Google Git
Sign in
webkit / WebKit / 027d9947be7394fd875bd4e203a72ecbac14d842 / . / Source / JavaScriptCore / runtime / Operations.h
blob: 98c2c6e6cf38e09c4c111f24978420510918e2ba [file] [log] [blame]
/*
* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
* Copyright (C) 2002-2019 Apple Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
*/
#pragma once
#include "CallFrame.h"
#include "ExceptionHelpers.h"
#include "JSBigInt.h"
#include "JSCJSValueInlines.h"
#include <wtf/Variant.h>
namespace JSC {
#define InvalidPrototypeChain (std::numeric_limits<size_t>::max())
NEVER_INLINE JSValue jsAddSlowCase(JSGlobalObject*, JSValue, JSValue);
JSValue jsTypeStringForValue(JSGlobalObject*, JSValue);
JSValue jsTypeStringForValue(VM&, JSGlobalObject*, JSValue);
bool jsIsObjectTypeOrNull(JSGlobalObject*, JSValue);
size_t normalizePrototypeChain(JSGlobalObject*, JSCell*, bool& sawPolyProto);
ALWAYS_INLINE JSString* jsString(JSGlobalObject* globalObject, const String& u1, JSString* s2)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned length1 = u1.length();
if (!length1)
return s2;
unsigned length2 = s2->length();
if (!length2)
return jsString(vm, u1);
static_assert(JSString::MaxLength == std::numeric_limits<int32_t>::max(), "");
if (sumOverflows<int32_t>(length1, length2)) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
// (1) Cost of making JSString : sizeof(JSString) (for new string) + sizeof(StringImpl header) + length1 + length2
// (2) Cost of making JSRopeString: sizeof(JSString) (for u1) + sizeof(JSRopeString)
// We do not account u1 cost in (2) since u1 may be shared StringImpl, and it may not introduce additional cost.
// We conservatively consider the cost of u1. Currently, we are not considering about is8Bit() case because 16-bit
// strings are relatively rare. But we can do that if we need to consider it.
if (s2->isRope() || (StringImpl::headerSize<LChar>() + length1 + length2) >= sizeof(JSRopeString))
return JSRopeString::create(vm, jsString(vm, u1), s2);
ASSERT(!s2->isRope());
const String& u2 = s2->value(globalObject);
scope.assertNoException();
String newString = tryMakeString(u1, u2);
if (!newString) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
return JSString::create(vm, newString.releaseImpl().releaseNonNull());
}
ALWAYS_INLINE JSString* jsString(JSGlobalObject* globalObject, JSString* s1, const String& u2)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned length1 = s1->length();
if (!length1)
return jsString(vm, u2);
unsigned length2 = u2.length();
if (!length2)
return s1;
static_assert(JSString::MaxLength == std::numeric_limits<int32_t>::max(), "");
if (sumOverflows<int32_t>(length1, length2)) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
// (1) Cost of making JSString : sizeof(JSString) (for new string) + sizeof(StringImpl header) + length1 + length2
// (2) Cost of making JSRopeString: sizeof(JSString) (for u2) + sizeof(JSRopeString)
if (s1->isRope() || (StringImpl::headerSize<LChar>() + length1 + length2) >= sizeof(JSRopeString))
return JSRopeString::create(vm, s1, jsString(vm, u2));
ASSERT(!s1->isRope());
const String& u1 = s1->value(globalObject);
scope.assertNoException();
String newString = tryMakeString(u1, u2);
if (!newString) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
return JSString::create(vm, newString.releaseImpl().releaseNonNull());
}
ALWAYS_INLINE JSString* jsString(JSGlobalObject* globalObject, JSString* s1, JSString* s2)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned length1 = s1->length();
if (!length1)
