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LibJS: Rename the overridden Instruction methods to foo_impl

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These are pretty hairy if someone forgets to override one, as the
catchall function in Instruction will keep calling itself over and over
again, leading to really hard-to-debug situations.
This commit is contained in:
Ali Mohammad Pur 2021-06-15 18:08:12 +04:30 committed by Ali Mohammad Pur
parent 4c7c7c38e2
commit e81fd7106b
Notes: sideshowbarker 2024-07-18 12:13:12 +09:00 
Author: https://github.com/alimpfard
Commit: https://github.com/SerenityOS/serenity/commit/e81fd7106b4
Pull-request: https://github.com/SerenityOS/serenity/pull/8023
Reviewed-by: https://github.com/awesomekling
2 changed files with 150 additions and 150 deletions
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126
Userland/Libraries/LibJS/Bytecode/Op.cpp
View File

@ -23,7 +23,7 @@ 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(executable);
return static_cast<Bytecode::Op::op const&>(*this).to_string_impl(executable);
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
@ -38,17 +38,17 @@ String Instruction::to_string(Bytecode::Executable const& executable) const
namespace JS::Bytecode::Op {
void Load::execute(Bytecode::Interpreter& interpreter) const
void Load::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = interpreter.reg(m_src);
}
void LoadImmediate::execute(Bytecode::Interpreter& interpreter) const
void LoadImmediate::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = m_value;
}
void Store::execute(Bytecode::Interpreter& interpreter) const
void Store::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.reg(m_dst) = interpreter.accumulator();
}
@ -74,13 +74,13 @@ static Value typed_equals(GlobalObject&, Value src1, Value src2)
}
#define JS_DEFINE_COMMON_BINARY_OP(OpTitleCase, op_snake_case) \
void OpTitleCase::execute(Bytecode::Interpreter& interpreter) const \
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(Bytecode::Executable const&) const \
String OpTitleCase::to_string_impl(Bytecode::Executable const&) const \
{ \
return String::formatted(#OpTitleCase " {}", m_lhs_reg); \
}
@ -98,23 +98,23 @@ static Value typeof_(GlobalObject& global_object, Value value)
}
#define JS_DEFINE_COMMON_UNARY_OP(OpTitleCase, op_snake_case) \
void OpTitleCase::execute(Bytecode::Interpreter& interpreter) const \
void OpTitleCase::execute_impl(Bytecode::Interpreter& interpreter) const \
{ \
interpreter.accumulator() = op_snake_case(interpreter.global_object(), interpreter.accumulator()); \
} \
String OpTitleCase::to_string(Bytecode::Executable const&) const \
String OpTitleCase::to_string_impl(Bytecode::Executable const&) const \
{ \
return #OpTitleCase; \
}
JS_ENUMERATE_COMMON_UNARY_OPS(JS_DEFINE_COMMON_UNARY_OP)
void NewBigInt::execute(Bytecode::Interpreter& interpreter) const
void NewBigInt::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = js_bigint(interpreter.vm().heap(), m_bigint);
}
void NewArray::execute(Bytecode::Interpreter& interpreter) const
void NewArray::execute_impl(Bytecode::Interpreter& interpreter) const
{
Vector<Value> elements;
elements.ensure_capacity(m_element_count);
@ -123,49 +123,49 @@ void NewArray::execute(Bytecode::Interpreter& interpreter) const
interpreter.accumulator() = Array::create_from(interpreter.global_object(), elements);
}
void NewString::execute(Bytecode::Interpreter& interpreter) const
void NewString::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = js_string(interpreter.vm(), interpreter.current_executable().get_string(m_string));
}
void NewObject::execute(Bytecode::Interpreter& interpreter) const
void NewObject::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = Object::create_empty(interpreter.global_object());
}
void ConcatString::execute(Bytecode::Interpreter& interpreter) const
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(Bytecode::Interpreter& interpreter) const
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(Bytecode::Interpreter& interpreter) const
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(Bytecode::Interpreter& interpreter) const
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));
}
void PutById::execute(Bytecode::Interpreter& interpreter) const
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(Bytecode::Interpreter& interpreter) const
void Jump::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.jump(*m_true_target);
}
void JumpConditional::execute(Bytecode::Interpreter& interpreter) const
void JumpConditional::execute_impl(Bytecode::Interpreter& interpreter) const
{
VERIFY(m_true_target.has_value());
VERIFY(m_false_target.has_value());
@ -176,7 +176,7 @@ void JumpConditional::execute(Bytecode::Interpreter& interpreter) const
interpreter.jump(m_false_target.value());
}
void JumpNullish::execute(Bytecode::Interpreter& interpreter) const
void JumpNullish::execute_impl(Bytecode::Interpreter& interpreter) const
{
