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react-code-dataset / next.js /turbopack /crates /turbo-tasks-build /src /lib.rs
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 use std::{
env::{self, current_dir},
fmt::{Display, Write},
fs::read_dir,
path::{MAIN_SEPARATOR as PATH_SEP, PathBuf},
sync::Arc,
};
use anyhow::{Context, Result};
use glob::glob;
use quote::ToTokens;
use rustc_hash::{FxHashMap, FxHashSet};
use syn::{
Attribute, Expr, Ident, Item, ItemEnum, ItemFn, ItemImpl, ItemMacro, ItemMod, ItemStruct,
ItemTrait, Lit, Meta, TraitItem, TraitItemFn, parse_quote,
};
use turbo_tasks_macros_shared::{
GenericTypeInput, PrimitiveInput, get_impl_function_ident, get_native_function_ident,
get_path_ident, get_register_trait_impls_ident, get_register_trait_methods_ident,
get_register_value_type_ident, get_trait_default_impl_function_ident,
get_trait_impl_function_ident, get_trait_type_ident, get_type_ident,
};
pub fn generate_register() {
println!("cargo:rerun-if-changed=build.rs");
let crate_dir = current_dir().unwrap();
let workspace_dir = env::var_os("CARGO_WORKSPACE_DIR")
.map(PathBuf::from)
.unwrap_or_else(|| crate_dir.clone());
let crate_name = env::var("CARGO_PKG_NAME").unwrap();
let out_dir = PathBuf::from(env::var("OUT_DIR").unwrap());
let src_dir = crate_dir.join("src");
let examples_dir = crate_dir.join("examples");
let tests_dir = crate_dir.join("tests");
let fuzz_dir = crate_dir.join("fuzz_targets");
let afl_dir = crate_dir.join("afl_targets");
let benches_dir = crate_dir.join("benches");
let cargo_lock_path = workspace_dir.join("Cargo.lock");
// TODO: use (ask @sokra)
let _lock = cargo_lock::Lockfile::load(cargo_lock_path).ok();
let mut entries = Vec::new();
let lib_entry = src_dir.join("lib.rs");
if lib_entry.exists() {
entries.push(("register.rs".to_string(), lib_entry));
} else {
let bin_entry = src_dir.join("main.rs");
if bin_entry.exists() {
entries.push(("register.rs".to_string(), bin_entry));
}
}
if examples_dir.exists() {
for item in read_dir(examples_dir).unwrap() {
let item = item.unwrap();
let file_type = &item.file_type().unwrap();
if file_type.is_file() || file_type.is_symlink() {
let name = item.file_name();
let name = name.to_string_lossy();
if name.ends_with(".rs") {
entries.push((format!("register_example_{name}"), item.path()));
}
}
}
}
if tests_dir.exists() {
for item in read_dir(tests_dir).unwrap() {
let item = item.unwrap();
let file_type = &item.file_type().unwrap();
if file_type.is_file() || file_type.is_symlink() {
let name = item.file_name();
let name = name.to_string_lossy();
if name.ends_with(".rs") {
entries.push((format!("register_test_{name}"), item.path()));
}
}
}
}
if afl_dir.exists() {
for item in read_dir(afl_dir).unwrap() {
let item = item.unwrap();
let file_type = &item.file_type().unwrap();
if file_type.is_file() || file_type.is_symlink() {
let name = item.file_name();
let name = name.to_string_lossy();
if name.ends_with(".rs") {
entries.push((format!("register_afl_{name}"), item.path()));
}
}
}
}
if fuzz_dir.exists() {
for item in read_dir(fuzz_dir).unwrap() {
let item = item.unwrap();
let file_type = &item.file_type().unwrap();
if file_type.is_file() || file_type.is_symlink() {
let name = item.file_name();
let name = name.to_string_lossy();
if name.ends_with(".rs") {
entries.push((format!("register_fuzz_{name}"), item.path()));
}
}
}
}
if benches_dir.exists() {
let bench_mod = benches_dir.join("mod.rs");
