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denoland-deno/cli/tools/vendor/import_map.rs

454 lines
12 KiB
Rust

// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use deno_ast::LineAndColumnIndex;
use deno_ast::ModuleSpecifier;
use deno_ast::SourceTextInfo;
use deno_graph::Module;
use deno_graph::ModuleGraph;
use deno_graph::Position;
use deno_graph::Range;
use deno_graph::Resolved;
use import_map::ImportMap;
use import_map::SpecifierMap;
use indexmap::IndexMap;
use log::warn;
use super::mappings::Mappings;
use super::specifiers::is_remote_specifier;
use super::specifiers::is_remote_specifier_text;
struct ImportMapBuilder<'a> {
base_dir: &'a ModuleSpecifier,
mappings: &'a Mappings,
imports: ImportsBuilder<'a>,
scopes: IndexMap<String, ImportsBuilder<'a>>,
}
impl<'a> ImportMapBuilder<'a> {
pub fn new(base_dir: &'a ModuleSpecifier, mappings: &'a Mappings) -> Self {
ImportMapBuilder {
base_dir,
mappings,
imports: ImportsBuilder::new(base_dir, mappings),
scopes: Default::default(),
}
}
pub fn base_dir(&self) -> &ModuleSpecifier {
self.base_dir
}
pub fn scope(
&mut self,
base_specifier: &ModuleSpecifier,
) -> &mut ImportsBuilder<'a> {
self
.scopes
.entry(
self
.mappings
.relative_specifier_text(self.base_dir, base_specifier),
)
.or_insert_with(|| ImportsBuilder::new(self.base_dir, self.mappings))
}
pub fn into_import_map(
self,
original_import_map: Option<&ImportMap>,
) -> ImportMap {
fn get_local_imports(
new_relative_path: &str,
original_imports: &SpecifierMap,
) -> Vec<(String, String)> {
let mut result = Vec::new();
for entry in original_imports.entries() {
if let Some(raw_value) = entry.raw_value {
if raw_value.starts_with("./") || raw_value.starts_with("../") {
let sub_index = raw_value.find('/').unwrap() + 1;
result.push((
entry.raw_key.to_string(),
format!("{}{}", new_relative_path, &raw_value[sub_index..]),
));
}
}
}
result
}
fn add_local_imports<'a>(
new_relative_path: &str,
original_imports: &SpecifierMap,
get_new_imports: impl FnOnce() -> &'a mut SpecifierMap,
) {
let local_imports =
get_local_imports(new_relative_path, original_imports);
if !local_imports.is_empty() {
let new_imports = get_new_imports();
for (key, value) in local_imports {
if let Err(warning) = new_imports.append(key, value) {
warn!("{}", warning);
}
}
}
}
let mut import_map = ImportMap::new(self.base_dir.clone());
if let Some(original_im) = original_import_map {
let original_base_dir = ModuleSpecifier::from_directory_path(
original_im
.base_url()
.to_file_path()
.unwrap()
.parent()
.unwrap(),
)
.unwrap();
let new_relative_path = self
.mappings
.relative_specifier_text(self.base_dir, &original_base_dir);
// add the imports
add_local_imports(&new_relative_path, original_im.imports(), || {
import_map.imports_mut()
});
for scope in original_im.scopes() {
if scope.raw_key.starts_with("./") || scope.raw_key.starts_with("../") {
let sub_index = scope.raw_key.find('/').unwrap() + 1;
let new_key =
format!("{}{}", new_relative_path, &scope.raw_key[sub_index..]);
add_local_imports(&new_relative_path, scope.imports, || {
import_map.get_or_append_scope_mut(&new_key).unwrap()
});
}
}
}
let imports = import_map.imports_mut();
for (key, value) in self.imports.imports {
if !imports.contains(&key) {
imports.append(key, value).unwrap();
}
}
for (scope_key, scope_value) in self.scopes {
if !scope_value.imports.is_empty() {
let imports = import_map.get_or_append_scope_mut(&scope_key).unwrap();
for (key, value) in scope_value.imports {
if !imports.contains(&key) {
imports.append(key, value).unwrap();
}
}
}
}
import_map
}
}
struct ImportsBuilder<'a> {
