/* * Copyright (c) 2020, Andreas Kling * Copyright (c) 2020-2022, Linus Groh * Copyright (c) 2022, David Tuin * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace JS { static inline bool same_type_for_equality(Value const& lhs, Value const& rhs) { // If the top two bytes are identical then either: // both are NaN boxed Values with the same type // or they are doubles which happen to have the same top bytes. if ((lhs.encoded() & TAG_EXTRACTION) == (rhs.encoded() & TAG_EXTRACTION)) return true; if (lhs.is_number() && rhs.is_number()) return true; // One of the Values is not a number and they do not have the same tag return false; } static const Crypto::SignedBigInteger BIGINT_ZERO { 0 }; ALWAYS_INLINE bool both_number(Value const& lhs, Value const& rhs) { return lhs.is_number() && rhs.is_number(); } ALWAYS_INLINE bool both_bigint(Value const& lhs, Value const& rhs) { return lhs.is_bigint() && rhs.is_bigint(); } // 6.1.6.1.20 Number::toString ( x ), https://tc39.es/ecma262/#sec-numeric-types-number-tostring // Implementation for radix = 10 DeprecatedString number_to_string(double d, NumberToStringMode mode) { auto convert_to_decimal_digits_array = [](auto x, auto& digits, auto& length) { for (; x; x /= 10) digits[length++] = x % 10 | '0'; for (i32 i = 0; 2 * i + 1 < length; ++i) swap(digits[i], digits[length - i - 1]); }; // 1. If x is NaN, return "NaN". if (isnan(d)) return "NaN"; // 2. If x is +0𝔽 or -0𝔽, return "0". if (d == +0.0 || d == -0.0) return "0"; // 4. If x is +∞𝔽, return "Infinity". if (isinf(d)) { if (d > 0) return "Infinity"; else return "-Infinity"; } StringBuilder builder; // 5. Let n, k, and s be integers such that k ≥ 1, radix ^ (k - 1) ≤ s < radix ^ k, // 𝔽(s × radix ^ (n - k)) is x, and k is as small as possible. Note that k is the number of // digits in the representation of s using radix radix, that s is not divisible by radix, and // that the least significant digit of s is not necessarily uniquely determined by these criteria. // // Note: guarantees provided by convert_floating_point_to_decimal_exponential_form satisfy // requirements of NOTE 2. auto [sign, mantissa, exponent] = convert_floating_point_to_decimal_exponential_form(d); i32 k = 0; AK::Array mantissa_digits; convert_to_decimal_digits_array(mantissa, mantissa_digits, k); i32 n = exponent + k; // s = mantissa // 3. If x < -0𝔽, return the string-concatenation of "-" and Number::toString(-x, radix). if (sign) builder.append('-'); // Non-standard: Intl needs number-to-string conversions for extremely large numbers without any // exponential formatting, as it will handle such formatting itself in a locale-aware way. bool force_no_exponent = mode == NumberToStringMode::WithoutExponent; // 6. If radix ≠ 10 or n is in the inclusive interval from -5 to 21, then if ((n >= -5 && n <= 21) || force_no_exponent) { // a. If n ≥ k, then if (n >= k) { // i. Return the string-concatenation of: // the code units of the k digits of the representation of s using radix radix builder.append(mantissa_digits.data(), k); // n - k occurrences of the code unit 0x0030 (DIGIT ZERO) builder.append_repeated('0', n - k); // b. Else if n > 0, then } else if (n > 0) { // i. Return the string-concatenation of: // the code units of the most significant n digits of the representation of s using radix radix builder.append(mantissa_digits.data(), n); // the code unit 0x002E (FULL STOP) builder.append('.'); // the code units of the remaining k - n digits of the representation of s using radix radix builder.append(mantissa_digits.data() + n, k - n); // c. Else, } else { // i. Assert: n ≤ 0. VERIFY(n <= 0); // ii. Return the string-concatenation of: // the code unit 0x0030 (DIGIT ZERO) builder.append('0'); // the code unit 0x002E (FULL STOP) builder.append('.'); // -n occurrences of the code unit 0x0030 (DIGIT ZERO) builder.append_repeated('0', -n); // the code units of the k digits of the representation of s using radix radix builder.append(mantissa_digits.data(), k); } return builder.to_deprecated_string(); } // 7. NOTE: In this case, the input will be represented using scientific E notation, such as 1.2e+3. // 9. If n < 0, then // a. Let exponentSign be the code unit 0x002D (HYPHEN-MINUS). // 10. Else, // a. Let exponentSign be the code unit 0x002B (PLUS SIGN). char exponent_sign = n < 0 ? '-' : '+'; AK::Array exponent_digits; i32 exponent_length = 0; convert_to_decimal_digits_array(abs(n - 1), exponent_digits, exponent_length); // 11. If k is 1, then if (k == 1) { // a. Return the string-concatenation of: // the code unit of the single digit of s builder.append(mantissa_digits[0]); // the code unit 0x0065 (LATIN SMALL LETTER E) builder.append('e'); // exponentSign builder.append(exponent_sign); // the code units of the decimal representation of abs(n - 1) builder.append(exponent_digits.data(), exponent_length); return builder.to_deprecated_string(); } // 12. Return the string-concatenation of: // the code unit of the most significant digit of the decimal representation of s builder.append(mantissa_digits[0]); // the code unit 0x002E (FULL STOP) builder.append('.'); // the code units of the remaining k - 1 digits of the decimal representation of s builder.append(mantissa_digits.data() + 1, k - 1); // the code unit 0x0065 (LATIN SMALL LETTER E) builder.append('e'); // exponentSign builder.append(exponent_sign); // the code units of the decimal representation of abs(n - 1) builder.append(exponent_digits.data(), exponent_length); return builder.to_deprecated_string(); } // 7.2.2 IsArray ( argument ), https://tc39.es/ecma262/#sec-isarray ThrowCompletionOr Value::is_array(VM& vm) const { if (!is_object()) return false; auto& object = as_object(); if (is(object)) return true; if (is(object)) { auto& proxy = static_cast(object); if (proxy.is_revoked()) return vm.throw_completion(ErrorType::ProxyRevoked); return Value(&proxy.target()).is_array(vm); } return false; } Array& Value::as_array() { VERIFY(is_object() && is(as_object())); return static_cast(as_object()); } // 7.2.3 IsCallable ( argument ), https://tc39.es/ecma262/#sec-iscallable bool Value::is_function() const { return is_object() && as_object().is_function(); } FunctionObject& Value::as_function() { VERIFY(is_function()); return static_cast(as_object()); } FunctionObject const& Value::as_function() const { VERIFY(is_function()); return static_cast(as_object()); } // 7.2.4 IsConstructor ( argument ), https://tc39.es/ecma262/#sec-isconstructor bool Value::is_constructor() const { // 1. If Type(argument) is not Object, return false. if (!is_function()) return false; // 2. If argument has a [[Construct]] internal method, return true. if (as_function().has_constructor()) return true; // 3. Return false. return false; } // 7.2.8 IsRegExp ( argument ), https://tc39.es/ecma262/#sec-isregexp ThrowCompletionOr Value::is_regexp(VM& vm) const { if (!is_object()) return false; auto matcher = TRY(as_object().get(*vm.well_known_symbol_match())); if (!matcher.is_undefined()) return matcher.to_boolean(); return is(as_object()); } // 13.5.3 The typeof Operator, https://tc39.es/ecma262/#sec-typeof-operator DeprecatedString Value::typeof() const { if (is_number()) return "number"; switch (m_value.tag) { case UNDEFINED_TAG: return "undefined"; case NULL_TAG: return "object"; case STRING_TAG: return "string"; case OBJECT_TAG: // B.3.7.3 Changes to the typeof Operator, https://tc39.es/ecma262/#sec-IsHTMLDDA-internal-slot-typeof if (as_object().is_htmldda()) return "undefined"; if (is_function()) return "function"; return "object"; case BOOLEAN_TAG: return "boolean"; case SYMBOL_TAG: return "symbol"; case BIGINT_TAG: return "bigint"; default: VERIFY_NOT_REACHED(); } } DeprecatedString Value::to_string_without_side_effects() const { if (is_double()) return number_to_string(m_value.as_double); switch (m_value.tag) { case UNDEFINED_TAG: return "undefined"; case NULL_TAG: return "null"; case BOOLEAN_TAG: return as_bool() ? "true" : "false"; case INT32_TAG: return DeprecatedString::number(as_i32()); case STRING_TAG: return as_string().deprecated_string(); case SYMBOL_TAG: return as_symbol().to_deprecated_string(); case BIGINT_TAG: return as_bigint().to_deprecated_string(); case OBJECT_TAG: return DeprecatedString::formatted("[object {}]", as_object().class_name()); case ACCESSOR_TAG: return ""; default: VERIFY_NOT_REACHED(); } } ThrowCompletionOr Value::to_primitive_string(VM& vm) { if (is_string()) return &as_string(); auto string = TRY(to_string(vm)); return js_string(vm, string); } // 7.1.17 ToString ( argument ), https://tc39.es/ecma262/#sec-tostring ThrowCompletionOr Value::to_string(VM& vm) const { if (is_double()) return number_to_string(m_value.as_double); switch (m_value.tag) { case UNDEFINED_TAG: return "undefined"sv; case NULL_TAG: return "null"sv; case BOOLEAN_TAG: return as_bool() ? "true"sv : "false"sv; case INT32_TAG: return DeprecatedString::number(as_i32()); case STRING_TAG: return as_string().deprecated_string(); case SYMBOL_TAG: return vm.throw_completion(ErrorType::Convert, "symbol", "string"); case BIGINT_TAG: return as_bigint().big_integer().to_base(10); case OBJECT_TAG: { auto primitive_value = TRY(to_primitive(vm, PreferredType::String)); return primitive_value.to_string(vm); } default: VERIFY_NOT_REACHED(); } } ThrowCompletionOr Value::to_utf16_string(VM& vm) const { if (is_string()) return as_string().utf16_string(); auto utf8_string = TRY(to_string(vm)); return Utf16String(utf8_string); } // 7.1.2 ToBoolean ( argument ), https://tc39.es/ecma262/#sec-toboolean bool Value::to_boolean() const { if (is_double()) { if (is_nan()) return false; return m_value.as_double != 0; } switch (m_value.tag) { case UNDEFINED_TAG: case NULL_TAG: return false; case BOOLEAN_TAG: return as_bool(); case INT32_TAG: return as_i32() != 0; case STRING_TAG: return !as_string().is_empty(); case SYMBOL_TAG: return true; case BIGINT_TAG: return as_bigint().big_integer() != BIGINT_ZERO; case OBJECT_TAG: // B.3.7.1 Changes to ToBoolean, https://tc39.es/ecma262/#sec-IsHTMLDDA-internal-slot-to-boolean if (as_object().is_htmldda()) return false; return true; default: VERIFY_NOT_REACHED(); } } // 7.1.1 ToPrimitive ( input [ , preferredType ] ), https://tc39.es/ecma262/#sec-toprimitive ThrowCompletionOr Value::to_primitive(VM& vm, PreferredType preferred_type) const { auto get_hint_for_preferred_type = [&]() -> DeprecatedString { switch (preferred_type) { case PreferredType::Default: return "default"; case PreferredType::String: return "string"; case PreferredType::Number: return "number"; default: VERIFY_NOT_REACHED(); } }; if (is_object()) { auto to_primitive_method = TRY(get_method(vm, *vm.well_known_symbol_to_primitive())); if (to_primitive_method) { auto hint = get_hint_for_preferred_type(); auto result = TRY(call(vm, *to_primitive_method, *this, js_string(vm, hint))); if (!result.is_object()) return result; return vm.throw_completion(ErrorType::ToPrimitiveReturnedObject, to_string_without_side_effects(), hint); } if (preferred_type == PreferredType::Default) preferred_type = PreferredType::Number; return as_object().ordinary_to_primitive(preferred_type); } return *this; } // 7.1.18 ToObject ( argument ), https://tc39.es/ecma262/#sec-toobject ThrowCompletionOr Value::to_object(VM& vm) const { auto& realm = *vm.current_realm(); VERIFY(!is_empty()); if (is_number()) return NumberObject::create(realm, as_double()); switch (m_value.tag) { case UNDEFINED_TAG: case NULL_TAG: return vm.throw_completion(ErrorType::ToObjectNullOrUndefined); case BOOLEAN_TAG: return BooleanObject::create(realm, as_bool()); case STRING_TAG: return StringObject::create(realm, const_cast(as_string()), *realm.intrinsics().string_prototype()); case SYMBOL_TAG: return SymbolObject::create(realm, const_cast(as_symbol())); case BIGINT_TAG: return BigIntObject::create(realm, const_cast(as_bigint())); case OBJECT_TAG: return &const_cast(as_object()); default: VERIFY_NOT_REACHED(); } } // 7.1.3 ToNumeric ( value ), https://tc39.es/ecma262/#sec-tonumeric FLATTEN ThrowCompletionOr Value::to_numeric(VM& vm) const { auto primitive = TRY(to_primitive(vm, Value::PreferredType::Number)); if (primitive.is_bigint()) return primitive; return primitive.to_number(vm); } constexpr bool is_ascii_number(u32 code_point) { return is_ascii_digit(code_point) || code_point == '.' || (code_point == 'e' || code_point == 'E') || code_point == '+' || code_point == '-'; } struct NumberParseResult { StringView literal; u8 base; }; static Optional parse_number_text(StringView text) { NumberParseResult result {}; auto check_prefix = [&](auto lower_prefix, auto upper_prefix) { if (text.length() <= 2) return false; if (!text.starts_with(lower_prefix) && !text.starts_with(upper_prefix)) return false; return true; }; // https://tc39.es/ecma262/#sec-tonumber-applied-to-the-string-type if (check_prefix("0b"sv, "0B"sv)) { if (!all_of(text.substring_view(2), is_ascii_binary_digit)) return {}; result.literal = text.substring_view(2); result.base = 2; } else if (check_prefix("0o"sv, "0O"sv)) { if (!all_of(text.substring_view(2), is_ascii_octal_digit)) return {}; result.literal = text.substring_view(2); result.base = 8; } else if (check_prefix("0x"sv, "0X"sv)) { if (!all_of(text.substring_view(2), is_ascii_hex_digit)) return {}; result.literal = text.substring_view(2); result.base = 16; } else { if (!all_of(text, is_ascii_number)) return {}; result.literal = text; result.base = 10; } return result; } // 7.1.4.1.1 StringToNumber ( str ), https://tc39.es/ecma262/#sec-stringtonumber Optional string_to_number(StringView string) { // 1. Let text be StringToCodePoints(str). DeprecatedString text = Utf8View(string).trim(whitespace_characters, AK::TrimMode::Both).as_string(); // 2. Let literal be ParseText(text, StringNumericLiteral). if (text.is_empty()) return Value(0); if (text == "Infinity" || text == "+Infinity") return js_infinity(); if (text == "-Infinity") return js_negative_infinity(); auto result = parse_number_text(text); // 3. If literal is a List of errors, return NaN. if (!result.has_value()) return js_nan(); // 4. Return StringNumericValue of literal. if (result->base != 10) { auto bigint = Crypto::UnsignedBigInteger::from_base(result->base, result->literal); return Value(bigint.to_double()); } auto maybe_double = text.to_double(AK::TrimWhitespace::No); if (!maybe_double.has_value()) return js_nan(); return Value(*maybe_double); } // 7.1.4 ToNumber ( argument ), https://tc39.es/ecma262/#sec-tonumber ThrowCompletionOr Value::to_number(VM& vm) const { VERIFY(!is_empty()); if (is_number()) return *this; switch (m_value.tag) { case UNDEFINED_TAG: return js_nan(); case NULL_TAG: return Value(0); case BOOLEAN_TAG: return Value(as_bool() ? 1 : 0); case STRING_TAG: return string_to_number(as_string().deprecated_string().view()); case SYMBOL_TAG: return vm.throw_completion(ErrorType::Convert, "symbol", "number"); case BIGINT_TAG: return vm.throw_completion(ErrorType::Convert, "BigInt", "number"); case OBJECT_TAG: { auto primitive = TRY(to_primitive(vm, PreferredType::Number)); return primitive.to_number(vm); } default: VERIFY_NOT_REACHED(); } } static Optional string_to_bigint(VM& vm, StringView string); // 7.1.13 ToBigInt ( argument ), https://tc39.es/ecma262/#sec-tobigint ThrowCompletionOr Value::to_bigint(VM& vm) const { auto primitive = TRY(to_primitive(vm, PreferredType::Number)); VERIFY(!primitive.is_empty()); if (primitive.is_number()) return vm.throw_completion(ErrorType::Convert, "number", "BigInt"); switch (primitive.m_value.tag) { case UNDEFINED_TAG: return vm.throw_completion(ErrorType::Convert, "undefined", "BigInt"); case NULL_TAG: return vm.throw_completion(ErrorType::Convert, "null", "BigInt"); case BOOLEAN_TAG: { auto value = primitive.as_bool() ? 1 : 0; return BigInt::create(vm, Crypto::SignedBigInteger { value }).ptr(); } case BIGINT_TAG: return &primitive.as_bigint(); case STRING_TAG: { // 1. Let n be ! StringToBigInt(prim). auto bigint = string_to_bigint(vm, primitive.as_string().deprecated_string()); // 2. If n is undefined, throw a SyntaxError exception. if (!bigint.has_value()) return vm.throw_completion(ErrorType::BigIntInvalidValue, primitive); // 3. Return n. return bigint.release_value(); } case SYMBOL_TAG: return vm.throw_completion(ErrorType::Convert, "symbol", "BigInt"); default: VERIFY_NOT_REACHED(); } } struct BigIntParseResult { StringView literal; u8 base { 10 }; bool is_negative { false }; }; static Optional parse_bigint_text(StringView text) { BigIntParseResult result {}; auto parse_for_prefixed_base = [&](auto lower_prefix, auto upper_prefix, auto validator) { if (text.length() <= 2) return false; if (!text.starts_with(lower_prefix) && !text.starts_with(upper_prefix)) return false; return all_of(text.substring_view(2), validator); }; if (parse_for_prefixed_base("0b"sv, "0B"sv, is_ascii_binary_digit)) { result.literal = text.substring_view(2); result.base = 2; } else if (parse_for_prefixed_base("0o"sv, "0O"sv, is_ascii_octal_digit)) { result.literal = text.substring_view(2); result.base = 8; } else if (parse_for_prefixed_base("0x"sv, "0X"sv, is_ascii_hex_digit)) { result.literal = text.substring_view(2); result.base = 16; } else { if (text.starts_with('-')) { text = text.substring_view(1); result.is_negative = true; } else if (text.starts_with('+')) { text = text.substring_view(1); } if (!all_of(text, is_ascii_digit)) return {}; result.literal = text; result.base = 10; } return result; } // 7.1.14 StringToBigInt ( str ), https://tc39.es/ecma262/#sec-stringtobigint static Optional string_to_bigint(VM& vm, StringView string) { // 1. Let text be StringToCodePoints(str). auto text = Utf8View(string).trim(whitespace_characters, AK::TrimMode::Both).as_string(); // 2. Let literal be ParseText(text, StringIntegerLiteral). auto result = parse_bigint_text(text); // 3. If literal is a List of errors, return undefined. if (!result.has_value()) return {}; // 4. Let mv be the MV of literal. // 5. Assert: mv is an integer. auto bigint = Crypto::SignedBigInteger::from_base(result->base, result->literal); if (result->is_negative && (bigint != BIGINT_ZERO)) bigint.negate(); // 