/* * Copyright (c) 2020, Andreas Kling * Copyright (c) 2020, Linus Groh * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #pragma once #include #include #include #include #include #include #include #include #include namespace JS { class VariableDeclaration; template static inline NonnullRefPtr create_ast_node(Args&&... args) { return adopt(*new T(forward(args)...)); } class ASTNode : public RefCounted { public: virtual ~ASTNode() { } virtual const char* class_name() const = 0; virtual Value execute(Interpreter&) const = 0; virtual void dump(int indent) const; virtual bool is_identifier() const { return false; } virtual bool is_spread_expression() const { return false; } virtual bool is_member_expression() const { return false; } virtual bool is_scope_node() const { return false; } virtual bool is_program() const { return false; } virtual bool is_variable_declaration() const { return false; } virtual bool is_call_expression() const { return false; } virtual bool is_new_expression() const { return false; } protected: ASTNode() { } private: }; class Statement : public ASTNode { }; class EmptyStatement final : public Statement { public: Value execute(Interpreter&) const override { return js_undefined(); } const char* class_name() const override { return "EmptyStatement"; } }; class ErrorStatement final : public Statement { public: Value execute(Interpreter&) const override { return js_undefined(); } const char* class_name() const override { return "ErrorStatement"; } }; class ExpressionStatement final : public Statement { public: ExpressionStatement(NonnullRefPtr expression) : m_expression(move(expression)) { } Value execute(Interpreter&) const override; const char* class_name() const override { return "ExpressionStatement"; } virtual void dump(int indent) const override; private: NonnullRefPtr m_expression; }; class ScopeNode : public Statement { public: template T& append(Args&&... args) { auto child = create_ast_node(forward(args)...); m_children.append(move(child)); return static_cast(m_children.last()); } void append(NonnullRefPtr child) { m_children.append(move(child)); } const NonnullRefPtrVector& children() const { return m_children; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; void add_variables(NonnullRefPtrVector); const NonnullRefPtrVector& variables() const { return m_variables; } protected: ScopeNode() { } private: virtual bool is_scope_node() const final { return true; } NonnullRefPtrVector m_children; NonnullRefPtrVector m_variables; }; class Program : public ScopeNode { public: Program() { } private: virtual bool is_program() const override { return true; } virtual const char* class_name() const override { return "Program"; } }; class BlockStatement : public ScopeNode { public: BlockStatement() { } private: virtual const char* class_name() const override { return "BlockStatement"; } }; class Expression : public ASTNode { public: virtual Reference to_reference(Interpreter&) const; }; class Declaration : public Statement { }; class FunctionNode { public: struct Parameter { FlyString name; RefPtr default_value; bool is_rest { false }; }; const FlyString& name() const { return m_name; } const Statement& body() const { return *m_body; } const Vector& parameters() const { return m_parameters; }; protected: FunctionNode(const FlyString& name, NonnullRefPtr body, Vector parameters, i32 function_length, NonnullRefPtrVector variables) : m_name(name) , m_body(move(body)) , m_parameters(move(parameters)) , m_variables(move(variables)) , m_function_length(function_length) { } void dump(int indent, const char* class_name) const; const NonnullRefPtrVector& variables() const { return m_variables; } i32 function_length() const { return m_function_length; } private: FlyString m_name; NonnullRefPtr m_body; const Vector m_parameters; NonnullRefPtrVector m_variables; const i32 m_function_length; }; class FunctionDeclaration final : public Declaration , public FunctionNode { public: static bool must_have_name() { return true; } FunctionDeclaration(const FlyString& name, NonnullRefPtr body, Vector parameters, i32 function_length, NonnullRefPtrVector variables) : FunctionNode(name, move(body), move(parameters), function_length, move(variables)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "FunctionDeclaration"; } }; class FunctionExpression final : public Expression , public FunctionNode { public: static bool must_have_name() { return false; } FunctionExpression(const FlyString& name, NonnullRefPtr body, Vector parameters, i32 function_length, NonnullRefPtrVector variables) : FunctionNode(name, move(body), move(parameters), function_length, move(variables)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "FunctionExpression"; } }; class ErrorExpression final : public Expression { public: Value execute(Interpreter&) const override { return