ladybird/Userland/Libraries/LibJS/AST.h
Aliaksandr Kalenik f29ac8517e LibJS: Skip ordinary_call_bind_this() when possible
If during parsing it was found that function won't use `this` then
there is no need to initialise `this_value` during call.
2024-05-23 09:53:31 +02:00

2264 lines
83 KiB
C++

/*
* Copyright (c) 2020-2024, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2020-2022, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021-2022, David Tuin <davidot@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteString.h>
#include <AK/DeprecatedFlyString.h>
#include <AK/HashMap.h>
#include <AK/OwnPtr.h>
#include <AK/RefPtr.h>
#include <AK/Variant.h>
#include <AK/Vector.h>
#include <LibJS/Bytecode/CodeGenerationError.h>
#include <LibJS/Bytecode/Executable.h>
#include <LibJS/Bytecode/IdentifierTable.h>
#include <LibJS/Bytecode/Op.h>
#include <LibJS/Bytecode/Operand.h>
#include <LibJS/Bytecode/ScopedOperand.h>
#include <LibJS/Forward.h>
#include <LibJS/Heap/Handle.h>
#include <LibJS/Runtime/ClassFieldDefinition.h>
#include <LibJS/Runtime/Completion.h>
#include <LibJS/Runtime/EnvironmentCoordinate.h>
#include <LibJS/Runtime/FunctionKind.h>
#include <LibJS/Runtime/ModuleRequest.h>
#include <LibJS/Runtime/PropertyKey.h>
#include <LibJS/Runtime/Reference.h>
#include <LibJS/Runtime/Value.h>
#include <LibJS/SourceRange.h>
#include <LibRegex/Regex.h>
namespace JS {
class Declaration;
class ClassDeclaration;
class FunctionDeclaration;
class Identifier;
class MemberExpression;
class VariableDeclaration;
template<class T, class... Args>
static inline NonnullRefPtr<T>
create_ast_node(SourceRange range, Args&&... args)
{
return adopt_ref(*new T(move(range), forward<Args>(args)...));
}
class ASTNode : public RefCounted<ASTNode> {
public:
virtual ~ASTNode() = default;
// NOTE: This is here to stop ASAN complaining about mismatch between new/delete sizes in ASTNodeWithTailArray.
void operator delete(void* ptr) { ::operator delete(ptr); }
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const;
virtual void dump(int indent) const;
[[nodiscard]] SourceRange source_range() const;
UnrealizedSourceRange unrealized_source_range() const
{
return { m_source_code, m_start_offset, m_end_offset };
}
u32 start_offset() const { return m_start_offset; }
u32 end_offset() const { return m_end_offset; }
SourceCode const& source_code() const { return *m_source_code; }
void set_end_offset(Badge<Parser>, u32 end_offset) { m_end_offset = end_offset; }
ByteString class_name() const;
template<typename T>
bool fast_is() const = delete;
virtual bool is_new_expression() const { return false; }
virtual bool is_member_expression() const { return false; }
virtual bool is_super_expression() const { return false; }
virtual bool is_function_expression() const { return false; }
virtual bool is_class_expression() const { return false; }
virtual bool is_expression_statement() const { return false; }
virtual bool is_identifier() const { return false; }
virtual bool is_private_identifier() const { return false; }
virtual bool is_scope_node() const { return false; }
virtual bool is_program() const { return false; }
virtual bool is_class_declaration() const { return false; }
virtual bool is_function_declaration() const { return false; }
virtual bool is_variable_declaration() const { return false; }
virtual bool is_import_call() const { return false; }
virtual bool is_array_expression() const { return false; }
virtual bool is_object_expression() const { return false; }
virtual bool is_numeric_literal() const { return false; }
virtual bool is_string_literal() const { return false; }
virtual bool is_update_expression() const { return false; }
virtual bool is_call_expression() const { return false; }
virtual bool is_labelled_statement() const { return false; }
virtual bool is_iteration_statement() const { return false; }
virtual bool is_class_method() const { return false; }
protected:
explicit ASTNode(SourceRange);
private:
// NOTE: These members are carefully ordered so that `m_start_offset` is packed with the padding after RefCounted::m_ref_count.
// This creates a 4-byte padding hole after `m_end_offset` which is used to pack subclasses better.
u32 m_start_offset { 0 };
RefPtr<SourceCode const> m_source_code;
u32 m_end_offset { 0 };
};
// This is a helper class that packs an array of T after the AST node, all in the same allocation.
template<typename Derived, typename Base, typename T>
class ASTNodeWithTailArray : public Base {
public:
virtual ~ASTNodeWithTailArray() override
{
for (auto& value : tail_span())
value.~T();
}
ReadonlySpan<T> tail_span() const { return { tail_data(), tail_size() }; }
T const* tail_data() const { return reinterpret_cast<T const*>(reinterpret_cast<uintptr_t>(this) + sizeof(Derived)); }
size_t tail_size() const { return m_tail_size; }
protected:
template<typename ActualDerived = Derived, typename... Args>
static NonnullRefPtr<ActualDerived> create(size_t tail_size, SourceRange source_range, Args&&... args)
{
static_assert(sizeof(ActualDerived) == sizeof(Derived), "This leaf class cannot add more members");
static_assert(alignof(ActualDerived) % alignof(T) == 0, "Need padding for tail array");
auto* memory = ::operator new(sizeof(ActualDerived) + tail_size * sizeof(T));
return adopt_ref(*::new (memory) ActualDerived(move(source_range), forward<Args>(args)...));
}
ASTNodeWithTailArray(SourceRange source_range, ReadonlySpan<T> values)
: Base(move(source_range))
, m_tail_size(values.size())
{
VERIFY(values.size() <= NumericLimits<u32>::max());
for (size_t i = 0; i < values.size(); ++i)
new (&tail_data()[i]) T(values[i]);
}
private:
T* tail_data() { return reinterpret_cast<T*>(reinterpret_cast<uintptr_t>(this) + sizeof(Derived)); }
u32 m_tail_size { 0 };
};
class Statement : public ASTNode {
public:
explicit Statement(SourceRange source_range)
: ASTNode(move(source_range))
{
}
Bytecode::Executable* bytecode_executable() const { return m_bytecode_executable; }
void set_bytecode_executable(Bytecode::Executable* bytecode_executable) { m_bytecode_executable = make_handle(bytecode_executable); }
private:
Handle<Bytecode::Executable> m_bytecode_executable;
};
// 14.13 Labelled Statements, https://tc39.es/ecma262/#sec-labelled-statements
class LabelledStatement final : public Statement {
public:
LabelledStatement(SourceRange source_range, DeprecatedFlyString label, NonnullRefPtr<Statement const> labelled_item)
: Statement(move(source_range))
, m_label(move(label))
, m_labelled_item(move(labelled_item))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const;
DeprecatedFlyString const& label() const { return m_label; }
DeprecatedFlyString& label() { return m_label; }
NonnullRefPtr<Statement const> const& labelled_item() const { return m_labelled_item; }
private:
virtual bool is_labelled_statement() const final { return true; }
DeprecatedFlyString m_label;
NonnullRefPtr<Statement const> m_labelled_item;
};
class LabelableStatement : public Statement {
public:
using Statement::Statement;
Vector<DeprecatedFlyString> const& labels() const { return m_labels; }
virtual void add_label(DeprecatedFlyString string) { m_labels.append(move(string)); }
protected:
Vector<DeprecatedFlyString> m_labels;
};
class IterationStatement : public Statement {
public:
using Statement::Statement;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const;
private:
virtual bool is_iteration_statement() const final { return true; }
};
class EmptyStatement final : public Statement {
public:
explicit EmptyStatement(SourceRange source_range)
: Statement(move(source_range))
{
}
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
};
class ErrorStatement final : public Statement {
public:
explicit ErrorStatement(SourceRange source_range)
: Statement(move(source_range))
{
}
};
class ExpressionStatement final : public Statement {
public:
ExpressionStatement(SourceRange source_range, NonnullRefPtr<Expression const> expression)
: Statement(move(source_range))
, m_expression(move(expression))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
Expression const& expression() const { return m_expression; }
private:
virtual bool is_expression_statement() const override { return true; }
NonnullRefPtr<Expression const> m_expression;
};
template<typename Func, typename... Args>
concept ThrowCompletionOrVoidFunction = requires(Func func, Args... args) {
{
func(args...)
