mirror of
https://github.com/LadybirdBrowser/ladybird.git
synced 2024-09-21 10:19:03 +03:00
47cdd90836
Resolves one FIXME where we can now pass a realm, and sets the length correctly in a bunch of places that previously didn't. Also reduces the number of "format function name string from arbitrary PropertyKey" implementations, although two more remain present in the AST (used with ECMAScriptFunctionObjects, which is a different beast).
661 lines
28 KiB
C++
661 lines
28 KiB
C++
/*
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* Copyright (c) 2022, David Tuin <davidot@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibJS/CyclicModule.h>
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#include <LibJS/Runtime/PromiseConstructor.h>
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#include <LibJS/Runtime/PromiseReaction.h>
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namespace JS {
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CyclicModule::CyclicModule(Realm& realm, StringView filename, bool has_top_level_await, Vector<ModuleRequest> requested_modules)
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: Module(realm, filename)
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, m_requested_modules(move(requested_modules))
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, m_has_top_level_await(has_top_level_await)
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{
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}
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// 16.2.1.5.1 Link ( ), https://tc39.es/ecma262/#sec-moduledeclarationlinking
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ThrowCompletionOr<void> CyclicModule::link(VM& vm)
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{
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] link[{}]()", this);
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// 1. Assert: module.[[Status]] is not linking or evaluating.
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VERIFY(m_status != ModuleStatus::Linking && m_status != ModuleStatus::Evaluating);
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// 2. Let stack be a new empty List.
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Vector<Module*> stack;
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// 3. Let result be InnerModuleLinking(module, stack, 0).
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auto inner_module_linked_or_error = inner_module_linking(vm, stack, 0);
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// 4. If result is an abrupt completion, then
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if (inner_module_linked_or_error.is_error()) {
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// a. For each Cyclic Module Record m of stack, do
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for (auto* module : stack) {
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if (is<CyclicModule>(module)) {
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auto& cyclic_module = static_cast<CyclicModule&>(*module);
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// i. Assert: m.[[Status]] is linking.
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VERIFY(cyclic_module.m_status == ModuleStatus::Linking);
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// ii. Set m.[[Status]] to unlinked.
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cyclic_module.m_status = ModuleStatus::Unlinked;
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}
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}
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// b. Assert: module.[[Status]] is unlinked.
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VERIFY(m_status == ModuleStatus::Unlinked);
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// c. Return result.
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return inner_module_linked_or_error.release_error();
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}
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// 5. Assert: module.[[Status]] is linked, evaluating-async, or evaluated.
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VERIFY(m_status == ModuleStatus::Linked || m_status == ModuleStatus::EvaluatingAsync || m_status == ModuleStatus::Evaluated);
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// 6. Assert: stack is empty.
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VERIFY(stack.is_empty());
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// 7. Return undefined.
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// Note: We return void since the result of this is never used.
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return {};
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}
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// 16.2.1.5.1.1 InnerModuleLinking ( module, stack, index ), https://tc39.es/ecma262/#sec-InnerModuleLinking
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ThrowCompletionOr<u32> CyclicModule::inner_module_linking(VM& vm, Vector<Module*>& stack, u32 index)
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{
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// 1. If module is not a Cyclic Module Record, then
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// a. Perform ? module.Link().
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// b. Return index.
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// Note: Step 1, 1.a and 1.b are handled in Module.cpp
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] inner_module_linking[{}](vm, {}, {})", this, String::join(",", stack), index);
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// 2. If module.[[Status]] is linking, linked, evaluating-async, or evaluated, then
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if (m_status == ModuleStatus::Linking || m_status == ModuleStatus::Linked || m_status == ModuleStatus::EvaluatingAsync || m_status == ModuleStatus::Evaluated) {
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// a. Return index.
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return index;
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}
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// 3. Assert: module.[[Status]] is unlinked.
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VERIFY(m_status == ModuleStatus::Unlinked);
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// 4. Set module.[[Status]] to linking.
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m_status = ModuleStatus::Linking;
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// 5. Set module.[[DFSIndex]] to index.