js_undefined(); } const char* class_name() const override { return "ErrorExpression"; } }; class ReturnStatement : public Statement { public: explicit ReturnStatement(RefPtr argument) : m_argument(move(argument)) { } const Expression* argument() const { return m_argument; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "ReturnStatement"; } RefPtr m_argument; }; class IfStatement : public Statement { public: IfStatement(NonnullRefPtr predicate, NonnullRefPtr consequent, RefPtr alternate) : m_predicate(move(predicate)) , m_consequent(move(consequent)) , m_alternate(move(alternate)) { } const Expression& predicate() const { return *m_predicate; } const Statement& consequent() const { return *m_consequent; } const Statement* alternate() const { return m_alternate; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "IfStatement"; } NonnullRefPtr m_predicate; NonnullRefPtr m_consequent; RefPtr m_alternate; }; class WhileStatement : public Statement { public: WhileStatement(NonnullRefPtr test, NonnullRefPtr body) : m_test(move(test)) , m_body(move(body)) { } const Expression& test() const { return *m_test; } const Statement& body() const { return *m_body; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "WhileStatement"; } NonnullRefPtr m_test; NonnullRefPtr m_body; }; class DoWhileStatement : public Statement { public: DoWhileStatement(NonnullRefPtr test, NonnullRefPtr body) : m_test(move(test)) , m_body(move(body)) { } const Expression& test() const { return *m_test; } const Statement& body() const { return *m_body; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "DoWhileStatement"; } NonnullRefPtr m_test; NonnullRefPtr m_body; }; class ForStatement : public Statement { public: ForStatement(RefPtr init, RefPtr test, RefPtr update, NonnullRefPtr body) : m_init(move(init)) , m_test(move(test)) , m_update(move(update)) , m_body(move(body)) { } const ASTNode* init() const { return m_init; } const Expression* test() const { return m_test; } const Expression* update() const { return m_update; } const Statement& body() const { return *m_body; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "ForStatement"; } RefPtr m_init; RefPtr m_test; RefPtr m_update; NonnullRefPtr m_body; }; enum class BinaryOp { Addition, Subtraction, Multiplication, Division, Modulo, Exponentiation, TypedEquals, TypedInequals, AbstractEquals, AbstractInequals, GreaterThan, GreaterThanEquals, LessThan, LessThanEquals, BitwiseAnd, BitwiseOr, BitwiseXor, LeftShift, RightShift, UnsignedRightShift, In, InstanceOf, }; class BinaryExpression : public Expression { public: BinaryExpression(BinaryOp op, NonnullRefPtr lhs, NonnullRefPtr rhs) : m_op(op) , m_lhs(move(lhs)) , m_rhs(move(rhs)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "BinaryExpression"; } BinaryOp m_op; NonnullRefPtr m_lhs; NonnullRefPtr m_rhs; }; enum class LogicalOp { And, Or, NullishCoalescing, }; class LogicalExpression : public Expression { public: LogicalExpression(LogicalOp op, NonnullRefPtr lhs, NonnullRefPtr rhs) : m_op(op) , m_lhs(move(lhs)) , m_rhs(move(rhs)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "LogicalExpression"; } LogicalOp m_op; NonnullRefPtr m_lhs; NonnullRefPtr m_rhs; }; enum class UnaryOp { BitwiseNot, Not, Plus, Minus, Typeof, Void, Delete, }; class UnaryExpression : public Expression { public: UnaryExpression(UnaryOp op, NonnullRefPtr lhs) : m_op(op) , m_lhs(move(lhs)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "UnaryExpression"; } UnaryOp m_op; NonnullRefPtr m_lhs; }; class SequenceExpression final : public Expression { public: SequenceExpression(NonnullRefPtrVector expressions) : m_expressions(move(expressions)) { } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "SequenceExpression"; } NonnullRefPtrVector m_expressions; }; class Literal : public Expression { protected: explicit Literal() { } }; class BooleanLiteral final : public Literal { public: explicit BooleanLiteral(bool value) : m_value(value) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "BooleanLiteral"; } bool m_value { false }; }; class NumericLiteral final : public Literal { public: explicit NumericLiteral(double value) : m_value(value) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "NumericLiteral"; } double m_value { 0 }; }; class StringLiteral final : public Literal { public: explicit StringLiteral(String value) : m_value(move(value)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "StringLiteral"; } String m_value; }; class NullLiteral final : public Literal { public: explicit NullLiteral() { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "NullLiteral"; } }; class Identifier final : public Expression { public: explicit Identifier(const FlyString& string) : m_string(string) { } const FlyString& string() const { return m_string; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; virtual bool