ladybird/Libraries/LibJS/Runtime/Value.h
Andreas Kling 1df18c58f5 LibJS: Make all the JS::Value binary op helpers take GlobalObject&
We don't need the Interpreter& for anything here, the GlobalObject is
enough for getting to the VM and possibly throwing exceptions.
2020-09-27 20:26:58 +02:00

338 lines
9.2 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/Assertions.h>
#include <AK/Forward.h>
#include <AK/LogStream.h>
#include <AK/Types.h>
#include <LibJS/Forward.h>
#include <math.h>
// 2 ** 53 - 1
static constexpr double MAX_ARRAY_LIKE_INDEX = 9007199254740991.0;
namespace JS {
class Value {
public:
enum class Type {
Empty,
Undefined,
Null,
Number,
String,
Object,
Boolean,
Symbol,
Accessor,
BigInt,
NativeProperty,
};
enum class PreferredType {
Default,
String,
Number,
};
bool is_empty() const { return m_type == Type::Empty; }
bool is_undefined() const { return m_type == Type::Undefined; }
bool is_null() const { return m_type == Type::Null; }
bool is_number() const { return m_type == Type::Number; }
bool is_string() const { return m_type == Type::String; }
bool is_object() const { return m_type == Type::Object; }
bool is_boolean() const { return m_type == Type::Boolean; }
bool is_symbol() const { return m_type == Type::Symbol; }
bool is_accessor() const { return m_type == Type::Accessor; };
bool is_bigint() const { return m_type == Type::BigInt; };
bool is_native_property() const { return m_type == Type::NativeProperty; }
bool is_cell() const { return is_string() || is_accessor() || is_object() || is_bigint() || is_symbol() || is_native_property(); }
bool is_array() const;
bool is_function() const;
bool is_nan() const { return is_number() && __builtin_isnan(as_double()); }
bool is_infinity() const { return is_number() && __builtin_isinf(as_double()); }
bool is_positive_infinity() const { return is_number() && __builtin_isinf_sign(as_double()) > 0; }
bool is_negative_infinity() const { return is_number() && __builtin_isinf_sign(as_double()) < 0; }
bool is_positive_zero() const { return is_number() && 1.0 / as_double() == INFINITY; }
bool is_negative_zero() const { return is_number() && 1.0 / as_double() == -INFINITY; }
bool is_integer() const { return is_finite_number() && (i32)as_double() == as_double(); }
bool is_finite_number() const
{
if (!is_number())
return false;
auto number = as_double();
return !__builtin_isnan(number) && !__builtin_isinf(number);
}
Value()
: m_type(Type::Empty)
{
}
explicit Value(bool value)
: m_type(Type::Boolean)
{
m_value.as_bool = value;
}
explicit Value(double value)
: m_type(Type::Number)
{
m_value.as_double = value;
}
explicit Value(unsigned value)
: m_type(Type::Number)
{
m_value.as_double = static_cast<double>(value);
}
explicit Value(i32 value)
: m_type(Type::Number)
{
m_value.as_double = value;
}
Value(Object* object)
: m_type(object ? Type::Object : Type::Null)
{
m_value.as_object = object;
}
Value(PrimitiveString* string)
: m_type(Type::String)
{
m_value.as_string = string;
}
Value(Symbol* symbol)
: m_type(Type::Symbol)
{
m_value.as_symbol = symbol;
}
Value(Accessor* accessor)
: m_type(Type::Accessor)
{
m_value.as_accessor = accessor;
}
Value(BigInt* bigint)
: m_type(Type::BigInt)
{
m_value.as_bigint = bigint;
}
Value(NativeProperty* native_property)
: m_type(Type::NativeProperty)
{
m_value.as_native_property = native_property;
}
explicit Value(Type type)
: m_type(type)
{
}
Type type() const { return m_type; }
double as_double() const
{
ASSERT(type() == Type::Number);
return m_value.as_double;
}
bool as_bool() const
{
ASSERT(type() == Type::Boolean);
return m_value.as_bool;
}
Object& as_object()
{
