ladybird/Libraries/LibJS/AST.h
Andreas Kling a82f64d3d6 LibJS: Parse ArrayExpression and start implementing Array objects
Note that property lookup is not functional yet.
2020-03-20 21:56:40 +01:00

624 lines
16 KiB
C++

/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
* 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 <AK/NonnullRefPtrVector.h>
#include <AK/RefPtr.h>
#include <AK/String.h>
#include <AK/Vector.h>
#include <LibJS/Forward.h>
#include <LibJS/Runtime/Value.h>
namespace JS {
template<class T, class... Args>
static inline NonnullRefPtr<T>
create_ast_node(Args&&... args)
{
return adopt(*new T(forward<Args>(args)...));
}
class ASTNode : public RefCounted<ASTNode> {
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_member_expression() const { return false; }
protected:
ASTNode() {}
private:
};
class Statement : public ASTNode {
public:
virtual bool is_variable_declaration() const { return false; }
};
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> 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<Expression> m_expression;
};
class ScopeNode : public Statement {
public:
template<typename T, typename... Args>
T& append(Args&&... args)
{
auto child = create_ast_node<T>(forward<Args>(args)...);
m_children.append(move(child));
return static_cast<T&>(m_children.last());
}
void append(NonnullRefPtr<Statement> child)
{
m_children.append(move(child));
}
const NonnullRefPtrVector<Statement>& children() const { return m_children; }
virtual Value execute(Interpreter&) const override;
virtual void dump(int indent) const override;
protected:
ScopeNode() {}
private:
NonnullRefPtrVector<Statement> m_children;
};
class Program : public ScopeNode {
public:
Program() {}
private:
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 {
};
class FunctionNode {
public:
String name() const { return m_name; }
const ScopeNode& body() const { return *m_body; }
const Vector<String>& parameters() const { return m_parameters; };
protected:
FunctionNode(String name, NonnullRefPtr<ScopeNode> body, Vector<String> parameters = {})
: m_name(move(name))
, m_body(move(body))
, m_parameters(move(parameters))
{
}
void dump(int indent, const char* class_name) const;
private:
String m_name;
NonnullRefPtr<ScopeNode> m_body;
const Vector<String> m_parameters;
};
class FunctionDeclaration final
: public Statement
, public FunctionNode {
public:
static bool must_have_name() { return true; }
FunctionDeclaration(String name, NonnullRefPtr<ScopeNode> body, Vector<String> parameters = {})
: FunctionNode(move(name), move(body), move(parameters))
{
}
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(String name, NonnullRefPtr<ScopeNode> body, Vector<String> parameters = {})
: FunctionNode(move(name), move(body), move(parameters))
{
}
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<Expression> 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<Expression> m_argument;
};
class IfStatement : public Statement {
public:
IfStatement(NonnullRefPtr<Expression> predicate, NonnullRefPtr<ScopeNode> consequent, NonnullRefPtr<ScopeNode> alternate)
: m_predicate(move(predicate))
, m_consequent(move(consequent))
, m_alternate(move(alternate))
{
}
const Expression& predicate() const { return *m_predicate; }
const ScopeNode& consequent() const { return *m_consequent; }
const ScopeNode& 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<Expression> m_predicate;
NonnullRefPtr<ScopeNode> m_consequent;
NonnullRefPtr<ScopeNode> m_alternate;
};
class WhileStatement : public Statement {
public:
WhileStatement(NonnullRefPtr<Expression> predicate, NonnullRefPtr<ScopeNode> body)
: m_predicate(move(predicate))
, m_body(move(body))
{
}
const Expression& predicate() const { return *m_predicate; }
const ScopeNode& 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<Expression> m_predicate;
NonnullRefPtr<ScopeNode> m_body;
};
class ForStatement : public Statement {
public:
ForStatement(RefPtr<Statement> init, RefPtr<Expression> test, RefPtr<Expression> update, NonnullRefPtr<ScopeNode> body)
: m_init(move(init))
, m_test(move(test))
, m_update(move(update))
, m_body(move(body))
{
}
const Statement* init() const { return m_init; }
const Expression* test() const { return m_test; }
const Expression* update() const { return m_update; }
const ScopeNode& 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<Statement> m_init;
RefPtr<Expression> m_test;
RefPtr<Expression> m_update;
NonnullRefPtr<ScopeNode> m_body;
};
enum class BinaryOp {
Plus,
Minus,
Asterisk,
Slash,
TypedEquals,
