::UpTo(0);
}
}
let content: Arc<str> = content.into();
let maybe_module = if self
.0
.maybe_language_id
.as_ref()
.map(|li| li.is_diagnosable())
.unwrap_or(false)
{
let maybe_headers = self
.0
.maybe_language_id
.as_ref()
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.and_then(|li| li.as_headers());
let parser = SourceParser::default();
Some(deno_graph::parse_module(
&self.0.specifier,
maybe_headers,
content.clone(),
Some(&deno_graph::ModuleKind::Esm),
maybe_resolver,
Some(&parser),
))
} else {
None
};
let dependencies = if let Some(Ok(module)) = &maybe_module {
Arc::new(module.dependencies.clone())
} else {
self.0.dependencies.clone()
};
let text_info = SourceTextInfo::new(content);
let line_index = if index_valid == IndexValid::All {
line_index
} else {
Arc::new(LineIndex::new(text_info.text_str()))
};
Ok(Document(Arc::new(DocumentInner {
dependencies,
text_info,
line_index,
maybe_module,
maybe_lsp_version: Some(version),
maybe_navigation_tree: None,
..(*self.0).clone()
})))
}
fn with_navigation_tree(
&self,
navigation_tree: Arc<tsc::NavigationTree>,
) -> Document {
Document(Arc::new(DocumentInner {
maybe_navigation_tree: Some(navigation_tree),
..(*self.0).clone()
}))
}
pub fn specifier(&self) -> &ModuleSpecifier {
&self.0.specifier
}
pub fn content(&self) -> Arc<str> {
self.0.text_info.text()
}
pub fn text_info(&self) -> SourceTextInfo {
self.0.text_info.clone()
}
pub fn line_index(&self) -> Arc<LineIndex> {
self.0.line_index.clone()
}
fn fs_version(&self) -> &str {
self.0.fs_version.as_str()
}
pub fn script_version(&self) -> String {
self
.maybe_lsp_version()
.map_or_else(|| self.fs_version().to_string(), |v| v.to_string())
}
pub fn is_diagnosable(&self) -> bool {
matches!(
self.media_type(),
MediaType::JavaScript
| MediaType::Jsx
| MediaType::Mjs
| MediaType::Cjs
| MediaType::TypeScript
| MediaType::Tsx
| MediaType::Mts
| MediaType::Cts
| MediaType::Dts
| MediaType::Dmts
| MediaType::Dcts
)
}
pub fn is_open(&self) -> bool {
self.0.maybe_lsp_version.is_some()
}
pub fn maybe_types_dependency(&self) -> deno_graph::Resolved {
let module_result = match self.0.maybe_module.as_ref() {
Some(module_result) => module_result,
_ => return deno_graph::Resolved::None,
};
let module = match module_result.as_ref() {
Ok(module) => module,
Err(_) => return deno_graph::Resolved::None,
};
if let Some((_, maybe_dep)) = module.maybe_types_dependency.as_ref() {
maybe_dep.clone()
} else {
deno_graph::Resolved::None
}
}
pub fn media_type(&self) -> MediaType {
if let Some(Ok(module)) = &self.0.maybe_module {
module.media_type
} else {
MediaType::from(&self.0.specifier)
}
}
/// Returns the current language server client version if any.
pub fn maybe_lsp_version(&self) -> Option<i32> {
self.0.maybe_lsp_version
}
fn maybe_module(
&self,
) -> Option<&Result<deno_graph::Module, deno_graph::ModuleGraphError>> {
self.0.maybe_module.as_ref()
}
pub fn maybe_parsed_source(
&self,
) -> Option<Result<deno_ast::ParsedSource, deno_graph::ModuleGraphError>> {
let module_result = self.maybe_module()?;
match module_result {
Ok(module) => Some(Ok(module.maybe_parsed_source.clone()?)),
Err(err) => Some(Err(err.clone())),
}
}
pub fn maybe_navigation_tree(&self) -> Option<Arc<tsc::NavigationTree>> {
self.0.maybe_navigation_tree.clone()
}
pub fn dependencies(&self) -> Vec<(String, deno_graph::Dependency)> {
self
.0
.dependencies
.iter()
.map(|(s, d)| (s.clone(), d.clone()))
.collect()
}
/// If the supplied position is within a dependency range, return the resolved
/// string specifier for the dependency, the resolved dependency and the range
/// in the source document of the specifier.