}
-> SameAs<ThrowCompletionOr<void>>;
};
template<typename... Args>
class ThrowCompletionOrVoidCallback : public Function<ThrowCompletionOr<void>(Args...)> {
public:
template<typename CallableType>
ThrowCompletionOrVoidCallback(CallableType&& callable)
requires(VoidFunction<CallableType, Args...>)
: Function<ThrowCompletionOr<void>(Args...)>([callable = forward<CallableType>(callable)](Args... args) {
callable(args...);
return ThrowCompletionOr<void> {};
})
{
}
template<typename CallableType>
ThrowCompletionOrVoidCallback(CallableType&& callable)
requires(ThrowCompletionOrVoidFunction<CallableType, Args...>)
: Function<ThrowCompletionOr<void>(Args...)>(forward<CallableType>(callable))
{
}
};
class ScopeNode : public Statement {
public:
template<typename T, typename... Args>
T& append(SourceRange range, Args&&... args)
{
auto child = create_ast_node<T>(range, forward<Args>(args)...);
m_children.append(move(child));
return static_cast<T&>(*m_children.last());
}
void append(NonnullRefPtr<Statement const> child)
{
m_children.append(move(child));
}
void shrink_to_fit()
{
m_children.shrink_to_fit();
m_lexical_declarations.shrink_to_fit();
m_var_declarations.shrink_to_fit();
m_functions_hoistable_with_annexB_extension.shrink_to_fit();
}
Vector<NonnullRefPtr<Statement const>> const& children() const { return m_children; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
void add_var_scoped_declaration(NonnullRefPtr<Declaration const> variables);
void add_lexical_declaration(NonnullRefPtr<Declaration const> variables);
void add_hoisted_function(NonnullRefPtr<FunctionDeclaration const> declaration);
[[nodiscard]] bool has_lexical_declarations() const { return !m_lexical_declarations.is_empty(); }
[[nodiscard]] bool has_non_local_lexical_declarations() const;
[[nodiscard]] bool has_var_declarations() const { return !m_var_declarations.is_empty(); }
[[nodiscard]] size_t var_declaration_count() const { return m_var_declarations.size(); }
[[nodiscard]] size_t lexical_declaration_count() const { return m_lexical_declarations.size(); }
ThrowCompletionOr<void> for_each_lexically_scoped_declaration(ThrowCompletionOrVoidCallback<Declaration const&>&& callback) const;
ThrowCompletionOr<void> for_each_lexically_declared_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&& callback) const;
ThrowCompletionOr<void> for_each_var_declared_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&& callback) const;
ThrowCompletionOr<void> for_each_var_function_declaration_in_reverse_order(ThrowCompletionOrVoidCallback<FunctionDeclaration const&>&& callback) const;
ThrowCompletionOr<void> for_each_var_scoped_variable_declaration(ThrowCompletionOrVoidCallback<VariableDeclaration const&>&& callback) const;
void block_declaration_instantiation(VM&, Environment*) const;
ThrowCompletionOr<void> for_each_function_hoistable_with_annexB_extension(ThrowCompletionOrVoidCallback<FunctionDeclaration&>&& callback) const;
Vector<DeprecatedFlyString> const& local_variables_names() const { return m_local_variables_names; }
size_t add_local_variable(DeprecatedFlyString name)
{
auto index = m_local_variables_names.size();
m_local_variables_names.append(move(name));
return index;
}
protected:
explicit ScopeNode(SourceRange source_range)
: Statement(move(source_range))
{
}
private:
virtual bool is_scope_node() const final { return true; }
Vector<NonnullRefPtr<Statement const>> m_children;
Vector<NonnullRefPtr<Declaration const>> m_lexical_declarations;
Vector<NonnullRefPtr<Declaration const>> m_var_declarations;
Vector<NonnullRefPtr<FunctionDeclaration const>> m_functions_hoistable_with_annexB_extension;
Vector<DeprecatedFlyString> m_local_variables_names;
};
// ImportEntry Record, https://tc39.es/ecma262/#table-importentry-record-fields
struct ImportEntry {
Optional<DeprecatedFlyString> import_name; // [[ImportName]]: stored string if Optional is not empty, NAMESPACE-OBJECT otherwise
DeprecatedFlyString local_name; // [[LocalName]]
ImportEntry(Optional<DeprecatedFlyString> import_name_, DeprecatedFlyString local_name_)
: import_name(move(import_name_))
, local_name(move(local_name_))
{
}
bool is_namespace() const { return !import_name.has_value(); }
ModuleRequest const& module_request() const
{
VERIFY(m_module_request);
return *m_module_request;
}
private:
friend class ImportStatement;
ModuleRequest* m_module_request = nullptr; // [[ModuleRequest]]
};
class ImportStatement final : public Statement {
public:
explicit ImportStatement(SourceRange source_range, ModuleRequest from_module, Vector<ImportEntry> entries = {})
: Statement(move(source_range))
, m_module_request(move(from_module))
, m_entries(move(entries))
{
for (auto& entry : m_entries)
entry.m_module_request = &m_module_request;
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
bool has_bound_name(DeprecatedFlyString const& name) const;
Vector<ImportEntry> const& entries() const { return m_entries; }
ModuleRequest const& module_request() const { return m_module_request; }
private:
ModuleRequest m_module_request;
Vector<ImportEntry> m_entries;
};
// ExportEntry Record, https://tc39.es/ecma262/#table-exportentry-records
struct ExportEntry {
enum class Kind {
NamedExport,
ModuleRequestAll,
ModuleRequestAllButDefault,
// EmptyNamedExport is a special type for export {} from "module",
// which should import the module without getting any of the exports
// however we don't want give it a fake export name which may get
// duplicates
EmptyNamedExport,
} kind;
Optional<DeprecatedFlyString> export_name; // [[ExportName]]
Optional<DeprecatedFlyString> local_or_import_name; // Either [[ImportName]] or [[LocalName]]
ExportEntry(Kind export_kind, Optional<DeprecatedFlyString> export_name_, Optional<DeprecatedFlyString> local_or_import_name_)
: kind(export_kind)
, export_name(move(export_name_))
, local_or_import_name(move(local_or_import_name_))
{
}
bool is_module_request() const
{
return m_module_request != nullptr;
}
static ExportEntry indirect_export_entry(ModuleRequest const& module_request, Optional<DeprecatedFlyString> export_name, Optional<DeprecatedFlyString> import_name)
{
ExportEntry entry { Kind::NamedExport, move(export_name), move(import_name) };
entry.m_module_request = &module_request;
return entry;
}
ModuleRequest const& module_request() const
{
VERIFY(m_module_request);
return *m_module_request;
}
private:
ModuleRequest const* m_module_request { nullptr }; // [[ModuleRequest]]
friend class ExportStatement;
public:
static ExportEntry named_export(DeprecatedFlyString export_name, DeprecatedFlyString local_name)
{
return ExportEntry { Kind::NamedExport, move(export_name), move(local_name) };
}
static ExportEntry all_but_default_entry()
{
return ExportEntry { Kind::ModuleRequestAllButDefault, {}, {} };
}
static ExportEntry all_module_request(DeprecatedFlyString export_name)
{
return ExportEntry { Kind::ModuleRequestAll, move(export_name), {} };
}
static ExportEntry empty_named_export()
{
return ExportEntry { Kind::EmptyNamedExport, {}, {} };
}
};
class ExportStatement final : public Statement {
public:
static DeprecatedFlyString local_name_for_default;
ExportStatement(SourceRange source_range, RefPtr<ASTNode const> statement, Vector<ExportEntry> entries, bool is_default_export, Optional<ModuleRequest> module_request)
: Statement(move(source_range))
, m_statement(move(statement))
, m_entries(move(entries))
, m_is_default_export(is_default_export)
, m_module_request(move(module_request))
{