ASSERT(type() == Type::Object);
return *m_value.as_object;
}
const Object& as_object() const
{
ASSERT(type() == Type::Object);
return *m_value.as_object;
}
PrimitiveString& as_string()
{
ASSERT(is_string());
return *m_value.as_string;
}
const PrimitiveString& as_string() const
{
ASSERT(is_string());
return *m_value.as_string;
}
Symbol& as_symbol()
{
ASSERT(is_symbol());
return *m_value.as_symbol;
}
const Symbol& as_symbol() const
{
ASSERT(is_symbol());
return *m_value.as_symbol;
}
Cell* as_cell()
{
ASSERT(is_cell());
return m_value.as_cell;
}
Accessor& as_accessor()
{
ASSERT(is_accessor());
return *m_value.as_accessor;
}
BigInt& as_bigint()
{
ASSERT(is_bigint());
return *m_value.as_bigint;
}
NativeProperty& as_native_property()
{
ASSERT(is_native_property());
return *m_value.as_native_property;
}
Array& as_array();
Function& as_function();
i32 as_i32() const;
size_t as_size_t() const;
String to_string(GlobalObject&) const;
PrimitiveString* to_primitive_string(GlobalObject&);
Value to_primitive(PreferredType preferred_type = PreferredType::Default) const;
Object* to_object(GlobalObject&) const;
Value to_numeric(GlobalObject&) const;
Value to_number(GlobalObject&) const;
BigInt* to_bigint(GlobalObject&) const;
double to_double(GlobalObject&) const;
i32 to_i32(GlobalObject&) const;
size_t to_size_t(GlobalObject&) const;
bool to_boolean() const;
String to_string_without_side_effects() const;
Value value_or(Value fallback) const
{
if (is_empty())
return fallback;
return *this;
}
private:
Type m_type { Type::Empty };
union {
bool as_bool;
double as_double;
PrimitiveString* as_string;
Symbol* as_symbol;
Object* as_object;
Cell* as_cell;
Accessor* as_accessor;
BigInt* as_bigint;
NativeProperty* as_native_property;
} m_value;
};
inline Value js_undefined()
{
return Value(Value::Type::Undefined);
}
inline Value js_null()
{
return Value(Value::Type::Null);
}
inline Value js_nan()
{
return Value(NAN);
}
inline Value js_infinity()
{
return Value(INFINITY);
}
inline Value js_negative_infinity()
{
return Value(-INFINITY);
}
Value greater_than(GlobalObject&, Value lhs, Value rhs);
Value greater_than_equals(GlobalObject&, Value lhs, Value rhs);
Value less_than(GlobalObject&, Value lhs, Value rhs);
Value less_than_equals(GlobalObject&, Value lhs, Value rhs);
Value bitwise_and(GlobalObject&, Value lhs, Value rhs);
Value bitwise_or(GlobalObject&, Value lhs, Value rhs);
Value bitwise_xor(GlobalObject&, Value lhs, Value rhs);
Value bitwise_not(GlobalObject&, Value);
Value unary_plus(GlobalObject&, Value);
Value unary_minus(GlobalObject&, Value);
Value left_shift(GlobalObject&, Value lhs, Value rhs);
Value right_shift(GlobalObject&, Value lhs, Value rhs);
Value unsigned_right_shift(GlobalObject&, Value lhs, Value rhs);
Value add(GlobalObject&, Value lhs, Value rhs);
Value sub(GlobalObject&, Value lhs, Value rhs);
Value mul(GlobalObject&, Value lhs, Value rhs);
Value div(GlobalObject&, Value lhs, Value rhs);
Value mod(GlobalObject&, Value lhs, Value rhs);
Value exp(GlobalObject&, Value lhs, Value rhs);
Value in(GlobalObject&, Value lhs, Value rhs);
Value instance_of(GlobalObject&, Value lhs, Value rhs);
Value ordinary_has_instance(GlobalObject&, Value lhs, Value rhs);
bool abstract_eq(GlobalObject&, Value lhs, Value rhs);
bool strict_eq(Value lhs, Value rhs);
bool same_value(Value lhs, Value rhs);
bool same_value_zero(Value lhs, Value rhs);
bool same_value_non_numeric(Value lhs, Value rhs);
TriState abstract_relation(GlobalObject&, bool left_first, Value lhs, Value rhs);
size_t length_of_array_like(GlobalObject&, Value);
const LogStream& operator<<(const LogStream&, const Value&);
}