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serenity/Userland/Libraries/LibJS/Runtime/ShadowRealm.cpp
Linus Groh 50428ea8d2 LibJS: Move intrinsics to the realm 
Intrinsics, i.e. mostly constructor and prototype objects, but also
things like empty and new object shape now live on a new heap-allocated
JS::Intrinsics object, thus completing the long journey of taking all
the magic away from the global object.
This represents the Realm's [[Intrinsics]] slot in the spec and matches
its existing [[GlobalObject]] / [[GlobalEnv]] slots in terms of
architecture.

In the majority of cases it should now be possibly to fully allocate a
regular object without the global object existing, and in fact that's
what we do now - the realm is allocated before the global object, and
the intrinsics between both :^)
2022-08-27 11:29:10 +01:00

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/*
* Copyright (c) 2021-2022, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibJS/Interpreter.h>
#include <LibJS/Lexer.h>
#include <LibJS/Parser.h>
#include <LibJS/Runtime/AbstractOperations.h>
#include <LibJS/Runtime/DeclarativeEnvironment.h>
#include <LibJS/Runtime/GlobalEnvironment.h>
#include <LibJS/Runtime/ModuleNamespaceObject.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/PromiseConstructor.h>
#include <LibJS/Runtime/PromiseReaction.h>
#include <LibJS/Runtime/ShadowRealm.h>
#include <LibJS/Runtime/WrappedFunction.h>
namespace JS {
ShadowRealm::ShadowRealm(Realm& shadow_realm, ExecutionContext execution_context, Object& prototype)
: Object(prototype)
, m_shadow_realm(shadow_realm)
, m_execution_context(move(execution_context))
{
}
void ShadowRealm::visit_edges(Visitor& visitor)
{
Base::visit_edges(visitor);
visitor.visit(&m_shadow_realm);
}
// 3.1.2 CopyNameAndLength ( F: a function object, Target: a function object, optional prefix: a String, optional argCount: a Number, ), https://tc39.es/proposal-shadowrealm/#sec-copynameandlength
ThrowCompletionOr<void> copy_name_and_length(VM& vm, FunctionObject& function, FunctionObject& target, Optional<StringView> prefix, Optional<unsigned> arg_count)
{
// 1. If argCount is undefined, then set argCount to 0.
if (!arg_count.has_value())
arg_count = 0;
// 2. Let L be 0.
double length = 0;
// 3. Let targetHasLength be ? HasOwnProperty(Target, "length").
auto target_has_length = TRY(target.has_own_property(vm.names.length));
// 4. If targetHasLength is true, then
if (target_has_length) {
// a. Let targetLen be ? Get(Target, "length").
auto target_length = TRY(target.get(vm.names.length));
// b. If Type(targetLen) is Number, then
if (target_length.is_number()) {
// i. If targetLen is +∞𝔽, set L to +∞.
if (target_length.is_positive_infinity()) {
length = target_length.as_double();
}
// ii. Else if targetLen is -∞𝔽, set L to 0.
else if (target_length.is_negative_infinity()) {
length = 0;
}
// iii. Else,
else {
// 1. Let targetLenAsInt be ! ToIntegerOrInfinity(targetLen).
auto target_length_as_int = MUST(target_length.to_integer_or_infinity(vm));
// 2. Assert: targetLenAsInt is finite.
VERIFY(!isinf(target_length_as_int));
// 3. Set L to max(targetLenAsInt - argCount, 0).
length = max(target_length_as_int - *arg_count, 0);
}
}
}
// 5. Perform SetFunctionLength(F, L).
function.set_function_length(length);
// 6. Let targetName be ? Get(Target, "name").
auto target_name = TRY(target.get(vm.names.name));
// 7. If Type(targetName) is not String, set targetName to the empty String.
if (!target_name.is_string())
target_name = js_string(vm, String::empty());
// 8. Perform SetFunctionName(F, targetName, prefix).
function.set_function_name({ target_name.as_string().string() }, move(prefix));
return {};
}
// 3.1.3 PerformShadowRealmEval ( sourceText: a String, callerRealm: a Realm Record, evalRealm: a Realm Record, ), https://tc39.es/proposal-shadowrealm/#sec-performshadowrealmeval
ThrowCompletionOr<Value> perform_shadow_realm_eval(VM& vm, StringView source_text, Realm& caller_realm, Realm& eval_realm)
{
// FIXME: Needs to be updated to latest ECMA-262. See: https://github.com/tc39/proposal-shadowrealm/issues/367
// 1. Perform ? HostEnsureCanCompileStrings(callerRealm, evalRealm).
