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use std::{borrow::Cow, collections::VecDeque, sync::Arc};
use anyhow::{Result, bail};
use serde::{Deserialize, Serialize};
use swc_core::{
common::DUMMY_SP,
ecma::{
ast::{
Expr, ExprStmt, KeyValueProp, Lit, ModuleItem, ObjectLit, Prop, PropName, PropOrSpread,
Stmt, {self},
},
codegen::{Emitter, text_writer::JsWriter},
},
quote, quote_expr,
};
use turbo_esregex::EsRegex;
use turbo_rcstr::{RcStr, rcstr};
use turbo_tasks::{
FxIndexMap, NonLocalValue, ResolvedVc, ValueToString, Vc, debug::ValueDebugFormat,
trace::TraceRawVcs,
};
use turbo_tasks_fs::{DirectoryContent, DirectoryEntry, FileSystemPath};
use turbopack_core::{
asset::{Asset, AssetContent},
chunk::{
ChunkItem, ChunkType, ChunkableModule, ChunkableModuleReference, ChunkingContext,
MinifyType, ModuleChunkItemIdExt,
},
ident::AssetIdent,
issue::IssueSource,
module::Module,
module_graph::ModuleGraph,
reference::{ModuleReference, ModuleReferences},
resolve::{ModuleResolveResult, origin::ResolveOrigin, parse::Request},
source::Source,
};
use turbopack_resolve::ecmascript::cjs_resolve;
use crate::{
EcmascriptChunkPlaceable,
chunk::{
EcmascriptChunkItem, EcmascriptChunkItemContent, EcmascriptChunkType, EcmascriptExports,
},
code_gen::{CodeGen, CodeGeneration, IntoCodeGenReference},
create_visitor,
references::{
AstPath,
pattern_mapping::{PatternMapping, ResolveType},
},
runtime_functions::{TURBOPACK_EXPORT_VALUE, TURBOPACK_MODULE_CONTEXT, TURBOPACK_REQUIRE},
utils::module_id_to_lit,
};
#[turbo_tasks::value]
#[derive(Debug)]
pub(crate) enum DirListEntry {
File(FileSystemPath),
Dir(ResolvedVc<DirList>),
}
#[turbo_tasks::value(transparent)]
pub(crate) struct DirList(FxIndexMap<RcStr, DirListEntry>);
#[turbo_tasks::value_impl]
impl DirList {
#[turbo_tasks::function]
pub(crate) fn read(dir: FileSystemPath, recursive: bool, filter: Vc<EsRegex>) -> Vc<Self> {
Self::read_internal(dir.clone(), dir, recursive, filter)
}
#[turbo_tasks::function]
pub(crate) async fn read_internal(
root: FileSystemPath,
dir: FileSystemPath,
recursive: bool,
filter: Vc<EsRegex>,
) -> Result<Vc<Self>> {
let root_val = root.clone();
let dir_val = dir.clone();
let regex = &filter.await?;
let mut list = FxIndexMap::default();
let dir_content = dir.read_dir().await?;
let entries = match &*dir_content {
DirectoryContent::Entries(entries) => Some(entries),
DirectoryContent::NotFound => None,
};
for (_, entry) in entries.iter().flat_map(|m| m.iter()) {
match entry {
DirectoryEntry::File(path) => {
if let Some(relative_path) = root_val.get_relative_path_to(path)
&& regex.is_match(&relative_path)
{
list.insert(relative_path, DirListEntry::File(path.clone()));
}
}
DirectoryEntry::Directory(path) if recursive => {
if let Some(relative_path) = dir_val.get_relative_path_to(path) {
list.insert(
relative_path,
DirListEntry::Dir(
DirList::read_internal(
root.clone(),
path.clone(),
recursive,
filter,
)
.to_resolved()
.await?,
),
);
}
}
// ignore everything else
_ => {}
}
}
list.sort_keys();
Ok(Vc::cell(list))
}
#[turbo_tasks::function]
async fn flatten(self: Vc<Self>) -> Result<Vc<FlatDirList>> {
let this = self.await?;
let mut queue = VecDeque::from([this]);
let mut list = FxIndexMap::default();
while let Some(dir) = queue.pop_front() {
for (k, entry) in &*dir {
match entry {
DirListEntry::File(path) => {
list.insert(k.clone(), path.clone());
}
DirListEntry::Dir(d) => {
queue.push_back(d.await?);
}
}
}
}
Ok(Vc::cell(list))
}
}
#[turbo_tasks::value(transparent)]
pub(crate) struct FlatDirList(FxIndexMap<RcStr, FileSystemPath>);
#[turbo_tasks::value_impl]
impl FlatDirList {
#[turbo_tasks::function]
pub(crate) fn read(dir: FileSystemPath, recursive: bool, filter: Vc<EsRegex>) -> Vc<Self> {
DirList::read(dir, recursive, filter).flatten()
}
}
#[turbo_tasks::value]
#[derive(Debug)]
pub struct RequireContextMapEntry {
pub origin_relative: RcStr,
pub request: ResolvedVc<Request>,
pub result: ResolvedVc<ModuleResolveResult>,
}
/// The resolved context map for a `require.context(..)` call.