if (m_module_request.has_value()) {
for (auto& entry : m_entries)
entry.m_module_request = &m_module_request.value();
}
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
bool has_export(DeprecatedFlyString const& export_name) const;
bool has_statement() const { return m_statement; }
Vector<ExportEntry> const& entries() const { return m_entries; }
bool is_default_export() const { return m_is_default_export; }
ASTNode const& statement() const
{
VERIFY(m_statement);
return *m_statement;
}
ModuleRequest const& module_request() const
{
return m_module_request.value();
}
private:
RefPtr<ASTNode const> m_statement;
Vector<ExportEntry> m_entries;
bool m_is_default_export { false };
Optional<ModuleRequest> m_module_request;
};
class Program final : public ScopeNode {
public:
enum class Type {
Script,
Module
};
explicit Program(SourceRange source_range, Type program_type)
: ScopeNode(move(source_range))
, m_type(program_type)
{
}
bool is_strict_mode() const { return m_is_strict_mode; }
void set_strict_mode() { m_is_strict_mode = true; }
Type type() const { return m_type; }
void append_import(NonnullRefPtr<ImportStatement const> import_statement)
{
m_imports.append(import_statement);
append(move(import_statement));
}
void append_export(NonnullRefPtr<ExportStatement const> export_statement)
{
m_exports.append(export_statement);
append(move(export_statement));
}
Vector<NonnullRefPtr<ImportStatement const>> const& imports() const { return m_imports; }
Vector<NonnullRefPtr<ExportStatement const>> const& exports() const { return m_exports; }
Vector<NonnullRefPtr<ImportStatement const>>& imports() { return m_imports; }
Vector<NonnullRefPtr<ExportStatement const>>& exports() { return m_exports; }
bool has_top_level_await() const { return m_has_top_level_await; }
void set_has_top_level_await() { m_has_top_level_await = true; }
ThrowCompletionOr<void> global_declaration_instantiation(VM&, GlobalEnvironment&) const;
private:
virtual bool is_program() const override { return true; }
bool m_is_strict_mode { false };
Type m_type { Type::Script };
Vector<NonnullRefPtr<ImportStatement const>> m_imports;
Vector<NonnullRefPtr<ExportStatement const>> m_exports;
bool m_has_top_level_await { false };
};
class BlockStatement final : public ScopeNode {
public:
explicit BlockStatement(SourceRange source_range)
: ScopeNode(move(source_range))
{
}
};
class FunctionBody final : public ScopeNode {
public:
explicit FunctionBody(SourceRange source_range)
: ScopeNode(move(source_range))
{
}
void set_strict_mode() { m_in_strict_mode = true; }
bool in_strict_mode() const { return m_in_strict_mode; }
private:
bool m_in_strict_mode { false };
};
class Expression : public ASTNode {
public:
explicit Expression(SourceRange source_range)
: ASTNode(move(source_range))
{
}
};
class Declaration : public Statement {
public:
explicit Declaration(SourceRange source_range)
: Statement(move(source_range))
{
}
virtual ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&& callback) const = 0;
// 8.1.3 Static Semantics: IsConstantDeclaration, https://tc39.es/ecma262/#sec-static-semantics-isconstantdeclaration
virtual bool is_constant_declaration() const { return false; }
virtual bool is_lexical_declaration() const { return false; }
};
class ErrorDeclaration final : public Declaration {
public:
explicit ErrorDeclaration(SourceRange source_range)
: Declaration(move(source_range))
{
}
ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&&) const override
{
VERIFY_NOT_REACHED();
}
};
struct BindingPattern : RefCounted<BindingPattern> {
// This covers both BindingProperty and BindingElement, hence the more generic name
struct BindingEntry {
// If this entry represents a BindingElement, then name will be Empty
Variant<NonnullRefPtr<Identifier const>, NonnullRefPtr<Expression const>, Empty> name {};
Variant<NonnullRefPtr<Identifier const>, NonnullRefPtr<BindingPattern const>, NonnullRefPtr<MemberExpression const>, Empty> alias {};
RefPtr<Expression const> initializer {};
bool is_rest { false };
bool is_elision() const { return name.has<Empty>() && alias.has<Empty>(); }
};
enum class Kind {
Array,
Object,
};
void dump(int indent) const;
ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&& callback) const;
bool contains_expression() const;
Bytecode::CodeGenerationErrorOr<void> generate_bytecode(Bytecode::Generator&, Bytecode::Op::BindingInitializationMode initialization_mode, Bytecode::ScopedOperand const& object, bool create_variables) const;
Vector<BindingEntry> entries;
Kind kind { Kind::Object };
};
class Identifier final : public Expression {
public:
explicit Identifier(SourceRange source_range, DeprecatedFlyString string)
: Expression(move(source_range))
, m_string(move(string))
{
}
DeprecatedFlyString const& string() const { return m_string; }
bool is_local() const { return m_local_variable_index.has_value(); }
size_t local_variable_index() const
{
VERIFY(m_local_variable_index.has_value());
return m_local_variable_index.value();
}
void set_local_variable_index(size_t index) { m_local_variable_index = index; }
bool is_global() const { return m_is_global; }
void set_is_global() { m_is_global = true; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
virtual bool is_identifier() const override { return true; }
DeprecatedFlyString m_string;
Optional<size_t> m_local_variable_index;
bool m_is_global { false };
};
struct FunctionParameter {
Variant<NonnullRefPtr<Identifier const>, NonnullRefPtr<BindingPattern const>> binding;
RefPtr<Expression const> default_value;
bool is_rest { false };
Handle<Bytecode::Executable> bytecode_executable {};
};
struct FunctionParsingInsights {
bool uses_this { false };
bool uses_this_from_environment { false };
bool contains_direct_call_to_eval { false };
bool might_need_arguments_object { false };
};
class FunctionNode {
public:
StringView name() const { return m_name ? m_name->string().view() : ""sv; }
RefPtr<Identifier const> name_identifier() const { return m_name; }
ByteString const& source_text() const { return m_source_text; }
Statement const& body() const { return *m_body; }
Vector<FunctionParameter> const& parameters() const { return m_parameters; }
i32 function_length() const { return m_function_length; }
Vector<DeprecatedFlyString> const& local_variables_names() const { return m_local_variables_names; }
bool is_strict_mode() const { return m_is_strict_mode; }
bool might_need_arguments_object() const { return m_parsing_insights.might_need_arguments_object; }
bool contains_direct_call_to_eval() const { return m_parsing_insights.contains_direct_call_to_eval; }
bool is_arrow_function() const { return m_is_arrow_function; }
FunctionParsingInsights const& parsing_insights() const { return m_parsing_insights; }
FunctionKind kind() const { return m_kind; }
bool uses_this_from_environment() const { return m_parsing_insights.uses_this_from_environment; }
virtual bool has_name() const = 0;
virtual Value instantiate_ordinary_function_expression(VM&, DeprecatedFlyString given_name) const = 0;
virtual ~FunctionNode() {};
protected:
FunctionNode(RefPtr<Identifier const> name, ByteString source_text, NonnullRefPtr<Statement const> body, Vector<FunctionParameter> parameters, i32 function_length, FunctionKind kind, bool is_strict_mode, FunctionParsingInsights parsing_insights, bool is_arrow_function, Vector<DeprecatedFlyString> local_variables_names)
: m_name(move(name))
, m_source_text(move(source_text))
, m_body(move(body))
, m_parameters(move(parameters))