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m_dfs_index = index;
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// 6. Set module.[[DFSAncestorIndex]] to index.
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m_dfs_ancestor_index = index;
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// 7. Set index to index + 1.
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++index;
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// 8. Append module to stack.
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stack.append(this);
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#if JS_MODULE_DEBUG
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StringBuilder request_module_names;
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for (auto& module_request : m_requested_modules) {
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request_module_names.append(module_request.module_specifier);
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request_module_names.append(", ");
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}
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] module: {} has requested modules: [{}]", filename(), request_module_names.string_view());
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#endif
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// 9. For each String required of module.[[RequestedModules]], do
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for (auto& required_string : m_requested_modules) {
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ModuleRequest required { required_string };
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// a. Let requiredModule be ? HostResolveImportedModule(module, required).
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auto required_module = TRY(vm.host_resolve_imported_module(this->make_weak_ptr(), required));
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// b. Set index to ? InnerModuleLinking(requiredModule, stack, index).
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index = TRY(required_module->inner_module_linking(vm, stack, index));
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// c. If requiredModule is a Cyclic Module Record, then
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if (is<CyclicModule>(*required_module)) {
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auto& cyclic_module = static_cast<CyclicModule&>(*required_module);
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// i. Assert: requiredModule.[[Status]] is either linking, linked, evaluating-async, or evaluated.
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VERIFY(cyclic_module.m_status == ModuleStatus::Linking || cyclic_module.m_status == ModuleStatus::Linked || cyclic_module.m_status == ModuleStatus::EvaluatingAsync || cyclic_module.m_status == ModuleStatus::Evaluated);
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// ii. Assert: requiredModule.[[Status]] is linking if and only if requiredModule is in stack.
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VERIFY((cyclic_module.m_status == ModuleStatus::Linking) == (stack.contains_slow(&cyclic_module)));
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// iii. If requiredModule.[[Status]] is linking, then
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if (cyclic_module.m_status == ModuleStatus::Linking) {
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// 1. Set module.[[DFSAncestorIndex]] to min(module.[[DFSAncestorIndex]], requiredModule.[[DFSAncestorIndex]]).
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m_dfs_ancestor_index = min(m_dfs_ancestor_index.value(), cyclic_module.m_dfs_ancestor_index.value());
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}
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}
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}
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// 10. Perform ? module.InitializeEnvironment().
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(void)TRY(initialize_environment(vm));
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// 11. Assert: module occurs exactly once in stack.
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size_t count = 0;
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for (auto* module : stack) {
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if (module == this)
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count++;
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}
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VERIFY(count == 1);
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// 12. Assert: module.[[DFSAncestorIndex]] ≤ module.[[DFSIndex]].
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VERIFY(m_dfs_ancestor_index.value() <= m_dfs_index.value());
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] module {} after inner_linking has dfs {} and ancestor dfs {}", filename(), m_dfs_index.value(), m_dfs_ancestor_index.value());
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// 13. If module.[[DFSAncestorIndex]] = module.[[DFSIndex]], then
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if (m_dfs_ancestor_index == m_dfs_index) {
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// a. Let done be false.
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// b. Repeat, while done is false,
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while (true) {
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// i. Let requiredModule be the last element in stack.
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// ii. Remove the last element of stack.
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auto* required_module = stack.take_last();
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// iii. Assert: requiredModule is a Cyclic Module Record.
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VERIFY(is<CyclicModule>(*required_module));
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// iv. Set requiredModule.[[Status]] to linked.
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static_cast<CyclicModule&>(*required_module).m_status = ModuleStatus::Linked;
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// v. If requiredModule and module are the same Module Record, set done to true.
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if (required_module == this)
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break;
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}
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}
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// 14. Return index.
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return index;
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}
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// 16.2.1.5.2 Evaluate ( ), https://tc39.es/ecma262/#sec-moduleevaluation
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ThrowCompletionOr<Promise*> CyclicModule::evaluate(VM& vm)
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{
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] evaluate[{}](vm)", this);
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// 1. Assert: This call to Evaluate is not happening at the same time as another call to Evaluate within the surrounding agent.
