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denoland-deno/cli/lsp/analysis.rs

1559 lines
47 KiB
Rust

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use super::diagnostics::DenoDiagnostic;
use super::diagnostics::DiagnosticSource;
use super::documents::Document;
use super::documents::Documents;
use super::language_server;
use super::resolver::LspResolver;
use super::tsc;
use super::urls::url_to_uri;
use crate::args::jsr_url;
use crate::lsp::logging::lsp_warn;
use crate::lsp::search::PackageSearchApi;
use crate::tools::lint::CliLinter;
use crate::util::path::relative_specifier;
use deno_config::workspace::MappedResolution;
use deno_graph::source::ResolutionMode;
use deno_lint::diagnostic::LintDiagnosticRange;
use deno_ast::SourceRange;
use deno_ast::SourceRangedForSpanned;
use deno_ast::SourceTextInfo;
use deno_core::error::custom_error;
use deno_core::error::AnyError;
use deno_core::serde::Deserialize;
use deno_core::serde::Serialize;
use deno_core::serde_json;
use deno_core::serde_json::json;
use deno_core::ModuleSpecifier;
use deno_path_util::url_to_file_path;
use deno_runtime::deno_node::PathClean;
use deno_semver::jsr::JsrPackageNvReference;
use deno_semver::jsr::JsrPackageReqReference;
use deno_semver::npm::NpmPackageReqReference;
use deno_semver::package::PackageNv;
use deno_semver::package::PackageNvReference;
use deno_semver::package::PackageReq;
use deno_semver::package::PackageReqReference;
use deno_semver::Version;
use import_map::ImportMap;
use once_cell::sync::Lazy;
use regex::Regex;
use std::borrow::Cow;
use std::cmp::Ordering;
use std::collections::HashMap;
use std::collections::HashSet;
use std::path::Path;
use text_lines::LineAndColumnIndex;
use tower_lsp::lsp_types as lsp;
use tower_lsp::lsp_types::Position;
use tower_lsp::lsp_types::Range;
/// Diagnostic error codes which actually are the same, and so when grouping
/// fixes we treat them the same.
static FIX_ALL_ERROR_CODES: Lazy<HashMap<&'static str, &'static str>> =
Lazy::new(|| ([("2339", "2339"), ("2345", "2339")]).into_iter().collect());
/// Fixes which help determine if there is a preferred fix when there are
/// multiple fixes available.
static PREFERRED_FIXES: Lazy<HashMap<&'static str, (u32, bool)>> =
Lazy::new(|| {
([
("annotateWithTypeFromJSDoc", (1, false)),
("constructorForDerivedNeedSuperCall", (1, false)),
("extendsInterfaceBecomesImplements", (1, false)),
("awaitInSyncFunction", (1, false)),
("classIncorrectlyImplementsInterface", (3, false)),
("classDoesntImplementInheritedAbstractMember", (3, false)),
("unreachableCode", (1, false)),
("unusedIdentifier", (1, false)),
("forgottenThisPropertyAccess", (1, false)),
("spelling", (2, false)),
("addMissingAwait", (1, false)),
("fixImport", (0, true)),
])
.into_iter()
.collect()
});
static IMPORT_SPECIFIER_RE: Lazy<Regex> = lazy_regex::lazy_regex!(
r#"\sfrom\s+["']([^"']*)["']|import\s*\(\s*["']([^"']*)["']\s*\)"#
);
const SUPPORTED_EXTENSIONS: &[&str] = &[
".ts", ".tsx", ".js", ".jsx", ".mjs", ".mts", ".cjs", ".cts", ".d.ts",
".d.mts", ".d.cts",
];
#[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize)]
pub struct DataQuickFixChange {
pub range: Range,
pub new_text: String,
}
/// A quick fix that's stored in the diagnostic's data field.
#[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize)]
pub struct DataQuickFix {
pub description: String,
pub changes: Vec<DataQuickFixChange>,
}
/// Category of self-generated diagnostic messages (those not coming from)
/// TypeScript.
#[derive(Debug, PartialEq, Eq)]
pub enum Category {
/// A lint diagnostic, where the first element is the message.
Lint {
message: String,
code: String,
hint: Option<String>,
quick_fixes: Vec<DataQuickFix>,
},
}
/// A structure to hold a reference to a diagnostic message.