, m_function_length(function_length)
, m_kind(kind)
, m_is_strict_mode(is_strict_mode)
, m_is_arrow_function(is_arrow_function)
, m_parsing_insights(parsing_insights)
, m_local_variables_names(move(local_variables_names))
{
if (m_is_arrow_function)
VERIFY(!parsing_insights.might_need_arguments_object);
}
void dump(int indent, ByteString const& class_name) const;
RefPtr<Identifier const> m_name { nullptr };
private:
ByteString m_source_text;
NonnullRefPtr<Statement const> m_body;
Vector<FunctionParameter> const m_parameters;
i32 const m_function_length;
FunctionKind m_kind;
bool m_is_strict_mode : 1 { false };
bool m_is_arrow_function : 1 { false };
FunctionParsingInsights m_parsing_insights;
Vector<DeprecatedFlyString> m_local_variables_names;
};
class FunctionDeclaration final
: public Declaration
, public FunctionNode {
public:
static bool must_have_name() { return true; }
FunctionDeclaration(SourceRange source_range, RefPtr<Identifier const> name, ByteString source_text, NonnullRefPtr<Statement const> body, Vector<FunctionParameter> parameters, i32 function_length, FunctionKind kind, bool is_strict_mode, FunctionParsingInsights insights, Vector<DeprecatedFlyString> local_variables_names)
: Declaration(move(source_range))
, FunctionNode(move(name), move(source_text), move(body), move(parameters), function_length, kind, is_strict_mode, insights, false, move(local_variables_names))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&&) const override;
virtual bool is_function_declaration() const override { return true; }
void set_should_do_additional_annexB_steps() { m_is_hoisted = true; }
bool has_name() const override { return true; }
Value instantiate_ordinary_function_expression(VM&, DeprecatedFlyString) const override { VERIFY_NOT_REACHED(); }
virtual ~FunctionDeclaration() {};
private:
bool m_is_hoisted { false };
};
class FunctionExpression final
: public Expression
, public FunctionNode {
public:
static bool must_have_name() { return false; }
FunctionExpression(SourceRange source_range, RefPtr<Identifier const> name, ByteString source_text, NonnullRefPtr<Statement const> body, Vector<FunctionParameter> parameters, i32 function_length, FunctionKind kind, bool is_strict_mode, FunctionParsingInsights insights, Vector<DeprecatedFlyString> local_variables_names, bool is_arrow_function = false)
: Expression(move(source_range))
, FunctionNode(move(name), move(source_text), move(body), move(parameters), function_length, kind, is_strict_mode, insights, is_arrow_function, move(local_variables_names))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode_with_lhs_name(Bytecode::Generator&, Optional<Bytecode::IdentifierTableIndex> lhs_name, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const;
bool has_name() const override { return !name().is_empty(); }
Value instantiate_ordinary_function_expression(VM&, DeprecatedFlyString given_name) const override;
virtual ~FunctionExpression() {};
private:
virtual bool is_function_expression() const override { return true; }
};
class ErrorExpression final : public Expression {
public:
explicit ErrorExpression(SourceRange source_range)
: Expression(move(source_range))
{
}
};
class YieldExpression final : public Expression {
public:
explicit YieldExpression(SourceRange source_range, RefPtr<Expression const> argument, bool is_yield_from)
: Expression(move(source_range))
, m_argument(move(argument))
, m_is_yield_from(is_yield_from)
{
}
Expression const* argument() const { return m_argument; }
bool is_yield_from() const { return m_is_yield_from; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
RefPtr<Expression const> m_argument;
bool m_is_yield_from { false };
};
class AwaitExpression final : public Expression {
public:
explicit AwaitExpression(SourceRange source_range, NonnullRefPtr<Expression const> argument)
: Expression(move(source_range))
, m_argument(move(argument))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_argument;
};
class ReturnStatement final : public Statement {
public:
explicit ReturnStatement(SourceRange source_range, RefPtr<Expression const> argument)
: Statement(move(source_range))
, m_argument(move(argument))
{
}
Expression const* argument() const { return m_argument; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
RefPtr<Expression const> m_argument;
};
class IfStatement final : public Statement {
public:
IfStatement(SourceRange source_range, NonnullRefPtr<Expression const> predicate, NonnullRefPtr<Statement const> consequent, RefPtr<Statement const> alternate)
: Statement(move(source_range))
, m_predicate(move(predicate))
, m_consequent(move(consequent))
, m_alternate(move(alternate))
{
}
Expression const& predicate() const { return *m_predicate; }
Statement const& consequent() const { return *m_consequent; }
Statement const* alternate() const { return m_alternate; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_predicate;
NonnullRefPtr<Statement const> m_consequent;
RefPtr<Statement const> m_alternate;
};
class WhileStatement final : public IterationStatement {
public:
WhileStatement(SourceRange source_range, NonnullRefPtr<Expression const> test, NonnullRefPtr<Statement const> body)
: IterationStatement(move(source_range))
, m_test(move(test))
, m_body(move(body))
{
}
Expression const& test() const { return *m_test; }
Statement const& body() const { return *m_body; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_test;
NonnullRefPtr<Statement const> m_body;
};
class DoWhileStatement final : public IterationStatement {
public:
DoWhileStatement(SourceRange source_range, NonnullRefPtr<Expression const> test, NonnullRefPtr<Statement const> body)
: IterationStatement(move(source_range))
, m_test(move(test))
, m_body(move(body))
{
}
Expression const& test() const { return *m_test; }
Statement const& body() const { return *m_body; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_test;
NonnullRefPtr<Statement const> m_body;
};
class WithStatement final : public Statement {
public:
WithStatement(SourceRange source_range, NonnullRefPtr<Expression const> object, NonnullRefPtr<Statement const> body)
: Statement(move(source_range))
, m_object(move(object))
, m_body(move(body))
{
}
Expression const& object() const { return *m_object; }
Statement const& body() const { return *m_body; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_object;
NonnullRefPtr<Statement const> m_body;
};
class ForStatement final : public IterationStatement {
public:
ForStatement(SourceRange source_range, RefPtr<ASTNode const> init, RefPtr<Expression const> test, RefPtr<Expression const> update, NonnullRefPtr<Statement const> body)
: IterationStatement(move(source_range))
, m_init(move(init))
, m_test(move(test))
, m_update(move(update))
, m_body(move(body))
{
}
ASTNode const* init() const { return m_init; }
Expression const* test() const { return m_test; }
Expression const* update() const { return m_update; }
Statement const& body() const { return *m_body; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
RefPtr<ASTNode const> m_init;
RefPtr<Expression const> m_test;
RefPtr<Expression const> m_update;
NonnullRefPtr<Statement const> m_body;
};
class ForInStatement final : public IterationStatement {
public:
ForInStatement(SourceRange source_range, Variant<NonnullRefPtr<ASTNode const>, NonnullRefPtr<BindingPattern const>> lhs, NonnullRefPtr<Expression const> rhs, NonnullRefPtr<Statement const> body)
: IterationStatement(move(source_range))
, m_lhs(move(lhs))
