/* * Copyright (c) 2021, Itamar S. * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include namespace Cpp { class ASTNode; class TranslationUnit; class Declaration; class FunctionDefinition; class Type; class Parameter; class Statement; class Name; class ASTNode : public RefCounted { public: virtual ~ASTNode() = default; virtual const char* class_name() const = 0; virtual void dump(FILE* = stdout, size_t indent = 0) const; template bool fast_is() const = delete; ASTNode* parent() const { return m_parent; } Position start() const { VERIFY(m_start.has_value()); return m_start.value(); } Position end() const { VERIFY(m_end.has_value()); return m_end.value(); } const FlyString& filename() const { return m_filename; } void set_end(const Position& end) { m_end = end; } void set_parent(ASTNode& parent) { m_parent = &parent; } virtual NonnullRefPtrVector declarations() const { return {}; } virtual bool is_identifier() const { return false; } virtual bool is_member_expression() const { return false; } virtual bool is_variable_or_parameter_declaration() const { return false; } virtual bool is_function_call() const { return false; } virtual bool is_type() const { return false; } virtual bool is_declaration() const { return false; } virtual bool is_name() const { return false; } virtual bool is_dummy_node() const { return false; } protected: ASTNode(ASTNode* parent, Optional start, Optional end, const String& filename) : m_parent(parent) , m_start(start) , m_end(end) , m_filename(filename) { } private: ASTNode* m_parent { nullptr }; Optional m_start; Optional m_end; FlyString m_filename; }; class TranslationUnit : public ASTNode { public: virtual ~TranslationUnit() override = default; virtual const char* class_name() const override { return "TranslationUnit"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual NonnullRefPtrVector declarations() const override { return m_declarations; } TranslationUnit(ASTNode* parent, Optional start, Optional end, const String& filename) : ASTNode(parent, start, end, filename) { } void set_declarations(NonnullRefPtrVector&& declarations) { m_declarations = move(declarations); } private: NonnullRefPtrVector m_declarations; }; class Statement : public ASTNode { public: virtual ~Statement() override = default; virtual const char* class_name() const override { return "Statement"; } virtual NonnullRefPtrVector declarations() const override; protected: Statement(ASTNode* parent, Optional start, Optional end, const String& filename) : ASTNode(parent, start, end, filename) { } }; class Declaration : public Statement { public: virtual bool is_declaration() const override { return true; } virtual bool is_variable_declaration() const { return false; } virtual bool is_parameter() const { return false; } virtual bool is_struct_or_class() const { return false; } virtual bool is_struct() const { return false; } virtual bool is_class() const { return false; } virtual bool is_function() const { return false; } virtual bool is_namespace() const { return false; } virtual bool is_member() const { return false; } const StringView& name() const { return m_name; } void set_name(const StringView& name) { m_name = move(name); } protected: Declaration(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } StringView m_name; }; class InvalidDeclaration : public Declaration { public: virtual ~InvalidDeclaration() override = default; virtual const char* class_name() const override { return "InvalidDeclaration"; } InvalidDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename) : Declaration(parent, start, end, filename) { } }; class FunctionDeclaration : public Declaration { public: virtual ~FunctionDeclaration() override = default; virtual const char* class_name() const override { return "FunctionDeclaration"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_function() const override { return true; } virtual bool is_constructor() const { return false; } virtual bool is_destructor() const { return false; } RefPtr definition() { return m_definition; } FunctionDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename) : Declaration(parent, start, end, filename) { } virtual NonnullRefPtrVector declarations() const override; const Vector& qualifiers() const { return m_qualifiers; } void set_qualifiers(const Vector& qualifiers) { m_qualifiers = qualifiers; } const Type* return_type() const { return m_return_type.ptr(); } void set_return_type(const RefPtr& return_type) { m_return_type = return_type; } const NonnullRefPtrVector& parameters() const { return m_parameters; } void set_parameters(const NonnullRefPtrVector& parameters) { m_parameters = parameters; } const FunctionDefinition* definition() const { return m_definition.ptr(); } void set_definition(RefPtr&& definition) { m_definition = move(definition); } private: Vector m_qualifiers; RefPtr m_return_type; NonnullRefPtrVector m_parameters; RefPtr m_definition; }; class VariableOrParameterDeclaration : public Declaration { public: virtual ~VariableOrParameterDeclaration() override = default; virtual bool is_variable_or_parameter_declaration() const override { return true; } void set_type(RefPtr&& type) { m_type = move(type); } const Type* type() const { return m_type.ptr(); } protected: VariableOrParameterDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename) : Declaration(parent, start, end, filename) { } RefPtr m_type; }; class Parameter : public VariableOrParameterDeclaration { public: virtual ~Parameter() override = default; virtual const char* class_name() const override { return "Parameter"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_parameter() const override { return true; } Parameter(ASTNode* parent, Optional start, Optional end, const String& filename, StringView name) : VariableOrParameterDeclaration(parent, start, end, filename) { m_name = name; } bool is_ellipsis() const { return m_is_ellipsis; } void set_ellipsis(bool is_ellipsis) { m_is_ellipsis = is_ellipsis; } private: bool m_is_ellipsis { false }; }; class Type : public ASTNode { public: virtual ~Type() override = default; virtual const char* class_name() const override { return "Type"; } virtual bool is_type() const override { return true; } virtual bool is_templatized() const { return false; } virtual bool is_named_type() const { return false; } virtual String to_string() const = 0; virtual void dump(FILE* = stdout, size_t indent = 0) const override; bool is_auto() const { return m_is_auto; } void set_auto(bool is_auto) { m_is_auto = is_auto; } Vector const& qualifiers() const { return m_qualifiers; } void set_qualifiers(Vector&& qualifiers) { m_qualifiers = move(qualifiers); } protected: Type(ASTNode* parent, Optional start, Optional end, const String& filename) : ASTNode(parent, start, end, filename) { } private: bool m_is_auto { false }; Vector m_qualifiers; }; class NamedType : public Type { public: virtual ~NamedType() override = default; virtual const char* class_name() const override { return "NamedType"; } virtual String to_string() const override; virtual bool is_named_type() const override { return true; } NamedType(ASTNode* parent, Optional start, Optional end, const String& filename) : Type(parent, start, end, filename) { } const Name* name() const { return m_name.ptr(); } void set_name(RefPtr&& name) { m_name = move(name); } private: RefPtr m_name; }; class Pointer : public Type { public: virtual ~Pointer() override = default; virtual const char* class_name() const override { return "Pointer"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual String to_string() const override; Pointer(ASTNode* parent, Optional start, Optional end, const String& filename) : Type(parent, start, end, filename) { } const Type* pointee() const { return m_pointee.ptr(); } void set_pointee(RefPtr&& pointee) { m_pointee = move(pointee); } private: RefPtr m_pointee; }; class Reference : public Type { public: virtual ~Reference() override = default; virtual const char* class_name() const override { return "Reference"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual String to_string() const override; enum class Kind { Lvalue, Rvalue, }; Reference(ASTNode* parent, Optional start, Optional end, const String& filename, Kind kind) : Type(parent, start, end, filename) , m_kind(kind) { } const Type* referenced_type() const { return m_referenced_type.ptr(); } void set_referenced_type(RefPtr&& pointee) { m_referenced_type = move(pointee); } Kind kind() const { return m_kind; } private: RefPtr m_referenced_type; Kind m_kind; }; class FunctionType : public Type { public: virtual ~FunctionType() override = default; virtual const char* class_name() const override { return "FunctionType"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual String to_string() const override; FunctionType(ASTNode* parent, Optional start, Optional end, const String& filename) : Type(parent, start, end, filename) { } void set_return_type(Type& type) { m_return_type = type; } void set_parameters(NonnullRefPtrVector parameters) { m_parameters = move(parameters); } private: RefPtr m_return_type; NonnullRefPtrVector m_parameters; }; class FunctionDefinition : public ASTNode { public: virtual ~FunctionDefinition() override = default; virtual const