6. Return ℤ(mv). return BigInt::create(vm, move(bigint)); } // 7.1.15 ToBigInt64 ( argument ), https://tc39.es/ecma262/#sec-tobigint64 ThrowCompletionOr Value::to_bigint_int64(VM& vm) const { auto* bigint = TRY(to_bigint(vm)); return static_cast(bigint->big_integer().to_u64()); } // 7.1.16 ToBigUint64 ( argument ), https://tc39.es/ecma262/#sec-tobiguint64 ThrowCompletionOr Value::to_bigint_uint64(VM& vm) const { auto* bigint = TRY(to_bigint(vm)); return bigint->big_integer().to_u64(); } ThrowCompletionOr Value::to_double(VM& vm) const { return TRY(to_number(vm)).as_double(); } // 7.1.19 ToPropertyKey ( argument ), https://tc39.es/ecma262/#sec-topropertykey ThrowCompletionOr Value::to_property_key(VM& vm) const { if (is_int32() && as_i32() >= 0) return PropertyKey { as_i32() }; auto key = TRY(to_primitive(vm, PreferredType::String)); if (key.is_symbol()) return &key.as_symbol(); return TRY(key.to_string(vm)); } ThrowCompletionOr Value::to_i32_slow_case(VM& vm) const { VERIFY(!is_int32()); double value = TRY(to_number(vm)).as_double(); if (!isfinite(value) || value == 0) return 0; auto abs = fabs(value); auto int_val = floor(abs); if (signbit(value)) int_val = -int_val; auto remainder = fmod(int_val, 4294967296.0); auto int32bit = remainder >= 0.0 ? remainder : remainder + 4294967296.0; // The notation “x modulo y” computes a value k of the same sign as y if (int32bit >= 2147483648.0) int32bit -= 4294967296.0; return static_cast(int32bit); } ThrowCompletionOr Value::to_i32(VM& vm) const { if (is_int32()) return as_i32(); return to_i32_slow_case(vm); } // 7.1.7 ToUint32 ( argument ), https://tc39.es/ecma262/#sec-touint32 ThrowCompletionOr Value::to_u32(VM& vm) const { double value = TRY(to_number(vm)).as_double(); if (!isfinite(value) || value == 0) return 0; auto int_val = floor(fabs(value)); if (signbit(value)) int_val = -int_val; auto int32bit = fmod(int_val, NumericLimits::max() + 1.0); // Cast to i64 here to ensure that the double --> u32 cast doesn't invoke undefined behavior // Otherwise, negative numbers cause a UBSAN warning. return static_cast(static_cast(int32bit)); } // 7.1.8 ToInt16 ( argument ), https://tc39.es/ecma262/#sec-toint16 ThrowCompletionOr Value::to_i16(VM& vm) const { double value = TRY(to_number(vm)).as_double(); if (!isfinite(value) || value == 0) return 0; auto abs = fabs(value); auto int_val = floor(abs); if (signbit(value)) int_val = -int_val; auto remainder = fmod(int_val, 65536.0); auto int16bit = remainder >= 0.0 ? remainder : remainder + 65536.0; // The notation “x modulo y” computes a value k of the same sign as y if (int16bit >= 32768.0) int16bit -= 65536.0; return static_cast(int16bit); } // 7.1.9 ToUint16 ( argument ), https://tc39.es/ecma262/#sec-touint16 ThrowCompletionOr Value::to_u16(VM& vm) const { double value = TRY(to_number(vm)).as_double(); if (!isfinite(value) || value == 0) return 0; auto int_val = floor(fabs(value)); if (signbit(value)) int_val = -int_val; auto int16bit = fmod(int_val, NumericLimits::max() + 1.0); if (int16bit < 0) int16bit += NumericLimits::max() + 1.0; return static_cast(int16bit); } // 7.1.10 ToInt8 ( argument ), https://tc39.es/ecma262/#sec-toint8 ThrowCompletionOr Value::to_i8(VM& vm) const { double value = TRY(to_number(vm)).as_double(); if (!isfinite(value) || value == 0) return 0; auto abs = fabs(value); auto int_val = floor(abs); if (signbit(value)) int_val = -int_val; auto remainder = fmod(int_val, 256.0); auto int8bit = remainder >= 0.0 ? remainder : remainder + 256.0; // The notation “x modulo y” computes a value k of the same sign as y if (int8bit >= 128.0) int8bit -= 256.0; return static_cast(int8bit); } // 7.1.11 ToUint8 ( argument ), https://tc39.es/ecma262/#sec-touint8 ThrowCompletionOr Value::to_u8(VM& vm) const { double value = TRY(to_number(vm)).as_double(); if (!isfinite(value) || value == 0) return 0; auto int_val = floor(fabs(value)); if (signbit(value)) int_val = -int_val; auto int8bit = fmod(int_val, NumericLimits::max() + 1.0); if (int8bit < 0) int8bit += NumericLimits::max() + 1.0; return static_cast(int8bit); } // 7.1.12 ToUint8Clamp ( argument ), https://tc39.es/ecma262/#sec-touint8clamp ThrowCompletionOr Value::to_u8_clamp(VM& vm) const { auto number = TRY(to_number(vm)); if (number.is_nan()) return 0; double value = number.as_double(); if (value <= 0.0) return 0; if (value >= 255.0) return 255; auto int_val = floor(value); if (int_val + 0.5 < value) return static_cast(int_val + 1.0); if (value < int_val + 0.5) return static_cast(int_val); if (fmod(int_val, 2.0) == 1.0) return static_cast(int_val + 1.0); return static_cast(int_val); } // 7.1.20 ToLength ( argument ), https://tc39.es/ecma262/#sec-tolength ThrowCompletionOr Value::to_length(VM& vm) const { auto len = TRY(to_integer_or_infinity(vm)); if (len <= 0) return 0; // FIXME: The spec says that this function's output range is 0 - 2^53-1. But we don't want to overflow the size_t. constexpr double length_limit = sizeof(void*) == 4 ? NumericLimits::max() : MAX_ARRAY_LIKE_INDEX; return min(len, length_limit); } // 7.1.22 ToIndex ( argument ), https://tc39.es/ecma262/#sec-toindex ThrowCompletionOr Value::to_index(VM& vm) const { if (is_undefined()) return 0; auto integer_index = TRY(to_integer_or_infinity(vm)); if (integer_index < 0) return vm.throw_completion(ErrorType::InvalidIndex); auto index = MUST(Value(integer_index).to_length(vm)); if (integer_index != index) return vm.throw_completion(ErrorType::InvalidIndex); return index; } // 7.1.5 ToIntegerOrInfinity ( argument ), https://tc39.es/ecma262/#sec-tointegerorinfinity ThrowCompletionOr Value::to_integer_or_infinity(VM& vm) const { auto number = TRY(to_number(vm)); if (number.is_nan() || number.as_double() == 0) return 0; if (number.is_infinity()) return number.as_double(); auto integer = floor(fabs(number.as_double())); if (number.as_double() < 0 && integer != 0) integer = -integer; return integer; } // Standalone variant using plain doubles for cases where we already got numbers and know the AO won't throw. double to_integer_or_infinity(double number) { // 1. Let number be ? ToNumber(argument). // 2. If number is NaN, +0𝔽, or -0𝔽, return 0. if (isnan(number) || number == 0) return 0; // 3. If number is +∞𝔽, return +∞. if (__builtin_isinf_sign(number) > 0) return static_cast(INFINITY); // 4. If number is -∞𝔽, return -∞. if (__builtin_isinf_sign(number) < 0) return static_cast(-INFINITY); // 5. Let integer be floor(abs(ℝ(number))). auto integer = floor(fabs(number)); // 6. If number < -0𝔽, set integer to -integer. if (number < 0 && integer != 0) integer = -integer; // 7. Return integer. return integer; } // 7.3.3 GetV ( V, P ), https://tc39.es/ecma262/#sec-getv ThrowCompletionOr Value::get(VM& vm, PropertyKey const& property_key) const { // 1. Assert: IsPropertyKey(P) is true. VERIFY(property_key.is_valid()); // 2. Let O be ? ToObject(V). auto* object = TRY(to_object(vm)); // 3. Return ? O.