base_dir: &'a ModuleSpecifier,
mappings: &'a Mappings,
imports: IndexMap<String, String>,
}
impl<'a> ImportsBuilder<'a> {
pub fn new(base_dir: &'a ModuleSpecifier, mappings: &'a Mappings) -> Self {
Self {
base_dir,
mappings,
imports: Default::default(),
}
}
pub fn add(&mut self, key: String, specifier: &ModuleSpecifier) {
let value = self
.mappings
.relative_specifier_text(self.base_dir, specifier);
// skip creating identity entries
if key != value {
self.imports.insert(key, value);
}
}
}
pub fn build_import_map(
base_dir: &ModuleSpecifier,
graph: &ModuleGraph,
modules: &[&Module],
mappings: &Mappings,
original_import_map: Option<&ImportMap>,
) -> String {
let mut builder = ImportMapBuilder::new(base_dir, mappings);
visit_modules(graph, modules, mappings, &mut builder);
for base_specifier in mappings.base_specifiers() {
builder
.imports
.add(base_specifier.to_string(), base_specifier);
}
builder.into_import_map(original_import_map).to_json()
}
fn visit_modules(
graph: &ModuleGraph,
modules: &[&Module],
mappings: &Mappings,
import_map: &mut ImportMapBuilder,
) {
for module in modules {
let text_info = match &module.maybe_parsed_source {
Some(source) => source.text_info(),
None => continue,
};
let source_text = match &module.maybe_source {
Some(source) => source,
None => continue,
};
for dep in module.dependencies.values() {
visit_maybe_resolved(
&dep.maybe_code,
graph,
import_map,
&module.specifier,
mappings,
text_info,
source_text,
);
visit_maybe_resolved(
&dep.maybe_type,
graph,
import_map,
&module.specifier,
mappings,
text_info,
source_text,
);
}
if let Some((_, maybe_resolved)) = &module.maybe_types_dependency {
visit_maybe_resolved(
maybe_resolved,
graph,
import_map,
&module.specifier,
mappings,
text_info,
source_text,
);
}
}
}
fn visit_maybe_resolved(
maybe_resolved: &Resolved,
graph: &ModuleGraph,
import_map: &mut ImportMapBuilder,
referrer: &ModuleSpecifier,
mappings: &Mappings,
text_info: &SourceTextInfo,
source_text: &str,
) {
if let Resolved::Ok {
specifier, range, ..
} = maybe_resolved
{
let text = text_from_range(text_info, source_text, range);
// if the text is empty then it's probably an x-TypeScript-types
if !text.is_empty() {
handle_dep_specifier(
text, specifier, graph, import_map, referrer, mappings,
);
}
}
}
fn handle_dep_specifier(
text: &str,
unresolved_specifier: &ModuleSpecifier,
graph: &ModuleGraph,
import_map: &mut ImportMapBuilder,
referrer: &ModuleSpecifier,
mappings: &Mappings,
) {
let specifier = graph.resolve(unresolved_specifier);
// check if it's referencing a remote module
if is_remote_specifier(&specifier) {
handle_remote_dep_specifier(
text,
unresolved_specifier,
&specifier,
import_map,
referrer,
mappings,
)
} else {
handle_local_dep_specifier(
text,
unresolved_specifier,
&specifier,
import_map,
referrer,
mappings,
);
}
}
fn handle_remote_dep_specifier(
text: &str,
unresolved_specifier: &ModuleSpecifier,
specifier: &ModuleSpecifier,
import_map: &mut ImportMapBuilder,
referrer: &ModuleSpecifier,
mappings: &Mappings,
) {
if is_remote_specifier_text(text) {
let base_specifier = mappings.base_specifier(specifier);
if !text.starts_with(base_specifier.as_str()) {
panic!("Expected {} to start with {}", text, base_specifier);
}
let sub_path = &text[base_specifier.as_str().len()..];
let relative_text =
mappings.relative_specifier_text(base_specifier, specifier);
let expected_sub_path = relative_text.trim_start_matches("./");
if expected_sub_path != sub_path {
import_map.imports.add(text.to_string(), specifier);
}
} else {
let expected_relative_specifier_text =
mappings.relative_specifier_text(referrer, specifier);