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// FIXME: Verify this somehow
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// 2. Assert: module.[[Status]] is linked, evaluating-async, or evaluated.
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VERIFY(m_status == ModuleStatus::Linked || m_status == ModuleStatus::EvaluatingAsync || m_status == ModuleStatus::Evaluated);
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// 3. If module.[[Status]] is evaluating-async or evaluated, set module to module.[[CycleRoot]].
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if (m_status == ModuleStatus::EvaluatingAsync || m_status == ModuleStatus::Evaluated) {
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// Note: This will continue this function with module.[[CycleRoot]]
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VERIFY(m_cycle_root && m_cycle_root->m_status == ModuleStatus::Linked && this != m_cycle_root);
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] evaluate[{}](vm) deferring to cycle root at {}", this, m_cycle_root);
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return m_cycle_root->evaluate(vm);
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}
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// 4. If module.[[TopLevelCapability]] is not empty, then
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if (m_top_level_capability.has_value()) {
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// a. Return module.[[TopLevelCapability]].[[Promise]].
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VERIFY(is<Promise>(*m_top_level_capability->promise));
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return static_cast<Promise*>(m_top_level_capability->promise);
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}
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// 5. Let stack be a new empty List.
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Vector<Module*> stack;
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auto& global_object = realm().global_object();
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// 6. Let capability be ! NewPromiseCapability(%Promise%).
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// 7. Set module.[[TopLevelCapability]] to capability.
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m_top_level_capability = MUST(new_promise_capability(global_object, global_object.promise_constructor()));
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// 8. Let result be InnerModuleEvaluation(module, stack, 0).
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auto result = inner_module_evaluation(vm, stack, 0);
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// 9. If result is an abrupt completion, then
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if (result.is_throw_completion()) {
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VERIFY(!m_evaluation_error.is_error());
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// a. For each Cyclic Module Record m of stack, do
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for (auto* mod : stack) {
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if (!is<CyclicModule>(*mod))
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continue;
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auto& cyclic_module = static_cast<CyclicModule&>(*mod);
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// i. Assert: m.[[Status]] is evaluating.
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VERIFY(cyclic_module.m_status == ModuleStatus::Evaluating);
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// ii. Set m.[[Status]] to evaluated.
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cyclic_module.m_status = ModuleStatus::Evaluated;
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// iii. Set m.[[EvaluationError]] to result.
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cyclic_module.m_evaluation_error = result.throw_completion();
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}
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// b. Assert: module.[[Status]] is evaluated.
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VERIFY(m_status == ModuleStatus::Evaluated);
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// c. Assert: module.[[EvaluationError]] is result.
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VERIFY(m_evaluation_error.is_error() && same_value(*m_evaluation_error.throw_completion().value(), *result.throw_completion().value()));
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// d. Perform ! Call(capability.[[Reject]], undefined, « result.[[Value]] »).
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MUST(call(global_object, m_top_level_capability->reject, js_undefined(), *result.throw_completion().value()));
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}
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// 10. Else,
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else {
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// a. Assert: module.[[Status]] is evaluating-async or evaluated.
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VERIFY(m_status == ModuleStatus::EvaluatingAsync || m_status == ModuleStatus::Evaluated);
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// b. Assert: module.[[EvaluationError]] is empty.
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VERIFY(!m_evaluation_error.is_error());
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// c. If module.[[AsyncEvaluation]] is false, then
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if (!m_async_evaluation) {
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// i. Assert: module.[[Status]] is evaluated.
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VERIFY(m_status == ModuleStatus::Evaluated);
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// ii. Perform ! Call(capability.[[Resolve]], undefined, « undefined »).
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MUST(call(global_object, m_top_level_capability->resolve, js_undefined(), js_undefined()));
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}
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// d. Assert: stack is empty.
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VERIFY(stack.is_empty());
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}
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// 11. Return capability.[[Promise]].
