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/*
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021, Gunnar Beutner <gbeutner@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/HashTable.h>
#include <LibJS/AST.h>
#include <LibJS/Bytecode/Interpreter.h>
#include <LibJS/Bytecode/Op.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/BigInt.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/IteratorOperations.h>
#include <LibJS/Runtime/LexicalEnvironment.h>
#include <LibJS/Runtime/ScopeObject.h>
#include <LibJS/Runtime/ScriptFunction.h>
#include <LibJS/Runtime/Value.h>
namespace JS::Bytecode {
String Instruction::to_string(Bytecode::Executable const& executable) const
{
#define __BYTECODE_OP(op) \
case Instruction::Type::op: \
return static_cast<Bytecode::Op::op const&>(*this).to_string_impl(executable);
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
default:
VERIFY_NOT_REACHED();
}
#undef __BYTECODE_OP
}
}
namespace JS::Bytecode::Op {
void Load::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = interpreter.reg(m_src);
}
void LoadImmediate::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = m_value;
}
void Store::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.reg(m_dst) = interpreter.accumulator();
}
static Value abstract_inequals(GlobalObject& global_object, Value src1, Value src2)
{
return Value(!abstract_eq(global_object, src1, src2));
}
static Value abstract_equals(GlobalObject& global_object, Value src1, Value src2)
{
return Value(abstract_eq(global_object, src1, src2));
}
static Value typed_inequals(GlobalObject&, Value src1, Value src2)
{
return Value(!strict_eq(src1, src2));
}
static Value typed_equals(GlobalObject&, Value src1, Value src2)
{
return Value(strict_eq(src1, src2));
}
#define JS_DEFINE_COMMON_BINARY_OP(OpTitleCase, op_snake_case) \
void OpTitleCase::execute_impl(Bytecode::Interpreter& interpreter) const \
{ \
auto lhs = interpreter.reg(m_lhs_reg); \
auto rhs = interpreter.accumulator(); \
interpreter.accumulator() = op_snake_case(interpreter.global_object(), lhs, rhs); \
} \
String OpTitleCase::to_string_impl(Bytecode::Executable const&) const \
{ \
return String::formatted(#OpTitleCase " {}", m_lhs_reg); \
}
JS_ENUMERATE_COMMON_BINARY_OPS(JS_DEFINE_COMMON_BINARY_OP)
static Value not_(GlobalObject&, Value value)
{
return Value(!value.to_boolean());
}
static Value typeof_(GlobalObject& global_object, Value value)
{
return js_string(global_object.vm(), value.typeof());
}
#define JS_DEFINE_COMMON_UNARY_OP(OpTitleCase, op_snake_case) \
void OpTitleCase::execute_impl(Bytecode::Interpreter& interpreter) const \
{ \
interpreter.accumulator() = op_snake_case(interpreter.global_object(), interpreter.accumulator()); \
} \
String OpTitleCase::to_string_impl(Bytecode::Executable const&) const \
{ \
return #OpTitleCase; \
}
JS_ENUMERATE_COMMON_UNARY_OPS(JS_DEFINE_COMMON_UNARY_OP)
void NewBigInt::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = js_bigint(interpreter.vm().heap(), m_bigint);
}
void NewArray::execute_impl(Bytecode::Interpreter& interpreter) const
{
Vector<Value> elements;
elements.ensure_capacity(m_element_count);
for (size_t i = 0; i < m_element_count; i++)
elements.append(interpreter.reg(m_elements[i]));
interpreter.accumulator() = Array::create_from(interpreter.global_object(), elements);
}
void IteratorToArray::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto& global_object = interpreter.global_object();
auto& vm = interpreter.vm();
auto iterator = interpreter.accumulator().to_object(global_object);
if (vm.exception())
return;
auto array = Array::create(global_object);
size_t index = 0;
while (true) {
auto iterator_result = iterator_next(*iterator);
if (!iterator_result)
return;
auto complete = iterator_complete(global_object, *iterator_result);
if (vm.exception())
return;
if (complete) {
interpreter.accumulator() = array;
return;
}
auto value = iterator_value(global_object, *iterator_result);
if (vm.exception())
return;
array->put(index, value);
index++;
}
}
void NewString::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = js_string(interpreter.vm(), interpreter.current_executable().get_string(m_string));