pub fn get_maybe_dependency(
&self,
position: &lsp::Position,
) -> Option<(String, deno_graph::Dependency, deno_graph::Range)> {
let module = self.maybe_module()?.as_ref().ok()?;
let position = deno_graph::Position {
line: position.line as usize,
character: position.character as usize,
};
module.dependencies.iter().find_map(|(s, dep)| {
dep
.includes(&position)
.map(|r| (s.clone(), dep.clone(), r.clone()))
})
}
}
pub fn to_hover_text(result: &Resolved) -> String {
match result {
Resolved::Ok { specifier, .. } => match specifier.scheme() {
"data" => "_(a data url)_".to_string(),
"blob" => "_(a blob url)_".to_string(),
_ => format!(
"{}&#8203;{}",
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&specifier[..url::Position::AfterScheme],
&specifier[url::Position::AfterScheme..],
)
.replace('@', "&#8203;@"),
},
Resolved::Err(_) => "_[errored]_".to_string(),
Resolved::None => "_[missing]_".to_string(),
}
}
pub fn to_lsp_range(range: &deno_graph::Range) -> lsp::Range {
lsp::Range {
start: lsp::Position {
line: range.start.line as u32,
character: range.start.character as u32,
},
end: lsp::Position {
line: range.end.line as u32,
character: range.end.character as u32,
},
}
}
/// Recurse and collect specifiers that appear in the dependent map.
fn recurse_dependents(
specifier: &ModuleSpecifier,
map: &HashMap<ModuleSpecifier, HashSet<ModuleSpecifier>>,
dependents: &mut HashSet<ModuleSpecifier>,
) {
if let Some(deps) = map.get(specifier) {
for dep in deps {
if !dependents.contains(dep) {
dependents.insert(dep.clone());
recurse_dependents(dep, map, dependents);
}
}
}
}
#[derive(Debug, Default)]
struct SpecifierResolver {
cache: HttpCache,
redirects: Mutex<HashMap<ModuleSpecifier, ModuleSpecifier>>,
}
impl SpecifierResolver {
pub fn new(cache_path: &Path) -> Self {
Self {
cache: HttpCache::new(cache_path),
redirects: Mutex::new(HashMap::new()),
}
}
pub fn resolve(
&self,
specifier: &ModuleSpecifier,
) -> Option<ModuleSpecifier> {
let scheme = specifier.scheme();
if !SUPPORTED_SCHEMES.contains(&scheme) {
return None;
}
if scheme == "data" || scheme == "blob" || scheme == "file" {
Some(specifier.clone())
} else {
let mut redirects = self.redirects.lock();
if let Some(specifier) = redirects.get(specifier) {
Some(specifier.clone())
} else {
let redirect = self.resolve_remote(specifier, 10)?;
redirects.insert(specifier.clone(), redirect.clone());
Some(redirect)
}
}
}
fn resolve_remote(
&self,
specifier: &ModuleSpecifier,
redirect_limit: usize,
) -> Option<ModuleSpecifier> {
let cache_filename = self.cache.get_cache_filename(specifier)?;
if redirect_limit > 0 && cache_filename.is_file() {
let headers = http_cache::Metadata::read(&cache_filename)
.ok()
.map(|m| m.headers)?;
if let Some(location) = headers.get("location") {
let redirect =
deno_core::resolve_import(location, specifier.as_str()).ok()?;
self.resolve_remote(&redirect, redirect_limit - 1)
} else {
Some(specifier.clone())
}
} else {
None
}
}
}
#[derive(Debug, Default)]
struct FileSystemDocuments {
docs: HashMap<ModuleSpecifier, Document>,
dirty: bool,
}
impl FileSystemDocuments {
/// Adds or updates a document by reading the document from the file system
/// returning the document.