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VERIFY(is<Promise>(*m_top_level_capability->promise));
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return static_cast<Promise*>(m_top_level_capability->promise);
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}
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// 16.2.1.5.2.1 InnerModuleEvaluation ( module, stack, index ), https://tc39.es/ecma262/#sec-innermoduleevaluation
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ThrowCompletionOr<u32> CyclicModule::inner_module_evaluation(VM& vm, Vector<Module*>& stack, u32 index)
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{
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] inner_module_evaluation[{}](vm, {}, {})", this, String::join(", ", stack), index);
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// Note: Step 1 is performed in Module.cpp
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// 2. If module.[[Status]] is evaluating-async or evaluated, then
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if (m_status == ModuleStatus::EvaluatingAsync || m_status == ModuleStatus::Evaluated) {
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// a. If module.[[EvaluationError]] is empty, return index.
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if (!m_evaluation_error.is_error())
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return index;
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// b. Otherwise, return module.[[EvaluationError]].
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return m_evaluation_error.throw_completion();
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}
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// 3. If module.[[Status]] is evaluating, return index.
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if (m_status == ModuleStatus::Evaluating)
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return index;
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// 4. Assert: module.[[Status]] is linked.
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VERIFY(m_status == ModuleStatus::Linked);
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// 5. Set module.[[Status]] to evaluating.
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m_status = ModuleStatus::Evaluating;
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// 6. Set module.[[DFSIndex]] to index.
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m_dfs_index = index;
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// 7. Set module.[[DFSAncestorIndex]] to index.
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m_dfs_ancestor_index = index;
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// 8. Set module.[[PendingAsyncDependencies]] to 0.
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m_pending_async_dependencies = 0;
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// 9. Set index to index + 1.
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++index;
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// 10. Append module to stack.
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stack.append(this);
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// 11. For each String required of module.[[RequestedModules]], do
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for (auto& required : m_requested_modules) {
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// a. Let requiredModule be ! HostResolveImportedModule(module, required).
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auto* required_module = MUST(vm.host_resolve_imported_module(this->make_weak_ptr(), required)).ptr();
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// b. NOTE: Link must be completed successfully prior to invoking this method, so every requested module is guaranteed to resolve successfully.
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// c. Set index to ? InnerModuleEvaluation(requiredModule, stack, index).
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index = TRY(required_module->inner_module_evaluation(vm, stack, index));
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// d. If requiredModule is a Cyclic Module Record, then
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if (!is<CyclicModule>(*required_module))
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continue;
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auto* cyclic_module = static_cast<CyclicModule*>(required_module);
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// i. Assert: requiredModule.[[Status]] is either evaluating, evaluating-async, or evaluated.
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VERIFY(cyclic_module->m_status == ModuleStatus::Evaluating || cyclic_module->m_status == ModuleStatus::EvaluatingAsync || cyclic_module->m_status == ModuleStatus::Evaluated);
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// ii. Assert: requiredModule.[[Status]] is evaluating if and only if requiredModule is in stack.
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VERIFY(cyclic_module->m_status != ModuleStatus::Evaluating || stack.contains_slow(cyclic_module));
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// iii. If requiredModule.[[Status]] is evaluating, then
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if (cyclic_module->m_status == ModuleStatus::Evaluating) {
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// 1. Set module.[[DFSAncestorIndex]] to min(module.[[DFSAncestorIndex]], requiredModule.[[DFSAncestorIndex]]).
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m_dfs_ancestor_index = min(m_dfs_ancestor_index.value(), cyclic_module->m_dfs_ancestor_index.value());
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}
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// iv. Else,
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else {
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// 1. Set requiredModule to requiredModule.[[CycleRoot]].
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cyclic_module = cyclic_module->m_cycle_root;
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// 2. Assert: requiredModule.[[Status]] is evaluating-async or evaluated.
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VERIFY(cyclic_module->m_status == ModuleStatus::EvaluatingAsync || cyclic_module->m_status == ModuleStatus::Evaluated);
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// 3. If requiredModule.[[EvaluationError]] is not empty, return requiredModule.[[EvaluationError]].