TRY(vm.host_ensure_can_compile_strings(eval_realm));
// 2. Perform the following substeps in an implementation-defined order, possibly interleaving parsing and error detection:
// a. Let script be ParseText(StringToCodePoints(sourceText), Script).
auto parser = Parser(Lexer(source_text));
auto program = parser.parse_program();
// b. If script is a List of errors, throw a SyntaxError exception.
if (parser.has_errors()) {
auto& error = parser.errors()[0];
return vm.throw_completion<SyntaxError>(error.to_string());
}
// c. If script Contains ScriptBody is false, return undefined.
if (program->children().is_empty())
return js_undefined();
// d. Let body be the ScriptBody of script.
// e. If body Contains NewTarget is true, throw a SyntaxError exception.
// f. If body Contains SuperProperty is true, throw a SyntaxError exception.
// g. If body Contains SuperCall is true, throw a SyntaxError exception.
// FIXME: Implement these, we probably need a generic way of scanning the AST for certain nodes.
// 3. Let strictEval be IsStrict of script.
auto strict_eval = program->is_strict_mode();
// 4. Let runningContext be the running execution context.
// NOTE: This would be unused due to step 11 and is omitted for that reason.
// 5. Let lexEnv be NewDeclarativeEnvironment(evalRealm.[[GlobalEnv]]).
Environment* lexical_environment = new_declarative_environment(eval_realm.global_environment());
// 6. Let varEnv be evalRealm.[[GlobalEnv]].
Environment* variable_environment = &eval_realm.global_environment();
// 7. If strictEval is true, set varEnv to lexEnv.
if (strict_eval)
variable_environment = lexical_environment;
// 8. If runningContext is not already suspended, suspend runningContext.
// NOTE: We don't support this concept yet.
// 9. Let evalContext be a new ECMAScript code execution context.
auto eval_context = ExecutionContext { vm.heap() };
// 10. Set evalContext's Function to null.
eval_context.function = nullptr;
// 11. Set evalContext's Realm to evalRealm.
eval_context.realm = &eval_realm;
// 12. Set evalContext's ScriptOrModule to null.
// Note: This is already the default value.
// 13. Set evalContext's VariableEnvironment to varEnv.
eval_context.variable_environment = variable_environment;
// 14. Set evalContext's LexicalEnvironment to lexEnv.
eval_context.lexical_environment = lexical_environment;
// Non-standard
eval_context.is_strict_mode = strict_eval;
// 15. Push evalContext onto the execution context stack; evalContext is now the running execution context.
TRY(vm.push_execution_context(eval_context, {}));
// 16. Let result be Completion(EvalDeclarationInstantiation(body, varEnv, lexEnv, null, strictEval)).
auto eval_result = eval_declaration_instantiation(vm, program, variable_environment, lexical_environment, nullptr, strict_eval);
Completion result;
// 17. If result.[[Type]] is normal, then
if (!eval_result.is_throw_completion()) {
// FIXME: Remove once everything uses the VM's current realm.
auto eval_realm_interpreter = Interpreter::create_with_existing_realm(eval_realm);
// TODO: Optionally use bytecode interpreter?
// a. Set result to the result of evaluating body.
result = program->execute(*eval_realm_interpreter);
}
// 18. If result.[[Type]] is normal and result.[[Value]] is empty, then
if (result.type() == Completion::Type::Normal && !result.value().has_value()) {
// a. Set result to NormalCompletion(undefined).
result = normal_completion(js_undefined());
}
// 19. Suspend evalContext and remove it from the execution context stack.
// NOTE: We don't support this concept yet.
vm.pop_execution_context();
// 20. Resume the context that is now on the top of the execution context stack as the running execution context.
// NOTE: We don't support this concept yet.
// 21. If result.[[Type]] is not normal, throw a TypeError exception.
if (result.type() != Completion::Type::Normal)
return vm.throw_completion<TypeError>(ErrorType::ShadowRealmEvaluateAbruptCompletion);
// 22. Return ? GetWrappedValue(callerRealm, result.[[Value]]).
return get_wrapped_value(vm, caller_realm, *result.value());
// NOTE: Also see "Editor's Note" in the spec regarding the TypeError above.