fn refresh_document(
&mut self,
cache: &HttpCache,
maybe_resolver: Option<&dyn deno_graph::source::Resolver>,
specifier: &ModuleSpecifier,
) -> Option<Document> {
let path = get_document_path(cache, specifier)?;
let fs_version = calculate_fs_version(&path)?;
let bytes = fs::read(path).ok()?;
let doc = if specifier.scheme() == "file" {
let maybe_charset =
Some(text_encoding::detect_charset(&bytes).to_string());
let content = get_source_from_bytes(bytes, maybe_charset).ok()?;
Document::new(
specifier.clone(),
fs_version,
None,
content.into(),
maybe_resolver,
)
} else {
let cache_filename = cache.get_cache_filename(specifier)?;
let specifier_metadata =
http_cache::Metadata::read(&cache_filename).ok()?;
let maybe_content_type =
specifier_metadata.headers.get("content-type").cloned();
let maybe_headers = Some(&specifier_metadata.headers);
let (_, maybe_charset) = map_content_type(specifier, maybe_content_type);
let content = get_source_from_bytes(bytes, maybe_charset).ok()?;
Document::new(
specifier.clone(),
fs_version,
maybe_headers,
content.into(),
maybe_resolver,
)
};
self.dirty = true;
self.docs.insert(specifier.clone(), doc.clone());
Some(doc)
}
}
fn get_document_path(
cache: &HttpCache,
specifier: &ModuleSpecifier,
) -> Option<PathBuf> {
if specifier.scheme() == "file" {
specifier_to_file_path(specifier).ok()
} else {
cache.get_cache_filename(specifier)
}
}
#[derive(Debug, Clone, Default)]
pub struct Documents {
/// The DENO_DIR that the documents looks for non-file based modules.
cache: HttpCache,
/// A flag that indicates that stated data is potentially invalid and needs to
/// be recalculated before being considered valid.
dirty: bool,
/// A map where the key is a specifier and the value is a set of specifiers
/// that depend on the key.
dependents_map: Arc<HashMap<ModuleSpecifier, HashSet<ModuleSpecifier>>>,
/// A map of documents that are "open" in the language server.
open_docs: HashMap<ModuleSpecifier, Document>,
/// Documents stored on the file system.
file_system_docs: Arc<Mutex<FileSystemDocuments>>,
/// Any imports to the context supplied by configuration files. This is like
/// the imports into the a module graph in CLI.
imports: Arc<HashMap<ModuleSpecifier, Module>>,
/// The optional import map that should be used when resolving dependencies.
maybe_import_map: Option<ImportMapResolver>,
/// The optional JSX resolver, which is used when JSX imports are configured.
maybe_jsx_resolver: Option<JsxResolver>,
/// Resolves a specifier to its final redirected to specifier.
specifier_resolver: Arc<SpecifierResolver>,
}
impl Documents {
pub fn new(location: &Path) -> Self {
Self {
cache: HttpCache::new(location),
dirty: true,
dependents_map: Default::default(),
open_docs: HashMap::default(),
file_system_docs: Default::default(),
imports: Default::default(),
maybe_import_map: None,
maybe_jsx_resolver: None,
specifier_resolver: Arc::new(SpecifierResolver::new(location)),
}
}
/// "Open" a document from the perspective of the editor, meaning that
/// requests for information from the document will come from the in-memory
/// representation received from the language server client, versus reading
/// information from the disk.
pub fn open(
&mut self,
specifier: ModuleSpecifier,
version: i32,
language_id: LanguageId,
content: Arc<str>,
) -> Document {
let maybe_resolver = self.get_maybe_resolver();
let document = Document::open(
specifier.clone(),
version,
language_id,
content,
maybe_resolver,
);
let mut file_system_docs = self.file_system_docs.lock();
file_system_docs.docs.remove(&specifier);
file_system_docs.dirty = true;
self.open_docs.insert(specifier, document.clone());
self.dirty = true;
document
}
/// Apply language server content changes to an open document.
pub fn change(
&mut self,
specifier: &ModuleSpecifier,
version: i32,
changes: Vec<lsp::TextDocumentContentChangeEvent>,
) -> Result<Document, AnyError> {
let doc = self
.open_docs
.get(specifier)
.cloned()
.or_else(|| {
let mut file_system_docs = self.file_system_docs.lock();
file_system_docs.docs.remove(specifier)
})
.map_or_else(
|| {
Err(custom_error(
"NotFound",
format!("The specifier \"{}\" was not found.", specifier),
))
},
Ok,
)?;
self.dirty = true;
let doc = doc.with_change(version, changes, self.get_maybe_resolver())?;
self.open_docs.insert(doc.specifier().clone(), doc.clone());
Ok(doc)
}
/// Close an open document, this essentially clears any editor state that is
/// being held, and the document store will revert to the file system if
/// information about the document is required.