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if (cyclic_module->m_evaluation_error.is_error())
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return cyclic_module->m_evaluation_error.throw_completion();
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}
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// v. If requiredModule.[[AsyncEvaluation]] is true, then
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if (cyclic_module->m_async_evaluation) {
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// 1. Set module.[[PendingAsyncDependencies]] to module.[[PendingAsyncDependencies]] + 1.
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++m_pending_async_dependencies.value();
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// 2. Append module to requiredModule.[[AsyncParentModules]].
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cyclic_module->m_async_parent_modules.append(this);
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}
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}
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dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] inner_module_evaluation on {} has tla: {} and pending async dep: {} dfs: {} ancestor dfs: {}", filename(), m_has_top_level_await, m_pending_async_dependencies.value(), m_dfs_index.value(), m_dfs_ancestor_index.value());
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// 12. If module.[[PendingAsyncDependencies]] > 0 or module.[[HasTLA]] is true, then
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if (m_pending_async_dependencies.value() > 0 || m_has_top_level_await) {
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// a. Assert: module.[[AsyncEvaluation]] is false and was never previously set to true.
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VERIFY(!m_async_evaluation); // FIXME: I don't think we can check previously?
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// b. Set module.[[AsyncEvaluation]] to true.
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m_async_evaluation = true;
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// c. NOTE: The order in which module records have their [[AsyncEvaluation]] fields transition to true is significant. (See 16.2.1.5.2.4.)
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// d. If module.[[PendingAsyncDependencies]] is 0, perform ! ExecuteAsyncModule(module).
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if (m_pending_async_dependencies.value() == 0)
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MUST(execute_async_module(vm));
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}
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// 13. Otherwise, perform ? module.ExecuteModule().
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else {
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(void)TRY(execute_module(vm));
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}
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// 14. Assert: module occurs exactly once in stack.
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auto count = 0;
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for (auto* module : stack) {
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if (module == this)
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count++;
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}
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VERIFY(count == 1);
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// 15. Assert: module.[[DFSAncestorIndex]] ≤ module.[[DFSIndex]].
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VERIFY(m_dfs_ancestor_index.value() <= m_dfs_index.value());
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// 16. If module.[[DFSAncestorIndex]] = module.[[DFSIndex]], then
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if (m_dfs_ancestor_index == m_dfs_index) {
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// a. Let done be false.
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bool done = false;
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// b. Repeat, while done is false,
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while (!done) {
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// i. Let requiredModule be the last element in stack.
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// ii. Remove the last element of stack.
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auto* required_module = stack.take_last();
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// iii. Assert: requiredModule is a Cyclic Module Record.
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VERIFY(is<CyclicModule>(*required_module));
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auto& cyclic_module = static_cast<CyclicModule&>(*required_module);
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// iv. If requiredModule.[[AsyncEvaluation]] is false, set requiredModule.[[Status]] to evaluated.
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if (!cyclic_module.m_async_evaluation)
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cyclic_module.m_status = ModuleStatus::Evaluated;
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// v. Otherwise, set requiredModule.[[Status]] to evaluating-async.
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else
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cyclic_module.m_status = ModuleStatus::EvaluatingAsync;
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// vi. If requiredModule and module are the same Module Record, set done to true.
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if (required_module == this)
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done = true;
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// vii. Set requiredModule.[[CycleRoot]] to module.
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cyclic_module.m_cycle_root = this;
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}
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}
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// 17. Return index.
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return index;
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}
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Completion CyclicModule::initialize_environment(VM&)
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{
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// Note: In ecma262 this is never called on a cyclic module only on SourceTextModules.