char* class_name() const override { return "FunctionDefinition"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; FunctionDefinition(ASTNode* parent, Optional start, Optional end, const String& filename) : ASTNode(parent, start, end, filename) { } virtual NonnullRefPtrVector declarations() const override; NonnullRefPtrVector const& statements() { return m_statements; } void add_statement(NonnullRefPtr&& statement) { m_statements.append(move(statement)); } private: NonnullRefPtrVector m_statements; }; class InvalidStatement : public Statement { public: virtual ~InvalidStatement() override = default; virtual const char* class_name() const override { return "InvalidStatement"; } InvalidStatement(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } }; class Expression : public Statement { public: virtual ~Expression() override = default; virtual const char* class_name() const override { return "Expression"; } protected: Expression(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } }; class InvalidExpression : public Expression { public: virtual ~InvalidExpression() override = default; virtual const char* class_name() const override { return "InvalidExpression"; } InvalidExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } }; class VariableDeclaration : public VariableOrParameterDeclaration { public: virtual ~VariableDeclaration() override = default; virtual const char* class_name() const override { return "VariableDeclaration"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; VariableDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename) : VariableOrParameterDeclaration(parent, start, end, filename) { } virtual bool is_variable_declaration() const override { return true; } const Expression* initial_value() const { return m_initial_value; } void set_initial_value(RefPtr&& initial_value) { m_initial_value = move(initial_value); } private: RefPtr m_initial_value; }; class Identifier : public Expression { public: virtual ~Identifier() override = default; virtual const char* class_name() const override { return "Identifier"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; Identifier(ASTNode* parent, Optional start, Optional end, const String& filename, StringView name) : Expression(parent, start, end, filename) , m_name(name) { } Identifier(ASTNode* parent, Optional start, Optional end, const String& filename) : Identifier(parent, start, end, filename, {}) { } virtual bool is_identifier() const override { return true; } StringView const& name() const { return m_name; } void set_name(StringView&& name) { m_name = move(name); } private: StringView m_name; }; class Name : public Expression { public: virtual ~Name() override = default; virtual const char* class_name() const override { return "Name"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_name() const override { return true; } virtual bool is_templatized() const { return false; } Name(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual String full_name() const; const Identifier* name() const { return m_name.ptr(); } void set_name(RefPtr&& name) { m_name = move(name); } NonnullRefPtrVector const& scope() const { return m_scope; } void set_scope(NonnullRefPtrVector scope) { m_scope = move(scope); } void add_to_scope(NonnullRefPtr&& part) { m_scope.append(move(part)); } private: RefPtr m_name; NonnullRefPtrVector m_scope; }; class TemplatizedName : public Name { public: virtual ~TemplatizedName() override = default; virtual const char* class_name() const override { return "TemplatizedName"; } virtual bool is_templatized() const override { return true; } virtual String full_name() const override; TemplatizedName(ASTNode* parent, Optional start, Optional end, const String& filename) : Name(parent, start, end, filename) { } void add_template_argument(NonnullRefPtr&& type) { m_template_arguments.append(move(type)); } private: NonnullRefPtrVector m_template_arguments; }; class NumericLiteral : public Expression { public: virtual ~NumericLiteral() override = default; virtual const char* class_name() const override { return "NumericLiteral"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; NumericLiteral(ASTNode* parent, Optional start, Optional end, const String& filename, StringView value) : Expression(parent, start, end, filename) , m_value(value) { } private: StringView m_value; }; class NullPointerLiteral : public Expression { public: virtual ~NullPointerLiteral() override = default; virtual const char* class_name() const override { return "NullPointerLiteral"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; NullPointerLiteral(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } }; class