return s2;
unsigned length2 = s2->length();
if (!length2)
return s1;
static_assert(JSString::MaxLength == std::numeric_limits<int32_t>::max(), "");
if (sumOverflows<int32_t>(length1, length2)) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
return JSRopeString::create(vm, s1, s2);
}
ALWAYS_INLINE JSString* jsString(JSGlobalObject* globalObject, JSString* s1, JSString* s2, JSString* s3)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned length1 = s1->length();
if (!length1)
RELEASE_AND_RETURN(scope, jsString(globalObject, s2, s3));
unsigned length2 = s2->length();
if (!length2)
RELEASE_AND_RETURN(scope, jsString(globalObject, s1, s3));
unsigned length3 = s3->length();
if (!length3)
RELEASE_AND_RETURN(scope, jsString(globalObject, s1, s2));
static_assert(JSString::MaxLength == std::numeric_limits<int32_t>::max(), "");
if (sumOverflows<int32_t>(length1, length2, length3)) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
return JSRopeString::create(vm, s1, s2, s3);
}
ALWAYS_INLINE JSString* jsString(JSGlobalObject* globalObject, const String& u1, const String& u2)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned length1 = u1.length();
if (!length1)
return jsString(vm, u2);
unsigned length2 = u2.length();
if (!length2)
return jsString(vm, u1);
static_assert(JSString::MaxLength == std::numeric_limits<int32_t>::max(), "");
if (sumOverflows<int32_t>(length1, length2)) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
// (1) Cost of making JSString : sizeof(JSString) (for new string) + sizeof(StringImpl header) + length1 + length2
// (2) Cost of making JSRopeString: sizeof(JSString) (for u1) + sizeof(JSString) (for u2) + sizeof(JSRopeString)
if ((StringImpl::headerSize<LChar>() + length1 + length2) >= (sizeof(JSRopeString) + sizeof(JSString)))
return JSRopeString::create(vm, jsString(vm, u1), jsString(vm, u2));
String newString = tryMakeString(u1, u2);
if (!newString) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
return JSString::create(vm, newString.releaseImpl().releaseNonNull());
}
ALWAYS_INLINE JSString* jsString(JSGlobalObject* globalObject, const String& u1, const String& u2, const String& u3)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned length1 = u1.length();
unsigned length2 = u2.length();
unsigned length3 = u3.length();
ASSERT(length1 <= JSString::MaxLength);
ASSERT(length2 <= JSString::MaxLength);
ASSERT(length3 <= JSString::MaxLength);
if (!length1)
RELEASE_AND_RETURN(scope, jsString(globalObject, u2, u3));
if (!length2)
RELEASE_AND_RETURN(scope, jsString(globalObject, u1, u3));
if (!length3)
RELEASE_AND_RETURN(scope, jsString(globalObject, u1, u2));
static_assert(JSString::MaxLength == std::numeric_limits<int32_t>::max(), "");
if (sumOverflows<int32_t>(length1, length2, length3)) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
// (1) Cost of making JSString : sizeof(JSString) (for new string) + sizeof(StringImpl header) + length1 + length2 + length3
// (2) Cost of making JSRopeString: sizeof(JSString) (for u1) + sizeof(JSString) (for u2) + sizeof(JSString) (for u3) + sizeof(JSRopeString)
if ((StringImpl::headerSize<LChar>() + length1 + length2 + length3) >= (sizeof(JSRopeString) + sizeof(JSString) * 2))
return JSRopeString::create(vm, jsString(vm, u1), jsString(vm, u2), jsString(vm, u3));
String newString = tryMakeString(u1, u2, u3);
if (!newString) {
throwOutOfMemoryError(globalObject, scope);
return nullptr;
}
return JSString::create(vm, newString.releaseImpl().releaseNonNull());
}