}
// 3.1.4 ShadowRealmImportValue ( specifierString: a String, exportNameString: a String, callerRealm: a Realm Record, evalRealm: a Realm Record, evalContext: an execution context, ), https://tc39.es/proposal-shadowrealm/#sec-shadowrealmimportvalue
ThrowCompletionOr<Value> shadow_realm_import_value(VM& vm, String specifier_string, String export_name_string, Realm& caller_realm, Realm& eval_realm, ExecutionContext& eval_context)
{
// FIXME: evalRealm isn't being used anywhere in this AO (spec issue)
(void)eval_realm;
auto& realm = *vm.current_realm();
// 1. Assert: evalContext is an execution context associated to a ShadowRealm instance's [[ExecutionContext]].
// 2. Let innerCapability be ! NewPromiseCapability(%Promise%).
auto inner_capability = MUST(new_promise_capability(vm, realm.intrinsics().promise_constructor()));
// 3. Let runningContext be the running execution context.
// 4. If runningContext is not already suspended, suspend runningContext.
// NOTE: We don't support this concept yet.
// 5. Push evalContext onto the execution context stack; evalContext is now the running execution context.
TRY(vm.push_execution_context(eval_context, {}));
// 6. Perform HostImportModuleDynamically(null, specifierString, innerCapability).
vm.host_import_module_dynamically(Empty {}, ModuleRequest { move(specifier_string) }, inner_capability);
// 7. Suspend evalContext and remove it from the execution context stack.
// NOTE: We don't support this concept yet.
vm.pop_execution_context();
// 8. Resume the context that is now on the top of the execution context stack as the running execution context.
// NOTE: We don't support this concept yet.
// 9. Let steps be the steps of an ExportGetter function as described below.
auto steps = [string = move(export_name_string)](auto& vm) -> ThrowCompletionOr<Value> {
// 1. Assert: exports is a module namespace exotic object.
VERIFY(vm.argument(0).is_object());
auto& exports = vm.argument(0).as_object();
VERIFY(is<ModuleNamespaceObject>(exports));
// 2. Let f be the active function object.
auto* function = vm.running_execution_context().function;
// 3. Let string be f.[[ExportNameString]].
// 4. Assert: Type(string) is String.
// 5. Let hasOwn be ? HasOwnProperty(exports, string).
auto has_own = TRY(exports.has_own_property(string));
// 6. If hasOwn is false, throw a TypeError exception.
if (!has_own)
return vm.template throw_completion<TypeError>(ErrorType::MissingRequiredProperty, string);
// 7. Let value be ? Get(exports, string).
auto value = TRY(exports.get(string));
// 8. Let realm be f.[[Realm]].
auto* realm = function->realm();
VERIFY(realm);
// 9. Return ? GetWrappedValue(realm, value).
return get_wrapped_value(vm, *realm, value);
};
// 10. Let onFulfilled be CreateBuiltinFunction(steps, 1, "", « [[ExportNameString]] », callerRealm).
// 11. Set onFulfilled.[[ExportNameString]] to exportNameString.
auto* on_fulfilled = NativeFunction::create(realm, move(steps), 1, "", &caller_realm);
// 12. Let promiseCapability be ! NewPromiseCapability(%Promise%).
auto promise_capability = MUST(new_promise_capability(vm, realm.intrinsics().promise_constructor()));
// NOTE: Even though the spec tells us to use %ThrowTypeError%, it's not observable if we actually do.
// Throw a nicer TypeError forwarding the import error message instead (we know the argument is an Error object).
auto* throw_type_error = NativeFunction::create(realm, {}, [](auto& vm) -> ThrowCompletionOr<Value> {
return vm.template throw_completion<TypeError>(vm.argument(0).as_object().get_without_side_effects(vm.names.message).as_string().string());
});
// 13. Return PerformPromiseThen(innerCapability.[[Promise]], onFulfilled, callerRealm.[[Intrinsics]].[[%ThrowTypeError%]], promiseCapability).
return verify_cast<Promise>(inner_capability.promise)->perform_then(on_fulfilled, throw_type_error, promise_capability);
}
// 3.1.5 GetWrappedValue ( callerRealm: a Realm Record, value: unknown, ), https://tc39.es/proposal-shadowrealm/#sec-getwrappedvalue
ThrowCompletionOr<Value> get_wrapped_value(VM& vm, Realm& caller_realm, Value value)
{
auto& realm = *vm.current_realm();
// 1. If Type(value) is Object, then
if (value.is_object()) {
// a. If IsCallable(value) is false, throw a TypeError exception.
if (!value.is_function())
return vm.throw_completion<TypeError>(ErrorType::ShadowRealmWrappedValueNonFunctionObject, value);
// b. Return ? WrappedFunctionCreate(callerRealm, value).
return TRY(WrappedFunction::create(realm, caller_realm, value.as_function()));
}
// 2. Return value.
return value;
}
}
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