VERIFY(m_true_target.has_value());
VERIFY(m_false_target.has_value());
@ -187,7 +187,7 @@ void JumpNullish::execute(Bytecode::Interpreter& interpreter) const
interpreter.jump(m_false_target.value());
}
void Call::execute(Bytecode::Interpreter& interpreter) const
void Call::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto callee = interpreter.reg(m_callee);
if (!callee.is_function()) {
@ -215,18 +215,18 @@ void Call::execute(Bytecode::Interpreter& interpreter) const
interpreter.accumulator() = return_value;
}
void NewFunction::execute(Bytecode::Interpreter& interpreter) const
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(Bytecode::Interpreter& interpreter) const
void Return::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.do_return(interpreter.accumulator().value_or(js_undefined()));
}
void Increment::execute(Bytecode::Interpreter& interpreter) const
void Increment::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto old_value = interpreter.accumulator().to_numeric(interpreter.global_object());
if (interpreter.vm().exception())
@ -238,7 +238,7 @@ void Increment::execute(Bytecode::Interpreter& interpreter) const
interpreter.accumulator() = js_bigint(interpreter.vm().heap(), old_value.as_bigint().big_integer().plus(Crypto::SignedBigInteger { 1 }));
}
void Decrement::execute(Bytecode::Interpreter& interpreter) const
void Decrement::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto old_value = interpreter.accumulator().to_numeric(interpreter.global_object());
if (interpreter.vm().exception())
@ -250,28 +250,28 @@ void Decrement::execute(Bytecode::Interpreter& interpreter) const
interpreter.accumulator() = js_bigint(interpreter.vm().heap(), old_value.as_bigint().big_integer().minus(Crypto::SignedBigInteger { 1 }));
}
void Throw::execute(Bytecode::Interpreter& interpreter) const
void Throw::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.vm().throw_exception(interpreter.global_object(), interpreter.accumulator());
}
void EnterUnwindContext::execute(Bytecode::Interpreter& interpreter) const
void EnterUnwindContext::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.enter_unwind_context(m_handler_target, m_finalizer_target);
interpreter.jump(m_entry_point);
}
void LeaveUnwindContext::execute(Bytecode::Interpreter& interpreter) const
void LeaveUnwindContext::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.leave_unwind_context();
}
void ContinuePendingUnwind::execute(Bytecode::Interpreter& interpreter) const
void ContinuePendingUnwind::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.continue_pending_unwind(m_resume_target);
}
void PushLexicalEnvironment::execute(Bytecode::Interpreter& interpreter) const
void PushLexicalEnvironment::execute_impl(Bytecode::Interpreter& interpreter) const
{
HashMap<FlyString, Variable> resolved_variables;
for (auto& it : m_variables)
@ -280,7 +280,7 @@ void PushLexicalEnvironment::execute(Bytecode::Interpreter& interpreter) const
interpreter.vm().call_frame().scope = block_lexical_environment;
}
void Yield::execute(Bytecode::Interpreter& interpreter) const
void Yield::execute_impl(Bytecode::Interpreter& interpreter) const
{
auto yielded_value = interpreter.accumulator().value_or(js_undefined());
auto object = JS::Object::create_empty(interpreter.global_object());
@ -292,7 +292,7 @@ void Yield::execute(Bytecode::Interpreter& interpreter) const
interpreter.do_return(object);
}
void GetByValue::execute(Bytecode::Interpreter& interpreter) const
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());
@ -302,7 +302,7 @@ void GetByValue::execute(Bytecode::Interpreter& interpreter) const
}
}
void PutByValue::execute(Bytecode::Interpreter& interpreter) const
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());
@ -312,32 +312,32 @@ void PutByValue::execute(Bytecode::Interpreter& interpreter) const
}
}
void LoadArgument::execute(Bytecode::Interpreter& interpreter) const
void LoadArgument::execute_impl(Bytecode::Interpreter& interpreter) const
{
interpreter.accumulator() = interpreter.vm().argument(m_index);
}
String Load::to_string(Bytecode::Executable const&) const
String Load::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("Load {}", m_src);
}
String LoadImmediate::to_string(Bytecode::Executable const&) const
String LoadImmediate::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("LoadImmediate {}", m_value);
}
String Store::to_string(Bytecode::Executable const&) const
String Store::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("Store {}", m_dst);
}
String NewBigInt::to_string(Bytecode::Executable const&) const
String NewBigInt::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("NewBigInt \"{}\"", m_bigint.to_base10());
}
String NewArray::to_string(Bytecode::Executable const&) const
String NewArray::to_string_impl(Bytecode::Executable const&) const
{
StringBuilder builder;
builder.append("NewArray");
@ -353,63 +353,63 @@ String NewArray::to_string(Bytecode::Executable const&) const
return builder.to_string();