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// So this check is to make sure we don't accidentally call this.
|
|
VERIFY_NOT_REACHED();
|
|
return normal_completion({});
|
|
}
|
|
|
|
Completion CyclicModule::execute_module(VM&, Optional<PromiseCapability>)
|
|
{
|
|
// Note: In ecma262 this is never called on a cyclic module only on SourceTextModules.
|
|
// So this check is to make sure we don't accidentally call this.
|
|
VERIFY_NOT_REACHED();
|
|
return js_undefined();
|
|
}
|
|
|
|
// 16.2.1.5.2.2 ExecuteAsyncModule ( module ), https://tc39.es/ecma262/#sec-execute-async-module
|
|
ThrowCompletionOr<void> CyclicModule::execute_async_module(VM& vm)
|
|
{
|
|
dbgln_if(JS_MODULE_DEBUG, "[JS MODULE] executing async module {}", filename());
|
|
// 1. Assert: module.[[Status]] is evaluating or evaluating-async.
|
|
VERIFY(m_status == ModuleStatus::Evaluating || m_status == ModuleStatus::EvaluatingAsync);
|
|
// 2. Assert: module.[[HasTLA]] is true.
|
|
VERIFY(m_has_top_level_await);
|
|
|
|
auto& global_object = realm().global_object();
|
|
|
|
// 3. Let capability be ! NewPromiseCapability(%Promise%).
|
|
auto capability = MUST(new_promise_capability(global_object, global_object.promise_constructor()));
|
|
|
|
// 4. Let fulfilledClosure be a new Abstract Closure with no parameters that captures module and performs the following steps when called:
|
|
auto fulfilled_closure = [&](VM& vm, GlobalObject&) -> ThrowCompletionOr<Value> {
|
|
// a. Perform ! AsyncModuleExecutionFulfilled(module).
|
|
MUST(async_module_execution_fulfilled(vm));
|
|
|
|
// b. Return undefined.
|
|
return js_undefined();
|
|
};
|
|
|
|
// 5. Let onFulfilled be ! CreateBuiltinFunction(fulfilledClosure, 0, "", « »).
|
|
auto* on_fulfilled = NativeFunction::create(global_object, move(fulfilled_closure), 0, "");
|
|
|
|
// 6. Let rejectedClosure be a new Abstract Closure with parameters (error) that captures module and performs the following steps when called:
|
|
auto rejected_closure = [&](VM& vm, GlobalObject&) -> ThrowCompletionOr<Value> {
|
|
auto error = vm.argument(0);
|
|
|
|
// a. Perform ! AsyncModuleExecutionRejected(module, error).
|
|
MUST(async_module_execution_rejected(vm, error));
|
|
|
|
// b. Return undefined.
|
|
return js_undefined();
|
|
};
|
|
|
|
// 7. Let onRejected be ! CreateBuiltinFunction(rejectedClosure, 0, "", « »).
|
|
auto* on_rejected = NativeFunction::create(global_object, move(rejected_closure), 0, "");
|
|
|
|
VERIFY(is<Promise>(*capability.promise));
|
|
|
|
// 8. Perform ! PerformPromiseThen(capability.[[Promise]], onFulfilled, onRejected).
|
|
static_cast<Promise*>(capability.promise)->perform_then(on_fulfilled, on_rejected, {});
|
|
|
|
// 9. Perform ! module.ExecuteModule(capability).
|
|
(void)MUST(execute_module(vm, capability));
|
|
|
|
return {};
|
|
}
|
|
|
|
// 16.2.1.5.2.3 GatherAvailableAncestors ( module, execList ), https://tc39.es/ecma262/#sec-gather-available-ancestors
|
|
ThrowCompletionOr<void> CyclicModule::gather_available_ancestors(Vector<CyclicModule*>& exec_list)
|
|
{
|
|
// 1. For each Cyclic Module Record m of module.[[AsyncParentModules]], do
|
|
for (auto* module : m_async_parent_modules) {
|
|
// a. If execList does not contain m and m.[[CycleRoot]].[[EvaluationError]] is empty, then
|
|
if (!exec_list.contains_slow(module) && !module->m_cycle_root->m_evaluation_error.is_error()) {
|
|
// i. Assert: m.[[Status]] is evaluating-async.
|
|
VERIFY(module->m_status == ModuleStatus::EvaluatingAsync);
|
|
|
|
// ii. Assert: m.[[EvaluationError]] is empty.
|
|
VERIFY(!module->m_evaluation_error.is_error());
|
|
|
|
// iii. Assert: m.[[AsyncEvaluation]] is true.