pub fn close(&mut self, specifier: &ModuleSpecifier) -> Result<(), AnyError> {
if self.open_docs.remove(specifier).is_some() {
self.dirty = true;
} else {
let mut file_system_docs = self.file_system_docs.lock();
if file_system_docs.docs.remove(specifier).is_some() {
file_system_docs.dirty = true;
} else {
return Err(custom_error(
"NotFound",
format!("The specifier \"{}\" was not found.", specifier),
));
}
}
Ok(())
}
/// Return `true` if the provided specifier can be resolved to a document,
/// otherwise `false`.
pub fn contains_import(
&self,
specifier: &str,
referrer: &ModuleSpecifier,
) -> bool {
let maybe_resolver = self.get_maybe_resolver();
let maybe_specifier = if let Some(resolver) = maybe_resolver {
resolver.resolve(specifier, referrer).to_result().ok()
} else {
deno_core::resolve_import(specifier, referrer.as_str()).ok()
};
if let Some(import_specifier) = maybe_specifier {
self.exists(&import_specifier)
} else {
false
}
}
/// Return `true` if the specifier can be resolved to a document.
pub fn exists(&self, specifier: &ModuleSpecifier) -> bool {
// keep this fast because it's used by op_exists, which is a hot path in tsc
let specifier = self.specifier_resolver.resolve(specifier);
if let Some(specifier) = specifier {
if self.open_docs.contains_key(&specifier) {
return true;
}
if let Some(path) = get_document_path(&self.cache, &specifier) {
return path.is_file();
}
}
false
}
/// Return an array of specifiers, if any, that are dependent upon the
/// supplied specifier. This is used to determine invalidation of diagnostics
/// when a module has been changed.
pub fn dependents(
&mut self,
specifier: &ModuleSpecifier,
) -> Vec<ModuleSpecifier> {
self.calculate_dependents_if_dirty();
let mut dependents = HashSet::new();
if let Some(specifier) = self.specifier_resolver.resolve(specifier) {
recurse_dependents(&specifier, &self.dependents_map, &mut dependents);
dependents.into_iter().collect()
} else {
vec![]
}
}
/// Return a document for the specifier.
pub fn get(&self, original_specifier: &ModuleSpecifier) -> Option<Document> {
let specifier = self.specifier_resolver.resolve(original_specifier)?;
if let Some(document) = self.open_docs.get(&specifier) {
Some(document.clone())
} else {
let mut file_system_docs = self.file_system_docs.lock();
let fs_version = get_document_path(&self.cache, &specifier)
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.and_then(|path| calculate_fs_version(&path));
let file_system_doc = file_system_docs.docs.get(&specifier);
if file_system_doc.map(|d| d.fs_version().to_string()) != fs_version {
// attempt to update the file on the file system
file_system_docs.refresh_document(
&self.cache,
self.get_maybe_resolver(),
&specifier,
)
} else {
file_system_doc.cloned()
}
}
}
/// Return a vector of documents that are contained in the document store,
/// where `open_only` flag would provide only those documents currently open
/// in the editor and `diagnosable_only` would provide only those documents
/// that the language server can provide diagnostics for.
pub fn documents(
&self,
open_only: bool,
diagnosable_only: bool,
) -> Vec<Document> {
if open_only {
self
.open_docs
.values()
.filter_map(|doc| {
if !diagnosable_only || doc.is_diagnosable() {
Some(doc.clone())
} else {
None
}
})
.collect()
} else {
// it is technically possible for a Document to end up in both the open
// and closed documents so we need to ensure we don't return duplicates
let mut seen_documents = HashSet::new();
let file_system_docs = self.file_system_docs.lock();
self
.open_docs
.values()
.chain(file_system_docs.docs.values())
.filter_map(|doc| {
// this prefers the open documents
if seen_documents.insert(doc.specifier().clone())
&& (!diagnosable_only || doc.is_diagnosable())
{
Some(doc.clone())
} else {
None
}
})
.collect()
}
}
/// For a given set of string specifiers, resolve each one from the graph,
/// for a given referrer. This is used to provide resolution information to
/// tsc when type checking.
