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serenity/Libraries/LibJS/Runtime/Value.cpp

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/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2020, Linus Groh <mail@linusgroh.de>
* 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.
*/
#include <AK/FlyString.h>
#include <AK/String.h>
#include <AK/StringBuilder.h>
#include <AK/Utf8View.h>
#include <LibCrypto/BigInt/SignedBigInteger.h>
#include <LibCrypto/NumberTheory/ModularFunctions.h>
#include <LibJS/Heap/Heap.h>
#include <LibJS/Runtime/Accessor.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/BigInt.h>
#include <LibJS/Runtime/BigIntObject.h>
#include <LibJS/Runtime/BooleanObject.h>
#include <LibJS/Runtime/BoundFunction.h>
#include <LibJS/Runtime/Error.h>
#include <LibJS/Runtime/Function.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/NumberObject.h>
#include <LibJS/Runtime/Object.h>
#include <LibJS/Runtime/PrimitiveString.h>
#include <LibJS/Runtime/StringObject.h>
#include <LibJS/Runtime/Symbol.h>
#include <LibJS/Runtime/SymbolObject.h>
#include <LibJS/Runtime/Value.h>
#include <ctype.h>
#include <math.h>
namespace JS {
// Used in various abstract operations to make it obvious when a non-optional return value must be discarded.
static const double INVALID { 0 };
static const Crypto::SignedBigInteger BIGINT_ZERO { 0 };
static bool is_valid_bigint_value(String string)
{
string = string.trim_whitespace();
if (string.length() > 1 && (string[0] == '-' || string[0] == '+'))
string = string.substring_view(1, string.length() - 1);
for (auto& ch : string) {
if (!isdigit(ch))
return false;
}
return true;
}
ALWAYS_INLINE bool both_number(const Value& lhs, const Value& rhs)
{
return lhs.is_number() && rhs.is_number();
}
ALWAYS_INLINE bool both_bigint(const Value& lhs, const Value& rhs)
{
return lhs.is_bigint() && rhs.is_bigint();
}
static String double_to_string(double d)
{
// https://tc39.es/ecma262/#sec-numeric-types-number-tostring
if (isnan(d))
return "NaN";
if (d == +0.0 || d == -0.0)
return "0";
if (d < +0.0) {
StringBuilder builder;
builder.append('-');
builder.append(double_to_string(-d));
return builder.to_string();
}
if (d == INFINITY)
return "Infinity";
StringBuilder number_string_builder;
size_t start_index = 0;
size_t end_index = 0;
size_t intpart_end = 0;
// generate integer part (reversed)
double intPart;
double frac_part;
frac_part = modf(d, &intPart);
while (intPart > 0) {
number_string_builder.append('0' + (int)fmod(intPart, 10));
end_index++;
intPart = floor(intPart / 10);
}
auto reversed_integer_part = number_string_builder.to_string().reverse();
number_string_builder.clear();
number_string_builder.append(reversed_integer_part);
intpart_end = end_index;
int exponent = 0;
// generate fractional part
while (frac_part > 0) {
double old_frac_part = frac_part;
frac_part *= 10;
frac_part = modf(frac_part, &intPart);
if (old_frac_part == frac_part)
break;
number_string_builder.append('0' + (int)intPart);
end_index++;
exponent--;
}
auto number_string = number_string_builder.to_string();
// FIXME: Remove this hack.
// FIXME: Instead find the shortest round-trippable representation.