#[turbo_tasks::value(transparent)]
pub struct RequireContextMap(FxIndexMap<RcStr, RequireContextMapEntry>);
#[turbo_tasks::value_impl]
impl RequireContextMap {
#[turbo_tasks::function]
pub(crate) async fn generate(
origin: Vc<Box<dyn ResolveOrigin>>,
dir: FileSystemPath,
recursive: bool,
filter: Vc<EsRegex>,
issue_source: Option<IssueSource>,
is_optional: bool,
) -> Result<Vc<Self>> {
let origin_path = origin.origin_path().await?.parent();
let list = &*FlatDirList::read(dir, recursive, filter).await?;
let mut map = FxIndexMap::default();
for (context_relative, path) in list {
let Some(origin_relative) = origin_path.get_relative_path_to(path) else {
bail!("invariant error: this was already checked in `list_dir`");
};
let request = Request::parse(origin_relative.clone().into())
.to_resolved()
.await?;
let result = cjs_resolve(origin, *request, issue_source, is_optional)
.to_resolved()
.await?;
map.insert(
context_relative.clone(),
RequireContextMapEntry {
origin_relative,
request,
result,
},
);
}
Ok(Vc::cell(map))
}
}
/// A reference for `require.context()`, will replace it with an inlined map
/// wrapped in `__turbopack_module_context__`;
#[turbo_tasks::value]
#[derive(Hash, Debug)]
pub struct RequireContextAssetReference {
pub inner: ResolvedVc<RequireContextAsset>,
pub dir: RcStr,
pub include_subdirs: bool,
pub issue_source: Option<IssueSource>,
pub in_try: bool,
}
impl RequireContextAssetReference {
pub async fn new(
source: ResolvedVc<Box<dyn Source>>,
origin: ResolvedVc<Box<dyn ResolveOrigin>>,
dir: RcStr,
include_subdirs: bool,
filter: Vc<EsRegex>,
issue_source: Option<IssueSource>,
in_try: bool,
) -> Result<Self> {
let map = RequireContextMap::generate(
*origin,
origin.origin_path().await?.parent().join(&dir)?,
include_subdirs,
filter,
issue_source,
in_try,
)
.to_resolved()
.await?;
let inner = RequireContextAsset {
source,
origin,
map,
dir: dir.clone(),
include_subdirs,
}
.resolved_cell();
Ok(RequireContextAssetReference {
inner,
dir,
include_subdirs,
issue_source,
in_try,
})
}
}
#[turbo_tasks::value_impl]
impl ModuleReference for RequireContextAssetReference {
#[turbo_tasks::function]
fn resolve_reference(&self) -> Vc<ModuleResolveResult> {
*ModuleResolveResult::module(ResolvedVc::upcast(self.inner))
}
}
#[turbo_tasks::value_impl]
impl ValueToString for RequireContextAssetReference {
#[turbo_tasks::function]
fn to_string(&self) -> Vc<RcStr> {
Vc::cell(
format!(
"require.context {}/{}",
self.dir,
if self.include_subdirs { "**" } else { "*" },
)
.into(),
)
}
}
#[turbo_tasks::value_impl]
impl ChunkableModuleReference for RequireContextAssetReference {}
impl IntoCodeGenReference for RequireContextAssetReference {
fn into_code_gen_reference(
self,
path: AstPath,
) -> (ResolvedVc<Box<dyn ModuleReference>>, CodeGen) {
let reference = self.resolved_cell();
(
ResolvedVc::upcast(reference),
CodeGen::RequireContextAssetReferenceCodeGen(RequireContextAssetReferenceCodeGen {
reference,
path,
}),
)
}
}
#[derive(PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, ValueDebugFormat, NonLocalValue)]
pub struct RequireContextAssetReferenceCodeGen {
path: AstPath,
reference: ResolvedVc<RequireContextAssetReference>,
}
impl RequireContextAssetReferenceCodeGen {
pub async fn code_generation(
&self,
chunking_context: Vc<Box<dyn ChunkingContext>>,
) -> Result<CodeGeneration> {
let module_id = self
.reference
.await?