ALWAYS_INLINE JSValue jsStringFromRegisterArray(JSGlobalObject* globalObject, Register* strings, unsigned count)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
JSRopeString::RopeBuilder<RecordOverflow> ropeBuilder(vm);
for (unsigned i = 0; i < count; ++i) {
JSValue v = strings[-static_cast<int>(i)].jsValue();
JSString* string = v.toString(globalObject);
RETURN_IF_EXCEPTION(scope, { });
if (!ropeBuilder.append(string))
return throwOutOfMemoryError(globalObject, scope);
}
return ropeBuilder.release();
}
ALWAYS_INLINE bool bigIntCompareResult(JSBigInt::ComparisonResult comparisonResult, JSBigInt::ComparisonMode comparisonMode)
{
if (comparisonMode == JSBigInt::ComparisonMode::LessThan)
return comparisonResult == JSBigInt::ComparisonResult::LessThan;
ASSERT(comparisonMode == JSBigInt::ComparisonMode::LessThanOrEqual);
return comparisonResult == JSBigInt::ComparisonResult::LessThan || comparisonResult == JSBigInt::ComparisonResult::Equal;
}
ALWAYS_INLINE bool bigIntCompare(JSGlobalObject* globalObject, JSValue v1, JSValue v2, JSBigInt::ComparisonMode comparisonMode)
{
ASSERT(v1.isBigInt() || v2.isBigInt());
ASSERT(v1.isPrimitive() && v2.isPrimitive());
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
if (v1.isBigInt() && v2.isBigInt())
return bigIntCompareResult(JSBigInt::compare(asBigInt(v1), asBigInt(v2)), comparisonMode);
if (v1.isBigInt()) {
JSValue primValue = v2;
if (primValue.isString()) {
JSBigInt* bigIntValue = JSBigInt::stringToBigInt(globalObject, asString(primValue)->value(globalObject));
RETURN_IF_EXCEPTION(scope, false);
if (!bigIntValue)
return false;
return bigIntCompareResult(JSBigInt::compare(asBigInt(v1), bigIntValue), comparisonMode);
}
if (primValue.isBigInt())
return bigIntCompareResult(JSBigInt::compare(asBigInt(v1), asBigInt(primValue)), comparisonMode);
double numberValue = primValue.toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, false);
return bigIntCompareResult(JSBigInt::compareToDouble(asBigInt(v1), numberValue), comparisonMode);
}
JSValue primValue = v1;
if (primValue.isString()) {
JSBigInt* bigIntValue = JSBigInt::stringToBigInt(globalObject, asString(primValue)->value(globalObject));
RETURN_IF_EXCEPTION(scope, false);
if (!bigIntValue)
return false;
return bigIntCompareResult(JSBigInt::compare(bigIntValue, asBigInt(v2)), comparisonMode);
}
if (primValue.isBigInt())
return bigIntCompareResult(JSBigInt::compare(asBigInt(primValue), asBigInt(v2)), comparisonMode);
double numberValue = primValue.toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, false);
// Here we check inverted because BigInt is the v2
JSBigInt::ComparisonResult comparisonResult = JSBigInt::compareToDouble(asBigInt(v2), numberValue);
if (comparisonMode == JSBigInt::ComparisonMode::LessThan)
return comparisonResult == JSBigInt::ComparisonResult::GreaterThan;
return comparisonResult == JSBigInt::ComparisonResult::GreaterThan || comparisonResult == JSBigInt::ComparisonResult::Equal;
}
ALWAYS_INLINE bool toPrimitiveNumeric(JSGlobalObject* globalObject, JSValue v, JSValue& p, double& n)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
p = v.toPrimitive(globalObject, PreferNumber);
RETURN_IF_EXCEPTION(scope, false);
if (p.isBigInt())
return true;
n = p.toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, false);
return !p.isString();
}
// See ES5 11.8.1/11.8.2/11.8.5 for definition of leftFirst, this value ensures correct
// evaluation ordering for argument conversions for '<' and '>'. For '<' pass the value
// true, for leftFirst, for '>' pass the value false (and reverse operand order).