[[Get]](P, V). return TRY(object->internal_get(property_key, *this)); } // 7.3.11 GetMethod ( V, P ), https://tc39.es/ecma262/#sec-getmethod ThrowCompletionOr Value::get_method(VM& vm, PropertyKey const& property_key) const { // 1. Assert: IsPropertyKey(P) is true. VERIFY(property_key.is_valid()); // 2. Let func be ? GetV(V, P). auto function = TRY(get(vm, property_key)); // 3. If func is either undefined or null, return undefined. if (function.is_nullish()) return nullptr; // 4. If IsCallable(func) is false, throw a TypeError exception. if (!function.is_function()) return vm.throw_completion(ErrorType::NotAFunction, function.to_string_without_side_effects()); // 5. Return func. return &function.as_function(); } // 13.10 Relational Operators, https://tc39.es/ecma262/#sec-relational-operators ThrowCompletionOr greater_than(VM& vm, Value lhs, Value rhs) { if (lhs.is_int32() && rhs.is_int32()) return lhs.as_i32() > rhs.as_i32(); TriState relation = TRY(is_less_than(vm, lhs, rhs, false)); if (relation == TriState::Unknown) return Value(false); return Value(relation == TriState::True); } // 13.10 Relational Operators, https://tc39.es/ecma262/#sec-relational-operators ThrowCompletionOr greater_than_equals(VM& vm, Value lhs, Value rhs) { if (lhs.is_int32() && rhs.is_int32()) return lhs.as_i32() >= rhs.as_i32(); TriState relation = TRY(is_less_than(vm, lhs, rhs, true)); if (relation == TriState::Unknown || relation == TriState::True) return Value(false); return Value(true); } // 13.10 Relational Operators, https://tc39.es/ecma262/#sec-relational-operators ThrowCompletionOr less_than(VM& vm, Value lhs, Value rhs) { if (lhs.is_int32() && rhs.is_int32()) return lhs.as_i32() < rhs.as_i32(); TriState relation = TRY(is_less_than(vm, lhs, rhs, true)); if (relation == TriState::Unknown) return Value(false); return Value(relation == TriState::True); } // 13.10 Relational Operators, https://tc39.es/ecma262/#sec-relational-operators ThrowCompletionOr less_than_equals(VM& vm, Value lhs, Value rhs) { if (lhs.is_int32() && rhs.is_int32()) return lhs.as_i32() <= rhs.as_i32(); TriState relation = TRY(is_less_than(vm, lhs, rhs, false)); if (relation == TriState::Unknown || relation == TriState::True) return Value(false); return Value(true); } // 13.12 Binary Bitwise Operators, https://tc39.es/ecma262/#sec-binary-bitwise-operators ThrowCompletionOr bitwise_and(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); if (both_number(lhs_numeric, rhs_numeric)) { if (!lhs_numeric.is_finite_number() || !rhs_numeric.is_finite_number()) return Value(0); return Value(TRY(lhs_numeric.to_i32(vm)) & TRY(rhs_numeric.to_i32(vm))); } if (both_bigint(lhs_numeric, rhs_numeric)) return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().bitwise_and(rhs_numeric.as_bigint().big_integer())); return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "bitwise AND"); } // 13.12 Binary Bitwise Operators, https://tc39.es/ecma262/#sec-binary-bitwise-operators ThrowCompletionOr bitwise_or(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); 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(TRY(lhs_numeric.to_i32(vm)) | TRY(rhs_numeric.to_i32(vm))); } if (both_bigint(lhs_numeric, rhs_numeric)) return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().bitwise_or(rhs_numeric.as_bigint().big_integer())); return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "bitwise OR"); } // 13.12 Binary Bitwise Operators, https://tc39.es/ecma262/#sec-binary-bitwise-operators ThrowCompletionOr bitwise_xor(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); 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(TRY(lhs_numeric.to_i32(vm)) ^ TRY(rhs_numeric.to_i32(vm))); } if (both_bigint(lhs_numeric, rhs_numeric)) return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().bitwise_xor(rhs_numeric.as_bigint().big_integer())); return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "bitwise XOR"); } // 13.5.6 Bitwise NOT Operator ( ~ ), https://tc39.es/ecma262/#sec-bitwise-not-operator ThrowCompletionOr bitwise_not(VM& vm, Value lhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); if (lhs_numeric.is_number()) return Value(~TRY(lhs_numeric.to_i32(vm))); return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().bitwise_not()); } // 13.5.4 Unary + Operator, https://tc39.es/ecma262/#sec-unary-plus-operator ThrowCompletionOr unary_plus(VM& vm, Value lhs) { return TRY(lhs.to_number(vm)); } // 13.5.5 Unary - Operator, https://tc39.es/ecma262/#sec-unary-minus-operator ThrowCompletionOr unary_minus(VM& vm, Value lhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); 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 BigInt::create(vm, BIGINT_ZERO); auto big_integer_negated = lhs_numeric.as_bigint().big_integer(); big_integer_negated.negate(); return BigInt::create(vm, big_integer_negated); } // 13.9.1 The Left Shift Operator ( << ), https://tc39.es/ecma262/#sec-left-shift-operator ThrowCompletionOr left_shift(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); 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; // Ok, so this performs toNumber() again but that "can't" throw auto lhs_i32 = MUST(lhs_numeric.to_i32(vm)); auto rhs_u32 = MUST(rhs_numeric.to_u32(vm)) % 32; return Value(lhs_i32 << rhs_u32); } if (both_bigint(lhs_numeric, rhs_numeric)) { // 6.1.6.2.9 BigInt::leftShift ( x, y ), https://tc39.es/ecma262/#sec-numeric-types-bigint-leftShift auto multiplier_divisor = Crypto::SignedBigInteger { Crypto::NumberTheory::Power(Crypto::UnsignedBigInteger(2), rhs_numeric.as_bigint().big_integer().unsigned_value()) }; // 1. If y < 0ℤ, then if (rhs_numeric.as_bigint().big_integer().is_negative()) { // a. Return the BigInt value that represents ℝ(x) / 2^-y, rounding down to the nearest integer, including for negative numbers. // NOTE: Since y is negative we can just do ℝ(x) / 2^|y| auto const& big_integer = lhs_numeric.as_bigint().big_integer(); auto division_result = big_integer.divided_by(multiplier_divisor); // For positive initial values and no remainder just return quotient if (division_result.remainder.is_zero() || !big_integer.is_negative()) return BigInt::create(vm, division_result.quotient); // For negative round "down" to the next negative number return BigInt::create(vm, division_result.quotient.minus(Crypto::SignedBigInteger { 1 })); } // 2. Return the BigInt value that represents ℝ(x) × 2^y. return Value(BigInt::create(vm, lhs_numeric.as_bigint().big_integer().multiplied_by(multiplier_divisor))); } return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "left-shift"); } // 13.9.2 The Signed Right Shift Operator ( >> ), https://tc39.es/ecma262/#sec-signed-right-shift-operator ThrowCompletionOr right_shift(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); 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; auto lhs_i32 = MUST(lhs_numeric.to_i32(vm)); auto rhs_u32 = MUST(rhs_numeric.to_u32(vm)) % 32; return Value(lhs_i32 >> rhs_u32); } if (both_bigint(lhs_numeric, rhs_numeric)) { auto rhs_negated = rhs_numeric.as_bigint().big_integer(); rhs_negated.negate(); return left_shift(vm, lhs, BigInt::create(vm, rhs_negated)); } return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "right-shift"); } // 13.9.3 The Unsigned Right Shift Operator ( >>> ), https://tc39.es/ecma262/#sec-unsigned-right-shift-operator ThrowCompletionOr unsigned_right_shift(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); 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; // Ok, so this performs toNumber() again but that "can't" throw auto lhs_u32 = MUST(lhs_numeric.to_u32(vm)); auto rhs_u32 = MUST(rhs_numeric.to_u32(vm)) % 32; return Value(lhs_u32 >> rhs_u32); } return vm.throw_completion(ErrorType::BigIntBadOperator, "unsigned right-shift"); } // 13.8.1 The Addition Operator ( + ), https://tc39.es/ecma262/#sec-addition-operator-plus ThrowCompletionOr add(VM& vm, Value lhs, Value rhs) { if (both_number(lhs, rhs)) { if (lhs.is_int32() && rhs.is_int32()) { Checked result; result = MUST(lhs.to_i32(vm)); result += MUST(rhs.to_i32(vm)); if (!result.has_overflow()) return Value(result.value()); } return Value(lhs.as_double() + rhs.as_double()); } auto lhs_primitive = TRY(lhs.to_primitive(vm)); auto rhs_primitive = TRY(rhs.to_primitive(vm)); if (lhs_primitive.is_string() || rhs_primitive.is_string()) { auto lhs_string = TRY(lhs_primitive.to_primitive_string(vm)); auto rhs_string = TRY(rhs_primitive.to_primitive_string(vm)); return js_rope_string(vm, *lhs_string, *rhs_string); } auto lhs_numeric = TRY(lhs_primitive.to_numeric(vm)); auto rhs_numeric = TRY(rhs_primitive.to_numeric(vm)); 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 BigInt::create(vm, lhs_numeric.as_bigint().big_integer().plus(rhs_numeric.as_bigint().big_integer())); return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "addition"); } // 13.8.2 The Subtraction Operator ( - ), https://tc39.es/ecma262/#sec-subtraction-operator-minus ThrowCompletionOr sub(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); if (both_number(lhs_numeric, rhs_numeric)) { double lhsd = lhs_numeric.as_double(); double rhsd = rhs_numeric.as_double(); double interm = lhsd - rhsd; return Value(interm); } if (both_bigint(lhs_numeric, rhs_numeric)) return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().minus(rhs_numeric.as_bigint().big_integer())); return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "subtraction"); } // 13.7 Multiplicative Operators, https://tc39.es/ecma262/#sec-multiplicative-operators ThrowCompletionOr mul(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); 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 BigInt::create(vm, lhs_numeric.as_bigint().big_integer().multiplied_by(rhs_numeric.as_bigint().big_integer())); return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "multiplication"); } // 13.7 Multiplicative Operators, https://tc39.es/ecma262/#sec-multiplicative-operators ThrowCompletionOr div(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); if (both_number(lhs_numeric, rhs_numeric)) return Value(lhs_numeric.as_double() / rhs_numeric.as_double()); if (both_bigint(lhs_numeric, rhs_numeric)) { if (rhs_numeric.as_bigint().big_integer() == BIGINT_ZERO) return vm.throw_completion(ErrorType::DivisionByZero); return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().divided_by(rhs_numeric.as_bigint().big_integer()).quotient); } return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "division"); } // 13.7 Multiplicative Operators, https://tc39.es/ecma262/#sec-multiplicative-operators ThrowCompletionOr mod(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); if (both_number(lhs_numeric, rhs_numeric)) { // 6.1.6.1.6 Number::remainder ( n, d ), https://tc39.es/ecma262/#sec-numeric-types-number-remainder // The ECMA specification is describing the mathematical definition of modulus // implemented by fmod. auto n = lhs_numeric.as_double(); auto d = rhs_numeric.as_double(); return Value(fmod(n, d)); } if (both_bigint(lhs_numeric, rhs_numeric)) { if (rhs_numeric.as_bigint().big_integer() == BIGINT_ZERO) return vm.throw_completion(ErrorType::DivisionByZero); return