#[derive(Debug, PartialEq, Eq)]
pub struct Reference {
category: Category,
range: Range,
}
impl Reference {
pub fn to_diagnostic(&self) -> lsp::Diagnostic {
match &self.category {
Category::Lint {
message,
code,
hint,
quick_fixes,
} => lsp::Diagnostic {
range: self.range,
severity: Some(lsp::DiagnosticSeverity::WARNING),
code: Some(lsp::NumberOrString::String(code.to_string())),
code_description: None,
source: Some(DiagnosticSource::Lint.as_lsp_source().to_string()),
message: {
let mut msg = message.to_string();
if let Some(hint) = hint {
msg.push('\n');
msg.push_str(hint);
}
msg
},
related_information: None,
tags: None, // we should tag unused code
data: if quick_fixes.is_empty() {
None
} else {
serde_json::to_value(quick_fixes).ok()
},
},
}
}
}
fn as_lsp_range_from_lint_diagnostic(
diagnostic_range: &LintDiagnosticRange,
) -> Range {
as_lsp_range(diagnostic_range.range, &diagnostic_range.text_info)
}
fn as_lsp_range(
source_range: SourceRange,
text_info: &SourceTextInfo,
) -> Range {
let start_lc = text_info.line_and_column_index(source_range.start);
let end_lc = text_info.line_and_column_index(source_range.end);
Range {
start: Position {
line: start_lc.line_index as u32,
character: start_lc.column_index as u32,
},
end: Position {
line: end_lc.line_index as u32,
character: end_lc.column_index as u32,
},
}
}
pub fn get_lint_references(
parsed_source: &deno_ast::ParsedSource,
linter: &CliLinter,
) -> Result<Vec<Reference>, AnyError> {
let lint_diagnostics = linter.lint_with_ast(parsed_source);
Ok(
lint_diagnostics
.into_iter()
.filter_map(|d| {
let range = d.range.as_ref()?;
Some(Reference {
range: as_lsp_range_from_lint_diagnostic(range),
category: Category::Lint {
message: d.details.message,
code: d.details.code.to_string(),
hint: d.details.hint,
quick_fixes: d
.details
.fixes
.into_iter()
.map(|f| DataQuickFix {
description: f.description.to_string(),
changes: f
.changes
.into_iter()
.map(|change| DataQuickFixChange {
range: as_lsp_range(change.range, &range.text_info),
new_text: change.new_text.to_string(),
})
.collect(),
})
.collect(),
},
})
})
.collect(),
)
}
fn code_as_string(code: &Option<lsp::NumberOrString>) -> String {
match code {
Some(lsp::NumberOrString::String(str)) => str.clone(),
Some(lsp::NumberOrString::Number(num)) => num.to_string(),
_ => "".to_string(),
}
}
/// Rewrites imports in quick fixes and code changes to be Deno specific.
pub struct TsResponseImportMapper<'a> {
documents: &'a Documents,
maybe_import_map: Option<&'a ImportMap>,
resolver: &'a LspResolver,
tsc_specifier_map: &'a tsc::TscSpecifierMap,
file_referrer: ModuleSpecifier,
}
impl<'a> TsResponseImportMapper<'a> {
pub fn new(
documents: &'a Documents,
maybe_import_map: Option<&'a ImportMap>,
resolver: &'a LspResolver,
tsc_specifier_map: &'a tsc::TscSpecifierMap,
file_referrer: &ModuleSpecifier,
) -> Self {
Self {
documents,
maybe_import_map,
resolver,
tsc_specifier_map,
file_referrer: file_referrer.clone(),
}
}
pub fn check_specifier(
&self,
specifier: &ModuleSpecifier,
referrer: &ModuleSpecifier,
) -> Option<String> {
fn concat_npm_specifier(
prefix: &str,
pkg_req: &PackageReq,
sub_path: Option<&str>,
) -> String {
let result = format!("{}{}", prefix, pkg_req);
match sub_path {
Some(path) => format!("{}/{}", result, path),
None => result,
}
}
if let Some(jsr_path) = specifier.as_str().strip_prefix(jsr_url().as_str())
{
let mut segments = jsr_path.split('/');
let name = if jsr_path.starts_with('@') {
format!("{}/{}", segments.next()?, segments.next()?)
} else {
segments.next()?.to_string()
};
let version = Version::parse_standard(segments.next()?).ok()?;
let nv = PackageNv { name, version };
let path = segments.collect::<Vec<_>>().join("/");
let export = self.resolver.jsr_lookup_export_for_path(
&nv,
&path,
Some(&self.file_referrer),
)?;
let sub_path = (export != ".").then_some(export);
let mut req = None;
req = req.or_else(|| {
let import_map = self.maybe_import_map?;
for entry in import_map.entries_for_referrer(referrer) {
let Some(value) = entry.raw_value else {
continue;
};
let Ok(req_ref) = JsrPackageReqReference::from_str(value) else {
continue;
};
let req = req_ref.req();
if req.name == nv.name
&& req.version_req.tag().is_none()
&& req.version_req.matches(&nv.version)
{
return Some(req.clone());
}
}
None
});
req = req.or_else(|| {
self
.resolver
.jsr_lookup_req_for_nv(&nv, Some(&self.file_referrer))
});
let spec_str = if let Some(req) = req {
let req_ref = PackageReqReference { req, sub_path };
JsrPackageReqReference::new(req_ref).to_string()
} else {
let nv_ref = PackageNvReference { nv, sub_path };
JsrPackageNvReference::new(nv_ref).to_string()
};
let specifier = ModuleSpecifier::parse(&spec_str).ok()?;
if let Some(import_map) = self.maybe_import_map {
if let Some(result) = import_map.lookup(&specifier, referrer) {
return Some(result);
}
if let Some(req_ref_str) = specifier.as_str().strip_prefix("jsr:") {
if !req_ref_str.starts_with('/') {
let specifier_str = format!("jsr:/{req_ref_str}");
if let Ok(specifier) = ModuleSpecifier::parse(&specifier_str) {
if let Some(result) = import_map.lookup(&specifier, referrer) {
return Some(result);
}
}
}
}
}
return Some(spec_str);
}
if let Some(npm_resolver) = self
.resolver
.maybe_managed_npm_resolver(Some(&self.file_referrer))
{
let in_npm_pkg = self
.resolver
.maybe_node_resolver(Some(&self.file_referrer))
.map(|n| n.in_npm_package(specifier))
.unwrap_or(false);
if in_npm_pkg {
if let Ok(Some(pkg_id)) =
npm_resolver.resolve_pkg_id_from_specifier(specifier)
{
let pkg_reqs = npm_resolver.resolve_pkg_reqs_from_pkg_id(&pkg_id);
// check if any pkg reqs match what is found in an import map
if !pkg_reqs.is_empty() {
let sub_path = self.resolve_package_path(specifier);
if let Some(import_map) = self.maybe_import_map {
let pkg_reqs = pkg_reqs.iter().collect::<HashSet<_>>();
let mut matches = Vec::new();
for entry in import_map.entries_for_referrer(referrer) {