// Remove decimals after the 15th position
if (end_index > intpart_end + 15) {
exponent += end_index - intpart_end - 15;
end_index = intpart_end + 15;
}
// remove leading zeroes
while (start_index < end_index && number_string[start_index] == '0') {
start_index++;
}
// remove trailing zeroes
while (end_index > 0 && number_string[end_index - 1] == '0') {
end_index--;
exponent++;
}
if (end_index <= start_index)
return "0";
auto digits = number_string.substring_view(start_index, end_index - start_index);
int number_of_digits = end_index - start_index;
exponent += number_of_digits;
StringBuilder builder;
if (number_of_digits <= exponent && exponent <= 21) {
builder.append(digits);
builder.append(String::repeated('0', exponent - number_of_digits));
return builder.to_string();
}
if (0 < exponent && exponent <= 21) {
builder.append(digits.substring_view(0, exponent));
builder.append('.');
builder.append(digits.substring_view(exponent));
return builder.to_string();
}
if (-6 < exponent && exponent <= 0) {
builder.append("0.");
builder.append(String::repeated('0', -exponent));
builder.append(digits);
return builder.to_string();
}
if (number_of_digits == 1) {
builder.append(digits);
builder.append('e');
if (exponent - 1 > 0)
builder.append('+');
else
builder.append('-');
builder.append(String::format("%d", abs(exponent - 1)));
return builder.to_string();
}
builder.append(digits[0]);
builder.append('.');
builder.append(digits.substring_view(1));
builder.append('e');
if (exponent - 1 > 0)
builder.append('+');
else
builder.append('-');
builder.append(String::format("%d", abs(exponent - 1)));
return builder.to_string();
}
bool Value::is_array() const
{
return is_object() && as_object().is_array();
}
Array& Value::as_array()
{
ASSERT(is_array());
return static_cast<Array&>(*m_value.as_object);
}
bool Value::is_function() const
{
return is_object() && as_object().is_function();
}
Function& Value::as_function()
{
ASSERT(is_function());
return static_cast<Function&>(as_object());
}
bool Value::is_regexp(GlobalObject& global_object) const
{
// 7.2.8 IsRegExp, https://tc39.es/ecma262/#sec-isregexp
if (!is_object())
return false;
auto matcher = as_object().get(global_object.vm().well_known_symbol_match());
if (global_object.vm().exception())
return false;
if (!matcher.is_empty() && !matcher.is_undefined())
return matcher.to_boolean();
return as_object().is_regexp_object();
}
String Value::to_string_without_side_effects() const
{
switch (m_type) {
case Type::Undefined:
return "undefined";
case Type::Null:
return "null";
case Type::Boolean:
return m_value.as_bool ? "true" : "false";
case Type::Number:
return double_to_string(m_value.as_double);
case Type::String:
return m_value.as_string->string();
case Type::Symbol:
return m_value.as_symbol->to_string();
case Type::BigInt:
return m_value.as_bigint->to_string();
case Type::Object:
return String::formatted("[object {}]", as_object().class_name());
case Type::Accessor:
return "<accessor>";
case Type::NativeProperty:
return "<native-property>";
default:
ASSERT_NOT_REACHED();
}
}
PrimitiveString* Value::to_primitive_string(GlobalObject& global_object)
{
if (is_string())
return &as_string();
auto string = to_string(global_object);
if (global_object.vm().exception())
return nullptr;
return js_string(global_object.heap(), string);
}
String Value::to_string(GlobalObject& global_object, bool legacy_null_to_empty_string) const
{
switch (m_type) {
case Type::Undefined:
return "undefined";
case Type::Null:
return !legacy_null_to_empty_string ? "null" : String::empty();
case Type::Boolean:
return m_value.as_bool ? "true" : "false";
case Type::Number:
return double_to_string(m_value.as_double);
case Type::String:
return m_value.as_string->string();
case Type::Symbol:
global_object.vm().throw_exception<TypeError>(global_object, ErrorType::Convert, "symbol", "string");
return {};
case Type::BigInt:
return m_value.as_bigint->big_integer().to_base10();
case Type::Object: {
auto primitive_value = to_primitive(PreferredType::String);
if (global_object.vm().exception())
return {};
return primitive_value.to_string(global_object);
}
default:
ASSERT_NOT_REACHED();
}
}
bool Value::to_boolean() const
{
switch (m_type) {
case Type::Undefined:
case Type::Null:
return false;
case Type::Boolean:
return m_value.as_bool;
case Type::Number:
if (is_nan())
return false;
return m_value.as_double != 0;
case Type::String:
return !m_value.as_string->string().is_empty();
case Type::Symbol:
return true;
case Type::BigInt:
return m_value.as_bigint->big_integer() != BIGINT_ZERO;
case Type::Object:
return true;
default:
ASSERT_NOT_REACHED();
}
}
Value Value::to_primitive(PreferredType preferred_type) const
{
if (is_object()) {
// FIXME: Also support @@toPrimitive
if (preferred_type == PreferredType::Default)
preferred_type = PreferredType::Number;
return as_object().ordinary_to_primitive(preferred_type);
}
return *this;
}
Object* Value::to_object(GlobalObject& global_object) const
{
switch (m_type) {
case Type::Undefined:
case Type::Null:
global_object.vm().throw_exception<TypeError>(global_object, ErrorType::ToObjectNullOrUndef);
return nullptr;
case Type::Boolean:
return BooleanObject::create(global_object, m_value.as_bool);
case Type::Number:
return NumberObject::create(global_object, m_value.as_double);
case Type::String:
return StringObject::create(global_object, *m_value.as_string);
case Type::Symbol:
return SymbolObject::create(global_object, *m_value.as_symbol);
case Type::BigInt:
return BigIntObject::create(global_object, *m_value.as_bigint);
case Type::Object:
return &const_cast<Object&>(as_object());
default:
dbgln("Dying because I can't to_object() on {}", *this);
ASSERT_NOT_REACHED();
}
}
Value Value::to_numeric(GlobalObject& global_object) const
{
auto primitive = to_primitive(Value::PreferredType::Number);
if (global_object.vm().exception())
return {};
if (primitive.is_bigint())
return primitive;
return primitive.to_number(global_object);
}
Value Value::to_number(GlobalObject& global_object) const
{
switch (m_type) {
case Type::Undefined:
return js_nan();
case Type::Null:
return Value(0);
case Type::Boolean:
return Value(m_value.as_bool ? 1 : 0);
case Type::Number:
return Value(m_value.as_double);
case Type::String: {
auto string = as_string().string().trim_whitespace();
if (string.is_empty())
return Value(0);
if (string == "Infinity" || string == "+Infinity")
return js_infinity();
if (string == "-Infinity")
return js_negative_infinity();
char* endptr;
auto parsed_double = strtod(string.characters(), &endptr);
if (*endptr)
return js_nan();
return Value(parsed_double);
}
case Type::Symbol:
global_object.vm().throw_exception<TypeError>(global_object, ErrorType::Convert, "symbol", "number");
return {};
case Type::BigInt:
global_object.vm().throw_exception<TypeError>(global_object, ErrorType::Convert, "BigInt", "number");
return {};
case Type::Object: {
auto primitive = to_primitive(PreferredType::Number);
if (global_object.vm().exception())
return {};
return primitive.to_number(global_object);
}
default:
ASSERT_NOT_REACHED();
}
}
BigInt* Value::to_bigint(GlobalObject& global_object) const
{
auto& vm = global_object.vm();
auto primitive = to_primitive(PreferredType::Number);
if (vm.exception())
return nullptr;
switch (primitive.type()) {
case Type::Undefined:
vm.throw_exception<TypeError>(global_object, ErrorType::Convert, "undefined", "BigInt");
return nullptr;
case Type::Null:
vm.throw_exception<TypeError>(global_object, ErrorType::Convert, "null", "BigInt");
return nullptr;
case Type::Boolean: {
auto value = primitive.as_bool() ? 1 : 0;
return js_bigint(vm.heap(), Crypto::SignedBigInteger { value });
}
case Type::BigInt:
return &primitive.as_bigint();
case Type::Number:
vm.throw_exception<TypeError>(global_object, ErrorType::Convert, "number", "BigInt");
return {};
case Type::String: {
auto& string = primitive.as_string().string();
if (!is_valid_bigint_value(string)) {
vm.throw_exception<SyntaxError>(global_object, ErrorType::BigIntInvalidValue, string);
return {};
}
return js_bigint(vm.heap(), Crypto::SignedBigInteger::from_base10(string.trim_whitespace()));
}
case Type::Symbol:
vm.throw_exception<TypeError>(global_object, ErrorType::Convert, "symbol", "BigInt");
return {};
default:
ASSERT_NOT_REACHED();
}
}
i32 Value::as_i32() const
{
return static_cast<i32>(as_double());
}
size_t Value::as_size_t() const
{
ASSERT(as_double() >= 0);
return min((double)as_i32(), MAX_ARRAY_LIKE_INDEX);
}
double Value::to_double(GlobalObject& global_object) const
{
auto number = to_number(global_object);
if (global_object.vm().exception())
return 0;
return number.as_double();
}
i32 Value::to_i32(GlobalObject& global_object) const
{
auto number = to_number(global_object);
if (global_object.vm().exception())
return 0;
if (number.is_nan() || number.is_infinity())
return 0;
return number.as_i32();
}
size_t Value::to_size_t(GlobalObject& global_object) const
{
// FIXME: Replace uses of this function with to_length/to_index for correct behaviour and remove this eventually.