template<bool leftFirst>
ALWAYS_INLINE bool jsLess(JSGlobalObject* globalObject, JSValue v1, JSValue v2)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
if (v1.isInt32() && v2.isInt32())
return v1.asInt32() < v2.asInt32();
if (v1.isNumber() && v2.isNumber())
return v1.asNumber() < v2.asNumber();
if (isJSString(v1) && isJSString(v2)) {
String s1 = asString(v1)->value(globalObject);
RETURN_IF_EXCEPTION(scope, false);
String s2 = asString(v2)->value(globalObject);
RETURN_IF_EXCEPTION(scope, false);
return codePointCompareLessThan(s1, s2);
}
double n1;
double n2;
JSValue p1;
JSValue p2;
bool wasNotString1;
bool wasNotString2;
if (leftFirst) {
wasNotString1 = toPrimitiveNumeric(globalObject, v1, p1, n1);
RETURN_IF_EXCEPTION(scope, false);
wasNotString2 = toPrimitiveNumeric(globalObject, v2, p2, n2);
} else {
wasNotString2 = toPrimitiveNumeric(globalObject, v2, p2, n2);
RETURN_IF_EXCEPTION(scope, false);
wasNotString1 = toPrimitiveNumeric(globalObject, v1, p1, n1);
}
RETURN_IF_EXCEPTION(scope, false);
if (wasNotString1 | wasNotString2) {
if (p1.isBigInt() || p2.isBigInt())
RELEASE_AND_RETURN(scope, bigIntCompare(globalObject, p1, p2, JSBigInt::ComparisonMode::LessThan));
return n1 < n2;
}
return codePointCompareLessThan(asString(p1)->value(globalObject), asString(p2)->value(globalObject));
}
// See ES5 11.8.3/11.8.4/11.8.5 for definition of leftFirst, this value ensures correct
// evaluation ordering for argument conversions for '<=' and '=>'. For '<=' pass the
// value true, for leftFirst, for '=>' pass the value false (and reverse operand order).
template<bool leftFirst>
ALWAYS_INLINE bool jsLessEq(JSGlobalObject* globalObject, JSValue v1, JSValue v2)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
if (v1.isInt32() && v2.isInt32())
return v1.asInt32() <= v2.asInt32();
if (v1.isNumber() && v2.isNumber())
return v1.asNumber() <= v2.asNumber();
if (isJSString(v1) && isJSString(v2)) {
String s1 = asString(v1)->value(globalObject);
RETURN_IF_EXCEPTION(scope, false);
String s2 = asString(v2)->value(globalObject);
RETURN_IF_EXCEPTION(scope, false);
return !codePointCompareLessThan(s2, s1);
}
double n1;
double n2;
JSValue p1;
JSValue p2;
bool wasNotString1;
bool wasNotString2;
if (leftFirst) {
wasNotString1 = toPrimitiveNumeric(globalObject, v1, p1, n1);
RETURN_IF_EXCEPTION(scope, false);
wasNotString2 = toPrimitiveNumeric(globalObject, v2, p2, n2);
} else {
wasNotString2 = toPrimitiveNumeric(globalObject, v2, p2, n2);
RETURN_IF_EXCEPTION(scope, false);
wasNotString1 = toPrimitiveNumeric(globalObject, v1, p1, n1);
}
RETURN_IF_EXCEPTION(scope, false);
if (wasNotString1 | wasNotString2) {
if (p1.isBigInt() || p2.isBigInt())
RELEASE_AND_RETURN(scope, bigIntCompare(globalObject, p1, p2, JSBigInt::ComparisonMode::LessThanOrEqual));
return n1 <= n2;
}
return !codePointCompareLessThan(asString(p2)->value(globalObject), asString(p1)->value(globalObject));
}
// Fast-path choices here are based on frequency data from SunSpider:
// <times> Add case: <t1> <t2>
// ---------------------------
// 5626160 Add case: 3 3 (of these, 3637690 are for immediate values)
// 247412 Add case: 5 5
// 20900 Add case: 5 6
// 13962 Add case: 5 3