if let Some(value) = entry.raw_value {
if let Ok(package_ref) =
NpmPackageReqReference::from_str(value)
{
if pkg_reqs.contains(package_ref.req()) {
let sub_path = sub_path.as_deref().unwrap_or("");
let value_sub_path = package_ref.sub_path().unwrap_or("");
if let Some(key_sub_path) =
sub_path.strip_prefix(value_sub_path)
{
matches
.push(format!("{}{}", entry.raw_key, key_sub_path));
}
}
}
}
}
// select the shortest match
matches.sort_by_key(|a| a.len());
if let Some(matched) = matches.first() {
return Some(matched.to_string());
}
}
// if not found in the import map, return the first pkg req
if let Some(pkg_req) = pkg_reqs.first() {
return Some(concat_npm_specifier(
"npm:",
pkg_req,
sub_path.as_deref(),
));
}
}
}
}
} else if let Some(dep_name) = self
.resolver
.file_url_to_package_json_dep(specifier, Some(&self.file_referrer))
{
return Some(dep_name);
}
// check if the import map has this specifier
if let Some(import_map) = self.maybe_import_map {
if let Some(result) = import_map.lookup(specifier, referrer) {
return Some(result);
}
}
None
}
fn resolve_package_path(
&self,
specifier: &ModuleSpecifier,
) -> Option<String> {
let package_json = self
.resolver
.get_closest_package_json(specifier)
.ok()
.flatten()?;
let root_folder = package_json.path.parent()?;
let specifier_path = url_to_file_path(specifier).ok()?;
let mut search_paths = vec![specifier_path.clone()];
// TypeScript will provide a .js extension for quick fixes, so do
// a search for the .d.ts file instead
if specifier_path.extension().and_then(|e| e.to_str()) == Some("js") {
search_paths.insert(0, specifier_path.with_extension("d.ts"));
} else if let Some(file_name) =
specifier_path.file_name().and_then(|f| f.to_str())
{
// In some other cases, typescript will provide the .d.ts extension, but the
// export might not have a .d.ts defined. In that case, look for the corresponding
// JavaScript file after not being able to find the .d.ts file.
if let Some(file_stem) = file_name.strip_suffix(".d.ts") {
search_paths
.push(specifier_path.with_file_name(format!("{}.js", file_stem)));
} else if let Some(file_stem) = file_name.strip_suffix(".d.cts") {
search_paths
.push(specifier_path.with_file_name(format!("{}.cjs", file_stem)));
} else if let Some(file_stem) = file_name.strip_suffix(".d.mts") {
search_paths
.push(specifier_path.with_file_name(format!("{}.mjs", file_stem)));
}
}
for search_path in search_paths {
if let Some(exports) = &package_json.exports {
if let Some(result) = try_reverse_map_package_json_exports(
root_folder,
&search_path,
exports,
) {
return Some(result);
}
}
}
None
}
/// Iterate over the supported extensions, concatenating the extension on the
/// specifier, returning the first specifier that is resolve-able, otherwise
/// None if none match.
pub fn check_unresolved_specifier(
&self,
specifier: &str,
referrer: &ModuleSpecifier,
) -> Option<String> {
let specifier_stem = specifier.strip_suffix(".js").unwrap_or(specifier);
let specifiers = std::iter::once(Cow::Borrowed(specifier)).chain(
SUPPORTED_EXTENSIONS
.iter()
.map(|ext| Cow::Owned(format!("{specifier_stem}{ext}"))),
);
for specifier in specifiers {
if let Some(specifier) = self
.resolver
.as_graph_resolver(Some(&self.file_referrer))
.resolve(
&specifier,
&deno_graph::Range {
specifier: referrer.clone(),
start: deno_graph::Position::zeroed(),
end: deno_graph::Position::zeroed(),
},
ResolutionMode::Types,
)
.ok()
.and_then(|s| self.tsc_specifier_map.normalize(s.as_str()).ok())
.filter(|s| self.documents.exists(s, Some(&self.file_referrer)))
{
if let Some(specifier) = self
.check_specifier(&specifier, referrer)
.or_else(|| relative_specifier(referrer, &specifier))
.filter(|s| !s.contains("/node_modules/"))
{
return Some(specifier);
}
}
}
None
}
pub fn is_valid_import(
&self,
specifier_text: &str,
referrer: &ModuleSpecifier,
) -> bool {
self
.resolver
.as_graph_resolver(Some(&self.file_referrer))
.resolve(
specifier_text,
&deno_graph::Range {
specifier: referrer.clone(),
start: deno_graph::Position::zeroed(),
end: deno_graph::Position::zeroed(),
},
deno_graph::source::ResolutionMode::Types,
)
.is_ok()
}
}
fn try_reverse_map_package_json_exports(
root_path: &Path,
target_path: &Path,
exports: &serde_json::Map<String, serde_json::Value>,
) -> Option<String> {
use deno_core::serde_json::Value;
fn try_reverse_map_package_json_exports_inner(
root_path: &Path,
target_path: &Path,
exports: &serde_json::Map<String, Value>,
) -> Option<String> {
for (key, value) in exports {
match value {
Value::String(str) => {
if root_path.join(str).clean() == target_path {
return Some(if let Some(suffix) = key.strip_prefix("./") {
suffix.to_string()
} else {
String::new() // condition (ex. "types"), ignore
});
}
}
Value::Object(obj) => {
if let Some(result) = try_reverse_map_package_json_exports_inner(
root_path,
target_path,
obj,
) {
return Some(if let Some(suffix) = key.strip_prefix("./") {
if result.is_empty() {
suffix.to_string()
} else {
format!("{}/{}", suffix, result)
}
} else {
result // condition (ex. "types"), ignore
});
}
}
_ => {}
}
}
None
}
let result = try_reverse_map_package_json_exports_inner(
root_path,
target_path,
exports,
)?;
if result.is_empty() {
None
} else {
Some(result)
}
}
/// For a set of tsc changes, can them for any that contain something that looks
/// like an import and rewrite the import specifier to include the extension
pub fn fix_ts_import_changes(
referrer: &ModuleSpecifier,
changes: &[tsc::FileTextChanges],
language_server: &language_server::Inner,
) -> Result<Vec<tsc::FileTextChanges>, AnyError> {
let import_mapper = language_server.get_ts_response_import_mapper(referrer);
let mut r = Vec::new();
for change in changes {
let mut text_changes = Vec::new();
for text_change in &change.text_changes {
let lines = text_change.new_text.split('\n');
let new_lines: Vec<String> = lines
.map(|line| {
// This assumes that there's only one import per line.