is_identifier() const override { return true; } virtual Reference to_reference(Interpreter&) const override; private: virtual const char* class_name() const override { return "Identifier"; } FlyString m_string; }; class SpreadExpression final : public Expression { public: explicit SpreadExpression(NonnullRefPtr target) : m_target(target) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; virtual bool is_spread_expression() const override { return true; } private: virtual const char* class_name() const override { return "SpreadExpression"; } NonnullRefPtr m_target; }; class ThisExpression final : public Expression { public: virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "ThisExpression"; } }; class CallExpression : public Expression { public: struct Argument { NonnullRefPtr value; bool is_spread; }; CallExpression(NonnullRefPtr callee, Vector arguments = {}) : m_callee(move(callee)) , m_arguments(move(arguments)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "CallExpression"; } virtual bool is_call_expression() const override { return true; } struct ThisAndCallee { Value this_value; Value callee; }; ThisAndCallee compute_this_and_callee(Interpreter&) const; NonnullRefPtr m_callee; const Vector m_arguments; }; class NewExpression final : public CallExpression { public: NewExpression(NonnullRefPtr callee, Vector arguments = {}) : CallExpression(move(callee), move(arguments)) { } private: virtual const char* class_name() const override { return "NewExpression"; } virtual bool is_call_expression() const override { return false; } virtual bool is_new_expression() const override { return true; } }; enum class AssignmentOp { Assignment, AdditionAssignment, SubtractionAssignment, MultiplicationAssignment, DivisionAssignment, ModuloAssignment, ExponentiationAssignment, BitwiseAndAssignment, BitwiseOrAssignment, BitwiseXorAssignment, LeftShiftAssignment, RightShiftAssignment, UnsignedRightShiftAssignment, }; class AssignmentExpression : public Expression { public: AssignmentExpression(AssignmentOp op, NonnullRefPtr lhs, NonnullRefPtr rhs) : m_op(op) , m_lhs(move(lhs)) , m_rhs(move(rhs)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "AssignmentExpression"; } AssignmentOp m_op; NonnullRefPtr m_lhs; NonnullRefPtr m_rhs; }; enum class UpdateOp { Increment, Decrement, }; class UpdateExpression : public Expression { public: UpdateExpression(UpdateOp op, NonnullRefPtr argument, bool prefixed = false) : m_op(op) , m_argument(move(argument)) , m_prefixed(prefixed) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "UpdateExpression"; } UpdateOp m_op; NonnullRefPtr m_argument; bool m_prefixed; }; enum class DeclarationKind { Var, Let, Const, }; class VariableDeclarator final : public ASTNode { public: VariableDeclarator(NonnullRefPtr id, RefPtr init) : m_id(move(id)) , m_init(move(init)) { } const Identifier& id() const { return m_id; } const Expression* init() const { return m_init; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "VariableDeclarator"; } NonnullRefPtr m_id; RefPtr m_init; }; class VariableDeclaration : public Declaration { public: VariableDeclaration(DeclarationKind declaration_kind, NonnullRefPtrVector declarations) : m_declaration_kind(declaration_kind) , m_declarations(move(declarations)) { } virtual bool is_variable_declaration() const override { return true; } DeclarationKind declaration_kind() const { return m_declaration_kind; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; const NonnullRefPtrVector& declarations() const { return m_declarations; } private: virtual const char* class_name() const override { return "VariableDeclaration"; } DeclarationKind m_declaration_kind; NonnullRefPtrVector m_declarations; }; class ObjectProperty final : public ASTNode { public: enum class Type { KeyValue, Getter, Setter, Spread, }; ObjectProperty(NonnullRefPtr key, NonnullRefPtr value, Type property_type) : m_key(move(key)) , m_value(move(value)) , m_property_type(property_type) { } const Expression& key() const { return m_key; } const Expression& value() const { return m_value; } Type type() const { return m_property_type; } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "ObjectProperty"; } NonnullRefPtr m_key; NonnullRefPtr m_value; Type m_property_type; }; class ObjectExpression : public Expression { public: ObjectExpression(NonnullRefPtrVector properties = {}) : m_properties(move(properties)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "ObjectExpression"; } NonnullRefPtrVector m_properties; }; class ArrayExpression : public Expression { public: ArrayExpression(Vector> elements) : m_elements(move(elements)) { } const Vector>& elements() const { return m_elements; } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "ArrayExpression"; } Vector> m_elements; }; class TemplateLiteral final : public Expression { public: TemplateLiteral(NonnullRefPtrVector expressions) : m_expressions(move(expressions)) { } TemplateLiteral(NonnullRefPtrVector expressions, NonnullRefPtrVector raw_strings) : m_expressions(move(expressions)) , m_raw_strings(move(raw_strings)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; const NonnullRefPtrVector& expressions() const { return m_expressions; } const NonnullRefPtrVector& raw_strings() const { return m_raw_strings; } private: virtual const char* class_name() const override { return "TemplateLiteral"; } const NonnullRefPtrVector m_expressions; const NonnullRefPtrVector m_raw_strings; }; class TaggedTemplateLiteral final : public Expression { public: TaggedTemplateLiteral(NonnullRefPtr tag, NonnullRefPtr template_literal) : m_tag(move(tag)) , m_template_literal(move(template_literal)) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; private: virtual const char* class_name() const override { return "TaggedTemplateLiteral"; } const NonnullRefPtr m_tag; const NonnullRefPtr m_template_literal; }; class MemberExpression final : public Expression { public: MemberExpression(NonnullRefPtr object, NonnullRefPtr property, bool computed = false) : m_object(move(object)) , m_property(move(property)) , m_computed(computed) { } virtual Value execute(Interpreter&) const override; virtual void dump(int indent) const override; virtual Reference to_reference(Interpreter&) const override; bool is_computed() const { return m_computed; } const Expression& object() const { return *m_object; } const Expression& property() const { return *m_property; } PropertyName computed_property_name(Interpreter&) const; String to_string_approximation() const; private: virtual bool is_member_expression() const override { return true; } virtual const char* class_name() const override { return "MemberExpression"; } NonnullRefPtr m_object; NonnullRefPtr m_property; bool m_computed { false }; }; class ConditionalExpression final : public Expression { public: ConditionalExpression(NonnullRefPtr test, NonnullRefPtr consequent, NonnullRefPtr alternate) : m_test(move(test)) , m_consequent(move(consequent)) , m_alternate(move(alternate)) { } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "ConditionalExpression"; } NonnullRefPtr m_test; NonnullRefPtr m_consequent; NonnullRefPtr m_alternate; }; class CatchClause final : public ASTNode { public: CatchClause(const FlyString& parameter, NonnullRefPtr body) : m_parameter(parameter) , m_body(move(body)) { } const FlyString& parameter() const { return m_parameter; } const BlockStatement& body() const { return m_body; } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "CatchClause"; } FlyString m_parameter; NonnullRefPtr m_body; }; class TryStatement final : public Statement { public: TryStatement(NonnullRefPtr block, RefPtr handler, RefPtr finalizer) : m_block(move(block)) , m_handler(move(handler)) , m_finalizer(move(finalizer)) { } const BlockStatement& block() const { return m_block; } const CatchClause* handler() const { return m_handler; } const BlockStatement* finalizer() const { return m_finalizer; } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "TryStatement"; } NonnullRefPtr m_block; RefPtr m_handler; RefPtr m_finalizer; }; class ThrowStatement final : public Statement { public: explicit ThrowStatement(NonnullRefPtr argument) : m_argument(move(argument)) { } const Expression& argument() const { return m_argument; } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "ThrowStatement"; } NonnullRefPtr m_argument; }; class SwitchCase final : public ASTNode { public: SwitchCase(RefPtr test, NonnullRefPtrVector consequent) : m_test(move(test)) , m_consequent(move(consequent)) { } const Expression* test() const { return m_test; } const NonnullRefPtrVector& consequent() const { return m_consequent; } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "SwitchCase"; } RefPtr m_test; NonnullRefPtrVector m_consequent; }; class SwitchStatement final : public Statement { public: SwitchStatement(NonnullRefPtr discriminant, NonnullRefPtrVector cases) : m_discriminant(move(discriminant)) , m_cases(move(cases)) { } virtual void dump(int indent) const override; virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "SwitchStatement"; } NonnullRefPtr m_discriminant; NonnullRefPtrVector m_cases; }; class BreakStatement final : public Statement { public: BreakStatement() { } virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "BreakStatement"; } }; class ContinueStatement final : public Statement { public: ContinueStatement() { } virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "ContinueStatement"; } }; class DebuggerStatement final : public Statement { public: DebuggerStatement() { } virtual Value execute(Interpreter&) const override; private: virtual const char* class_name() const override { return "DebuggerStatement"; } }; }