use anyhow::{Context, Result, bail}; use serde::{Deserialize, Serialize}; use swc_core::{ common::DUMMY_SP, ecma::ast::{Ident, Lit}, quote, }; use turbo_rcstr::RcStr; use turbo_tasks::{NonLocalValue, ResolvedVc, ValueToString, Vc, trace::TraceRawVcs}; use turbopack_core::{ chunk::{ ChunkableModuleReference, ChunkingContext, ChunkingType, ChunkingTypeOption, ModuleChunkItemIdExt, }, module::Module, reference::ModuleReference, resolve::{ExportUsage, ModulePart, ModuleResolveResult}, }; use super::{ facade::module::EcmascriptModuleFacadeModule, locals::module::EcmascriptModuleLocalsModule, }; use crate::{ ScopeHoistingContext, chunk::EcmascriptChunkPlaceable, code_gen::{CodeGeneration, CodeGenerationHoistedStmt}, references::esm::base::{ReferencedAsset, ReferencedAssetIdent}, runtime_functions::TURBOPACK_IMPORT, utils::module_id_to_lit, }; #[derive(Debug, Clone, Eq, PartialEq, Hash, Serialize, Deserialize, NonLocalValue, TraceRawVcs)] enum EcmascriptModulePartReferenceMode { Synthesize, Normal, } /// A reference to the [EcmascriptModuleLocalsModule] variant of an original /// module. #[turbo_tasks::value] pub struct EcmascriptModulePartReference { module: ResolvedVc>, part: ModulePart, export_usage: ResolvedVc, mode: EcmascriptModulePartReferenceMode, } #[turbo_tasks::value_impl] impl EcmascriptModulePartReference { // Create new [EcmascriptModuleFacadeModule]s as necessary #[turbo_tasks::function] pub fn new_part( module: ResolvedVc>, part: ModulePart, export_usage: ResolvedVc, ) -> Vc { EcmascriptModulePartReference { module, part, export_usage, mode: EcmascriptModulePartReferenceMode::Synthesize, } .cell() } // A reference to the given module, without any intermediary synthesized modules. #[turbo_tasks::function] pub fn new_normal( module: ResolvedVc>, part: ModulePart, export_usage: ResolvedVc, ) -> Vc { EcmascriptModulePartReference { module, part, export_usage, mode: EcmascriptModulePartReferenceMode::Normal, } .cell() } } #[turbo_tasks::value_impl] impl ValueToString for EcmascriptModulePartReference { #[turbo_tasks::function] fn to_string(&self) -> Vc { Vc::cell(self.part.to_string().into()) } } #[turbo_tasks::value_impl] impl ModuleReference for EcmascriptModulePartReference { #[turbo_tasks::function] async fn resolve_reference(&self) -> Result> { let module = match self.mode { EcmascriptModulePartReferenceMode::Synthesize => { match &self.part { ModulePart::Locals => { let Some(module) = ResolvedVc::try_downcast_type(self.module) else { bail!( "Expected EcmascriptModuleAsset for a \ EcmascriptModulePartReference with ModulePart::Locals" ); }; Vc::upcast::>(EcmascriptModuleLocalsModule::new(*module)) } ModulePart::Exports | ModulePart::Evaluation | ModulePart::Facade | ModulePart::RenamedExport { .. } | ModulePart::RenamedNamespace { .. } => Vc::upcast( EcmascriptModuleFacadeModule::new(*self.module, self.part.clone()), ), ModulePart::Export(..) | ModulePart::Internal(..) => { bail!( "Unexpected ModulePart \"{}\" for EcmascriptModulePartReference", self.part ); } } .to_resolved() .await? } EcmascriptModulePartReferenceMode::Normal => ResolvedVc::upcast(self.module), }; Ok(*ModuleResolveResult::module(module)) } } #[turbo_tasks::value_impl] impl ChunkableModuleReference for EcmascriptModulePartReference { #[turbo_tasks::function] fn chunking_type(self: Vc) -> Vc { Vc::cell(Some(ChunkingType::Parallel { inherit_async: true, hoisted: true, })) } #[turbo_tasks::function] fn export_usage(&self) -> Vc { *self.export_usage } } impl EcmascriptModulePartReference { pub async fn code_generation( self: Vc, chunking_context: Vc>, scope_hoisting_context: ScopeHoistingContext<'_>, ) -> Result { let this = self.await?; let referenced_asset = ReferencedAsset::from_resolve_result(self.resolve_reference()); let referenced_asset = referenced_asset.await?; let ReferencedAsset::Some(module) = *referenced_asset else { bail!("part module reference should have an module reference"); }; let mut result = vec![]; let merged_index = scope_hoisting_context.get_module_index(module); if let Some(merged_index) = merged_index { // Insert a placeholder to inline the merged module at the right place // relative to the other references (so to keep reference order). result.push(CodeGenerationHoistedStmt::new( format!("hoisted {merged_index}").into(), quote!( "__turbopack_merged_esm__($id);" as Stmt, id: Expr = Lit::Num(merged_index.into()).into(), ), )); } let export_usage = this.export_usage.await?; if merged_index.is_some() && matches!(*export_usage, ExportUsage::Evaluation) { // No need to import, the module was already executed and is available in the same scope // hoisting group (unless it's a namespace import) } else { let ident = referenced_asset .get_ident( chunking_context, match &*export_usage { ExportUsage::Named(export) => Some(export.clone()), ExportUsage::All | ExportUsage::Evaluation => None, }, scope_hoisting_context, ) .await? .context("part module reference should have an ident")?; match ident { ReferencedAssetIdent::LocalBinding { .. } => { // no need to import } ReferencedAssetIdent::Module { .. } => { let (sym, ctxt) = ident.into_module_namespace_ident().unwrap(); let key = sym.as_str().into(); let name = Ident::new(sym.into(), DUMMY_SP, ctxt.unwrap_or_default()); let id = module.chunk_item_id(Vc::upcast(chunking_context)).await?; result.push(CodeGenerationHoistedStmt::new( key, quote!( "var $name = $turbopack_import($id);" as Stmt, name = name, turbopack_import: Expr = TURBOPACK_IMPORT.into(), id: Expr = module_id_to_lit(&id), ), )); } } } Ok(CodeGeneration::hoisted_stmts(result)) } }