if let Some(captures) = IMPORT_SPECIFIER_RE.captures(line) {
let specifier =
captures.iter().skip(1).find_map(|s| s).unwrap().as_str();
if let Some(new_specifier) =
import_mapper.check_unresolved_specifier(specifier, referrer)
{
line.replace(specifier, &new_specifier)
} else {
line.to_string()
}
} else {
line.to_string()
}
})
.collect();
text_changes.push(tsc::TextChange {
span: text_change.span.clone(),
new_text: new_lines.join("\n").to_string(),
});
}
r.push(tsc::FileTextChanges {
file_name: change.file_name.clone(),
text_changes,
is_new_file: change.is_new_file,
});
}
Ok(r)
}
/// Fix tsc import code actions so that the module specifier is correct for
/// resolution by Deno (includes the extension).
fn fix_ts_import_action<'a>(
referrer: &ModuleSpecifier,
action: &'a tsc::CodeFixAction,
language_server: &language_server::Inner,
) -> Option<Cow<'a, tsc::CodeFixAction>> {
if !matches!(
action.fix_name.as_str(),
"import" | "fixMissingFunctionDeclaration"
) {
return Some(Cow::Borrowed(action));
}
let specifier = (|| {
let text_change = action.changes.first()?.text_changes.first()?;
let captures = IMPORT_SPECIFIER_RE.captures(&text_change.new_text)?;
Some(captures.get(1)?.as_str())
})();
let Some(specifier) = specifier else {
return Some(Cow::Borrowed(action));
};
let import_mapper = language_server.get_ts_response_import_mapper(referrer);
if let Some(new_specifier) =
import_mapper.check_unresolved_specifier(specifier, referrer)
{
let description = action.description.replace(specifier, &new_specifier);
let changes = action
.changes
.iter()
.map(|c| {
let text_changes = c
.text_changes
.iter()
.map(|tc| tsc::TextChange {
span: tc.span.clone(),
new_text: tc.new_text.replace(specifier, &new_specifier),
})
.collect();
tsc::FileTextChanges {
file_name: c.file_name.clone(),
text_changes,
is_new_file: c.is_new_file,
}
})
.collect();
Some(Cow::Owned(tsc::CodeFixAction {
description,
changes,
commands: None,
fix_name: action.fix_name.clone(),
fix_id: None,
fix_all_description: None,
}))
} else if !import_mapper.is_valid_import(specifier, referrer) {
None
} else {
Some(Cow::Borrowed(action))
}
}
/// Determines if two TypeScript diagnostic codes are effectively equivalent.
fn is_equivalent_code(
a: &Option<lsp::NumberOrString>,
b: &Option<lsp::NumberOrString>,
) -> bool {
let a_code = code_as_string(a);
let b_code = code_as_string(b);
FIX_ALL_ERROR_CODES.get(a_code.as_str())
== FIX_ALL_ERROR_CODES.get(b_code.as_str())
}
/// Return a boolean flag to indicate if the specified action is the preferred
/// action for a given set of actions.
fn is_preferred(
action: &tsc::CodeFixAction,
actions: &[CodeActionKind],
fix_priority: u32,
only_one: bool,
) -> bool {
actions.iter().all(|i| {
if let CodeActionKind::Tsc(_, a) = i {
if action == a {
return true;
}
if a.fix_id.is_some() {
return true;
}
if let Some((other_fix_priority, _)) =
PREFERRED_FIXES.get(a.fix_name.as_str())
{
match other_fix_priority.cmp(&fix_priority) {
Ordering::Less => return true,
Ordering::Greater => return false,
Ordering::Equal => (),
}
if only_one && action.fix_name == a.fix_name {
return false;
}
}
true
} else if let CodeActionKind::Deno(_) = i {
// This is to make sure 'Remove import' isn't preferred over 'Cache
// dependencies'.
return false;
} else {
true
}
})
}
/// Convert changes returned from a TypeScript quick fix action into edits
/// for an LSP CodeAction.