BooleanLiteral : public Expression { public: virtual ~BooleanLiteral() override = default; virtual const char* class_name() const override { return "BooleanLiteral"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; BooleanLiteral(ASTNode* parent, Optional start, Optional end, const String& filename, bool value) : Expression(parent, start, end, filename) , m_value(value) { } private: bool m_value; }; enum class BinaryOp { Addition, Subtraction, Multiplication, Division, Modulo, GreaterThan, GreaterThanEquals, LessThan, LessThanEquals, BitwiseAnd, BitwiseOr, BitwiseXor, LeftShift, RightShift, EqualsEquals, NotEqual, LogicalOr, LogicalAnd, Arrow, }; class BinaryExpression : public Expression { public: BinaryExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~BinaryExpression() override = default; virtual const char* class_name() const override { return "BinaryExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; BinaryOp op() const { return m_op; } void set_op(BinaryOp op) { m_op = op; } Expression const* lhs() const { return m_lhs.ptr(); } void set_lhs(RefPtr&& e) { m_lhs = move(e); } Expression const* rhs() const { return m_rhs.ptr(); } void set_rhs(RefPtr&& e) { m_rhs = move(e); } private: BinaryOp m_op; RefPtr m_lhs; RefPtr m_rhs; }; enum class AssignmentOp { Assignment, AdditionAssignment, SubtractionAssignment, }; class AssignmentExpression : public Expression { public: AssignmentExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~AssignmentExpression() override = default; virtual const char* class_name() const override { return "AssignmentExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; AssignmentOp op() const { return m_op; } void set_op(AssignmentOp op) { m_op = op; } const Expression* lhs() const { return m_lhs; } void set_lhs(RefPtr&& e) { m_lhs = move(e); } const Expression* rhs() const { return m_rhs; } void set_rhs(RefPtr&& e) { m_rhs = move(e); } private: AssignmentOp m_op {}; RefPtr m_lhs; RefPtr m_rhs; }; class FunctionCall : public Expression { public: FunctionCall(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~FunctionCall() override = default; virtual const char* class_name() const override { return "FunctionCall"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_function_call() const override { return true; } const Expression* callee() const { return m_callee.ptr(); } void set_callee(RefPtr&& callee) { m_callee = move(callee); } void add_argument(NonnullRefPtr&& arg) { m_arguments.append(move(arg)); } NonnullRefPtrVector const& arguments() const { return m_arguments; } private: RefPtr m_callee; NonnullRefPtrVector m_arguments; }; class StringLiteral final : public Expression { public: StringLiteral(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } ~StringLiteral() override = default; virtual const char* class_name() const override { return "StringLiteral"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; String const& value() const { return m_value; } void set_value(String value) { m_value = move(value); } private: String m_value; }; class ReturnStatement : public Statement { public: virtual ~ReturnStatement() override = default; virtual const char* class_name() const override { return "ReturnStatement"; } ReturnStatement(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } virtual void dump(FILE* = stdout, size_t indent = 0) const override; const Expression* value() const { return m_value.ptr(); } void set_value(RefPtr&& value) { m_value = move(value); } private: RefPtr m_value; }; class EnumDeclaration : public Declaration { public: virtual ~EnumDeclaration() override = default; virtual const char* class_name() const override { return "EnumDeclaration"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; EnumDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename) : Declaration(parent, start, end, filename) { } enum class Type { RegularEnum, EnumClass }; void set_type(Type type) { m_type = type; } void add_entry(StringView entry, RefPtr value = nullptr) { m_entries.append({ entry, move(value) }); } private: Type m_type { Type::RegularEnum }; struct EnumerationEntry { StringView name; RefPtr value; }; Vector m_entries; }; class StructOrClassDeclaration : public Declaration { public: virtual ~StructOrClassDeclaration() override = default; virtual const char* class_name() const override { return "StructOrClassDeclaration"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_struct_or_class() const override { return true; } virtual bool is_struct() const override { return m_type == Type::Struct; } virtual bool is_class() const