, m_rhs(move(rhs))
, m_body(move(body))
{
}
auto const& lhs() const { return m_lhs; }
Expression const& rhs() const { return *m_rhs; }
Statement const& body() const { return *m_body; }
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual void dump(int indent) const override;
private:
Variant<NonnullRefPtr<ASTNode const>, NonnullRefPtr<BindingPattern const>> m_lhs;
NonnullRefPtr<Expression const> m_rhs;
NonnullRefPtr<Statement const> m_body;
};
class ForOfStatement final : public IterationStatement {
public:
ForOfStatement(SourceRange source_range, Variant<NonnullRefPtr<ASTNode const>, NonnullRefPtr<BindingPattern const>> lhs, NonnullRefPtr<Expression const> rhs, NonnullRefPtr<Statement const> body)
: IterationStatement(move(source_range))
, m_lhs(move(lhs))
, m_rhs(move(rhs))
, m_body(move(body))
{
}
auto const& lhs() const { return m_lhs; }
Expression const& rhs() const { return *m_rhs; }
Statement const& body() const { return *m_body; }
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual void dump(int indent) const override;
private:
Variant<NonnullRefPtr<ASTNode const>, NonnullRefPtr<BindingPattern const>> m_lhs;
NonnullRefPtr<Expression const> m_rhs;
NonnullRefPtr<Statement const> m_body;
};
class ForAwaitOfStatement final : public IterationStatement {
public:
ForAwaitOfStatement(SourceRange source_range, Variant<NonnullRefPtr<ASTNode const>, NonnullRefPtr<BindingPattern const>> lhs, NonnullRefPtr<Expression const> rhs, NonnullRefPtr<Statement const> body)
: IterationStatement(move(source_range))
, m_lhs(move(lhs))
, m_rhs(move(rhs))
, m_body(move(body))
{
}
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual void dump(int indent) const override;
private:
Variant<NonnullRefPtr<ASTNode const>, NonnullRefPtr<BindingPattern const>> m_lhs;
NonnullRefPtr<Expression const> m_rhs;
NonnullRefPtr<Statement const> m_body;
};
enum class BinaryOp {
Addition,
Subtraction,
Multiplication,
Division,
Modulo,
Exponentiation,
StrictlyEquals,
StrictlyInequals,
LooselyEquals,
LooselyInequals,
GreaterThan,
GreaterThanEquals,
LessThan,
LessThanEquals,
BitwiseAnd,
BitwiseOr,
BitwiseXor,
LeftShift,
RightShift,
UnsignedRightShift,
In,
InstanceOf,
};
class BinaryExpression final : public Expression {
public:
BinaryExpression(SourceRange source_range, BinaryOp op, NonnullRefPtr<Expression const> lhs, NonnullRefPtr<Expression const> rhs)
: Expression(move(source_range))
, m_op(op)
, m_lhs(move(lhs))
, m_rhs(move(rhs))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
BinaryOp m_op;
NonnullRefPtr<Expression const> m_lhs;
NonnullRefPtr<Expression const> m_rhs;
};
enum class LogicalOp {
And,
Or,
NullishCoalescing,
};
class LogicalExpression final : public Expression {
public:
LogicalExpression(SourceRange source_range, LogicalOp op, NonnullRefPtr<Expression const> lhs, NonnullRefPtr<Expression const> rhs)
: Expression(move(source_range))
, m_op(op)
, m_lhs(move(lhs))
, m_rhs(move(rhs))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
LogicalOp m_op;
NonnullRefPtr<Expression const> m_lhs;
NonnullRefPtr<Expression const> m_rhs;
};
enum class UnaryOp {
BitwiseNot,
Not,
Plus,
Minus,
Typeof,
Void,
Delete,
};
class UnaryExpression final : public Expression {
public:
UnaryExpression(SourceRange source_range, UnaryOp op, NonnullRefPtr<Expression const> lhs)
: Expression(move(source_range))
, m_op(op)
, m_lhs(move(lhs))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
UnaryOp m_op;
NonnullRefPtr<Expression const> m_lhs;
};
class SequenceExpression final : public Expression {
public:
SequenceExpression(SourceRange source_range, Vector<NonnullRefPtr<Expression const>> expressions)
: Expression(move(source_range))
, m_expressions(move(expressions))
{
VERIFY(m_expressions.size() >= 2);
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
Vector<NonnullRefPtr<Expression const>> m_expressions;
};
class PrimitiveLiteral : public Expression {
public:
virtual Value value() const = 0;
protected:
explicit PrimitiveLiteral(SourceRange source_range)
: Expression(move(source_range))
{
}
};
class BooleanLiteral final : public PrimitiveLiteral {
public:
explicit BooleanLiteral(SourceRange source_range, bool value)
: PrimitiveLiteral(move(source_range))
, m_value(value)
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Value value() const override { return Value(m_value); }
private:
bool m_value { false };
};
class NumericLiteral final : public PrimitiveLiteral {
public:
explicit NumericLiteral(SourceRange source_range, double value)
: PrimitiveLiteral(move(source_range))
, m_value(value)
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Value value() const override { return m_value; }
private:
virtual bool is_numeric_literal() const override { return true; }
Value m_value;
};
class BigIntLiteral final : public Expression {
public:
explicit BigIntLiteral(SourceRange source_range, ByteString value)
: Expression(move(source_range))
, m_value(move(value))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
ByteString m_value;
};
class StringLiteral final : public Expression {
public:
explicit StringLiteral(SourceRange source_range, ByteString value)
: Expression(move(source_range))
, m_value(move(value))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
ByteString const& value() const { return m_value; }
private:
virtual bool is_string_literal() const override { return true; }
ByteString m_value;
};
class NullLiteral final : public PrimitiveLiteral {
public:
explicit NullLiteral(SourceRange source_range)
: PrimitiveLiteral(move(source_range))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Value value() const override { return js_null(); }
};
class RegExpLiteral final : public Expression {
public:
RegExpLiteral(SourceRange source_range, regex::Parser::Result parsed_regex, ByteString parsed_pattern, regex::RegexOptions<ECMAScriptFlags> parsed_flags, ByteString pattern, ByteString flags)
: Expression(move(source_range))
, m_parsed_regex(move(parsed_regex))
, m_parsed_pattern(move(parsed_pattern))
, m_parsed_flags(parsed_flags)
, m_pattern(move(pattern))
, m_flags(move(flags))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
regex::Parser::Result const& parsed_regex() const { return m_parsed_regex; }
ByteString const& parsed_pattern() const { return m_parsed_pattern; }
regex::RegexOptions<ECMAScriptFlags> const& parsed_flags() const { return m_parsed_flags; }
ByteString const& pattern() const { return m_pattern; }
ByteString const& flags() const { return m_flags; }
private:
regex::Parser::Result m_parsed_regex;
ByteString m_parsed_pattern;
regex::RegexOptions<ECMAScriptFlags> m_parsed_flags;
ByteString m_pattern;
ByteString m_flags;
};
class PrivateIdentifier final : public Expression {
public:
explicit PrivateIdentifier(SourceRange source_range, DeprecatedFlyString string)
: Expression(move(source_range))
, m_string(move(string))
{
}
DeprecatedFlyString const& string() const { return m_string; }
virtual void dump(int indent) const override;
virtual bool is_private_identifier() const override { return true; }
private:
DeprecatedFlyString m_string;
};
class ClassElement : public ASTNode {
public:
ClassElement(SourceRange source_range, bool is_static)
: ASTNode(move(source_range))
, m_is_static(is_static)
{
}
enum class ElementKind {
Method,
Field,
StaticInitializer,
};
virtual ElementKind class_element_kind() const = 0;
bool is_static() const { return m_is_static; }
// We use the Completion also as a ClassStaticBlockDefinition Record.