if bench_mod.is_file() || bench_mod.is_symlink() {
let name = bench_mod.file_name().unwrap();
let name = name.to_string_lossy();
if name.ends_with(".rs") {
entries.push(("register_benches.rs".to_string(), bench_mod));
}
}
}
for (filename, entry) in entries {
// TODO hash src dir
let hash = "TODO";
let prefix = format!("{crate_name}@{hash}::");
let mut register_code = String::new();
let mut values = FxHashMap::default();
let out_file = out_dir.join(filename);
let mut queue = vec![QueueEntry {
file_path: entry,
mod_path: "".to_string(),
attributes: Vec::new(),
}];
while let Some(QueueEntry {
file_path,
mod_path,
attributes,
}) = queue.pop()
{
println!("cargo:rerun-if-changed={}", file_path.to_string_lossy());
let src = std::fs::read_to_string(&file_path).unwrap();
let mut ctx = RegisterContext {
queue: &mut queue,
file_path: &file_path,
prefix: &prefix,
mod_path,
attributes,
register: &mut register_code,
values: &mut values,
};
match syn::parse_file(&src)
.with_context(|| format!("failed to parse {}", file_path.display()))
{
Ok(file) => {
for item in file.items {
ctx.process_item(&item).unwrap();
}
}
Err(err) => println!("{err}"),
}
}
let mut values_code = String::new();
for ((mod_path, ident), entry) in values {
for attribute in &entry.attributes {
values_code.push_str(attribute);
}
writeln!(
values_code,
"crate{}::{}({}, #[allow(unused_variables)] |value| {{",
mod_path,
get_register_value_type_ident(&ident),
entry.global_name,
)
.unwrap();
// Register all the trait items for each impl so we can dispatch to them as turbotasks
for trait_ident in &entry.trait_idents {
writeln!(
values_code,
" crate{}::{}(value);",
mod_path,
get_register_trait_methods_ident(trait_ident, &ident),
)
.unwrap();
}
writeln!(values_code, "}}, #[allow(unused_variables)] |value_id| {{").unwrap();
// Register all the vtables for the impls so we can dispatch to them as normal indirect
// trait calls.
for trait_ident in &entry.trait_idents {
writeln!(
values_code,
" crate{}::{}(value_id);",
mod_path,
get_register_trait_impls_ident(trait_ident, &ident),
)
.unwrap();
}
writeln!(values_code, "}});").unwrap();
}
let code = format!(
"{{\nstatic ONCE: std::sync::Once = std::sync::Once::new();\nONCE.call_once(|| \
{{\n{register_code}{values_code}}});\n}}\n"
);
std::fs::write(out_file, code).unwrap();
// println!("cargo:warning={}", out_file.display());
// for line in code.lines() {
// println!("cargo:warning={line}");
// }
}
}
pub fn rerun_if_glob(globs: &str, root: &str) {
let cwd = env::current_dir().unwrap();
let globs = cwd.join(globs.replace('/', PATH_SEP.to_string().as_str()));
let root = cwd.join(root.replace('/', PATH_SEP.to_string().as_str()));
println!("cargo:rerun-if-changed={}", root.display());
let mut seen = FxHashSet::from_iter([root]);
for entry in glob(globs.to_str().unwrap()).unwrap() {
let path = entry.unwrap();
for ancestor in path.ancestors() {
if seen.insert(ancestor.to_owned()) {
println!("cargo:rerun-if-changed={}", ancestor.display());
} else {
break;
}
}
}
}
/// (mod_path, type_ident)
type ValueKey = (String, Ident);
/// (global_name, trait_register_fns)
struct ValueEntry {
attributes: Vec<Arc<String>>,
global_name: String,
trait_idents: Vec<Ident>,
}
struct QueueEntry {
/// The on-disk path to the file representing this module.
file_path: PathBuf,
/// The `syn::Path`-style representation of the module. Each component is
/// separated by `::`.