.inner
.chunk_item_id(Vc::upcast(chunking_context))
.await?;
let mut visitors = Vec::new();
visitors.push(create_visitor!(
self.path,
visit_mut_expr,
|expr: &mut Expr| {
if let Expr::Call(_) = expr {
*expr = quote!(
"$turbopack_module_context($turbopack_require($id))" as Expr,
turbopack_module_context: Expr = TURBOPACK_MODULE_CONTEXT.into(),
turbopack_require: Expr = TURBOPACK_REQUIRE.into(),
id: Expr = module_id_to_lit(&module_id)
);
}
}
));
Ok(CodeGeneration::visitors(visitors))
}
}
#[turbo_tasks::value(transparent)]
pub struct ResolvedModuleReference(ResolvedVc<ModuleResolveResult>);
#[turbo_tasks::value_impl]
impl ModuleReference for ResolvedModuleReference {
#[turbo_tasks::function]
fn resolve_reference(&self) -> Vc<ModuleResolveResult> {
*self.0
}
}
#[turbo_tasks::value_impl]
impl ValueToString for ResolvedModuleReference {
#[turbo_tasks::function]
fn to_string(&self) -> Vc<RcStr> {
Vc::cell(rcstr!("resolved reference"))
}
}
#[turbo_tasks::value_impl]
impl ChunkableModuleReference for ResolvedModuleReference {}
#[turbo_tasks::value]
pub struct RequireContextAsset {
source: ResolvedVc<Box<dyn Source>>,
origin: ResolvedVc<Box<dyn ResolveOrigin>>,
map: ResolvedVc<RequireContextMap>,
dir: RcStr,
include_subdirs: bool,
}
fn modifier(dir: &RcStr, include_subdirs: bool) -> RcStr {
format!(
"require.context {}/{}",
dir,
if include_subdirs { "**" } else { "*" },
)
.into()
}
#[turbo_tasks::value_impl]
impl Module for RequireContextAsset {
#[turbo_tasks::function]
fn ident(&self) -> Vc<AssetIdent> {
self.source
.ident()
.with_modifier(modifier(&self.dir, self.include_subdirs))
}
#[turbo_tasks::function]
async fn references(&self) -> Result<Vc<ModuleReferences>> {
let map = &*self.map.await?;
Ok(Vc::cell(
map.iter()
.map(|(_, entry)| {
ResolvedVc::upcast(ResolvedVc::<ResolvedModuleReference>::cell(entry.result))
})
.collect(),
))
}
}
#[turbo_tasks::value_impl]
impl Asset for RequireContextAsset {
#[turbo_tasks::function]
fn content(&self) -> Vc<AssetContent> {
unimplemented!()
}
}
#[turbo_tasks::value_impl]
impl ChunkableModule for RequireContextAsset {
#[turbo_tasks::function]
async fn as_chunk_item(
self: ResolvedVc<Self>,
module_graph: ResolvedVc<ModuleGraph>,
chunking_context: ResolvedVc<Box<dyn ChunkingContext>>,
) -> Result<Vc<Box<dyn turbopack_core::chunk::ChunkItem>>> {
let this = self.await?;
Ok(Vc::upcast(
RequireContextChunkItem {
module_graph,
chunking_context,
inner: self,
origin: this.origin,
map: this.map,
}
.cell(),
))
}
}
#[turbo_tasks::value_impl]
impl EcmascriptChunkPlaceable for RequireContextAsset {
#[turbo_tasks::function]
fn get_exports(&self) -> Vc<EcmascriptExports> {
EcmascriptExports::Value.cell()
}
}