using ClassValue = Variant<ClassFieldDefinition, Completion, PrivateElement>;
virtual ThrowCompletionOr<ClassValue> class_element_evaluation(VM&, Object& home_object, Value) const = 0;
virtual Optional<DeprecatedFlyString> private_bound_identifier() const { return {}; }
private:
bool m_is_static { false };
};
class ClassMethod final : public ClassElement {
public:
enum class Kind {
Method,
Getter,
Setter,
};
ClassMethod(SourceRange source_range, NonnullRefPtr<Expression const> key, NonnullRefPtr<FunctionExpression const> function, Kind kind, bool is_static)
: ClassElement(move(source_range), is_static)
, m_key(move(key))
, m_function(move(function))
, m_kind(kind)
{
}
Expression const& key() const { return *m_key; }
Kind kind() const { return m_kind; }
virtual ElementKind class_element_kind() const override { return ElementKind::Method; }
virtual void dump(int indent) const override;
virtual ThrowCompletionOr<ClassValue> class_element_evaluation(VM&, Object& home_object, Value property_key) const override;
virtual Optional<DeprecatedFlyString> private_bound_identifier() const override;
private:
virtual bool is_class_method() const override { return true; }
NonnullRefPtr<Expression const> m_key;
NonnullRefPtr<FunctionExpression const> m_function;
Kind m_kind;
};
class ClassField final : public ClassElement {
public:
ClassField(SourceRange source_range, NonnullRefPtr<Expression const> key, RefPtr<Expression const> init, bool contains_direct_call_to_eval, bool is_static)
: ClassElement(move(source_range), is_static)
, m_key(move(key))
, m_initializer(move(init))
, m_contains_direct_call_to_eval(contains_direct_call_to_eval)
{
}
Expression const& key() const { return *m_key; }
RefPtr<Expression const> const& initializer() const { return m_initializer; }
RefPtr<Expression const>& initializer() { return m_initializer; }
virtual ElementKind class_element_kind() const override { return ElementKind::Field; }
virtual void dump(int indent) const override;
virtual ThrowCompletionOr<ClassValue> class_element_evaluation(VM&, Object& home_object, Value property_key) const override;
virtual Optional<DeprecatedFlyString> private_bound_identifier() const override;
private:
NonnullRefPtr<Expression const> m_key;
RefPtr<Expression const> m_initializer;
bool m_contains_direct_call_to_eval { false };
};
class StaticInitializer final : public ClassElement {
public:
StaticInitializer(SourceRange source_range, NonnullRefPtr<FunctionBody> function_body, bool contains_direct_call_to_eval)
: ClassElement(move(source_range), true)
, m_function_body(move(function_body))
, m_contains_direct_call_to_eval(contains_direct_call_to_eval)
{
}
virtual ElementKind class_element_kind() const override { return ElementKind::StaticInitializer; }
virtual ThrowCompletionOr<ClassValue> class_element_evaluation(VM&, Object& home_object, Value property_key) const override;
virtual void dump(int indent) const override;
private:
NonnullRefPtr<FunctionBody> m_function_body;
bool m_contains_direct_call_to_eval { false };
};
class SuperExpression final : public Expression {
public:
explicit SuperExpression(SourceRange source_range)
: Expression(move(source_range))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual bool is_super_expression() const override { return true; }
};
class ClassExpression final : public Expression {
public:
ClassExpression(SourceRange source_range, RefPtr<Identifier const> name, ByteString source_text, RefPtr<FunctionExpression const> constructor, RefPtr<Expression const> super_class, Vector<NonnullRefPtr<ClassElement const>> elements)
: Expression(move(source_range))
, m_name(move(name))
, m_source_text(move(source_text))
, m_constructor(move(constructor))
, m_super_class(move(super_class))
, m_elements(move(elements))
{
}
StringView name() const { return m_name ? m_name->string().view() : ""sv; }
ByteString const& source_text() const { return m_source_text; }
RefPtr<FunctionExpression const> constructor() const { return m_constructor; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode_with_lhs_name(Bytecode::Generator&, Optional<Bytecode::IdentifierTableIndex> lhs_name, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const;
bool has_name() const { return m_name; }
ThrowCompletionOr<ECMAScriptFunctionObject*> create_class_constructor(VM&, Environment* class_environment, Environment* environment, Value super_class, ReadonlySpan<Value> element_keys, Optional<DeprecatedFlyString> const& binding_name = {}, DeprecatedFlyString const& class_name = {}) const;
private:
virtual bool is_class_expression() const override { return true; }
friend ClassDeclaration;
RefPtr<Identifier const> m_name;
ByteString m_source_text;
RefPtr<FunctionExpression const> m_constructor;
RefPtr<Expression const> m_super_class;
Vector<NonnullRefPtr<ClassElement const>> m_elements;
};
class ClassDeclaration final : public Declaration {
public:
ClassDeclaration(SourceRange source_range, NonnullRefPtr<ClassExpression const> class_expression)
: Declaration(move(source_range))
, m_class_expression(move(class_expression))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&&) const override;
virtual bool is_lexical_declaration() const override { return true; }
StringView name() const { return m_class_expression->name(); }
private:
virtual bool is_class_declaration() const override { return true; }
friend ExportStatement;
NonnullRefPtr<ClassExpression const> m_class_expression;
};
// We use this class to mimic Initializer : = AssignmentExpression of
// 10.2.1.3 Runtime Semantics: EvaluateBody, https://tc39.es/ecma262/#sec-runtime-semantics-evaluatebody
class ClassFieldInitializerStatement final : public Statement {
public:
ClassFieldInitializerStatement(SourceRange source_range, NonnullRefPtr<Expression const> expression, DeprecatedFlyString field_name)
: Statement(move(source_range))
, m_expression(move(expression))
, m_class_field_identifier_name(move(field_name))
{
}
virtual void dump(int) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_expression;
DeprecatedFlyString m_class_field_identifier_name; // [[ClassFieldIdentifierName]]
};
class SpreadExpression final : public Expression {
public:
explicit SpreadExpression(SourceRange source_range, NonnullRefPtr<Expression const> target)
: Expression(move(source_range))
, m_target(move(target))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_target;
};
class ThisExpression final : public Expression {
public:
explicit ThisExpression(SourceRange source_range)
: Expression(move(source_range))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
};
struct CallExpressionArgument {
NonnullRefPtr<Expression const> value;
bool is_spread;
};
enum InvocationStyleEnum {
Parenthesized,
NotParenthesized,
};
enum InsideParenthesesEnum {
InsideParentheses,
NotInsideParentheses,
};
class CallExpression : public ASTNodeWithTailArray<CallExpression, Expression, CallExpressionArgument> {
friend class ASTNodeWithTailArray;
InvocationStyleEnum m_invocation_style;
InsideParenthesesEnum m_inside_parentheses;
public:
using Argument = CallExpressionArgument;
static NonnullRefPtr<CallExpression> create(SourceRange, NonnullRefPtr<Expression const> callee, ReadonlySpan<Argument> arguments, InvocationStyleEnum invocation_style, InsideParenthesesEnum inside_parens);
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
Expression const& callee() const { return m_callee; }
ReadonlySpan<Argument> arguments() const { return tail_span(); }
bool is_parenthesized() const { return m_invocation_style == InvocationStyleEnum::Parenthesized; }
bool is_inside_parens() const { return m_inside_parentheses == InsideParenthesesEnum::InsideParentheses; }
void set_inside_parens() { m_inside_parentheses = InsideParenthesesEnum::InsideParentheses; }
protected:
CallExpression(SourceRange source_range, NonnullRefPtr<Expression const> callee, ReadonlySpan<Argument> arguments, InvocationStyleEnum invocation_style, InsideParenthesesEnum inside_parens = InsideParenthesesEnum::NotInsideParentheses)
: ASTNodeWithTailArray(move(source_range), arguments)
, m_invocation_style(invocation_style)
, m_inside_parentheses(inside_parens)
, m_callee(move(callee))
{
}
virtual bool is_call_expression() const override { return true; }
Optional<ByteString> expression_string() const;
NonnullRefPtr<Expression const> m_callee;
};
class NewExpression final : public CallExpression {
friend class ASTNodeWithTailArray;
public:
static NonnullRefPtr<NewExpression> create(SourceRange, NonnullRefPtr<Expression const> callee, ReadonlySpan<Argument> arguments, InvocationStyleEnum invocation_style, InsideParenthesesEnum inside_parens);
virtual bool is_new_expression() const override { return true; }
private:
NewExpression(SourceRange source_range, NonnullRefPtr<Expression const> callee, ReadonlySpan<Argument> arguments, InvocationStyleEnum invocation_style, InsideParenthesesEnum inside_parens)
: CallExpression(move(source_range), move(callee), arguments, invocation_style, inside_parens)
{
}
};
static_assert(sizeof(NewExpression) == sizeof(CallExpression), "Adding members to NewExpression will break CallExpression memory layout");
class SuperCall final : public Expression {
public:
// This is here to be able to make a constructor like
// constructor(...args) { super(...args); } which does not use @@iterator of %Array.prototype%.