pub fn resolve(
&self,
specifiers: Vec<String>,
referrer: &ModuleSpecifier,
) -> Option<Vec<Option<(ModuleSpecifier, MediaType)>>> {
let dependencies = self.get(referrer)?.0.dependencies.clone();
let mut results = Vec::new();
for specifier in specifiers {
if specifier.starts_with("asset:") {
if let Ok(specifier) = ModuleSpecifier::parse(&specifier) {
let media_type = MediaType::from(&specifier);
results.push(Some((specifier, media_type)));
} else {
results.push(None);
}
} else if let Some(dep) = dependencies.get(&specifier) {
if let Resolved::Ok { specifier, .. } = &dep.maybe_type {
results.push(self.resolve_dependency(specifier));
} else if let Resolved::Ok { specifier, .. } = &dep.maybe_code {
results.push(self.resolve_dependency(specifier));
} else {
results.push(None);
}
} else if let Some(Resolved::Ok { specifier, .. }) =
self.resolve_imports_dependency(&specifier)
{
// clone here to avoid double borrow of self
let specifier = specifier.clone();
results.push(self.resolve_dependency(&specifier));
} else {
results.push(None);
}
}
Some(results)
}
/// Update the location of the on disk cache for the document store.
pub fn set_location(&mut self, location: &Path) {
// TODO update resolved dependencies?
self.cache = HttpCache::new(location);
self.specifier_resolver = Arc::new(SpecifierResolver::new(location));
self.dirty = true;
}
/// Tries to cache a navigation tree that is associated with the provided specifier
/// if the document stored has the same script version.
pub fn try_cache_navigation_tree(
&mut self,
specifier: &ModuleSpecifier,
script_version: &str,
navigation_tree: Arc<tsc::NavigationTree>,
) -> Result<(), AnyError> {
if let Some(doc) = self.open_docs.get_mut(specifier) {
if doc.script_version() == script_version {
*doc = doc.with_navigation_tree(navigation_tree);
}
} else {
let mut file_system_docs = self.file_system_docs.lock();
if let Some(doc) = file_system_docs.docs.get_mut(specifier) {
// ensure we are updating the same document
// that the navigation tree was created for
if doc.script_version() == script_version {
*doc = doc.with_navigation_tree(navigation_tree);
}
} else {
return Err(custom_error(
"NotFound",
format!("Specifier not found {}", specifier),
));
}
}
Ok(())
}
pub fn update_config(
&mut self,
maybe_import_map: Option<Arc<import_map::ImportMap>>,
maybe_config_file: Option<&ConfigFile>,
) {
// TODO(@kitsonk) update resolved dependencies?
self.maybe_import_map = maybe_import_map.map(ImportMapResolver::new);
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self.maybe_jsx_resolver = maybe_config_file.and_then(|cf| {
cf.to_maybe_jsx_import_source_module()
.map(|im| JsxResolver::new(im, self.maybe_import_map.clone()))
});
self.imports = Arc::new(
if let Some(Ok(Some(imports))) =
maybe_config_file.map(|cf| cf.to_maybe_imports())
{
imports
.into_iter()
.map(|(referrer, dependencies)| {
let module = Module::new_from_type_imports(
referrer.clone(),
dependencies,
self.get_maybe_resolver(),
);
(referrer, module)
})
.collect()
} else {
HashMap::new()
},
);
self.dirty = true;
}
/// Iterate through the documents, building a map where the key is a unique
/// document and the value is a set of specifiers that depend on that
/// document.