if (is_empty())
return 0;
auto number = to_number(global_object);
if (global_object.vm().exception())
return INVALID;
if (number.is_nan())
return 0;
if (number.as_double() <= 0)
return 0;
return number.as_size_t();
}
size_t Value::to_length(GlobalObject& global_object) const
{
// 7.1.20 ToLength, https://tc39.es/ecma262/#sec-tolength
auto& vm = global_object.vm();
auto len = to_integer_or_infinity(global_object);
if (vm.exception())
return INVALID;
if (len <= 0)
return 0;
return min(len, MAX_ARRAY_LIKE_INDEX);
}
size_t Value::to_index(GlobalObject& global_object) const
{
// 7.1.22 ToIndex, https://tc39.es/ecma262/#sec-toindex
auto& vm = global_object.vm();
if (is_undefined())
return 0;
auto integer_index = to_integer_or_infinity(global_object);
if (vm.exception())
return INVALID;
if (integer_index < 0) {
vm.throw_exception<RangeError>(global_object, ErrorType::InvalidIndex);
return INVALID;
}
auto index = Value(integer_index).to_length(global_object);
ASSERT(!vm.exception());
if (integer_index != index) {
vm.throw_exception<RangeError>(global_object, ErrorType::InvalidIndex);
return INVALID;
}
return index;
}
double Value::to_integer_or_infinity(GlobalObject& global_object) const
{
// 7.1.5 ToIntegerOrInfinity, https://tc39.es/ecma262/#sec-tointegerorinfinity
auto& vm = global_object.vm();
auto number = to_number(global_object);
if (vm.exception())
return INVALID;
if (number.is_nan() || number.as_double() == 0)
return 0;
if (number.is_infinity())
return number.as_double();
auto integer = floor(abs(number.as_double()));
if (number.as_double() < 0)
integer = -integer;
return integer;
}
Value greater_than(GlobalObject& global_object, Value lhs, Value rhs)
{
TriState relation = abstract_relation(global_object, false, lhs, rhs);
if (relation == TriState::Unknown)
return Value(false);
return Value(relation == TriState::True);
}
Value greater_than_equals(GlobalObject& global_object, Value lhs, Value rhs)
{
TriState relation = abstract_relation(global_object, true, lhs, rhs);
if (relation == TriState::Unknown || relation == TriState::True)
return Value(false);
return Value(true);
}
Value less_than(GlobalObject& global_object, Value lhs, Value rhs)
{
TriState relation = abstract_relation(global_object, true, lhs, rhs);
if (relation == TriState::Unknown)
return Value(false);
return Value(relation == TriState::True);
}
Value less_than_equals(GlobalObject& global_object, Value lhs, Value rhs)
{
TriState relation = abstract_relation(global_object, false, lhs, rhs);
if (relation == TriState::Unknown || relation == TriState::True)
return Value(false);
return Value(true);
}
Value bitwise_and(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (!lhs_numeric.is_finite_number() || !rhs_numeric.is_finite_number())
return Value(0);
return Value((i32)lhs_numeric.as_double() & (i32)rhs_numeric.as_double());
}
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().bitwise_and(rhs_numeric.as_bigint().big_integer()));
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "bitwise AND");
return {};
}
Value bitwise_or(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (!lhs_numeric.is_finite_number() && !rhs_numeric.is_finite_number())
return Value(0);
if (!lhs_numeric.is_finite_number())
return rhs_numeric;
if (!rhs_numeric.is_finite_number())
return lhs_numeric;
return Value((i32)lhs_numeric.as_double() | (i32)rhs_numeric.as_double());
}
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().bitwise_or(rhs_numeric.as_bigint().big_integer()));
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "bitwise OR");
return {};
}
Value bitwise_xor(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (!lhs_numeric.is_finite_number() && !rhs_numeric.is_finite_number())
return Value(0);
if (!lhs_numeric.is_finite_number())
return rhs_numeric;
if (!rhs_numeric.is_finite_number())
return lhs_numeric;
return Value((i32)lhs_numeric.as_double() ^ (i32)rhs_numeric.as_double());