pub fn ts_changes_to_edit(
changes: &[tsc::FileTextChanges],
language_server: &language_server::Inner,
) -> Result<Option<lsp::WorkspaceEdit>, AnyError> {
let mut text_document_edits = Vec::new();
for change in changes {
let edit = match change.to_text_document_edit(language_server) {
Ok(e) => e,
Err(err) => {
lsp_warn!("Couldn't covert text document edit: {:#}", err);
continue;
}
};
text_document_edits.push(edit);
}
Ok(Some(lsp::WorkspaceEdit {
changes: None,
document_changes: Some(lsp::DocumentChanges::Edits(text_document_edits)),
change_annotations: None,
}))
}
#[derive(Debug, Deserialize, Serialize)]
#[serde(rename_all = "camelCase")]
pub struct CodeActionData {
pub specifier: ModuleSpecifier,
pub fix_id: String,
}
#[derive(Debug, Clone)]
enum CodeActionKind {
Deno(lsp::CodeAction),
DenoLint(lsp::CodeAction),
Tsc(lsp::CodeAction, tsc::CodeFixAction),
}
#[derive(Debug, Hash, PartialEq, Eq)]
enum FixAllKind {
Tsc(String),
}
#[derive(Debug, Default)]
pub struct CodeActionCollection {
actions: Vec<CodeActionKind>,
fix_all_actions: HashMap<FixAllKind, CodeActionKind>,
}
impl CodeActionCollection {
pub fn add_deno_fix_action(
&mut self,
specifier: &ModuleSpecifier,
diagnostic: &lsp::Diagnostic,
) -> Result<(), AnyError> {
let code_action = DenoDiagnostic::get_code_action(specifier, diagnostic)?;
self.actions.push(CodeActionKind::Deno(code_action));
Ok(())
}
pub fn add_deno_lint_actions(
&mut self,
specifier: &ModuleSpecifier,
diagnostic: &lsp::Diagnostic,
maybe_text_info: Option<&SourceTextInfo>,
maybe_parsed_source: Option<&deno_ast::ParsedSource>,
) -> Result<(), AnyError> {
if let Some(data_quick_fixes) = diagnostic
.data
.as_ref()
.and_then(|d| serde_json::from_value::<Vec<DataQuickFix>>(d.clone()).ok())
{
let uri = url_to_uri(specifier)?;
for quick_fix in data_quick_fixes {
let mut changes = HashMap::new();
changes.insert(
uri.clone(),
quick_fix
.changes
.into_iter()
.map(|change| lsp::TextEdit {
new_text: change.new_text.clone(),
range: change.range,
})
.collect(),
);
let code_action = lsp::CodeAction {
title: quick_fix.description.to_string(),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(vec![diagnostic.clone()]),
command: None,
is_preferred: None,
disabled: None,
data: None,
edit: Some(lsp::WorkspaceEdit {
changes: Some(changes),
change_annotations: None,
document_changes: None,
}),
};
self.actions.push(CodeActionKind::DenoLint(code_action));
}
}
self.add_deno_lint_ignore_action(
specifier,
diagnostic,
maybe_text_info,
maybe_parsed_source,
)
}
fn add_deno_lint_ignore_action(
&mut self,
specifier: &ModuleSpecifier,
diagnostic: &lsp::Diagnostic,
maybe_text_info: Option<&SourceTextInfo>,
maybe_parsed_source: Option<&deno_ast::ParsedSource>,
) -> Result<(), AnyError> {
let uri = url_to_uri(specifier)?;
let code = diagnostic
.code
.as_ref()
.map(|v| match v {
lsp::NumberOrString::String(v) => v.to_owned(),
_ => "".to_string(),
})
.unwrap();
let line_content = maybe_text_info.map(|ti| {
ti.line_text(diagnostic.range.start.line as usize)
.to_string()
});
let mut changes = HashMap::new();
changes.insert(
uri.clone(),
vec![lsp::TextEdit {
new_text: prepend_whitespace(
format!("// deno-lint-ignore {code}\n"),
line_content,
),
range: lsp::Range {
start: lsp::Position {
line: diagnostic.range.start.line,
character: 0,
},
end: lsp::Position {
line: diagnostic.range.start.line,
character: 0,
},
},
}],
);
let ignore_error_action = lsp::CodeAction {
title: format!("Disable {code} for this line"),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(vec![diagnostic.clone()]),
command: None,
is_preferred: None,
disabled: None,
data: None,
edit: Some(lsp::WorkspaceEdit {
changes: Some(changes),
change_annotations: None,
document_changes: None,
}),
};
self
.actions
.push(CodeActionKind::DenoLint(ignore_error_action));
// Disable a lint error for the entire file.
let maybe_ignore_comment = maybe_parsed_source.and_then(|ps| {
// Note: we can use ps.get_leading_comments() but it doesn't
// work when shebang is present at the top of the file.
ps.comments().get_vec().iter().find_map(|c| {
let comment_text = c.text.trim();
comment_text.split_whitespace().next().and_then(|prefix| {
if prefix == "deno-lint-ignore-file" {
Some(c.clone())
} else {
None
}
})
})
});
let mut new_text = format!("// deno-lint-ignore-file {code}\n");
let mut range = lsp::Range {
start: lsp::Position {
line: 0,
character: 0,
},
end: lsp::Position {
line: 0,
character: 0,
},
};
// If ignore file comment already exists, append the lint code
// to the existing comment.
if let Some(ignore_comment) = maybe_ignore_comment {
new_text = format!(" {code}");
// Get the end position of the comment.
let line = maybe_text_info
.unwrap()
.line_and_column_index(ignore_comment.end());
let position = lsp::Position {
line: line.line_index as u32,
character: line.column_index as u32,
};
// Set the edit range to the end of the comment.