enum class IsPartOfSyntheticConstructor {
No,
Yes,
};
SuperCall(SourceRange source_range, Vector<CallExpression::Argument> arguments)
: Expression(move(source_range))
, m_arguments(move(arguments))
, m_is_synthetic(IsPartOfSyntheticConstructor::No)
{
}
SuperCall(SourceRange source_range, IsPartOfSyntheticConstructor is_part_of_synthetic_constructor, CallExpression::Argument constructor_argument)
: Expression(move(source_range))
, m_arguments({ move(constructor_argument) })
, m_is_synthetic(IsPartOfSyntheticConstructor::Yes)
{
VERIFY(is_part_of_synthetic_constructor == IsPartOfSyntheticConstructor::Yes);
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
Vector<CallExpression::Argument> const m_arguments;
IsPartOfSyntheticConstructor const m_is_synthetic;
};
enum class AssignmentOp {
Assignment,
AdditionAssignment,
SubtractionAssignment,
MultiplicationAssignment,
DivisionAssignment,
ModuloAssignment,
ExponentiationAssignment,
BitwiseAndAssignment,
BitwiseOrAssignment,
BitwiseXorAssignment,
LeftShiftAssignment,
RightShiftAssignment,
UnsignedRightShiftAssignment,
AndAssignment,
OrAssignment,
NullishAssignment,
};
class AssignmentExpression final : public Expression {
public:
AssignmentExpression(SourceRange source_range, AssignmentOp op, NonnullRefPtr<Expression const> lhs, NonnullRefPtr<Expression const> rhs)
: Expression(move(source_range))
, m_op(op)
, m_lhs(move(lhs))
, m_rhs(move(rhs))
{
}
AssignmentExpression(SourceRange source_range, AssignmentOp op, NonnullRefPtr<BindingPattern const> lhs, NonnullRefPtr<Expression const> rhs)
: Expression(move(source_range))
, m_op(op)
, m_lhs(move(lhs))
, m_rhs(move(rhs))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
AssignmentOp m_op;
Variant<NonnullRefPtr<Expression const>, NonnullRefPtr<BindingPattern const>> m_lhs;
NonnullRefPtr<Expression const> m_rhs;
};
enum class UpdateOp {
Increment,
Decrement,
};
class UpdateExpression final : public Expression {
public:
UpdateExpression(SourceRange source_range, UpdateOp op, NonnullRefPtr<Expression const> argument, bool prefixed = false)
: Expression(move(source_range))
, m_op(op)
, m_argument(move(argument))
, m_prefixed(prefixed)
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
virtual bool is_update_expression() const override { return true; }
UpdateOp m_op;
NonnullRefPtr<Expression const> m_argument;
bool m_prefixed;
};
enum class DeclarationKind {
Var,
Let,
Const,
};
class VariableDeclarator final : public ASTNode {
public:
VariableDeclarator(SourceRange source_range, NonnullRefPtr<Identifier const> id)
: ASTNode(move(source_range))
, m_target(move(id))
{
}
VariableDeclarator(SourceRange source_range, NonnullRefPtr<Identifier const> target, RefPtr<Expression const> init)
: ASTNode(move(source_range))
, m_target(move(target))
, m_init(move(init))
{
}
VariableDeclarator(SourceRange source_range, Variant<NonnullRefPtr<Identifier const>, NonnullRefPtr<BindingPattern const>> target, RefPtr<Expression const> init)
: ASTNode(move(source_range))
, m_target(move(target))
, m_init(move(init))
{
}
auto& target() const { return m_target; }
Expression const* init() const { return m_init; }
virtual void dump(int indent) const override;
private:
Variant<NonnullRefPtr<Identifier const>, NonnullRefPtr<BindingPattern const>> m_target;
RefPtr<Expression const> m_init;
};
class VariableDeclaration final : public Declaration {
public:
VariableDeclaration(SourceRange source_range, DeclarationKind declaration_kind, Vector<NonnullRefPtr<VariableDeclarator const>> declarations)
: Declaration(move(source_range))
, m_declaration_kind(declaration_kind)
, m_declarations(move(declarations))
{
}
DeclarationKind declaration_kind() const { return m_declaration_kind; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
Vector<NonnullRefPtr<VariableDeclarator const>> const& declarations() const { return m_declarations; }
ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&&) const override;
virtual bool is_constant_declaration() const override { return m_declaration_kind == DeclarationKind::Const; }
virtual bool is_lexical_declaration() const override { return m_declaration_kind != DeclarationKind::Var; }
private:
virtual bool is_variable_declaration() const override { return true; }
DeclarationKind m_declaration_kind;
Vector<NonnullRefPtr<VariableDeclarator const>> m_declarations;
};
class UsingDeclaration final : public Declaration {
public:
UsingDeclaration(SourceRange source_range, Vector<NonnullRefPtr<VariableDeclarator const>> declarations)
: Declaration(move(source_range))
, m_declarations(move(declarations))
{
}
virtual void dump(int indent) const override;
ThrowCompletionOr<void> for_each_bound_identifier(ThrowCompletionOrVoidCallback<Identifier const&>&&) const override;
virtual bool is_constant_declaration() const override { return true; }
virtual bool is_lexical_declaration() const override { return true; }
Vector<NonnullRefPtr<VariableDeclarator const>> const& declarations() const { return m_declarations; }
private:
Vector<NonnullRefPtr<VariableDeclarator const>> m_declarations;
};
class ObjectProperty final : public ASTNode {
public:
enum class Type : u8 {
KeyValue,
Getter,
Setter,
Spread,
ProtoSetter,
};
ObjectProperty(SourceRange source_range, NonnullRefPtr<Expression const> key, RefPtr<Expression const> value, Type property_type, bool is_method)
: ASTNode(move(source_range))
, m_property_type(property_type)
, m_is_method(is_method)
, m_key(move(key))
, m_value(move(value))
{
}
Expression const& key() const { return m_key; }
Expression const& value() const
{
VERIFY(m_value);
return *m_value;
}
Type type() const { return m_property_type; }
bool is_method() const { return m_is_method; }
virtual void dump(int indent) const override;
private:
Type m_property_type;
bool m_is_method { false };
NonnullRefPtr<Expression const> m_key;
RefPtr<Expression const> m_value;
};
class ObjectExpression final : public Expression {
public:
explicit ObjectExpression(SourceRange source_range, Vector<NonnullRefPtr<ObjectProperty>> properties = {})
: Expression(move(source_range))
, m_properties(move(properties))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
virtual bool is_object_expression() const override { return true; }
Vector<NonnullRefPtr<ObjectProperty>> m_properties;
};
class ArrayExpression final : public Expression {
public:
ArrayExpression(SourceRange source_range, Vector<RefPtr<Expression const>> elements)
: Expression(move(source_range))
, m_elements(move(elements))
{
}
Vector<RefPtr<Expression const>> const& elements() const { return m_elements; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
virtual bool is_array_expression() const override { return true; }
Vector<RefPtr<Expression const>> m_elements;
};
class TemplateLiteral final : public Expression {
public:
TemplateLiteral(SourceRange source_range, Vector<NonnullRefPtr<Expression const>> expressions)
: Expression(move(source_range))
, m_expressions(move(expressions))
{
}
TemplateLiteral(SourceRange source_range, Vector<NonnullRefPtr<Expression const>> expressions, Vector<NonnullRefPtr<Expression const>> raw_strings)
: Expression(move(source_range))
, m_expressions(move(expressions))
, m_raw_strings(move(raw_strings))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
Vector<NonnullRefPtr<Expression const>> const& expressions() const { return m_expressions; }
Vector<NonnullRefPtr<Expression const>> const& raw_strings() const { return m_raw_strings; }
private:
Vector<NonnullRefPtr<Expression const>> const m_expressions;
Vector<NonnullRefPtr<Expression const>> const m_raw_strings;
};
class TaggedTemplateLiteral final : public Expression {
public:
TaggedTemplateLiteral(SourceRange source_range, NonnullRefPtr<Expression const> tag, NonnullRefPtr<TemplateLiteral const> template_literal)
: Expression(move(source_range))
, m_tag(move(tag))
, m_template_literal(move(template_literal))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> const m_tag;
NonnullRefPtr<TemplateLiteral const> const m_template_literal;
};
class MemberExpression final : public Expression {
public:
MemberExpression(SourceRange source_range, NonnullRefPtr<Expression const> object, NonnullRefPtr<Expression const> property, bool computed = false)
: Expression(move(source_range))
, m_computed(computed)
, m_object(move(object))
, m_property(move(property))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
bool is_computed() const { return m_computed; }
Expression const& object() const { return *m_object; }
Expression const& property() const { return *m_property; }
ByteString to_string_approximation() const;
bool ends_in_private_name() const;
private:
virtual bool is_member_expression() const override { return true; }