}
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().bitwise_xor(rhs_numeric.as_bigint().big_integer()));
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "bitwise XOR");
return {};
}
Value bitwise_not(GlobalObject& global_object, Value lhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (lhs_numeric.is_number())
return Value(~(i32)lhs_numeric.as_double());
auto big_integer_bitwise_not = lhs_numeric.as_bigint().big_integer();
big_integer_bitwise_not = big_integer_bitwise_not.plus(Crypto::SignedBigInteger { 1 });
big_integer_bitwise_not.negate();
return js_bigint(global_object.heap(), big_integer_bitwise_not);
}
Value unary_plus(GlobalObject& global_object, Value lhs)
{
return lhs.to_number(global_object.global_object());
}
Value unary_minus(GlobalObject& global_object, Value lhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (lhs_numeric.is_number()) {
if (lhs_numeric.is_nan())
return js_nan();
return Value(-lhs_numeric.as_double());
}
if (lhs_numeric.as_bigint().big_integer() == BIGINT_ZERO)
return js_bigint(global_object.heap(), BIGINT_ZERO);
auto big_integer_negated = lhs_numeric.as_bigint().big_integer();
big_integer_negated.negate();
return js_bigint(global_object.heap(), big_integer_negated);
}
Value left_shift(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (!lhs_numeric.is_finite_number())
return Value(0);
if (!rhs_numeric.is_finite_number())
return lhs_numeric;
return Value((i32)lhs_numeric.as_double() << (i32)rhs_numeric.as_double());
}
if (both_bigint(lhs_numeric, rhs_numeric))
TODO();
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "left-shift");
return {};
}
Value right_shift(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (!lhs_numeric.is_finite_number())
return Value(0);
if (!rhs_numeric.is_finite_number())
return lhs_numeric;
return Value((i32)lhs_numeric.as_double() >> (i32)rhs_numeric.as_double());
}
if (both_bigint(lhs_numeric, rhs_numeric))
TODO();
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "right-shift");
return {};
}
Value unsigned_right_shift(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (!lhs_numeric.is_finite_number())
return Value(0);
if (!rhs_numeric.is_finite_number())
return lhs_numeric;
return Value((unsigned)lhs_numeric.as_double() >> (i32)rhs_numeric.as_double());
}
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperator, "unsigned right-shift");
return {};
}
Value add(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_primitive = lhs.to_primitive();
if (global_object.vm().exception())
return {};
auto rhs_primitive = rhs.to_primitive();
if (global_object.vm().exception())
return {};
if (lhs_primitive.is_string() || rhs_primitive.is_string()) {
auto lhs_string = lhs_primitive.to_string(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_string = rhs_primitive.to_string(global_object.global_object());
if (global_object.vm().exception())
return {};
StringBuilder builder(lhs_string.length() + rhs_string.length());
builder.append(lhs_string);
builder.append(rhs_string);
return js_string(global_object.heap(), builder.to_string());
}
auto lhs_numeric = lhs_primitive.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs_primitive.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric))
return Value(lhs_numeric.as_double() + rhs_numeric.as_double());
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().plus(rhs_numeric.as_bigint().big_integer()));
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "addition");
return {};
}
Value sub(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric))
return Value(lhs_numeric.as_double() - rhs_numeric.as_double());
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().minus(rhs_numeric.as_bigint().big_integer()));
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "subtraction");
return {};
}
Value mul(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric))
return Value(lhs_numeric.as_double() * rhs_numeric.as_double());