mod_path: String,
/// Attributes (`#[cfg(...)]`) applied to the `ItemMod`.
attributes: Vec<Arc<String>>,
}
struct RegisterContext<'a> {
queue: &'a mut Vec<QueueEntry>,
file_path: &'a PathBuf,
mod_path: String,
attributes: Vec<Arc<String>>,
prefix: &'a str,
register: &'a mut String,
values: &'a mut FxHashMap<ValueKey, ValueEntry>,
}
impl RegisterContext<'_> {
fn process_item(&mut self, item: &Item) -> Result<()> {
match item {
Item::Enum(enum_item) => self.process_enum(enum_item),
Item::Fn(fn_item) => self.process_fn(fn_item),
Item::Impl(impl_item) => self.process_impl(impl_item),
Item::Mod(mod_item) => self.process_mod(mod_item),
Item::Struct(struct_item) => self.process_struct(struct_item),
Item::Trait(trait_item) => self.process_trait(trait_item),
Item::Macro(macro_item) => self.process_macro(macro_item),
_ => Ok(()),
}
}
fn process_enum(&mut self, item: &ItemEnum) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_enum_inner(item))
}
fn process_enum_inner(&mut self, enum_item: &ItemEnum) -> Result<()> {
if has_turbo_attribute(&enum_item.attrs, "value") {
self.add_value(&enum_item.ident);
self.add_value_debug_impl(&enum_item.ident);
}
Ok(())
}
fn process_fn(&mut self, item: &ItemFn) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_fn_inner(item))
}
fn process_fn_inner(&mut self, fn_item: &ItemFn) -> Result<()> {
if has_turbo_attribute(&fn_item.attrs, "function") {
let ident = &fn_item.sig.ident;
let type_ident = get_native_function_ident(ident);
self.register(type_ident, self.get_global_name(&[ident]))?;
}
Ok(())
}
fn process_impl(&mut self, item: &ItemImpl) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_impl_inner(item))
}
fn process_impl_inner(&mut self, impl_item: &ItemImpl) -> Result<()> {
if has_turbo_attribute(&impl_item.attrs, "value_impl") {
let struct_ident = get_type_ident(&impl_item.self_ty).unwrap();
let trait_ident = impl_item
.trait_
.as_ref()
.map(|(_, trait_path, _)| get_path_ident(trait_path));
if let Some(trait_ident) = &trait_ident {
self.add_value_trait(&struct_ident, trait_ident);
}
for item in &impl_item.items {
if let syn::ImplItem::Fn(method_item) = item
&& method_item
.attrs
.iter()
.any(|a| is_turbo_attribute(a, "function"))
{
let method_ident = &method_item.sig.ident;
let function_type_ident = if let Some(trait_ident) = &trait_ident {
get_trait_impl_function_ident(&struct_ident, trait_ident, method_ident)
} else {
get_impl_function_ident(&struct_ident, method_ident)
};
let global_name = if let Some(trait_ident) = &trait_ident {
self.get_global_name(&[&struct_ident, trait_ident, method_ident])
} else {
self.get_global_name(&[&struct_ident, method_ident])
};
self.register(function_type_ident, global_name)?;
}
}
}
Ok(())
}
fn process_mod(&mut self, item: &ItemMod) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_mod_inner(item))
}
fn process_mod_inner(&mut self, mod_item: &ItemMod) -> Result<()> {
let child_mod_name = mod_item.ident.to_string();
let child_mod_path = format!("{}::{}", self.mod_path, child_mod_name);
if let Some((_, items)) = &mod_item.content {
let parent_mod_path = std::mem::replace(&mut self.mod_path, child_mod_path);
for item in items {
self.process_item(item)?;
}