}
String NewString::to_string(Bytecode::Executable const& executable) const
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(Bytecode::Executable const&) const
String NewObject::to_string_impl(Bytecode::Executable const&) const
{
return "NewObject";
}
String ConcatString::to_string(Bytecode::Executable const&) const
String ConcatString::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("ConcatString {}", m_lhs);
}
String GetVariable::to_string(Bytecode::Executable const& executable) const
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(Bytecode::Executable const& executable) const
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(Bytecode::Executable const& executable) const
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(Bytecode::Executable const& executable) const
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(Bytecode::Executable const&) const
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(Bytecode::Executable const&) const
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(Bytecode::Executable const&) const
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 Call::to_string(Bytecode::Executable const&) const
String Call::to_string_impl(Bytecode::Executable const&) const
{
StringBuilder builder;
builder.appendff("Call callee:{}, this:{}", m_callee, m_this_value);
@ -425,49 +425,49 @@ String Call::to_string(Bytecode::Executable const&) const
return builder.to_string();
}
String NewFunction::to_string(Bytecode::Executable const&) const
String NewFunction::to_string_impl(Bytecode::Executable const&) const
{
return "NewFunction";
}
String Return::to_string(Bytecode::Executable const&) const
String Return::to_string_impl(Bytecode::Executable const&) const
{
return "Return";
}
String Increment::to_string(Bytecode::Executable const&) const
String Increment::to_string_impl(Bytecode::Executable const&) const
{
return "Increment";
}
String Decrement::to_string(Bytecode::Executable const&) const
String Decrement::to_string_impl(Bytecode::Executable const&) const
{
return "Decrement";
}
String Throw::to_string(Bytecode::Executable const&) const
String Throw::to_string_impl(Bytecode::Executable const&) const
{
return "Throw";
}
String EnterUnwindContext::to_string(Bytecode::Executable const&) const
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(Bytecode::Executable const&) const
String LeaveUnwindContext::to_string_impl(Bytecode::Executable const&) const
{
return "LeaveUnwindContext";
}
String ContinuePendingUnwind::to_string(Bytecode::Executable const&) const
String ContinuePendingUnwind::to_string_impl(Bytecode::Executable const&) const
{
return String::formatted("ContinuePendingUnwind resume:{}", m_resume_target);
}
String PushLexicalEnvironment::to_string(const Bytecode::Executable& executable) const
String PushLexicalEnvironment::to_string_impl(const Bytecode::Executable& executable) const
{
StringBuilder builder;
builder.append("PushLexicalEnvironment");
@ -482,24 +482,24 @@ String PushLexicalEnvironment::to_string(const Bytecode::Executable& executable)
return builder.to_string();
}
String Yield::to_string(Bytecode::Executable const&) const
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(const Bytecode::Executable&) const
String GetByValue::to_string_impl(const Bytecode::Executable&) const
{
return String::formatted("GetByValue base:{}", m_base);
}
String PutByValue::to_string(const Bytecode::Executable&) const
String PutByValue::to_string_impl(const Bytecode::Executable&) const
{
return String::formatted("PutByValue base:{}, property:{}", m_base, m_property);
}
String LoadArgument::to_string(const Bytecode::Executable&) const
String LoadArgument::to_string_impl(const Bytecode::Executable&) const
{
return String::formatted("LoadArgument {}", m_index);
}

174
Userland/Libraries/LibJS/Bytecode/Op.h
View File

@ -27,8 +27,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Register m_src;
@ -42,8 +42,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Value m_value;
@ -57,8 +57,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Register m_dst;
@ -88,20 +88,20 @@ private:
O(RightShift, right_shift) \
O(UnsignedRightShift, unsigned_right_shift)
#define JS_DECLARE_COMMON_BINARY_OP(OpTitleCase, op_snake_case) \
class OpTitleCase final : public Instruction { \
public: \
explicit OpTitleCase(Register lhs_reg) \
: Instruction(Type::OpTitleCase) \
, m_lhs_reg(lhs_reg) \
{ \
} \
\
void execute(Bytecode::Interpreter&) const; \
String to_string(Bytecode::Executable const&) const; \
\
private: \
Register m_lhs_reg; \
#define JS_DECLARE_COMMON_BINARY_OP(OpTitleCase, op_snake_case) \
class OpTitleCase final : public Instruction { \
public: \
explicit OpTitleCase(Register lhs_reg) \
: Instruction(Type::OpTitleCase) \
, m_lhs_reg(lhs_reg) \
{ \
} \
\
void execute_impl(Bytecode::Interpreter&) const; \
String to_string_impl(Bytecode::Executable const&) const; \
\
private: \
Register m_lhs_reg; \
};
JS_ENUMERATE_COMMON_BINARY_OPS(JS_DECLARE_COMMON_BINARY_OP)