BigInt::create(vm, lhs_numeric.as_bigint().big_integer().divided_by(rhs_numeric.as_bigint().big_integer()).remainder); } return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "modulo"); } static Value exp_double(Value base, Value exponent) { VERIFY(both_number(base, exponent)); if (exponent.is_nan()) return js_nan(); if (exponent.is_positive_zero() || exponent.is_negative_zero()) return Value(1); if (base.is_nan()) return js_nan(); if (base.is_positive_infinity()) return exponent.as_double() > 0 ? js_infinity() : Value(0); if (base.is_negative_infinity()) { auto is_odd_integral_number = exponent.is_integral_number() && (static_cast(exponent.as_double()) % 2 != 0); if (exponent.as_double() > 0) return is_odd_integral_number ? js_negative_infinity() : js_infinity(); else return is_odd_integral_number ? Value(-0.0) : Value(0); } if (base.is_positive_zero()) return exponent.as_double() > 0 ? Value(0) : js_infinity(); if (base.is_negative_zero()) { auto is_odd_integral_number = exponent.is_integral_number() && (static_cast(exponent.as_double()) % 2 != 0); if (exponent.as_double() > 0) return is_odd_integral_number ? Value(-0.0) : Value(0); else return is_odd_integral_number ? js_negative_infinity() : js_infinity(); } VERIFY(base.is_finite_number() && !base.is_positive_zero() && !base.is_negative_zero()); if (exponent.is_positive_infinity()) { auto absolute_base = fabs(base.as_double()); if (absolute_base > 1) return js_infinity(); else if (absolute_base == 1) return js_nan(); else if (absolute_base < 1) return Value(0); } if (exponent.is_negative_infinity()) { auto absolute_base = fabs(base.as_double()); if (absolute_base > 1) return Value(0); else if (absolute_base == 1) return js_nan(); else if (absolute_base < 1) return js_infinity(); } VERIFY(exponent.is_finite_number() && !exponent.is_positive_zero() && !exponent.is_negative_zero()); if (base.as_double() < 0 && !exponent.is_integral_number()) return js_nan(); return Value(::pow(base.as_double(), exponent.as_double())); } // 13.6 Exponentiation Operator, https://tc39.es/ecma262/#sec-exp-operator ThrowCompletionOr exp(VM& vm, Value lhs, Value rhs) { auto lhs_numeric = TRY(lhs.to_numeric(vm)); auto rhs_numeric = TRY(rhs.to_numeric(vm)); if (both_number(lhs_numeric, rhs_numeric)) return exp_double(lhs_numeric, rhs_numeric); if (both_bigint(lhs_numeric, rhs_numeric)) { if (rhs_numeric.as_bigint().big_integer().is_negative()) return vm.throw_completion(ErrorType::NegativeExponent); return BigInt::create(vm, Crypto::NumberTheory::Power(lhs_numeric.as_bigint().big_integer(), rhs_numeric.as_bigint().big_integer())); } return vm.throw_completion(ErrorType::BigIntBadOperatorOtherType, "exponentiation"); } ThrowCompletionOr in(VM& vm, Value lhs, Value rhs) { if (!rhs.is_object()) return vm.throw_completion(ErrorType::InOperatorWithObject); auto lhs_property_key = TRY(lhs.to_property_key(vm)); return Value(TRY(rhs.as_object().has_property(lhs_property_key))); } // 13.10.2 InstanceofOperator ( V, target ), https://tc39.es/ecma262/#sec-instanceofoperator ThrowCompletionOr instance_of(VM& vm, Value lhs, Value rhs) { if (!rhs.is_object()) return vm.throw_completion(ErrorType::NotAnObject, rhs.to_string_without_side_effects()); auto has_instance_method = TRY(rhs.get_method(vm, *vm.well_known_symbol_has_instance())); if (has_instance_method) { auto has_instance_result = TRY(call(vm, *has_instance_method, rhs, lhs)); return Value(has_instance_result.to_boolean()); } if (!rhs.is_function()) return vm.throw_completion(ErrorType::NotAFunction, rhs.to_string_without_side_effects()); return TRY(ordinary_has_instance(vm, lhs, rhs)); } // 7.3.22 OrdinaryHasInstance ( C, O ), https://tc39.es/ecma262/#sec-ordinaryhasinstance ThrowCompletionOr ordinary_has_instance(VM& vm, Value lhs, Value rhs) { if (!rhs.is_function()) return Value(false); auto& rhs_function = rhs.as_function(); if (is(rhs_function)) { auto& bound_target = static_cast(rhs_function); return instance_of(vm, lhs, Value(&bound_target.bound_target_function())); } if (!lhs.is_object()) return Value(false); Object* lhs_object = &lhs.as_object(); auto rhs_prototype = TRY(rhs_function.get(vm.names.prototype)); if (!rhs_prototype.is_object()) return vm.throw_completion(ErrorType::InstanceOfOperatorBadPrototype, rhs.to_string_without_side_effects()); while (true) { lhs_object = TRY(lhs_object->internal_get_prototype_of()); if (!lhs_object) return Value(false); if (same_value(rhs_prototype, lhs_object)) return Value(true); } } // 7.2.10 SameValue ( x, y ), https://tc39.es/ecma262/#sec-samevalue bool same_value(Value lhs, Value rhs) { if (!same_type_for_equality(lhs, rhs)) 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); } // 7.2.11 SameValueZero ( x, y ), https://tc39.es/ecma262/#sec-samevaluezero bool same_value_zero(Value lhs, Value rhs) { if (!same_type_for_equality(lhs, rhs)) 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); } // 7.2.12 SameValueNonNumeric ( x, y ), https://tc39.es/ecma262/#sec-samevaluenonnumeric bool same_value_non_numeric(Value lhs, Value rhs) { VERIFY(!lhs.is_number() && !lhs.is_bigint()); VERIFY(same_type_for_equality(lhs, rhs)); if (lhs.is_string()) return lhs.as_string().deprecated_string() == rhs.as_string().deprecated_string(); return lhs.m_value.encoded == rhs.m_value.encoded; } // 7.2.15 IsStrictlyEqual ( x, y ), https://tc39.es/ecma262/#sec-isstrictlyequal bool is_strictly_equal(Value lhs, Value rhs) { if (!same_type_for_equality(lhs, rhs)) 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); } // 7.2.14 IsLooselyEqual ( x, y ), https://tc39.es/ecma262/#sec-islooselyequal ThrowCompletionOr is_loosely_equal(VM& vm, Value lhs, Value rhs) { // 1. If Type(x) is the same as Type(y), then if (same_type_for_equality(lhs, rhs)) { // a. Return IsStrictlyEqual(x, y). return is_strictly_equal(lhs, rhs); } // 2. If x is null and y is undefined, return true. // 3. If x is undefined and y is null, return true. if (lhs.is_nullish() && rhs.is_nullish()) return true; // 4. NOTE: This step is replaced in section B.3.6.2. // B.3.6.2 Changes to IsLooselyEqual, https://tc39.es/ecma262/#sec-IsHTMLDDA-internal-slot-aec // 4. Perform the following steps: // a. If Type(x) is Object and x has an [[IsHTMLDDA]] internal slot and y is either null or undefined, return true. if (lhs.is_object() && lhs.as_object().is_htmldda() && rhs.is_nullish()) return true; // b. If x is either null or undefined and Type(y) is Object and y has an [[IsHTMLDDA]] internal slot, return true. if (lhs.is_nullish() && rhs.is_object() && rhs.as_object().is_htmldda()) return true; // == End of B.3.6.2 == // 5. If Type(x) is Number and Type(y) is String, return ! IsLooselyEqual(x, ! ToNumber(y)). if (lhs.is_number() && rhs.is_string()) return is_loosely_equal(vm, lhs, MUST(rhs.to_number(vm))); // 6. If Type(x) is String and Type(y) is Number, return ! IsLooselyEqual(! ToNumber(x), y). if (lhs.is_string() && rhs.is_number()) return is_loosely_equal(vm, MUST(lhs.to_number(vm)), rhs); // 7. If Type(x) is BigInt and Type(y) is String, then if (lhs.is_bigint() && rhs.is_string()) { // a. Let n be StringToBigInt(y). auto bigint = string_to_bigint(vm, rhs.as_string().deprecated_string()); // b. If n is undefined, return false. if (!bigint.has_value()) return false; // c. Return ! IsLooselyEqual(x, n). return is_loosely_equal(vm, lhs, *bigint); } // 8. If Type(x) is String and Type(y) is BigInt, return ! IsLooselyEqual(y, x). if (lhs.is_string() && rhs.is_bigint()) return is_loosely_equal(vm, rhs, lhs); // 9. If Type(x) is Boolean, return ! IsLooselyEqual(! ToNumber(x), y). if (lhs.is_boolean()) return is_loosely_equal(vm, MUST(lhs.to_number(vm)), rhs); // 10. If Type(y) is Boolean, return ! IsLooselyEqual(x, ! ToNumber(y)). if (rhs.is_boolean()) return is_loosely_equal(vm, lhs, MUST(rhs.to_number(vm))); // 11. If Type(x) is either String, Number, BigInt, or Symbol and Type(y) is Object, return ! IsLooselyEqual(x, ? ToPrimitive(y)). if ((lhs.is_string() || lhs.is_number() || lhs.is_bigint() || lhs.is_symbol()) && rhs.is_object()) { auto rhs_primitive = TRY(rhs.to_primitive(vm)); return is_loosely_equal(vm, lhs, rhs_primitive); } // 12. If Type(x) is Object and Type(y) is either String, Number, BigInt, or Symbol, return ! IsLooselyEqual(? ToPrimitive(x), y). if (lhs.is_object() && (rhs.is_string() || rhs.is_number() || rhs.is_bigint() || rhs.is_symbol())) { auto lhs_primitive = TRY(lhs.to_primitive(vm)); return is_loosely_equal(vm, lhs_primitive, rhs); } // 13. If Type(x) is BigInt and Type(y) is Number, or if Type(x) is Number and Type(y) is BigInt, then if ((lhs.is_bigint() && rhs.is_number()) || (lhs.is_number() && rhs.is_bigint())) { // a. If x or y are any of NaN, +∞𝔽, or -∞𝔽, return false. if (lhs.is_nan() || lhs.is_infinity() || rhs.is_nan() || rhs.is_infinity()) return false; // b. If ℝ(x) = ℝ(y), return true; otherwise return false. if ((lhs.is_number() && !lhs.is_integral_number()) || (rhs.is_number() && !rhs.is_integral_number())) return false; VERIFY(!lhs.is_nan() && !rhs.is_nan()); auto& number_side = lhs.is_number() ? lhs : rhs; auto& bigint_side = lhs.is_number() ? rhs : lhs; return bigint_side.as_bigint().big_integer().compare_to_double(number_side.as_double()) == Crypto::UnsignedBigInteger::CompareResult::DoubleEqualsBigInt; } // 14. Return false. return false; } // 7.2.13 IsLessThan ( x, y, LeftFirst ), https://tc39.es/ecma262/#sec-islessthan ThrowCompletionOr is_less_than(VM& vm, Value lhs, Value rhs, bool left_first) { Value x_primitive; Value y_primitive; if (left_first) { x_primitive = TRY(lhs.to_primitive(vm, Value::PreferredType::Number)); y_primitive = TRY(rhs.to_primitive(vm, Value::PreferredType::Number)); } else { y_primitive = TRY(lhs.to_primitive(vm, Value::PreferredType::Number)); x_primitive = TRY(rhs.to_primitive(vm, Value::PreferredType::Number)); } if (x_primitive.is_string() && y_primitive.is_string()) { auto x_string = x_primitive.as_string().deprecated_string(); auto y_string = y_primitive.as_string().deprecated_string(); Utf8View x_code_points { x_string }; Utf8View y_code_points { y_string }; if (x_code_points.starts_with(y_code_points)) return TriState::False; if (y_code_points.starts_with(x_code_points)) return TriState::True; 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; } } } VERIFY_NOT_REACHED(); } if (x_primitive.is_bigint() && y_primitive.is_string()) { auto y_bigint = string_to_bigint(vm, y_primitive.as_string().deprecated_string()); if (!y_bigint.has_value()) return TriState::Unknown; if (x_primitive.as_bigint().big_integer() < (*y_bigint)->big_integer()) return TriState::True; return TriState::False; } if (x_primitive.is_string() && y_primitive.is_bigint()) { auto x_bigint = string_to_bigint(vm, x_primitive.as_string().deprecated_string()); if (!x_bigint.has_value()) return TriState::Unknown; if ((*x_bigint)->big_integer() < y_primitive.as_bigint().big_integer()) return TriState::True; return TriState::False; } auto x_numeric = TRY(x_primitive.to_numeric(vm)); auto y_numeric = TRY(y_primitive.to_numeric(vm)); 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; } VERIFY((x_numeric.is_number() && y_numeric.is_bigint()) || (x_numeric.is_bigint() && y_numeric.is_number())); bool x_lower_than_y; VERIFY(!x_numeric.is_nan() && !y_numeric.is_nan()); if (x_numeric.is_number()) { x_lower_than_y = y_numeric.as_bigint().big_integer().compare_to_double(x_numeric.as_double()) == Crypto::UnsignedBigInteger::CompareResult::DoubleLessThanBigInt; } else { x_lower_than_y = x_numeric.as_bigint().big_integer().compare_to_double(y_numeric.as_double()) == Crypto::UnsignedBigInteger::CompareResult::DoubleGreaterThanBigInt; } if (x_lower_than_y) return TriState::True; else return TriState::False; } // 7.3.21 Invoke ( V, P [ , argumentsList ] ), https://tc39.es/ecma262/#sec-invoke ThrowCompletionOr Value::invoke_internal(VM& vm, PropertyKey const& property_key, Optional> arguments) { auto property = TRY(get(vm, property_key)); if (!property.is_function()) return vm.throw_completion(ErrorType::NotAFunction, property.to_string_without_side_effects()); return call(vm, property.as_function(), *this, move(arguments)); } }