if expected_relative_specifier_text == text {
return;
}
if !is_remote_specifier(referrer) {
// local module referencing a remote module using
// non-remote specifier text means it was something in
// the original import map, so add a mapping to it
import_map.imports.add(text.to_string(), specifier);
return;
}
let base_specifier = mappings.base_specifier(specifier);
let base_dir = import_map.base_dir().clone();
let imports = import_map.scope(base_specifier);
if text.starts_with("./") || text.starts_with("../") {
// resolve relative specifier key
let mut local_base_specifier = mappings.local_uri(base_specifier);
local_base_specifier = local_base_specifier
// path includes "/" so make it relative
.join(&format!(".{}", unresolved_specifier.path()))
.unwrap_or_else(|_| {
panic!(
"Error joining {} to {}",
unresolved_specifier.path(),
local_base_specifier
)
});
local_base_specifier.set_query(unresolved_specifier.query());
imports.add(
mappings.relative_specifier_text(&base_dir, &local_base_specifier),
specifier,
);
// add a mapping that uses the local directory name and the remote
// filename in order to support files importing this relatively
imports.add(
{
let local_path = mappings.local_path(specifier);
let mut value =
ModuleSpecifier::from_directory_path(local_path.parent().unwrap())
.unwrap();
value.set_query(specifier.query());
value.set_path(&format!(
"{}{}",
value.path(),
specifier.path_segments().unwrap().last().unwrap(),
));
mappings.relative_specifier_text(&base_dir, &value)
},
specifier,
);
} else {
// absolute (`/`) or bare specifier should be left as-is
imports.add(text.to_string(), specifier);
}
}
}
fn handle_local_dep_specifier(
text: &str,
unresolved_specifier: &ModuleSpecifier,
specifier: &ModuleSpecifier,
import_map: &mut ImportMapBuilder,
referrer: &ModuleSpecifier,
mappings: &Mappings,
) {
if !is_remote_specifier(referrer) {
// do not handle local modules referencing local modules
return;
}
// The remote module is referencing a local file. This could occur via an
// existing import map. In this case, we'll have to add an import map
// entry in order to map the path back to the local path once vendored.
let base_dir = import_map.base_dir().clone();
let base_specifier = mappings.base_specifier(referrer);
let imports = import_map.scope(base_specifier);
if text.starts_with("./") || text.starts_with("../") {
let referrer_local_uri = mappings.local_uri(referrer);
let mut specifier_local_uri =
referrer_local_uri.join(text).unwrap_or_else(|_| {
panic!(
"Error joining {} to {}",
unresolved_specifier.path(),
referrer_local_uri
)
});
specifier_local_uri.set_query(unresolved_specifier.query());
imports.add(
mappings.relative_specifier_text(&base_dir, &specifier_local_uri),
specifier,
);
} else {
imports.add(text.to_string(), specifier);
}
}
fn text_from_range<'a>(
text_info: &SourceTextInfo,
text: &'a str,
range: &Range,
) -> &'a str {
let result = &text[byte_range(text_info, range)];
if result.starts_with('"') || result.starts_with('\'') {
// remove the quotes
&result[1..result.len() - 1]
} else {
result
}
}
fn byte_range(
text_info: &SourceTextInfo,
range: &Range,
) -> std::ops::Range<usize> {
let start = byte_index(text_info, &range.start);
let end = byte_index(text_info, &range.end);
start..end
}
fn byte_index(text_info: &SourceTextInfo, pos: &Position) -> usize {
// todo(https://github.com/denoland/deno_graph/issues/79): use byte indexes all the way down
text_info.loc_to_source_pos(LineAndColumnIndex {
line_index: pos.line,
column_index: pos.character,
}) - text_info.range().start
}