self.mod_path = parent_mod_path;
} else {
let parent_file_path = self.file_path.parent().unwrap();
if let Some(path) = mod_item.attrs.iter().find_map(|attr| {
let Meta::NameValue(pair) = &attr.meta else {
return None;
};
if !pair.path.is_ident("path") {
return None;
}
let Expr::Lit(lit) = &pair.value else {
return None;
};
let Lit::Str(str) = &lit.lit else {
return None;
};
let path = str.value();
let path = path.replace('/', &format!("{PATH_SEP}"));
let path = parent_file_path.join(path);
Some(path)
}) {
self.queue.push(QueueEntry {
file_path: path,
mod_path: child_mod_path,
attributes: self.attributes.clone(),
});
} else {
let direct = parent_file_path.join(format!("{child_mod_name}.rs"));
if direct.exists() {
self.queue.push(QueueEntry {
file_path: direct,
mod_path: child_mod_path,
attributes: self.attributes.clone(),
});
} else {
let nested = parent_file_path.join(&child_mod_name).join("mod.rs");
if nested.exists() {
self.queue.push(QueueEntry {
file_path: nested,
mod_path: child_mod_path,
attributes: self.attributes.clone(),
});
}
}
}
}
Ok(())
}
fn process_struct(&mut self, item: &ItemStruct) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_struct_inner(item))
}
fn process_struct_inner(&mut self, struct_item: &ItemStruct) -> Result<()> {
if has_turbo_attribute(&struct_item.attrs, "value") {
self.add_value(&struct_item.ident);
self.add_value_debug_impl(&struct_item.ident);
}
Ok(())
}
fn process_trait(&mut self, item: &ItemTrait) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_trait_inner(item))
}
fn process_trait_inner(&mut self, trait_item: &ItemTrait) -> Result<()> {
if trait_item
.attrs
.iter()
.any(|a| is_turbo_attribute(a, "value_trait"))
{
let trait_ident = &trait_item.ident;
for item in &trait_item.items {
if let TraitItem::Fn(TraitItemFn {
default: Some(_),
sig,
attrs,
..
}) = item
&& attrs.iter().any(|a| is_turbo_attribute(a, "function"))
{
let method_ident = &sig.ident;
let function_type_ident =
get_trait_default_impl_function_ident(trait_ident, method_ident);
self.register(
function_type_ident,
self.get_global_name(&[trait_ident, method_ident]),
)?;
}
}
let trait_type_ident = get_trait_type_ident(trait_ident);
self.register(trait_type_ident, self.get_global_name(&[trait_ident]))?;
}
Ok(())
}
fn process_macro(&mut self, item: &ItemMacro) -> Result<()> {
self.with_cfg_attrs(&item.attrs, move |this| this.process_macro_inner(item))
}
fn process_macro_inner(&mut self, macro_item: &ItemMacro) -> Result<()> {
if macro_item
.mac
.path
.is_ident("__turbo_tasks_internal_primitive")
{
let input = macro_item.mac.tokens.clone();
let input = syn::parse2::<PrimitiveInput>(input).unwrap();
let ty = input.ty;
let Some(ident) = get_type_ident(&ty) else {
return Ok(());
};
self.add_value(&ident);
self.add_value_debug_impl(&ident);
self.add_value_default_impl(&ident);
} else if macro_item
.mac
.path
.is_ident("__turbo_tasks_internal_generic_type")
{
let input = macro_item.mac.tokens.clone();
let input = syn::parse2::<GenericTypeInput>(input).unwrap();
let ty = input.ty;
let Some(ident) = get_type_ident(&ty) else {
return Ok(());
};
// Generic types must implement `ValueDebug` manually, as there's currently no
// easy way to automate the process.
