use std::mem::take; use anyhow::Result; use serde::{Deserialize, Serialize}; use swc_core::{ common::DUMMY_SP, ecma::{ ast::{CallExpr, Callee, Expr, ExprOrSpread, Lit}, utils::private_ident, }, quote, quote_expr, }; use turbo_rcstr::RcStr; use turbo_tasks::{ NonLocalValue, ReadRef, ResolvedVc, TryJoinIterExt, ValueToString, Vc, debug::ValueDebugFormat, trace::TraceRawVcs, }; use turbopack_core::{ chunk::{ChunkableModuleReference, ChunkingContext}, issue::IssueSource, reference::ModuleReference, resolve::{ModuleResolveResult, origin::ResolveOrigin, parse::Request}, }; use turbopack_resolve::ecmascript::cjs_resolve; use crate::{ code_gen::{CodeGen, CodeGeneration}, create_visitor, references::{ AstPath, pattern_mapping::{PatternMapping, ResolveType}, }, runtime_functions::{TURBOPACK_EXPORT_VALUE, TURBOPACK_REQUIRE}, }; #[turbo_tasks::value] #[derive(Hash, Debug)] pub struct AmdDefineAssetReference { origin: ResolvedVc>, request: ResolvedVc, issue_source: IssueSource, in_try: bool, } #[turbo_tasks::value_impl] impl AmdDefineAssetReference { #[turbo_tasks::function] pub fn new( origin: ResolvedVc>, request: ResolvedVc, issue_source: IssueSource, in_try: bool, ) -> Vc { Self::cell(AmdDefineAssetReference { origin, request, issue_source, in_try, }) } } #[turbo_tasks::value_impl] impl ModuleReference for AmdDefineAssetReference { #[turbo_tasks::function] fn resolve_reference(&self) -> Vc { cjs_resolve( *self.origin, *self.request, Some(self.issue_source), self.in_try, ) } } #[turbo_tasks::value_impl] impl ValueToString for AmdDefineAssetReference { #[turbo_tasks::function] async fn to_string(&self) -> Result> { Ok(Vc::cell( format!("AMD define dependency {}", self.request.to_string().await?,).into(), )) } } #[turbo_tasks::value_impl] impl ChunkableModuleReference for AmdDefineAssetReference {} #[derive( ValueDebugFormat, Debug, PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, Clone, NonLocalValue, )] pub enum AmdDefineDependencyElement { Request { request: ResolvedVc, request_str: String, }, Exports, Module, Require, } #[derive( ValueDebugFormat, Debug, PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, Copy, Clone, NonLocalValue, )] pub enum AmdDefineFactoryType { Unknown, Function, Value, } #[derive(PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, ValueDebugFormat, NonLocalValue)] pub struct AmdDefineWithDependenciesCodeGen { dependencies_requests: Vec, origin: ResolvedVc>, path: AstPath, factory_type: AmdDefineFactoryType, issue_source: IssueSource, in_try: bool, } impl AmdDefineWithDependenciesCodeGen { pub fn new( dependencies_requests: Vec, origin: ResolvedVc>, path: AstPath, factory_type: AmdDefineFactoryType, issue_source: IssueSource, in_try: bool, ) -> Self { AmdDefineWithDependenciesCodeGen { dependencies_requests, origin, path, factory_type, issue_source, in_try, } } pub async fn code_generation( &self, chunking_context: Vc>, ) -> Result { let mut visitors = Vec::new(); let resolved_elements = self .dependencies_requests .iter() .map(|element| async move { Ok(match element { AmdDefineDependencyElement::Request { request, request_str, } => ResolvedElement::PatternMapping { pattern_mapping: PatternMapping::resolve_request( **request, *self.origin, Vc::upcast(chunking_context), cjs_resolve( *self.origin, **request, Some(self.issue_source), self.in_try, ), ResolveType::ChunkItem, ) .await?, request_str: request_str.to_string(), }, AmdDefineDependencyElement::Exports => { ResolvedElement::Expr(quote!("exports" as Expr)) } AmdDefineDependencyElement::Module => { ResolvedElement::Expr(quote!("module" as Expr)) } AmdDefineDependencyElement::Require => { ResolvedElement::Expr(TURBOPACK_REQUIRE.into()) } }) }) .try_join() .await?; let factory_type = self.factory_type; visitors.push(create_visitor!( exact, self.path, visit_mut_call_expr, |call_expr: &mut CallExpr| { transform_amd_factory(call_expr, &resolved_elements, factory_type) } )); Ok(CodeGeneration::visitors(visitors)) } } impl From for CodeGen { fn from(val: AmdDefineWithDependenciesCodeGen) -> Self { CodeGen::AmdDefineWithDependenciesCodeGen(Box::new(val)) } } enum ResolvedElement { PatternMapping { pattern_mapping: ReadRef, request_str: String, }, Expr(Expr), } /// Transforms `define([dep1, dep2], factory)` into: /// ```js /// __turbopack_export_value__( /// factory( /// __turbopack_require__(dep1), /// __turbopack_require__(dep2), /// ), /// ); /// ``` fn transform_amd_factory( call_expr: &mut CallExpr, resolved_elements: &[ResolvedElement], factory_type: AmdDefineFactoryType, ) { let CallExpr { args, callee, .. } = call_expr; let Some(factory) = take(args).pop().map(|e| e.expr) else { return; }; let deps = resolved_elements .iter() .map(|element| match element { ResolvedElement::PatternMapping { pattern_mapping: pm, request_str: request, } => { let key_expr = Expr::Lit(Lit::Str(request.as_str().into())); pm.create_require(key_expr) } ResolvedElement::Expr(expr) => expr.clone(), }) .map(ExprOrSpread::from) .collect(); match factory_type { AmdDefineFactoryType::Unknown => { // ((f, r = typeof f !== "function" ? f : f([...])) => r !== undefined && // __turbopack_export_value__(r))(...) let f = private_ident!("f"); let call_f = Expr::Call(CallExpr { args: deps, callee: Callee::Expr(Box::new(Expr::Ident(f.clone()))), span: DUMMY_SP, ..Default::default() }); *callee = Callee::Expr(quote_expr!( "($f1, r = typeof $f2 !== \"function\" ? $f3 : $call_f) => r !== undefined && \ $turbopack_export_value(r)", f1 = f.clone(), f2 = f.clone(), f3 = f, call_f: Expr = call_f, turbopack_export_value: Expr = TURBOPACK_EXPORT_VALUE.into() )); args.push(ExprOrSpread { expr: factory, spread: None, }); } AmdDefineFactoryType::Function => { // (r => r !== undefined && __turbopack_export_value__(r))(...([...])) *callee = Callee::Expr(quote_expr!( "r => r !== undefined && $turbopack_export_value(r)", turbopack_export_value: Expr = TURBOPACK_EXPORT_VALUE.into() )); args.push(ExprOrSpread { expr: Box::new(Expr::Call(CallExpr { args: deps, callee: Callee::Expr(factory), ..Default::default() })), spread: None, }); } AmdDefineFactoryType::Value => { // __turbopack_export_value__(...) *callee = Callee::Expr(Box::new(TURBOPACK_EXPORT_VALUE.into())); args.push(ExprOrSpread { expr: factory, spread: None, }); } } }