}
void NewObject::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = Object::create(interpreter.global_object(), interpreter.global_object().object_prototype());
}
void CopyObjectExcludingProperties::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto* from_object = interpreter.reg(m_from_object).to_object(interpreter.global_object());
if (interpreter.vm().exception())
return;
auto* to_object = Object::create(interpreter.global_object(), interpreter.global_object().object_prototype());
HashTable<Value, ValueTraits> excluded_names;
for (size_t i = 0; i < m_excluded_names_count; ++i) {
excluded_names.set(interpreter.reg(m_excluded_names[i]));
if (interpreter.vm().exception())
return;
}
auto own_keys = from_object->get_own_properties(Object::PropertyKind::Key, true);
for (auto& key : own_keys) {
if (!excluded_names.contains(key)) {
auto property_name = PropertyName(key.to_property_key(interpreter.global_object()));
auto property_value = from_object->get(property_name);
if (interpreter.vm().exception())
return;
to_object->define_property(property_name, property_value);
}
}
interpreter.accumulator() = to_object;
}
void ConcatString::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.reg(m_lhs) = add(interpreter.global_object(), interpreter.reg(m_lhs), interpreter.accumulator());
}
void GetVariable::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = interpreter.vm().get_variable(interpreter.current_executable().get_string(m_identifier), interpreter.global_object());
}
void SetVariable::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.vm().set_variable(interpreter.current_executable().get_string(m_identifier), interpreter.accumulator(), interpreter.global_object());
}
void GetById::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* object = interpreter.accumulator().to_object(interpreter.global_object()))
interpreter.accumulator() = object->get(interpreter.current_executable().get_string(m_property)).value_or(js_undefined());
}
void PutById::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* object = interpreter.reg(m_base).to_object(interpreter.global_object()))
object->put(interpreter.current_executable().get_string(m_property), interpreter.accumulator());
}
void Jump::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.jump(*m_true_target);
}
void Jump::replace_references_impl(BasicBlock const& from, BasicBlock const& to)
{
if (m_true_target.has_value() && &m_true_target->block() == &from)
m_true_target = Label { to };
if (m_false_target.has_value() && &m_false_target->block() == &from)
m_false_target = Label { to };
}
void JumpConditional::execute_impl(Bytecode::Interpreter& interpreter) const
{
VERIFY(m_true_target.has_value());
VERIFY(m_false_target.has_value());
auto result = interpreter.accumulator();
if (result.to_boolean())
interpreter.jump(m_true_target.value());
else
interpreter.jump(m_false_target.value());
}
void JumpNullish::execute_impl(Bytecode::Interpreter& interpreter) const
{
VERIFY(m_true_target.has_value());
VERIFY(m_false_target.has_value());
auto result = interpreter.accumulator();
if (result.is_nullish())
interpreter.jump(m_true_target.value());
else
interpreter.jump(m_false_target.value());
}
void JumpUndefined::execute_impl(Bytecode::Interpreter& interpreter) const
{
VERIFY(m_true_target.has_value());
VERIFY(m_false_target.has_value());
auto result = interpreter.accumulator();
if (result.is_undefined())
interpreter.jump(m_true_target.value());
else
interpreter.jump(m_false_target.value());
}
void Call::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto callee = interpreter.reg(m_callee);
if (!callee.is_function()) {
TODO();
}
auto& function = callee.as_function();
auto this_value = interpreter.reg(m_this_value);
Value return_value;
if (m_argument_count == 0 && m_type == CallType::Call) {
return_value = interpreter.vm().call(function, this_value);
} else {
MarkedValueList argument_values { interpreter.vm().heap() };
for (size_t i = 0; i < m_argument_count; ++i) {
argument_values.append(interpreter.reg(m_arguments[i]));
}
if (m_type == CallType::Call)