range.start = position;
range.end = position;
}
let mut changes = HashMap::new();
changes.insert(uri.clone(), vec![lsp::TextEdit { new_text, range }]);
let ignore_file_action = lsp::CodeAction {
title: format!("Disable {code} for the entire file"),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(vec![diagnostic.clone()]),
command: None,
is_preferred: None,
disabled: None,
data: None,
edit: Some(lsp::WorkspaceEdit {
changes: Some(changes),
change_annotations: None,
document_changes: None,
}),
};
self
.actions
.push(CodeActionKind::DenoLint(ignore_file_action));
let mut changes = HashMap::new();
changes.insert(
uri,
vec![lsp::TextEdit {
new_text: "// deno-lint-ignore-file\n".to_string(),
range: lsp::Range {
start: lsp::Position {
line: 0,
character: 0,
},
end: lsp::Position {
line: 0,
character: 0,
},
},
}],
);
let ignore_file_action = lsp::CodeAction {
title: "Ignore lint errors for the entire file".to_string(),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(vec![diagnostic.clone()]),
command: None,
is_preferred: None,
disabled: None,
data: None,
edit: Some(lsp::WorkspaceEdit {
changes: Some(changes),
change_annotations: None,
document_changes: None,
}),
};
self
.actions
.push(CodeActionKind::DenoLint(ignore_file_action));
Ok(())
}
/// Add a TypeScript code fix action to the code actions collection.
pub fn add_ts_fix_action(
&mut self,
specifier: &ModuleSpecifier,
action: &tsc::CodeFixAction,
diagnostic: &lsp::Diagnostic,
language_server: &language_server::Inner,
) -> Result<(), AnyError> {
if action.commands.is_some() {
// In theory, tsc can return actions that require "commands" to be applied
// back into TypeScript. Currently there is only one command, `install
// package` but Deno doesn't support that. The problem is that the
// `.applyCodeActionCommand()` returns a promise, and with the current way
// we wrap tsc, we can't handle the asynchronous response, so it is
// actually easier to return errors if we ever encounter one of these,
// which we really wouldn't expect from the Deno lsp.
return Err(custom_error(
"UnsupportedFix",
"The action returned from TypeScript is unsupported.",
));
}
let Some(action) = fix_ts_import_action(specifier, action, language_server)
else {
return Ok(());
};
let edit = ts_changes_to_edit(&action.changes, language_server)?;
let code_action = lsp::CodeAction {
title: action.description.clone(),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(vec![diagnostic.clone()]),
edit,
command: None,
is_preferred: None,
disabled: None,
data: None,
};
self.actions.retain(|i| match i {
CodeActionKind::Tsc(c, a) => {
!(action.fix_name == a.fix_name && code_action.edit == c.edit)
}
_ => true,
});
self
.actions
.push(CodeActionKind::Tsc(code_action, action.as_ref().clone()));
if let Some(fix_id) = &action.fix_id {
if let Some(CodeActionKind::Tsc(existing_fix_all, existing_action)) =
self.fix_all_actions.get(&FixAllKind::Tsc(fix_id.clone()))
{
self.actions.retain(|i| match i {
CodeActionKind::Tsc(c, _) => c != existing_fix_all,
_ => true,
});
self.actions.push(CodeActionKind::Tsc(
existing_fix_all.clone(),
existing_action.clone(),
));
}
}
Ok(())
}
/// Add a TypeScript action to the actions as a "fix all" action, where it
/// will fix all occurrences of the diagnostic in the file.
pub fn add_ts_fix_all_action(
&mut self,
action: &tsc::CodeFixAction,
specifier: &ModuleSpecifier,
diagnostic: &lsp::Diagnostic,
) {
let data = action.fix_id.as_ref().map(|fix_id| {
json!(CodeActionData {
specifier: specifier.clone(),
fix_id: fix_id.clone(),
})
});
let title = if let Some(description) = &action.fix_all_description {
description.clone()
} else {
format!("{} (Fix all in file)", action.description)
};
let code_action = lsp::CodeAction {
title,
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(vec![diagnostic.clone()]),
edit: None,
command: None,
is_preferred: None,
disabled: None,
data,
};
if let Some(CodeActionKind::Tsc(existing, _)) = self
.fix_all_actions
.get(&FixAllKind::Tsc(action.fix_id.clone().unwrap()))
{
self.actions.retain(|i| match i {
CodeActionKind::Tsc(c, _) => c != existing,
_ => true,
});
}
self
.actions
.push(CodeActionKind::Tsc(code_action.clone(), action.clone()));
self.fix_all_actions.insert(
FixAllKind::Tsc(action.fix_id.clone().unwrap()),
CodeActionKind::Tsc(code_action, action.clone()),
);
}
/// Move out the code actions and return them as a `CodeActionResponse`.
pub fn get_response(self) -> lsp::CodeActionResponse {
// Prefer Deno fixes first, then TSC fixes, then Deno lint fixes.
let (deno, rest): (Vec<_>, Vec<_>) = self
.actions
.into_iter()
.partition(|a| matches!(a, CodeActionKind::Deno(_)));
let (tsc, deno_lint): (Vec<_>, Vec<_>) = rest
.into_iter()
.partition(|a| matches!(a, CodeActionKind::Tsc(..)));
deno
.into_iter()
.chain(tsc)
.chain(deno_lint)
.map(|k| match k {
CodeActionKind::Deno(c) => lsp::CodeActionOrCommand::CodeAction(c),
CodeActionKind::DenoLint(c) => lsp::CodeActionOrCommand::CodeAction(c),
CodeActionKind::Tsc(c, _) => lsp::CodeActionOrCommand::CodeAction(c),
})
.collect()
}
/// Determine if a action can be converted into a "fix all" action.