|
|
VERIFY(module->m_async_evaluation);
|
|
|
|
// iv. Assert: m.[[PendingAsyncDependencies]] > 0.
|
|
VERIFY(module->m_pending_async_dependencies.value() > 0);
|
|
|
|
// v. Set m.[[PendingAsyncDependencies]] to m.[[PendingAsyncDependencies]] - 1.
|
|
module->m_pending_async_dependencies.value()--;
|
|
|
|
// vi. If m.[[PendingAsyncDependencies]] = 0, then
|
|
if (module->m_pending_async_dependencies.value() == 0) {
|
|
// 1. Append m to execList.
|
|
exec_list.append(module);
|
|
|
|
// 2. If m.[[HasTLA]] is false, perform ! GatherAvailableAncestors(m, execList).
|
|
if (!module->m_has_top_level_await)
|
|
MUST(module->gather_available_ancestors(exec_list));
|
|
}
|
|
}
|
|
}
|
|
|
|
return {};
|
|
}
|
|
|
|
// 16.2.1.5.2.4 AsyncModuleExecutionFulfilled ( module ), https://tc39.es/ecma262/#sec-async-module-execution-fulfilled
|
|
ThrowCompletionOr<void> CyclicModule::async_module_execution_fulfilled(VM& vm)
|
|
{
|
|
// 1. If module.[[Status]] is evaluated, then
|
|
if (m_status == ModuleStatus::Evaluated) {
|
|
// a. Assert: module.[[EvaluationError]] is not empty.
|
|
VERIFY(m_evaluation_error.is_error());
|
|
// b. Return.
|
|
return {};
|
|
}
|
|
|
|
// 2. Assert: module.[[Status]] is evaluating-async.
|
|
VERIFY(m_status == ModuleStatus::EvaluatingAsync);
|
|
|
|
// 3. Assert: module.[[AsyncEvaluation]] is true.
|
|
VERIFY(m_async_evaluation);
|
|
|
|
// 4. Assert: module.[[EvaluationError]] is empty.
|
|
VERIFY(!m_evaluation_error.is_error());
|
|
|
|
// 5. Set module.[[AsyncEvaluation]] to false.
|
|
m_async_evaluation = false;
|
|
|
|
// 6. Set module.[[Status]] to evaluated.
|
|
m_status = ModuleStatus::Evaluated;
|
|
|
|
// 7. If module.[[TopLevelCapability]] is not empty, then
|
|
if (m_top_level_capability.has_value()) {
|
|
// a. Assert: module.[[CycleRoot]] is module.
|
|
VERIFY(m_cycle_root == this);
|
|
|
|
VERIFY(vm.current_realm());
|
|
// b. Perform ! Call(module.[[TopLevelCapability]].[[Resolve]], undefined, « undefined »).
|
|
MUST(call(vm.current_realm()->global_object(), m_top_level_capability->resolve, js_undefined(), js_undefined()));
|
|
}
|
|
|
|
// 8. Let execList be a new empty List.
|
|
Vector<CyclicModule*> exec_list;
|
|
|
|
// 9. Perform ! GatherAvailableAncestors(module, execList).
|
|
MUST(gather_available_ancestors(exec_list));
|
|
|
|
// 10. Let sortedExecList be a List whose elements are the elements of execList, in the order in which they had their [[AsyncEvaluation]] fields set to true in InnerModuleEvaluation.
|
|
// FIXME: Sort the list. To do this we need to use more than an Optional<bool> to track [[AsyncEvaluation]].
|
|
|
|
// 11. Assert: All elements of sortedExecList have their [[AsyncEvaluation]] field set to true, [[PendingAsyncDependencies]] field set to 0, and [[EvaluationError]] field set to empty.
|
|
VERIFY(all_of(exec_list, [&](CyclicModule* module) { return module->m_async_evaluation && module->m_pending_async_dependencies.value() == 0 && !module->m_evaluation_error.is_error(); }));
|
|
|
|
// 12. For each Cyclic Module Record m of sortedExecList, do
|
|
for (auto* module : exec_list) {
|
|
// a. If m.[[Status]] is evaluated, then
|
|
if (module->m_status == ModuleStatus::Evaluated) {
|
|
// i. Assert: m.[[EvaluationError]] is not empty.