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().multiplied_by(rhs_numeric.as_bigint().big_integer()));
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "multiplication");
return {};
}
Value div(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric))
return Value(lhs_numeric.as_double() / rhs_numeric.as_double());
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().divided_by(rhs_numeric.as_bigint().big_integer()).quotient);
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "division");
return {};
}
Value mod(GlobalObject& global_object, Value lhs, Value rhs)
{
auto lhs_numeric = lhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (both_number(lhs_numeric, rhs_numeric)) {
if (lhs_numeric.is_nan() || rhs_numeric.is_nan())
return js_nan();
auto index = lhs_numeric.as_double();
auto period = rhs_numeric.as_double();
auto trunc = (double)(i32)(index / period);
return Value(index - trunc * period);
}
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(global_object.heap(), lhs_numeric.as_bigint().big_integer().divided_by(rhs_numeric.as_bigint().big_integer()).remainder);
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::BigIntBadOperatorOtherType, "modulo");
return {};
}
Value exp(GlobalObject& global_object, Value lhs, Value rhs)
{
auto& vm = global_object.vm();
auto lhs_numeric = lhs.to_numeric(global_object);
if (vm.exception())
return {};
auto rhs_numeric = rhs.to_numeric(global_object);
if (vm.exception())
return {};
if (both_number(lhs_numeric, rhs_numeric))
return Value(pow(lhs_numeric.as_double(), rhs_numeric.as_double()));
if (both_bigint(lhs_numeric, rhs_numeric))
return js_bigint(vm.heap(), Crypto::NumberTheory::Power(lhs_numeric.as_bigint().big_integer(), rhs_numeric.as_bigint().big_integer()));
vm.throw_exception<TypeError>(global_object, ErrorType::BigIntBadOperatorOtherType, "exponentiation");
return {};
}
Value in(GlobalObject& global_object, Value lhs, Value rhs)
{
if (!rhs.is_object()) {
global_object.vm().throw_exception<TypeError>(global_object.global_object(), ErrorType::InOperatorWithObject);
return {};
}
auto lhs_string = lhs.to_string(global_object.global_object());
if (global_object.vm().exception())
return {};
return Value(rhs.as_object().has_property(lhs_string));
}
Value instance_of(GlobalObject& global_object, Value lhs, Value rhs)
{
auto& vm = global_object.vm();
if (!rhs.is_object()) {
vm.throw_exception<TypeError>(global_object, ErrorType::NotAnObject, rhs.to_string_without_side_effects());
return {};
}
auto has_instance_method = rhs.as_object().get(vm.well_known_symbol_has_instance());
if (!has_instance_method.is_empty()) {
if (!has_instance_method.is_function()) {
vm.throw_exception<TypeError>(global_object, ErrorType::NotAFunction, has_instance_method.to_string_without_side_effects());
return {};
}
auto has_instance_result = vm.call(has_instance_method.as_function(), rhs, lhs);
if (vm.exception())
return {};
return Value(has_instance_result.to_boolean());
}
if (!rhs.is_function()) {
vm.throw_exception<TypeError>(global_object, ErrorType::NotAFunction, rhs.to_string_without_side_effects());
return {};
}
return ordinary_has_instance(global_object, lhs, rhs);
}
Value ordinary_has_instance(GlobalObject& global_object, Value lhs, Value rhs)
{
auto& vm = global_object.vm();
if (!rhs.is_function())
return Value(false);
auto& rhs_function = rhs.as_function();
if (rhs_function.is_bound_function()) {
auto& bound_target = static_cast<BoundFunction&>(rhs_function);
return instance_of(global_object, lhs, Value(&bound_target.target_function()));
}
if (!lhs.is_object())
return Value(false);
Object* lhs_object = &lhs.as_object();
auto rhs_prototype = rhs_function.get(vm.names.prototype);
if (vm.exception())
return {};
if (!rhs_prototype.is_object()) {
vm.throw_exception<TypeError>(global_object, ErrorType::InstanceOfOperatorBadPrototype, rhs.to_string_without_side_effects());