return_value = interpreter.vm().call(function, this_value, move(argument_values));
else
return_value = interpreter.vm().construct(function, function, move(argument_values));
}
interpreter.accumulator() = return_value;
}
void NewFunction::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto& vm = interpreter.vm();
interpreter.accumulator() = ScriptFunction::create(interpreter.global_object(), m_function_node.name(), m_function_node.body(), m_function_node.parameters(), m_function_node.function_length(), vm.current_scope(), m_function_node.kind(), m_function_node.is_strict_mode(), m_function_node.is_arrow_function());
}
void Return::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.do_return(interpreter.accumulator().value_or(js_undefined()));
}
void Increment::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto old_value = interpreter.accumulator().to_numeric(interpreter.global_object());
if (interpreter.vm().exception())
return;
if (old_value.is_number())
interpreter.accumulator() = Value(old_value.as_double() + 1);
else
interpreter.accumulator() = js_bigint(interpreter.vm().heap(), old_value.as_bigint().big_integer().plus(Crypto::SignedBigInteger { 1 }));
}
void Decrement::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto old_value = interpreter.accumulator().to_numeric(interpreter.global_object());
if (interpreter.vm().exception())
return;
if (old_value.is_number())
interpreter.accumulator() = Value(old_value.as_double() - 1);
else
interpreter.accumulator() = js_bigint(interpreter.vm().heap(), old_value.as_bigint().big_integer().minus(Crypto::SignedBigInteger { 1 }));
}
void Throw::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.vm().throw_exception(interpreter.global_object(), interpreter.accumulator());
}
void EnterUnwindContext::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.enter_unwind_context(m_handler_target, m_finalizer_target);
interpreter.jump(m_entry_point);
}
void EnterUnwindContext::replace_references_impl(BasicBlock const& from, BasicBlock const& to)
{
if (&m_entry_point.block() == &from)
m_entry_point = Label { to };
if (m_handler_target.has_value() && &m_handler_target->block() == &from)
m_handler_target = Label { to };
if (m_finalizer_target.has_value() && &m_finalizer_target->block() == &from)
m_finalizer_target = Label { to };
}
void LeaveUnwindContext::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.leave_unwind_context();
}
void ContinuePendingUnwind::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.continue_pending_unwind(m_resume_target);
}
void ContinuePendingUnwind::replace_references_impl(BasicBlock const& from, BasicBlock const& to)
{
if (&m_resume_target.block() == &from)
m_resume_target = Label { to };
}
void PushLexicalEnvironment::execute_impl(Bytecode::Interpreter& interpreter) const
{
HashMap<FlyString, Variable> resolved_variables;
for (auto& it : m_variables)
resolved_variables.set(interpreter.current_executable().get_string(it.key), it.value);
auto* block_lexical_environment = interpreter.vm().heap().allocate<LexicalEnvironment>(interpreter.global_object(), move(resolved_variables), interpreter.vm().current_scope());
interpreter.vm().call_frame().scope = block_lexical_environment;
}
void Yield::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto yielded_value = interpreter.accumulator().value_or(js_undefined());
auto object = JS::Object::create(interpreter.global_object(), nullptr);
object->put("result", yielded_value);
if (m_continuation_label.has_value())
object->put("continuation", Value(static_cast<double>(reinterpret_cast<u64>(&m_continuation_label->block()))));
else
object->put("continuation", Value(0));
interpreter.do_return(object);
}
void Yield::replace_references_impl(BasicBlock const& from, BasicBlock const& to)
{
if (m_continuation_label.has_value() && &m_continuation_label->block() == &from)
m_continuation_label = Label { to };
}
void GetByValue::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* object = interpreter.reg(m_base).to_object(interpreter.global_object())) {
auto property_key = interpreter.accumulator().to_property_key(interpreter.global_object());