pub fn is_fix_all_action(
&self,
action: &tsc::CodeFixAction,
diagnostic: &lsp::Diagnostic,
file_diagnostics: &[lsp::Diagnostic],
) -> bool {
// If the action does not have a fix id (indicating it can be "bundled up")
// or if the collection already contains a "bundled" action return false
if action.fix_id.is_none()
|| self
.fix_all_actions
.contains_key(&FixAllKind::Tsc(action.fix_id.clone().unwrap()))
{
false
} else {
// else iterate over the diagnostic in the file and see if there are any
// other diagnostics that could be bundled together in a "fix all" code
// action
file_diagnostics.iter().any(|d| {
if d == diagnostic || d.code.is_none() || diagnostic.code.is_none() {
false
} else {
d.code == diagnostic.code
|| is_equivalent_code(&d.code, &diagnostic.code)
}
})
}
}
/// Set the `.is_preferred` flag on code actions, this should be only executed
/// when all actions are added to the collection.
pub fn set_preferred_fixes(&mut self) {
let actions = self.actions.clone();
for entry in self.actions.iter_mut() {
if let CodeActionKind::Tsc(code_action, action) = entry {
if action.fix_id.is_some() {
continue;
}
if let Some((fix_priority, only_one)) =
PREFERRED_FIXES.get(action.fix_name.as_str())
{
code_action.is_preferred =
Some(is_preferred(action, &actions, *fix_priority, *only_one));
}
}
}
}
pub fn add_cache_all_action(
&mut self,
specifier: &ModuleSpecifier,
diagnostics: Vec<lsp::Diagnostic>,
) {
self.actions.push(CodeActionKind::Deno(lsp::CodeAction {
title: "Cache all dependencies of this module.".to_string(),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: Some(diagnostics),
command: Some(lsp::Command {
title: "".to_string(),
command: "deno.cache".to_string(),
arguments: Some(vec![json!([]), json!(&specifier)]),
}),
..Default::default()
}));
}
pub async fn add_source_actions(
&mut self,
document: &Document,
range: &lsp::Range,
language_server: &language_server::Inner,
) {
fn import_start_from_specifier(
document: &Document,
import: &deno_graph::Import,
) -> Option<LineAndColumnIndex> {
// find the top level statement that contains the specifier
let parsed_source = document.maybe_parsed_source()?.as_ref().ok()?;
let text_info = parsed_source.text_info_lazy();
let specifier_range = SourceRange::new(
text_info.loc_to_source_pos(LineAndColumnIndex {
line_index: import.specifier_range.start.line,
column_index: import.specifier_range.start.character,
}),
text_info.loc_to_source_pos(LineAndColumnIndex {
line_index: import.specifier_range.end.line,
column_index: import.specifier_range.end.character,
}),
);
parsed_source
.program_ref()
.body()
.find(|i| i.range().contains(&specifier_range))
.map(|i| text_info.line_and_column_index(i.range().start))
}
async fn deno_types_for_npm_action(
document: &Document,
range: &lsp::Range,
language_server: &language_server::Inner,
) -> Option<lsp::CodeAction> {
let (dep_key, dependency, _) =
document.get_maybe_dependency(&range.end)?;
if dependency.maybe_deno_types_specifier.is_some() {
return None;
}
if dependency.maybe_code.maybe_specifier().is_none()
&& dependency.maybe_type.maybe_specifier().is_none()
{
// We're using byonm and the package is not cached.
return None;
}
let position = deno_graph::Position::new(
range.end.line as usize,
range.end.character as usize,
);
let import_start = dependency.imports.iter().find_map(|i| {
if json!(i.kind) != json!("es") && json!(i.kind) != json!("tsType") {
return None;
}
if !i.specifier_range.includes(&position) {
return None;
}
import_start_from_specifier(document, i)
})?;
let referrer = document.specifier();
let file_referrer = document.file_referrer();
let config_data = language_server
.config
.tree
.data_for_specifier(file_referrer?)?;
let workspace_resolver = config_data.resolver.clone();
let npm_ref = if let Ok(resolution) =
workspace_resolver.resolve(&dep_key, document.specifier())
{
let specifier = match resolution {
MappedResolution::Normal { specifier, .. }
| MappedResolution::ImportMap { specifier, .. } => specifier,
_ => {
return None;
}
};
NpmPackageReqReference::from_specifier(&specifier).ok()?
} else {
// Only resolve bare package.json deps for byonm.
if !config_data.byonm {
return None;
}
if !language_server
.resolver
.is_bare_package_json_dep(&dep_key, referrer)
{
return None;
}
NpmPackageReqReference::from_str(&format!("npm:{}", &dep_key)).ok()?