return {};
}
while (true) {
lhs_object = lhs_object->prototype();
if (vm.exception())
return {};
if (!lhs_object)
return Value(false);
if (same_value(rhs_prototype, lhs_object))
return Value(true);
}
}
bool same_value(Value lhs, Value rhs)
{
if (lhs.type() != rhs.type())
return false;
if (lhs.is_number()) {
if (lhs.is_nan() && rhs.is_nan())
return true;
if (lhs.is_positive_zero() && rhs.is_negative_zero())
return false;
if (lhs.is_negative_zero() && rhs.is_positive_zero())
return false;
return lhs.as_double() == rhs.as_double();
}
if (lhs.is_bigint()) {
auto lhs_big_integer = lhs.as_bigint().big_integer();
auto rhs_big_integer = rhs.as_bigint().big_integer();
if (lhs_big_integer == BIGINT_ZERO && rhs_big_integer == BIGINT_ZERO && lhs_big_integer.is_negative() != rhs_big_integer.is_negative())
return false;
return lhs_big_integer == rhs_big_integer;
}
return same_value_non_numeric(lhs, rhs);
}
bool same_value_zero(Value lhs, Value rhs)
{
if (lhs.type() != rhs.type())
return false;
if (lhs.is_number()) {
if (lhs.is_nan() && rhs.is_nan())
return true;
return lhs.as_double() == rhs.as_double();
}
if (lhs.is_bigint())
return lhs.as_bigint().big_integer() == rhs.as_bigint().big_integer();
return same_value_non_numeric(lhs, rhs);
}
bool same_value_non_numeric(Value lhs, Value rhs)
{
ASSERT(!lhs.is_number() && !lhs.is_bigint());
ASSERT(lhs.type() == rhs.type());
switch (lhs.type()) {
case Value::Type::Undefined:
case Value::Type::Null:
return true;
case Value::Type::String:
return lhs.as_string().string() == rhs.as_string().string();
case Value::Type::Symbol:
return &lhs.as_symbol() == &rhs.as_symbol();
case Value::Type::Boolean:
return lhs.as_bool() == rhs.as_bool();
case Value::Type::Object:
return &lhs.as_object() == &rhs.as_object();
default:
ASSERT_NOT_REACHED();
}
}
bool strict_eq(Value lhs, Value rhs)
{
if (lhs.type() != rhs.type())
return false;
if (lhs.is_number()) {
if (lhs.is_nan() || rhs.is_nan())
return false;
if (lhs.as_double() == rhs.as_double())
return true;
return false;
}
if (lhs.is_bigint())
return lhs.as_bigint().big_integer() == rhs.as_bigint().big_integer();
return same_value_non_numeric(lhs, rhs);
}
bool abstract_eq(GlobalObject& global_object, Value lhs, Value rhs)
{
if (lhs.type() == rhs.type())
return strict_eq(lhs, rhs);
if (lhs.is_nullish() && rhs.is_nullish())
return true;
if (lhs.is_number() && rhs.is_string())
return abstract_eq(global_object, lhs, rhs.to_number(global_object.global_object()));
if (lhs.is_string() && rhs.is_number())
return abstract_eq(global_object, lhs.to_number(global_object.global_object()), rhs);
if (lhs.is_bigint() && rhs.is_string()) {
auto& rhs_string = rhs.as_string().string();
if (!is_valid_bigint_value(rhs_string))
return false;
return abstract_eq(global_object, lhs, js_bigint(global_object.heap(), Crypto::SignedBigInteger::from_base10(rhs_string)));
}
if (lhs.is_string() && rhs.is_bigint())
return abstract_eq(global_object, rhs, lhs);
if (lhs.is_boolean())
return abstract_eq(global_object, lhs.to_number(global_object.global_object()), rhs);
if (rhs.is_boolean())
return abstract_eq(global_object, lhs, rhs.to_number(global_object.global_object()));
if ((lhs.is_string() || lhs.is_number() || lhs.is_bigint() || lhs.is_symbol()) && rhs.is_object())
return abstract_eq(global_object, lhs, rhs.to_primitive());
if (lhs.is_object() && (rhs.is_string() || rhs.is_number() || lhs.is_bigint() || rhs.is_symbol()))
return abstract_eq(global_object, lhs.to_primitive(), rhs);
if ((lhs.is_bigint() && rhs.is_number()) || (lhs.is_number() && rhs.is_bigint())) {
if (lhs.is_nan() || lhs.is_infinity() || rhs.is_nan() || rhs.is_infinity())
return false;
if ((lhs.is_number() && !lhs.is_integer()) || (rhs.is_number() && !rhs.is_integer()))
return false;
if (lhs.is_number())
return Crypto::SignedBigInteger { lhs.as_i32() } == rhs.as_bigint().big_integer();
else