bool m_computed { false };
NonnullRefPtr<Expression const> m_object;
NonnullRefPtr<Expression const> m_property;
};
class OptionalChain final : public Expression {
public:
enum class Mode {
Optional,
NotOptional,
};
struct Call {
Vector<CallExpression::Argument> arguments;
Mode mode;
};
struct ComputedReference {
NonnullRefPtr<Expression const> expression;
Mode mode;
};
struct MemberReference {
NonnullRefPtr<Identifier const> identifier;
Mode mode;
};
struct PrivateMemberReference {
NonnullRefPtr<PrivateIdentifier const> private_identifier;
Mode mode;
};
using Reference = Variant<Call, ComputedReference, MemberReference, PrivateMemberReference>;
OptionalChain(SourceRange source_range, NonnullRefPtr<Expression const> base, Vector<Reference> references)
: Expression(move(source_range))
, m_base(move(base))
, m_references(move(references))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
Expression const& base() const { return *m_base; }
Vector<Reference> const& references() const { return m_references; }
private:
NonnullRefPtr<Expression const> m_base;
Vector<Reference> m_references;
};
class MetaProperty final : public Expression {
public:
enum class Type {
NewTarget,
ImportMeta,
};
MetaProperty(SourceRange source_range, Type type)
: Expression(move(source_range))
, m_type(type)
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
Type m_type;
};
class ImportCall final : public Expression {
public:
ImportCall(SourceRange source_range, NonnullRefPtr<Expression const> specifier, RefPtr<Expression const> options)
: Expression(move(source_range))
, m_specifier(move(specifier))
, m_options(move(options))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
virtual bool is_import_call() const override { return true; }
NonnullRefPtr<Expression const> m_specifier;
RefPtr<Expression const> m_options;
};
class ConditionalExpression final : public Expression {
public:
ConditionalExpression(SourceRange source_range, NonnullRefPtr<Expression const> test, NonnullRefPtr<Expression const> consequent, NonnullRefPtr<Expression const> alternate)
: Expression(move(source_range))
, m_test(move(test))
, m_consequent(move(consequent))
, m_alternate(move(alternate))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_test;
NonnullRefPtr<Expression const> m_consequent;
NonnullRefPtr<Expression const> m_alternate;
};
class CatchClause final : public ASTNode {
public:
CatchClause(SourceRange source_range, DeprecatedFlyString parameter, NonnullRefPtr<BlockStatement const> body)
: ASTNode(move(source_range))
, m_parameter(move(parameter))
, m_body(move(body))
{
}
CatchClause(SourceRange source_range, NonnullRefPtr<BindingPattern const> parameter, NonnullRefPtr<BlockStatement const> body)
: ASTNode(move(source_range))
, m_parameter(move(parameter))
, m_body(move(body))
{
}
auto& parameter() const { return m_parameter; }
BlockStatement const& body() const { return m_body; }
virtual void dump(int indent) const override;
private:
Variant<DeprecatedFlyString, NonnullRefPtr<BindingPattern const>> m_parameter;
NonnullRefPtr<BlockStatement const> m_body;
};
class TryStatement final : public Statement {
public:
TryStatement(SourceRange source_range, NonnullRefPtr<BlockStatement const> block, RefPtr<CatchClause const> handler, RefPtr<BlockStatement const> finalizer)
: Statement(move(source_range))
, m_block(move(block))
, m_handler(move(handler))
, m_finalizer(move(finalizer))
{
}
BlockStatement const& block() const { return m_block; }
CatchClause const* handler() const { return m_handler; }
BlockStatement const* finalizer() const { return m_finalizer; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<BlockStatement const> m_block;
RefPtr<CatchClause const> m_handler;
RefPtr<BlockStatement const> m_finalizer;
};
class ThrowStatement final : public Statement {
public:
explicit ThrowStatement(SourceRange source_range, NonnullRefPtr<Expression const> argument)
: Statement(move(source_range))
, m_argument(move(argument))
{
}
Expression const& argument() const { return m_argument; }
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
NonnullRefPtr<Expression const> m_argument;
};
class SwitchCase final : public ScopeNode {
public:
SwitchCase(SourceRange source_range, RefPtr<Expression const> test)
: ScopeNode(move(source_range))
, m_test(move(test))
{
}
Expression const* test() const { return m_test; }
virtual void dump(int indent) const override;
private:
RefPtr<Expression const> m_test;
};
class SwitchStatement final : public ScopeNode {
public:
SwitchStatement(SourceRange source_range, NonnullRefPtr<Expression const> discriminant)
: ScopeNode(move(source_range))
, m_discriminant(move(discriminant))
{
}
virtual void dump(int indent) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_labelled_evaluation(Bytecode::Generator&, Vector<DeprecatedFlyString> const&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const;
void add_case(NonnullRefPtr<SwitchCase const> switch_case) { m_cases.append(move(switch_case)); }
private:
NonnullRefPtr<Expression const> m_discriminant;
Vector<NonnullRefPtr<SwitchCase const>> m_cases;
};
class BreakStatement final : public Statement {
public:
BreakStatement(SourceRange source_range, Optional<DeprecatedFlyString> target_label)
: Statement(move(source_range))
, m_target_label(move(target_label))
{
}
Optional<DeprecatedFlyString> const& target_label() const { return m_target_label; }
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
private:
Optional<DeprecatedFlyString> m_target_label;
};
class ContinueStatement final : public Statement {
public:
ContinueStatement(SourceRange source_range, Optional<DeprecatedFlyString> target_label)
: Statement(move(source_range))
, m_target_label(move(target_label))
{
}
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
Optional<DeprecatedFlyString> const& target_label() const { return m_target_label; }
private:
Optional<DeprecatedFlyString> m_target_label;
};
class DebuggerStatement final : public Statement {
public:
explicit DebuggerStatement(SourceRange source_range)
: Statement(move(source_range))
{
}
virtual Bytecode::CodeGenerationErrorOr<Optional<Bytecode::ScopedOperand>> generate_bytecode(Bytecode::Generator&, Optional<Bytecode::ScopedOperand> preferred_dst = {}) const override;
};
class SyntheticReferenceExpression final : public Expression {
public:
explicit SyntheticReferenceExpression(SourceRange source_range, Reference reference, Value value)
: Expression(move(source_range))
, m_reference(move(reference))
, m_value(value)
{
}
private:
Reference m_reference;
Value m_value;
};
template<>
inline bool ASTNode::fast_is<NewExpression>() const { return is_new_expression(); }
template<>
inline bool ASTNode::fast_is<MemberExpression>() const { return is_member_expression(); }
template<>
inline bool ASTNode::fast_is<SuperExpression>() const { return is_super_expression(); }
template<>
inline bool ASTNode::fast_is<FunctionExpression>() const { return is_function_expression(); }
template<>
inline bool ASTNode::fast_is<ClassExpression>() const { return is_class_expression(); }
template<>
inline bool ASTNode::fast_is<Identifier>() const { return is_identifier(); }
template<>
inline bool ASTNode::fast_is<PrivateIdentifier>() const { return is_private_identifier(); }
template<>
inline bool ASTNode::fast_is<ExpressionStatement>() const { return is_expression_statement(); }
template<>
inline bool ASTNode::fast_is<ScopeNode>() const { return is_scope_node(); }
template<>
inline bool ASTNode::fast_is<Program>() const { return is_program(); }
template<>
inline bool ASTNode::fast_is<ClassDeclaration>() const { return is_class_declaration(); }
template<>
inline bool ASTNode::fast_is<FunctionDeclaration>() const { return is_function_declaration(); }
template<>
inline bool ASTNode::fast_is<VariableDeclaration>() const { return is_variable_declaration(); }
template<>
inline bool ASTNode::fast_is<ArrayExpression>() const { return is_array_expression(); }
template<>
inline bool ASTNode::fast_is<ObjectExpression>() const { return is_object_expression(); }
template<>
inline bool ASTNode::fast_is<ImportCall>() const { return is_import_call(); }
template<>
inline bool ASTNode::fast_is<StringLiteral>() const { return is_string_literal(); }
template<>
inline bool ASTNode::fast_is<UpdateExpression>() const { return is_update_expression(); }
template<>
inline bool ASTNode::fast_is<CallExpression>() const { return is_call_expression(); }
template<>
inline bool ASTNode::fast_is<LabelledStatement>() const { return is_labelled_statement(); }
template<>
inline bool ASTNode::fast_is<IterationStatement>() const { return is_iteration_statement(); }
template<>
inline bool ASTNode::fast_is<ClassMethod>() const { return is_class_method(); }
}