};
let package_name = &npm_ref.req().name;
if package_name.starts_with("@types/") {
return None;
}
let managed_npm_resolver = language_server
.resolver
.maybe_managed_npm_resolver(file_referrer);
if let Some(npm_resolver) = managed_npm_resolver {
if !npm_resolver.is_pkg_req_folder_cached(npm_ref.req()) {
return None;
}
}
if language_server
.resolver
.npm_to_file_url(&npm_ref, document.specifier(), file_referrer)
.is_some()
{
// The package import has types.
return None;
}
let types_package_name = format!("@types/{package_name}");
let types_package_version = language_server
.npm_search_api
.versions(&types_package_name)
.await
.ok()
.and_then(|versions| versions.first().cloned())?;
let types_specifier_text =
if let Some(npm_resolver) = managed_npm_resolver {
let mut specifier_text = if let Some(req) =
npm_resolver.top_package_req_for_name(&types_package_name)
{
format!("npm:{req}")
} else {
format!("npm:{}@^{}", &types_package_name, types_package_version)
};
let specifier = ModuleSpecifier::parse(&specifier_text).ok()?;
if let Some(file_referrer) = file_referrer {
if let Some(text) = language_server
.get_ts_response_import_mapper(file_referrer)
.check_specifier(&specifier, referrer)
{
specifier_text = text;
}
}
specifier_text
} else {
types_package_name.clone()
};
let uri = language_server
.url_map
.specifier_to_uri(referrer, file_referrer)
.ok()?;
let position = lsp::Position {
line: import_start.line_index as u32,
character: import_start.column_index as u32,
};
let new_text = format!(
"{}// @deno-types=\"{}\"\n",
if position.character == 0 { "" } else { "\n" },
&types_specifier_text
);
let text_edit = lsp::TextEdit {
range: lsp::Range {
start: position,
end: position,
},
new_text,
};
Some(lsp::CodeAction {
title: format!(
"Add @deno-types directive for \"{}\"",
&types_specifier_text
),
kind: Some(lsp::CodeActionKind::QUICKFIX),
diagnostics: None,
edit: Some(lsp::WorkspaceEdit {
changes: Some([(uri, vec![text_edit])].into_iter().collect()),
..Default::default()
}),
..Default::default()
})
}
if let Some(action) =
deno_types_for_npm_action(document, range, language_server).await
{
self.actions.push(CodeActionKind::Deno(action));
}
}
}
/// Prepend the whitespace characters found at the start of line_content to content.
fn prepend_whitespace(content: String, line_content: Option<String>) -> String {
if let Some(line) = line_content {
let whitespace_end = line
.char_indices()
.find_map(|(i, c)| (!c.is_whitespace()).then_some(i))
.unwrap_or(0);
let whitespace = &line[0..whitespace_end];
format!("{}{}", &whitespace, content)
} else {
content
}
}
pub fn source_range_to_lsp_range(
range: &SourceRange,
source_text_info: &SourceTextInfo,
) -> lsp::Range {
let start = source_text_info.line_and_column_index(range.start);
let end = source_text_info.line_and_column_index(range.end);
lsp::Range {
start: lsp::Position {
line: start.line_index as u32,
character: start.column_index as u32,
},
end: lsp::Position {
line: end.line_index as u32,
character: end.column_index as u32,
},
}
}
#[cfg(test)]
mod tests {
use std::path::PathBuf;
use super::*;
#[test]
fn test_reference_to_diagnostic() {
let range = Range {
start: Position {
line: 1,
character: 1,
},
end: Position {
line: 2,
character: 2,
},
};
let test_cases = [
(
Reference {
category: Category::Lint {
message: "message1".to_string(),
code: "code1".to_string(),
hint: None,
quick_fixes: Vec::new(),
},
range,
},
lsp::Diagnostic {
range,
severity: Some(lsp::DiagnosticSeverity::WARNING),
code: Some(lsp::NumberOrString::String("code1".to_string())),
source: Some("deno-lint".to_string()),
message: "message1".to_string(),
..Default::default()
},
),
(
Reference {
category: Category::Lint {
message: "message2".to_string(),
code: "code2".to_string(),
hint: Some("hint2".to_string()),
quick_fixes: Vec::new(),
},
range,
},
lsp::Diagnostic {
range,
severity: Some(lsp::DiagnosticSeverity::WARNING),
code: Some(lsp::NumberOrString::String("code2".to_string())),
source: Some("deno-lint".to_string()),
message: "message2\nhint2".to_string(),
..Default::default()
},
),
];
for (input, expected) in test_cases.iter() {
let actual = input.to_diagnostic();
assert_eq!(&actual, expected);
}
}
#[test]
fn test_try_reverse_map_package_json_exports() {
let exports = json!({
".": {
"types": "./src/index.d.ts",
"browser": "./dist/module.js",
},
"./hooks": {
"types": "./hooks/index.d.ts",
"browser": "./dist/devtools.module.js",
},
"./utils": {
"types": {
"./sub_utils": "./utils_sub_utils.d.ts"
}
}
});
let exports = exports.as_object().unwrap();
assert_eq!(
try_reverse_map_package_json_exports(
&PathBuf::from("/project/"),
&PathBuf::from("/project/hooks/index.d.ts"),
exports,
)
.unwrap(),
"hooks"
);
assert_eq!(
try_reverse_map_package_json_exports(
&PathBuf::from("/project/"),
&PathBuf::from("/project/dist/devtools.module.js"),
exports,
)
.unwrap(),
"hooks"
);
assert!(try_reverse_map_package_json_exports(
&PathBuf::from("/project/"),
&PathBuf::from("/project/src/index.d.ts"),
exports,
)
.is_none());
assert_eq!(
try_reverse_map_package_json_exports(
&PathBuf::from("/project/"),
&PathBuf::from("/project/utils_sub_utils.d.ts"),
exports,
)
.unwrap(),
"utils/sub_utils"
);
}
#[test]
fn test_prepend_whitespace() {
// Regression test for https://github.com/denoland/deno/issues/23361.
assert_eq!(
&prepend_whitespace("foo".to_string(), Some("\u{a0}bar".to_string())),
"\u{a0}foo"
);
}
}