// 4000 Add case: 3 5
ALWAYS_INLINE JSValue jsAddNonNumber(JSGlobalObject* globalObject, JSValue v1, JSValue v2)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
ASSERT(!v1.isNumber() || !v2.isNumber());
if (LIKELY(v1.isString() && !v2.isObject())) {
if (v2.isString())
RELEASE_AND_RETURN(scope, jsString(globalObject, asString(v1), asString(v2)));
String s2 = v2.toWTFString(globalObject);
RETURN_IF_EXCEPTION(scope, { });
RELEASE_AND_RETURN(scope, jsString(globalObject, asString(v1), s2));
}
// All other cases are pretty uncommon
RELEASE_AND_RETURN(scope, jsAddSlowCase(globalObject, v1, v2));
}
ALWAYS_INLINE JSValue jsAdd(JSGlobalObject* globalObject, JSValue v1, JSValue v2)
{
if (v1.isNumber() && v2.isNumber())
return jsNumber(v1.asNumber() + v2.asNumber());
return jsAddNonNumber(globalObject, v1, v2);
}
ALWAYS_INLINE JSValue jsSub(JSGlobalObject* globalObject, JSValue v1, JSValue v2)
{
VM& vm = getVM(globalObject);
auto scope = DECLARE_THROW_SCOPE(vm);
auto leftNumeric = v1.toNumeric(globalObject);
RETURN_IF_EXCEPTION(scope, { });
auto rightNumeric = v2.toNumeric(globalObject);
RETURN_IF_EXCEPTION(scope, { });
if (WTF::holds_alternative<JSBigInt*>(leftNumeric) || WTF::holds_alternative<JSBigInt*>(rightNumeric)) {
if (WTF::holds_alternative<JSBigInt*>(leftNumeric) && WTF::holds_alternative<JSBigInt*>(rightNumeric)) {
scope.release();
return JSBigInt::sub(globalObject, WTF::get<JSBigInt*>(leftNumeric), WTF::get<JSBigInt*>(rightNumeric));
}
return throwTypeError(globalObject, scope, "Invalid mix of BigInt and other type in subtraction."_s);
}
return jsNumber(WTF::get<double>(leftNumeric) - WTF::get<double>(rightNumeric));
}
ALWAYS_INLINE JSValue jsMul(JSGlobalObject* globalObject, JSValue v1, JSValue v2)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
Variant<JSBigInt*, double> leftNumeric = v1.toNumeric(globalObject);
RETURN_IF_EXCEPTION(scope, { });
Variant<JSBigInt*, double> rightNumeric = v2.toNumeric(globalObject);
RETURN_IF_EXCEPTION(scope, { });
if (WTF::holds_alternative<JSBigInt*>(leftNumeric) || WTF::holds_alternative<JSBigInt*>(rightNumeric)) {
if (WTF::holds_alternative<JSBigInt*>(leftNumeric) && WTF::holds_alternative<JSBigInt*>(rightNumeric)) {
scope.release();
return JSBigInt::multiply(globalObject, WTF::get<JSBigInt*>(leftNumeric), WTF::get<JSBigInt*>(rightNumeric));
}
throwTypeError(globalObject, scope, "Invalid mix of BigInt and other type in multiplication."_s);
return { };
}
double leftValue = WTF::get<double>(leftNumeric);
double rightValue = WTF::get<double>(rightNumeric);
return jsNumber(leftValue * rightValue);
}
inline bool scribbleFreeCells()
{
return !ASSERT_DISABLED || Options::scribbleFreeCells();
}
#define SCRIBBLE_WORD static_cast<intptr_t>(0xbadbeef0)
inline bool isScribbledValue(JSValue value)
{
return JSValue::encode(value) == JSValue::encode(bitwise_cast<JSCell*>(SCRIBBLE_WORD));
}
inline void scribble(void* base, size_t size)
{
for (size_t i = size / sizeof(EncodedJSValue); i--;) {
// Use a 16-byte aligned value to ensure that it passes the cell check.
static_cast<EncodedJSValue*>(base)[i] = JSValue::encode(bitwise_cast<JSCell*>(SCRIBBLE_WORD));
}
}
} // namespace JSC