@ -114,16 +114,16 @@ JS_ENUMERATE_COMMON_BINARY_OPS(JS_DECLARE_COMMON_BINARY_OP)
O(UnaryMinus, unary_minus) \
O(Typeof, typeof_)
#define JS_DECLARE_COMMON_UNARY_OP(OpTitleCase, op_snake_case) \
class OpTitleCase final : public Instruction { \
public: \
OpTitleCase() \
: Instruction(Type::OpTitleCase) \
{ \
} \
\
void execute(Bytecode::Interpreter&) const; \
String to_string(Bytecode::Executable const&) const; \
#define JS_DECLARE_COMMON_UNARY_OP(OpTitleCase, op_snake_case) \
class OpTitleCase final : public Instruction { \
public: \
OpTitleCase() \
: Instruction(Type::OpTitleCase) \
{ \
} \
\
void execute_impl(Bytecode::Interpreter&) const; \
String to_string_impl(Bytecode::Executable const&) const; \
};
JS_ENUMERATE_COMMON_UNARY_OPS(JS_DECLARE_COMMON_UNARY_OP)
@ -137,8 +137,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
StringTableIndex m_string;
@ -151,8 +151,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class NewBigInt final : public Instruction {
@ -163,8 +163,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Crypto::SignedBigInteger m_bigint;
@ -181,10 +181,10 @@ public:
m_elements[i] = elements[i];
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
size_t length() const { return sizeof(*this) + sizeof(Register) * m_element_count; }
size_t length_impl() const { return sizeof(*this) + sizeof(Register) * m_element_count; }
private:
size_t m_element_count { 0 };
@ -199,8 +199,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Register m_lhs;
@ -214,8 +214,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
StringTableIndex m_identifier;
@ -229,8 +229,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
StringTableIndex m_identifier;
@ -244,8 +244,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
StringTableIndex m_property;
@ -260,8 +260,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Register m_base;
@ -276,8 +276,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Register m_base;
@ -292,8 +292,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Register m_base;
@ -324,8 +324,8 @@ public:
m_false_target = move(false_target);
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
protected:
Optional<Label> m_true_target;
@ -339,8 +339,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class JumpNullish final : public Jump {
@ -350,8 +350,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
// NOTE: This instruction is variable-width depending on the number of arguments!
@ -373,10 +373,10 @@ public:
m_arguments[i] = arguments[i];
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
size_t length() const { return sizeof(*this) + sizeof(Register) * m_argument_count; }
size_t length_impl() const { return sizeof(*this) + sizeof(Register) * m_argument_count; }
private:
Register m_callee;
@ -394,8 +394,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
FunctionNode const& m_function_node;
@ -410,8 +410,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class Increment final : public Instruction {
@ -421,8 +421,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class Decrement final : public Instruction {
@ -432,8 +432,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class Throw final : public Instruction {
@ -445,8 +445,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class EnterUnwindContext final : public Instruction {
@ -461,8 +461,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Label m_entry_point;
@ -477,8 +477,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class ContinuePendingUnwind final : public Instruction {
@ -491,8 +491,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Label m_resume_target;
@ -513,8 +513,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
Optional<Label> m_continuation_label;
@ -527,8 +527,8 @@ public:
, m_variables(move(variables))
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
HashMap<u32, Variable> m_variables;
@ -542,8 +542,8 @@ public:
{
}
void execute(Bytecode::Interpreter&) const;
String to_string(Bytecode::Executable const&) const;
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
private:
size_t m_index { 0 };
@ -557,7 +557,7 @@ ALWAYS_INLINE void Instruction::execute(Bytecode::Interpreter& interpreter) cons
{
#define __BYTECODE_OP(op) \
case Instruction::Type::op: \
return static_cast<Bytecode::Op::op const&>(*this).execute(interpreter);
return static_cast<Bytecode::Op::op const&>(*this).execute_impl(interpreter);
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
@ -571,9 +571,9 @@ ALWAYS_INLINE void Instruction::execute(Bytecode::Interpreter& interpreter) cons
ALWAYS_INLINE size_t Instruction::length() const
{
if (type() == Type::Call)
return static_cast<Op::Call const&>(*this).length();
return static_cast<Op::Call const&>(*this).length_impl();
else if (type() == Type::NewArray)
return static_cast<Op::NewArray const&>(*this).length();
return static_cast<Op::NewArray const&>(*this).length_impl();
#define __BYTECODE_OP(op) \
case Type::op: \