self.add_value(&ident);
}
Ok(())
}
}
impl RegisterContext<'_> {
fn get_global_name(&self, parts: &[&Ident]) -> String {
format!(
"r##\"{}{}::{}\"##",
self.prefix,
self.mod_path,
parts
.iter()
.map(ToString::to_string)
.collect::<Vec<_>>()
.join("::")
)
}
fn add_value(&mut self, ident: &Ident) {
let key: ValueKey = (self.mod_path.clone(), ident.clone());
let value = ValueEntry {
attributes: self.attributes.clone(),
global_name: self.get_global_name(&[ident]),
trait_idents: Vec::new(),
};
assert!(
self.values.insert(key, value).is_none(),
"{ident} is declared more than once"
);
}
fn add_value_debug_impl(&mut self, ident: &Ident) {
// register default debug impl generated by proc macro
self.register_debug_impl(ident).unwrap();
self.add_value_trait(
ident,
&get_type_ident(&parse_quote! {
turbo_tasks::debug::ValueDebug
})
.unwrap(),
);
}
fn add_value_default_impl(&mut self, ident: &Ident) {
// register default ValueDefault impl generated by proc macro
self.register_default_impl(ident).unwrap();
self.add_value_trait(
ident,
&get_type_ident(&parse_quote! {
turbo_tasks::ValueDefault
})
.unwrap(),
);
}
fn add_value_trait(&mut self, ident: &Ident, trait_ident: &Ident) {
let key: ValueKey = (self.mod_path.clone(), ident.clone());
let entry = self.values.get_mut(&key);
if entry.is_none() {
panic!(
"failed to add value trait {} to {} in {}. Did you try to implement a trait on a \
Vc instead of its value?",
trait_ident,
ident,
self.file_path.display()
);
}
entry.unwrap().trait_idents.push(trait_ident.clone());
}
fn register(
&mut self,
type_ident: impl Display,
global_name: impl Display,
) -> std::fmt::Result {
for attribute in &self.attributes {
self.register.push_str(attribute);
}
writeln!(
self.register,
"crate{}::{}.register({});",
self.mod_path, type_ident, global_name
)
}
/// Declares a derive of the given trait and its methods.
fn register_impl(
&mut self,
ident: &Ident,
trait_ident: &Ident,
fn_names: &[&'static str],
) -> std::fmt::Result {
for fn_name in fn_names {
let fn_ident = Ident::new(fn_name, ident.span());
let (impl_fn_ident, global_name) = (
get_trait_impl_function_ident(ident, trait_ident, &fn_ident),
self.get_global_name(&[ident, trait_ident, &fn_ident]),
);
self.register(impl_fn_ident, global_name)?;
}
Ok(())
}
/// Declares the default derive of the `ValueDebug` trait.
fn register_debug_impl(&mut self, ident: &Ident) -> std::fmt::Result {
self.register_impl(
ident,
&get_type_ident(&parse_quote! {
turbo_tasks::debug::ValueDebug
})
.unwrap(),
&["dbg", "dbg_depth"],
)
}
/// Declares the default derive of the `ValueDefault` trait.
fn register_default_impl(&mut self, ident: &Ident) -> std::fmt::Result {
self.register_impl(
ident,
&get_type_ident(&parse_quote! {
turbo_tasks::ValueDefault
})
.unwrap(),
&["value_default"],
)
}
fn with_cfg_attrs<T>(&mut self, attrs: &[Attribute], func: impl FnOnce(&mut Self) -> T) -> T {
let orig_len = self.attributes.len();
for attr in attrs.iter().filter(|a| is_cfg_attribute(a)) {
self.attributes
.push(Arc::new(attr.to_token_stream().to_string()));
}
let ret = func(self);
self.attributes.truncate(orig_len);
ret
}
}
fn has_turbo_attribute(attrs: &[Attribute], name: &str) -> bool {
attrs.iter().any(|a| is_turbo_attribute(a, name))
}
fn is_turbo_attribute(attr: &Attribute, name: &str) -> bool {
let path = attr.path();
if path.leading_colon.is_some() {
return false;
}
let mut iter = path.segments.iter();
match iter.next() {
Some(seg) if seg.arguments.is_empty() && seg.ident == "turbo_tasks" => match iter.next() {
Some(seg) if seg.arguments.is_empty() && seg.ident == name => iter.next().is_none(),
_ => false,
},
_ => false,
}
}
fn is_cfg_attribute(attr: &Attribute) -> bool {
attr.path()
.get_ident()
.is_some_and(|ident| ident == "cfg" || ident == "cfg_attr")
}