if (interpreter.vm().exception())
return;
interpreter.accumulator() = object->get(property_key).value_or(js_undefined());
}
}
void PutByValue::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* object = interpreter.reg(m_base).to_object(interpreter.global_object())) {
auto property_key = interpreter.reg(m_property).to_property_key(interpreter.global_object());
if (interpreter.vm().exception())
return;
object->put(property_key, interpreter.accumulator());
}
}
void LoadArgument::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = interpreter.vm().argument(m_index);
}
void GetIterator::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = get_iterator(interpreter.global_object(), interpreter.accumulator());
}
void IteratorNext::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* object = interpreter.accumulator().to_object(interpreter.global_object()))
interpreter.accumulator() = iterator_next(*object);
}
void IteratorResultDone::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* iterator_result = interpreter.accumulator().to_object(interpreter.global_object()))
interpreter.accumulator() = Value(iterator_complete(interpreter.global_object(), *iterator_result));
}
void IteratorResultValue::execute_impl(Bytecode::Interpreter& interpreter) const
{
if (auto* iterator_result = interpreter.accumulator().to_object(interpreter.global_object()))
interpreter.accumulator() = iterator_value(interpreter.global_object(), *iterator_result);
}
String Load::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("Load {}", m_src);
}
String LoadImmediate::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("LoadImmediate {}", m_value);
}
String Store::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("Store {}", m_dst);
}
String NewBigInt::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("NewBigInt \"{}\"", m_bigint.to_base10());
}
String NewArray::to_string_impl(Bytecode::Executable const&) const
{
StringBuilder builder;
builder.append("NewArray");
if (m_element_count != 0) {
builder.append(" [");
for (size_t i = 0; i < m_element_count; ++i) {
builder.appendff("{}", m_elements[i]);
if (i != m_element_count - 1)
builder.append(',');
}
builder.append(']');
}
return builder.to_string();
}
String IteratorToArray::to_string_impl(const Bytecode::Executable&) const
{
return "IteratorToArray";
}
String NewString::to_string_impl(Bytecode::Executable const& executable) const
{
return String::formatted("NewString {} (\"{}\")", m_string, executable.string_table->get(m_string));
}
String NewObject::to_string_impl(Bytecode::Executable const&) const
{
return "NewObject";
}
String CopyObjectExcludingProperties::to_string_impl(const Bytecode::Executable&) const
{
StringBuilder builder;
builder.appendff("CopyObjectExcludingProperties from:{}", m_from_object);
if (m_excluded_names_count != 0) {
builder.append(" excluding:[");
for (size_t i = 0; i < m_excluded_names_count; ++i) {
builder.appendff("{}", m_excluded_names[i]);
if (i != m_excluded_names_count - 1)
builder.append(',');
}
builder.append(']');
}
return builder.to_string();
}
String ConcatString::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("ConcatString {}", m_lhs);
}
String GetVariable::to_string_impl(Bytecode::Executable const& executable) const
{
return String::formatted("GetVariable {} ({})", m_identifier, executable.string_table->get(m_identifier));
}
String SetVariable::to_string_impl(Bytecode::Executable const& executable) const
{
return String::formatted("SetVariable {} ({})", m_identifier, executable.string_table->get(m_identifier));
}
String PutById::to_string_impl(Bytecode::Executable const& executable) const
{
return String::formatted("PutById base:{}, property:{} ({})", m_base, m_property, executable.string_table->get(m_property));
}
String GetById::to_string_impl(Bytecode::Executable const& executable) const
{
return String::formatted("GetById {} ({})", m_property, executable.string_table->get(m_property));
}
String Jump::to_string_impl(Bytecode::Executable const&) const
{
if (m_true_target.has_value())
return String::formatted("Jump {}", *m_true_target);
return String::formatted("Jump <empty>");
}