return Crypto::SignedBigInteger { rhs.as_i32() } == lhs.as_bigint().big_integer();
}
return false;
}
TriState abstract_relation(GlobalObject& global_object, bool left_first, Value lhs, Value rhs)
{
Value x_primitive;
Value y_primitive;
if (left_first) {
x_primitive = lhs.to_primitive(Value::PreferredType::Number);
if (global_object.vm().exception())
return {};
y_primitive = rhs.to_primitive(Value::PreferredType::Number);
if (global_object.vm().exception())
return {};
} else {
y_primitive = lhs.to_primitive(Value::PreferredType::Number);
if (global_object.vm().exception())
return {};
x_primitive = rhs.to_primitive(Value::PreferredType::Number);
if (global_object.vm().exception())
return {};
}
if (x_primitive.is_string() && y_primitive.is_string()) {
auto x_string = x_primitive.as_string().string();
auto y_string = y_primitive.as_string().string();
if (x_string.starts_with(y_string))
return TriState::False;
if (y_string.starts_with(x_string))
return TriState::True;
Utf8View x_code_points { x_string };
Utf8View y_code_points { y_string };
for (auto k = x_code_points.begin(), l = y_code_points.begin();
k != x_code_points.end() && l != y_code_points.end();
++k, ++l) {
if (*k != *l) {
if (*k < *l) {
return TriState::True;
} else {
return TriState::False;
}
}
}
ASSERT_NOT_REACHED();
}
if (x_primitive.is_bigint() && y_primitive.is_string()) {
auto& y_string = y_primitive.as_string().string();
if (!is_valid_bigint_value(y_string))
return TriState::Unknown;
if (x_primitive.as_bigint().big_integer() < Crypto::SignedBigInteger::from_base10(y_string))
return TriState::True;
else
return TriState::False;
}
if (x_primitive.is_string() && y_primitive.is_bigint()) {
auto& x_string = x_primitive.as_string().string();
if (!is_valid_bigint_value(x_string))
return TriState::Unknown;
if (Crypto::SignedBigInteger::from_base10(x_string) < y_primitive.as_bigint().big_integer())
return TriState::True;
else
return TriState::False;
}
auto x_numeric = x_primitive.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
auto y_numeric = y_primitive.to_numeric(global_object.global_object());
if (global_object.vm().exception())
return {};
if (x_numeric.is_nan() || y_numeric.is_nan())
return TriState::Unknown;
if (x_numeric.is_positive_infinity() || y_numeric.is_negative_infinity())
return TriState::False;
if (x_numeric.is_negative_infinity() || y_numeric.is_positive_infinity())
return TriState::True;
if (x_numeric.is_number() && y_numeric.is_number()) {
if (x_numeric.as_double() < y_numeric.as_double())
return TriState::True;
else
return TriState::False;
}
if (x_numeric.is_bigint() && y_numeric.is_bigint()) {
if (x_numeric.as_bigint().big_integer() < y_numeric.as_bigint().big_integer())
return TriState::True;
else
return TriState::False;
}
ASSERT((x_numeric.is_number() && y_numeric.is_bigint()) || (x_numeric.is_bigint() && y_numeric.is_number()));
bool x_lower_than_y;
if (x_numeric.is_number()) {
x_lower_than_y = x_numeric.is_integer()
? Crypto::SignedBigInteger { x_numeric.as_i32() } < y_numeric.as_bigint().big_integer()
: (Crypto::SignedBigInteger { x_numeric.as_i32() } < y_numeric.as_bigint().big_integer() || Crypto::SignedBigInteger { x_numeric.as_i32() + 1 } < y_numeric.as_bigint().big_integer());
} else {
x_lower_than_y = y_numeric.is_integer()
? x_numeric.as_bigint().big_integer() < Crypto::SignedBigInteger { y_numeric.as_i32() }
: (x_numeric.as_bigint().big_integer() < Crypto::SignedBigInteger { y_numeric.as_i32() } || x_numeric.as_bigint().big_integer() < Crypto::SignedBigInteger { y_numeric.as_i32() + 1 });
}
if (x_lower_than_y)
return TriState::True;
else
return TriState::False;
}
size_t length_of_array_like(GlobalObject& global_object, Value value)
{
ASSERT(value.is_object());
auto& vm = global_object.vm();
auto result = value.as_object().get(vm.names.length);
if (vm.exception())
return 0;
return result.to_size_t(global_object);
}
}
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