fn calculate_dependents_if_dirty(&mut self) {
let mut file_system_docs = self.file_system_docs.lock();
if !file_system_docs.dirty && !self.dirty {
return;
}
let mut dependents_map: HashMap<ModuleSpecifier, HashSet<ModuleSpecifier>> =
HashMap::new();
// favour documents that are open in case a document exists in both collections
let documents = file_system_docs.docs.iter().chain(self.open_docs.iter());
for (specifier, doc) in documents {
if let Some(Ok(module)) = doc.maybe_module() {
for dependency in module.dependencies.values() {
if let Some(dep) = dependency.get_code() {
dependents_map
.entry(dep.clone())
.or_default()
.insert(specifier.clone());
}
if let Some(dep) = dependency.get_type() {
dependents_map
.entry(dep.clone())
.or_default()
.insert(specifier.clone());
}
}
if let Some((_, Resolved::Ok { specifier: dep, .. })) =
&module.maybe_types_dependency
{
dependents_map
.entry(dep.clone())
.or_default()
.insert(specifier.clone());
}
}
}
self.dependents_map = Arc::new(dependents_map);
self.dirty = false;
file_system_docs.dirty = false;
}
fn get_maybe_resolver(&self) -> Option<&dyn deno_graph::source::Resolver> {
if self.maybe_jsx_resolver.is_some() {
self.maybe_jsx_resolver.as_ref().map(|jr| jr.as_resolver())
} else {
self.maybe_import_map.as_ref().map(|im| im.as_resolver())
}
}
fn resolve_dependency(
&self,
specifier: &ModuleSpecifier,
) -> Option<(ModuleSpecifier, MediaType)> {
let doc = self.get(specifier)?;
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let maybe_module = doc.maybe_module().and_then(|r| r.as_ref().ok());
let maybe_types_dependency = maybe_module.and_then(|m| {
m.maybe_types_dependency
.as_ref()
.map(|(_, resolved)| resolved.clone())
});
if let Some(Resolved::Ok { specifier, .. }) = maybe_types_dependency {
self.resolve_dependency(&specifier)
} else {
let media_type = doc.media_type();
Some((specifier.clone(), media_type))
}
}
/// Iterate through any "imported" modules, checking to see if a dependency
/// is available. This is used to provide "global" imports like the JSX import
/// source.
fn resolve_imports_dependency(
&self,
specifier: &str,
) -> Option<&deno_graph::Resolved> {
for module in self.imports.values() {
let maybe_dep = module.dependencies.get(specifier);
if maybe_dep.is_some() {
return maybe_dep.map(|d| &d.maybe_type);
}
}
None
}
}
#[cfg(test)]
mod tests {
use super::*;
use test_util::TempDir;
fn setup(temp_dir: &TempDir) -> (Documents, PathBuf) {
let location = temp_dir.path().join("deps");
let documents = Documents::new(&location);
(documents, location)
}
#[test]
fn test_documents_open() {
let temp_dir = TempDir::new();
let (mut documents, _) = setup(&temp_dir);
let specifier = ModuleSpecifier::parse("file:///a.ts").unwrap();
let content = r#"import * as b from "./b.ts";
console.log(b);
"#;
let document = documents.open(
specifier,
1,
"javascript".parse().unwrap(),
content.into(),
);
assert!(document.is_open());
assert!(document.is_diagnosable());
}
#[test]
fn test_documents_change() {
let temp_dir = TempDir::new();
let (mut documents, _) = setup(&temp_dir);
let specifier = ModuleSpecifier::parse("file:///a.ts").unwrap();
let content = r#"import * as b from "./b.ts";
console.log(b);
"#;
documents.open(
specifier.clone(),
1,
"javascript".parse().unwrap(),
content.into(),
);
documents
.change(
&specifier,
2,
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vec![lsp::TextDocumentContentChangeEvent {
range: Some(lsp::Range {
start: lsp::Position {
line: 1,
character: 13,
},
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end: lsp::Position {
line: 1,
character: 13,
},
}),
range_length: None,
text: r#", "hello deno""#.to_string(),
}],
)
.unwrap();
assert_eq!(
&*documents.get(&specifier).unwrap().content(),
r#"import * as b from "./b.ts";
console.log(b, "hello deno");
"#
);
}
#[test]
fn test_documents_ensure_no_duplicates() {
// it should never happen that a user of this API causes this to happen,
// but we'll guard against it anyway
let temp_dir = TempDir::new();
let (mut documents, documents_path) = setup(&temp_dir);
let file_path = documents_path.join("file.ts");
let file_specifier = ModuleSpecifier::from_file_path(&file_path).unwrap();
fs::create_dir_all(&documents_path).unwrap();
fs::write(&file_path, "").unwrap();
// open the document
documents.open(
file_specifier.clone(),
1,
LanguageId::TypeScript,
"".into(),
);
// make a clone of the document store and close the document in that one
let mut documents2 = documents.clone();
documents2.close(&file_specifier).unwrap();
// At this point the document will be in both documents and the shared file system documents.
// Now make sure that the original documents doesn't return both copies
assert_eq!(documents.documents(false, false).len(), 1);
}
}