String JumpConditional::to_string_impl(Bytecode::Executable const&) const
{
auto true_string = m_true_target.has_value() ? String::formatted("{}", *m_true_target) : "<empty>";
auto false_string = m_false_target.has_value() ? String::formatted("{}", *m_false_target) : "<empty>";
return String::formatted("JumpConditional true:{} false:{}", true_string, false_string);
}
String JumpNullish::to_string_impl(Bytecode::Executable const&) const
{
auto true_string = m_true_target.has_value() ? String::formatted("{}", *m_true_target) : "<empty>";
auto false_string = m_false_target.has_value() ? String::formatted("{}", *m_false_target) : "<empty>";
return String::formatted("JumpNullish null:{} nonnull:{}", true_string, false_string);
}
String JumpUndefined::to_string_impl(Bytecode::Executable const&) const
{
auto true_string = m_true_target.has_value() ? String::formatted("{}", *m_true_target) : "<empty>";
auto false_string = m_false_target.has_value() ? String::formatted("{}", *m_false_target) : "<empty>";
return String::formatted("JumpUndefined undefined:{} not undefined:{}", true_string, false_string);
}
String Call::to_string_impl(Bytecode::Executable const&) const
{
StringBuilder builder;
builder.appendff("Call callee:{}, this:{}", m_callee, m_this_value);
if (m_argument_count != 0) {
builder.append(", arguments:[");
for (size_t i = 0; i < m_argument_count; ++i) {
builder.appendff("{}", m_arguments[i]);
if (i != m_argument_count - 1)
builder.append(',');
}
builder.append(']');
}
return builder.to_string();
}
String NewFunction::to_string_impl(Bytecode::Executable const&) const
{
return "NewFunction";
}
String Return::to_string_impl(Bytecode::Executable const&) const
{
return "Return";
}
String Increment::to_string_impl(Bytecode::Executable const&) const
{
return "Increment";
}
String Decrement::to_string_impl(Bytecode::Executable const&) const
{
return "Decrement";
}
String Throw::to_string_impl(Bytecode::Executable const&) const
{
return "Throw";
}
String EnterUnwindContext::to_string_impl(Bytecode::Executable const&) const
{
auto handler_string = m_handler_target.has_value() ? String::formatted("{}", *m_handler_target) : "<empty>";
auto finalizer_string = m_finalizer_target.has_value() ? String::formatted("{}", *m_finalizer_target) : "<empty>";
return String::formatted("EnterUnwindContext handler:{} finalizer:{} entry:{}", handler_string, finalizer_string, m_entry_point);
}
String LeaveUnwindContext::to_string_impl(Bytecode::Executable const&) const
{
return "LeaveUnwindContext";
}
String ContinuePendingUnwind::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("ContinuePendingUnwind resume:{}", m_resume_target);
}
String PushLexicalEnvironment::to_string_impl(const Bytecode::Executable& executable) const
{
StringBuilder builder;
builder.append("PushLexicalEnvironment");
if (!m_variables.is_empty()) {
builder.append(" {");
Vector<String> names;
for (auto& it : m_variables)
names.append(executable.get_string(it.key));
builder.join(", ", names);
builder.append("}");
}
return builder.to_string();
}
String Yield::to_string_impl(Bytecode::Executable const&) const
{
if (m_continuation_label.has_value())
return String::formatted("Yield continuation:@{}", m_continuation_label->block().name());
return String::formatted("Yield return");
}
String GetByValue::to_string_impl(const Bytecode::Executable&) const
{
return String::formatted("GetByValue base:{}", m_base);
}
String PutByValue::to_string_impl(const Bytecode::Executable&) const
{
return String::formatted("PutByValue base:{}, property:{}", m_base, m_property);
}
String LoadArgument::to_string_impl(const Bytecode::Executable&) const
{
return String::formatted("LoadArgument {}", m_index);
}
String GetIterator::to_string_impl(Executable const&) const
{
return "GetIterator";
}
String IteratorNext::to_string_impl(Executable const&) const
{
return "IteratorNext";
}
String IteratorResultDone::to_string_impl(Executable const&) const
{
return "IteratorResultDone";
}
String IteratorResultValue::to_string_impl(Executable const&) const
{
return "IteratorResultValue";
}
}
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