TypedInequals,
AbstractEquals,
AbstractInequals,
GreaterThan,
GreaterThanEquals,
LessThan,
LessThanEquals,
BitwiseAnd,
BitwiseOr,
BitwiseXor,
LeftShift,
RightShift,
};
class BinaryExpression : public Expression {
public:
BinaryExpression(BinaryOp op, NonnullRefPtr<Expression> lhs, NonnullRefPtr<Expression> 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<Expression> m_lhs;
NonnullRefPtr<Expression> m_rhs;
};
enum class LogicalOp {
And,
Or,
};
class LogicalExpression : public Expression {
public:
LogicalExpression(LogicalOp op, NonnullRefPtr<Expression> lhs, NonnullRefPtr<Expression> 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<Expression> m_lhs;
NonnullRefPtr<Expression> m_rhs;
};
enum class UnaryOp {
BitwiseNot,
Not,
Typeof,
};
class UnaryExpression : public Expression {
public:
UnaryExpression(UnaryOp op, NonnullRefPtr<Expression> 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<Expression> m_lhs;
};
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"; }
String m_value;
};
class UndefinedLiteral final : public Literal {
public:
explicit UndefinedLiteral()
{
}
virtual Value execute(Interpreter&) const override;
virtual void dump(int indent) const override;
private:
virtual const char* class_name() const override { return "UndefinedLiteral"; }
};
class Identifier final : public Expression {
public:
explicit Identifier(String string)
: m_string(move(string))
{
}
const String& 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; }
private:
virtual const char* class_name() const override { return "Identifier"; }
String m_string;
};
class CallExpression : public Expression {
public:
explicit CallExpression(NonnullRefPtr<Expression> callee, NonnullRefPtrVector<Expression> 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"; }
NonnullRefPtr<Expression> m_callee;
const NonnullRefPtrVector<Expression> m_arguments;
};
enum class AssignmentOp {
Assignment,
AdditionAssignment,
SubtractionAssignment,
MultiplicationAssignment,
DivisionAssignment,
};
class AssignmentExpression : public Expression {
public:
AssignmentExpression(AssignmentOp op, NonnullRefPtr<ASTNode> lhs, NonnullRefPtr<Expression> 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<ASTNode> m_lhs;
NonnullRefPtr<Expression> m_rhs;
};
enum class UpdateOp {
Increment,
Decrement,
};
class UpdateExpression : public Expression {
public:
UpdateExpression(UpdateOp op, NonnullRefPtr<Expression> 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<Identifier> m_argument;
bool m_prefixed;
};
enum class DeclarationType {
Var,
Let,
Const,
};
class VariableDeclaration : public Statement {
public:
VariableDeclaration(NonnullRefPtr<Identifier> name, RefPtr<Expression> initializer, DeclarationType declaration_type)
: m_declaration_type(declaration_type)
, m_name(move(name))
, m_initializer(move(initializer))
{
}
virtual bool is_variable_declaration() const override { return true; }
const Identifier& name() const { return *m_name; }
DeclarationType declaration_type() const { return m_declaration_type; }
virtual Value execute(Interpreter&) const override;
virtual void dump(int indent) const override;
private:
virtual const char* class_name() const override { return "VariableDeclaration"; }
DeclarationType m_declaration_type;
NonnullRefPtr<Identifier> m_name;
RefPtr<Expression> m_initializer;
};
class ObjectExpression : public Expression {
public:
ObjectExpression() {}
virtual Value execute(Interpreter&) const override;
virtual void dump(int indent) const override;
private:
virtual const char* class_name() const override { return "ObjectExpression"; }
};
class ArrayExpression : public Expression {
public:
ArrayExpression(NonnullRefPtrVector<Expression> elements)
: m_elements(move(elements))
{
}
const NonnullRefPtrVector<Expression>& 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"; }
NonnullRefPtrVector<Expression> m_elements;
};
class MemberExpression final : public Expression {
public:
MemberExpression(NonnullRefPtr<Expression> object, NonnullRefPtr<Expression> property)
: m_object(move(object))
, m_property(move(property))
{
}
virtual Value execute(Interpreter&) const override;
virtual void dump(int indent) const override;
const Expression& object() const { return *m_object; }
const Expression& property() const { return *m_property; }
private:
virtual bool is_member_expression() const override { return true; }
virtual const char* class_name() const override { return "MemberExpression"; }
NonnullRefPtr<Expression> m_object;
NonnullRefPtr<Expression> m_property;
};
}