#[turbo_tasks::value]
pub struct RequireContextChunkItem {
module_graph: ResolvedVc<ModuleGraph>,
chunking_context: ResolvedVc<Box<dyn ChunkingContext>>,
inner: ResolvedVc<RequireContextAsset>,
origin: ResolvedVc<Box<dyn ResolveOrigin>>,
map: ResolvedVc<RequireContextMap>,
}
#[turbo_tasks::value_impl]
impl EcmascriptChunkItem for RequireContextChunkItem {
#[turbo_tasks::function]
async fn content(&self) -> Result<Vc<EcmascriptChunkItemContent>> {
let map = &*self.map.await?;
let minify = self.chunking_context.minify_type().await?;
let mut context_map = ObjectLit {
span: DUMMY_SP,
props: vec![],
};
for (key, entry) in map {
let pm = PatternMapping::resolve_request(
*entry.request,
*self.origin,
*ResolvedVc::upcast(self.chunking_context),
*entry.result,
ResolveType::ChunkItem,
)
.await?;
let PatternMapping::Single(pm) = &*pm else {
continue;
};
let key_expr = Expr::Lit(Lit::Str(entry.origin_relative.as_str().into()));
let prop = KeyValueProp {
key: PropName::Str(key.as_str().into()),
value: quote_expr!(
"{ id: () => $id, module: () => $module }",
id: Expr =
pm.create_id(Cow::Borrowed(&key_expr)),
module: Expr =
pm.create_require(Cow::Borrowed(&key_expr)),
),
};
context_map
.props
.push(PropOrSpread::Prop(Box::new(Prop::KeyValue(prop))));
}
let expr = quote_expr!(
"$turbopack_export_value($obj);",
turbopack_export_value: Expr = TURBOPACK_EXPORT_VALUE.into(),
obj: Expr = Expr::Object(context_map),
);
let module = ast::Module {
span: DUMMY_SP,
body: vec![ModuleItem::Stmt(Stmt::Expr(ExprStmt {
span: DUMMY_SP,
expr,
}))],
shebang: None,
};
let source_map: Arc<swc_core::common::SourceMap> = Default::default();
let mut bytes: Vec<u8> = vec![];
let mut wr: JsWriter<'_, &mut Vec<u8>> =
JsWriter::new(source_map.clone(), "\n", &mut bytes, None);
if matches!(*minify, MinifyType::Minify { .. }) {
wr.set_indent_str("");
}
let mut emitter = Emitter {
cfg: swc_core::ecma::codegen::Config::default(),
cm: source_map.clone(),
comments: None,
wr,
};
emitter.emit_module(&module)?;
Ok(EcmascriptChunkItemContent {
inner_code: bytes.into(),
..Default::default()
}
.cell())
}
}
#[turbo_tasks::value_impl]
impl ChunkItem for RequireContextChunkItem {
#[turbo_tasks::function]
fn asset_ident(&self) -> Vc<AssetIdent> {
self.inner.ident()
}
#[turbo_tasks::function]
fn chunking_context(&self) -> Vc<Box<dyn ChunkingContext>> {
*ResolvedVc::upcast(self.chunking_context)
}
#[turbo_tasks::function]
async fn ty(&self) -> Result<Vc<Box<dyn ChunkType>>> {
Ok(Vc::upcast(
Vc::<EcmascriptChunkType>::default().resolve().await?,
))
}
#[turbo_tasks::function]
fn module(&self) -> Vc<Box<dyn Module>> {
*ResolvedVc::upcast(self.inner)
}
}
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