override { return m_type == Type::Class; } virtual NonnullRefPtrVector declarations() const override; enum class Type { Struct, Class }; StructOrClassDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename, StructOrClassDeclaration::Type type) : Declaration(parent, start, end, filename) , m_type(type) { } NonnullRefPtrVector const& members() const { return m_members; } void set_members(NonnullRefPtrVector&& members) { m_members = move(members); } private: StructOrClassDeclaration::Type m_type; NonnullRefPtrVector m_members; }; enum class UnaryOp { Invalid, BitwiseNot, Not, Plus, Minus, PlusPlus, Address, }; class UnaryExpression : public Expression { public: UnaryExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~UnaryExpression() override = default; virtual const char* class_name() const override { return "UnaryExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; void set_op(UnaryOp op) { m_op = op; } void set_lhs(RefPtr&& e) { m_lhs = move(e); } private: UnaryOp m_op; RefPtr m_lhs; }; class MemberExpression : public Expression { public: MemberExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~MemberExpression() override = default; virtual const char* class_name() const override { return "MemberExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_member_expression() const override { return true; } const Expression* object() const { return m_object.ptr(); } void set_object(RefPtr&& object) { m_object = move(object); } const Expression* property() const { return m_property.ptr(); } void set_property(RefPtr&& property) { m_property = move(property); } private: RefPtr m_object; RefPtr m_property; }; class ForStatement : public Statement { public: ForStatement(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } virtual ~ForStatement() override = default; virtual const char* class_name() const override { return "ForStatement"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual NonnullRefPtrVector declarations() const override; void set_init(RefPtr&& init) { m_init = move(init); } void set_test(RefPtr&& test) { m_test = move(test); } void set_update(RefPtr&& update) { m_update = move(update); } void set_body(RefPtr&& body) { m_body = move(body); } const Statement* body() const { return m_body.ptr(); } private: RefPtr m_init; RefPtr m_test; RefPtr m_update; RefPtr m_body; }; class BlockStatement final : public Statement { public: BlockStatement(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } virtual ~BlockStatement() override = default; virtual const char* class_name() const override { return "BlockStatement"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual NonnullRefPtrVector declarations() const override; void add_statement(NonnullRefPtr&& statement) { m_statements.append(move(statement)); } private: NonnullRefPtrVector m_statements; }; class Comment final : public Statement { public: Comment(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } virtual ~Comment() override = default; virtual const char* class_name() const override { return "Comment"; } }; class IfStatement : public Statement { public: IfStatement(ASTNode* parent, Optional start, Optional end, const String& filename) : Statement(parent, start, end, filename) { } virtual ~IfStatement() override = default; virtual const char* class_name() const override { return "IfStatement"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual NonnullRefPtrVector declarations() const override; void set_predicate(RefPtr&& predicate) { m_predicate = move(predicate); } void set_then_statement(RefPtr&& then) { m_then = move(then); } void set_else_statement(RefPtr&& _else) { m_else = move(_else); } const Statement* then_statement() const { return m_then.ptr(); } const Statement* else_statement() const { return m_else.ptr(); } private: RefPtr m_predicate; RefPtr m_then; RefPtr m_else; }; class NamespaceDeclaration : public Declaration { public: virtual ~NamespaceDeclaration() override = default; virtual const char* class_name() const override { return "NamespaceDeclaration"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_namespace() const override { return true; } NamespaceDeclaration(ASTNode* parent, Optional start, Optional end, const String& filename) : Declaration(parent, start, end, filename) { } virtual NonnullRefPtrVector declarations() const override { return m_declarations; } void add_declaration(NonnullRefPtr&& declaration) { m_declarations.append(move(declaration)); } private: NonnullRefPtrVector m_declarations; }; class CppCastExpression : public Expression { public: CppCastExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~CppCastExpression() override = default; virtual const char* class_name() const override { return "CppCastExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; void set_cast_type(StringView cast_type) { m_cast_type = move(cast_type); } void set_type(NonnullRefPtr&& type) { m_type = move(type); } void set_expression(NonnullRefPtr&& e) { m_expression = move(e); } private: StringView m_cast_type; RefPtr m_type; RefPtr m_expression; }; class CStyleCastExpression : public Expression { public: CStyleCastExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~CStyleCastExpression() override = default; virtual const char* class_name() const override { return "CStyleCastExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; void set_type(NonnullRefPtr&& type) { m_type = move(type); } void set_expression(NonnullRefPtr&& e) { m_expression = move(e); } private: RefPtr m_type; RefPtr m_expression; }; class SizeofExpression : public Expression { public: SizeofExpression(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~SizeofExpression() override = default; virtual const char* class_name() const override { return "SizeofExpression"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; void set_type(RefPtr&& type) { m_type = move(type); } private: RefPtr m_type; }; class BracedInitList : public Expression { public: BracedInitList(ASTNode* parent, Optional start, Optional end, const String& filename) : Expression(parent, start, end, filename) { } virtual ~BracedInitList() override = default; virtual const char* class_name() const override { return "BracedInitList"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; void add_expression(NonnullRefPtr&& exp) { m_expressions.append(move(exp)); } private: NonnullRefPtrVector m_expressions; }; class DummyAstNode : public ASTNode { public: DummyAstNode(ASTNode* parent, Optional start, Optional end, const String& filename) : ASTNode(parent, start, end, filename) { } virtual bool is_dummy_node() const override { return true; } virtual const char* class_name() const override { return "DummyAstNode"; } virtual void dump(FILE* = stdout, size_t = 0) const override { } }; class Constructor : public FunctionDeclaration { public: virtual ~Constructor() override = default; virtual const char* class_name() const override { return "Constructor"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_constructor() const override { return true; } Constructor(ASTNode* parent, Optional start, Optional end, const String& filename) : FunctionDeclaration(parent, start, end, filename) { } }; class Destructor : public FunctionDeclaration { public: virtual ~Destructor() override = default; virtual const char* class_name() const override { return "Destructor"; } virtual void dump(FILE* = stdout, size_t indent = 0) const override; virtual bool is_destructor() const override { return true; } Destructor(ASTNode* parent, Optional start, Optional end, const String& filename) : FunctionDeclaration(parent, start, end, filename) { } }; template<> inline bool ASTNode::fast_is() const { return is_identifier(); } template<> inline bool ASTNode::fast_is() const { return is_member_expression(); } template<> inline bool ASTNode::fast_is() const { return is_variable_or_parameter_declaration(); } template<> inline bool ASTNode::fast_is() const { return is_function_call(); } template<> inline bool ASTNode::fast_is() const { return is_type(); } template<> inline bool ASTNode::fast_is() const { return is_declaration(); } template<> inline bool ASTNode::fast_is() const { return is_name(); } template<> inline bool ASTNode::fast_is() const { return is_dummy_node(); } template<> inline bool ASTNode::fast_is() const { return is_declaration() && verify_cast(*this).is_variable_declaration(); } template<> inline bool ASTNode::fast_is() const { return is_declaration() && verify_cast(*this).is_struct_or_class(); } template<> inline bool ASTNode::fast_is() const { return is_declaration() && verify_cast(*this).is_function(); } template<> inline bool ASTNode::fast_is() const { return is_declaration() && verify_cast(*this).is_namespace(); } template<> inline bool ASTNode::fast_is() const { return is_declaration() && verify_cast(*this).is_function() && verify_cast(*this).is_constructor(); } template<> inline bool ASTNode::fast_is() const { return is_declaration() && verify_cast(*this).is_function() && verify_cast(*this).is_destructor(); } template<> inline bool ASTNode::fast_is() const { return is_type() && verify_cast(*this).is_named_type(); } template<> inline bool ASTNode::fast_is() const { return is_name() && verify_cast(*this).is_templatized(); } }