|
|
VERIFY(module->m_evaluation_error.is_error());
|
|
}
|
|
// b. Else if m.[[HasTLA]] is true, then
|
|
else if (module->m_has_top_level_await) {
|
|
// i. Perform ! ExecuteAsyncModule(m).
|
|
MUST(module->execute_async_module(vm));
|
|
}
|
|
// c. Else,
|
|
else {
|
|
// i. Let result be m.ExecuteModule().
|
|
auto result = module->execute_module(vm);
|
|
|
|
// ii. If result is an abrupt completion, then
|
|
if (result.is_abrupt()) {
|
|
// 1. Perform ! AsyncModuleExecutionRejected(m, result.[[Value]]).
|
|
module->async_module_execution_rejected(vm, *result.value());
|
|
}
|
|
// iii. Else,
|
|
else {
|
|
// 1. Set m.[[Status]] to evaluated.
|
|
module->m_status = ModuleStatus::Evaluated;
|
|
|
|
// 2. If m.[[TopLevelCapability]] is not empty, then
|
|
if (module->m_top_level_capability.has_value()) {
|
|
// a. Assert: m.[[CycleRoot]] is m.
|
|
VERIFY(module->m_cycle_root == module);
|
|
|
|
VERIFY(vm.current_realm());
|
|
// b. Perform ! Call(m.[[TopLevelCapability]].[[Resolve]], undefined, « undefined »).
|
|
MUST(call(vm.current_realm()->global_object(), module->m_top_level_capability->resolve, js_undefined(), js_undefined()));
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return {};
|
|
}
|
|
|
|
// 16.2.1.5.2.5 AsyncModuleExecutionRejected ( module, error ), https://tc39.es/ecma262/#sec-async-module-execution-rejected
|
|
ThrowCompletionOr<void> CyclicModule::async_module_execution_rejected(VM& vm, Value error)
|
|
{
|
|
// 1. If module.[[Status]] is evaluated, then
|
|
if (m_status == ModuleStatus::Evaluated) {
|
|
// a. Assert: module.[[EvaluationError]] is not empty.
|
|
VERIFY(m_evaluation_error.is_error());
|
|
// b. Return.
|
|
return {};
|
|
}
|
|
|
|
// 2. Assert: module.[[Status]] is evaluating-async.
|
|
VERIFY(m_status == ModuleStatus::EvaluatingAsync);
|
|
|
|
// 3. Assert: module.[[AsyncEvaluation]] is true.
|
|
VERIFY(m_async_evaluation);
|
|
|
|
// 4. Assert: module.[[EvaluationError]] is empty.
|
|
VERIFY(!m_evaluation_error.is_error());
|
|
|
|
// 5. Set module.[[EvaluationError]] to ThrowCompletion(error)
|
|
m_evaluation_error = throw_completion(error);
|
|
|
|
// 6. Set module.[[Status]] to evaluated.
|
|
m_status = ModuleStatus::Evaluated;
|
|
|
|
// 7. For each Cyclic Module Record m of module.[[AsyncParentModules]], do
|
|
for (auto* module : m_async_parent_modules) {
|
|
|
|
// a. Perform ! AsyncModuleExecutionRejected(m, error).
|
|
MUST(module->async_module_execution_rejected(vm, error));
|
|
}
|
|
|
|
// 8. If module.[[TopLevelCapability]] is not empty, then
|
|
if (m_top_level_capability.has_value()) {
|
|
// a. Assert: module.[[CycleRoot]] is module.
|
|
VERIFY(m_cycle_root == this);
|
|
|
|
VERIFY(vm.current_realm());
|
|
// b. Perform ! Call(module.[[TopLevelCapability]].[[Reject]], undefined, « error »).
|
|
MUST(call(vm.current_realm()->global_object(), m_top_level_capability->reject, js_undefined(), error));
|
|
}
|
|
|
|
return {};
|
|
}
|
|
|
|
}
|