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/*
* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
* Copyright (C) 2007-2019 Apple Inc. All Rights Reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#include "config.h"
#include "MathObject.h"
#include "JSCInlines.h"
#include "MathCommon.h"
#include "ObjectPrototype.h"
#include <time.h>
#include <wtf/Assertions.h>
#include <wtf/MathExtras.h>
#include <wtf/Vector.h>
namespace JSC {
STATIC_ASSERT_IS_TRIVIALLY_DESTRUCTIBLE(MathObject);
EncodedJSValue JSC_HOST_CALL mathProtoFuncACos(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncACosh(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncASin(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncASinh(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncATan(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncATanh(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncATan2(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncCbrt(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncCeil(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncClz32(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncCos(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncCosh(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncExp(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncExpm1(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncFround(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncHypot(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog1p(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog10(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog2(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncMax(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncMin(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncPow(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncRandom(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncRound(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncSign(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncSin(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncSinh(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncSqrt(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncTan(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncTanh(JSGlobalObject*, CallFrame*);
EncodedJSValue JSC_HOST_CALL mathProtoFuncIMul(JSGlobalObject*, CallFrame*);
const ClassInfo MathObject::s_info = { "Math", &Base::s_info, nullptr, nullptr, CREATE_METHOD_TABLE(MathObject) };
MathObject::MathObject(VM& vm, Structure* structure)
: JSNonFinalObject(vm, structure)
{
}
void MathObject::finishCreation(VM& vm, JSGlobalObject* globalObject)
{
Base::finishCreation(vm);
ASSERT(inherits(vm, info()));
putDirectWithoutTransition(vm, Identifier::fromString(vm, "E"), jsNumber(Math::exp(1.0)), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "LN2"), jsNumber(Math::log(2.0)), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "LN10"), jsNumber(Math::log(10.0)), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "LOG2E"), jsNumber(1.0 / Math::log(2.0)), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "LOG10E"), jsNumber(0.4342944819032518), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "PI"), jsNumber(piDouble), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "SQRT1_2"), jsNumber(sqrt(0.5)), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, Identifier::fromString(vm, "SQRT2"), jsNumber(sqrt(2.0)), PropertyAttribute::DontDelete | PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectWithoutTransition(vm, vm.propertyNames->toStringTagSymbol, jsString(vm, "Math"), PropertyAttribute::DontEnum | PropertyAttribute::ReadOnly);
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "abs"), 1, mathProtoFuncAbs, AbsIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "acos"), 1, mathProtoFuncACos, ACosIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "asin"), 1, mathProtoFuncASin, ASinIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "atan"), 1, mathProtoFuncATan, ATanIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "acosh"), 1, mathProtoFuncACosh, ACoshIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "asinh"), 1, mathProtoFuncASinh, ASinhIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "atanh"), 1, mathProtoFuncATanh, ATanhIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "atan2"), 2, mathProtoFuncATan2, NoIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "cbrt"), 1, mathProtoFuncCbrt, CbrtIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "ceil"), 1, mathProtoFuncCeil, CeilIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "clz32"), 1, mathProtoFuncClz32, Clz32Intrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "cos"), 1, mathProtoFuncCos, CosIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "cosh"), 1, mathProtoFuncCosh, CoshIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "exp"), 1, mathProtoFuncExp, ExpIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "expm1"), 1, mathProtoFuncExpm1, Expm1Intrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "floor"), 1, mathProtoFuncFloor, FloorIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "fround"), 1, mathProtoFuncFround, FRoundIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "hypot"), 2, mathProtoFuncHypot, NoIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "log"), 1, mathProtoFuncLog, LogIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "log10"), 1, mathProtoFuncLog10, Log10Intrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "log1p"), 1, mathProtoFuncLog1p, Log1pIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "log2"), 1, mathProtoFuncLog2, Log2Intrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "max"), 2, mathProtoFuncMax, MaxIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "min"), 2, mathProtoFuncMin, MinIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "pow"), 2, mathProtoFuncPow, PowIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "random"), 0, mathProtoFuncRandom, RandomIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "round"), 1, mathProtoFuncRound, RoundIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "sign"), 1, mathProtoFuncSign, NoIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "sin"), 1, mathProtoFuncSin, SinIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "sinh"), 1, mathProtoFuncSinh, SinhIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "sqrt"), 1, mathProtoFuncSqrt, SqrtIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "tan"), 1, mathProtoFuncTan, TanIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "tanh"), 1, mathProtoFuncTanh, TanhIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "trunc"), 1, mathProtoFuncTrunc, TruncIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
putDirectNativeFunctionWithoutTransition(vm, globalObject, Identifier::fromString(vm, "imul"), 2, mathProtoFuncIMul, IMulIntrinsic, static_cast<unsigned>(PropertyAttribute::DontEnum));
}
// ------------------------------ Functions --------------------------------
EncodedJSValue JSC_HOST_CALL mathProtoFuncAbs(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsNumber(fabs(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncACos(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::acos(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncASin(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::asin(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncATan(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::atan(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncATan2(JSGlobalObject* globalObject, CallFrame* callFrame)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
double arg0 = callFrame->argument(0).toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
scope.release();
double arg1 = callFrame->argument(1).toNumber(globalObject);
return JSValue::encode(jsDoubleNumber(atan2(arg0, arg1)));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncCeil(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsNumber(ceil(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncClz32(JSGlobalObject* globalObject, CallFrame* callFrame)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
uint32_t value = callFrame->argument(0).toUInt32(globalObject);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
return JSValue::encode(JSValue(clz(value)));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncCos(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::cos(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncExp(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::exp(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncFloor(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsNumber(floor(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncHypot(JSGlobalObject* globalObject, CallFrame* callFrame)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned argsCount = callFrame->argumentCount();
double max = 0;
Vector<double, 8> args;
args.reserveInitialCapacity(argsCount);
for (unsigned i = 0; i < argsCount; ++i) {
args.uncheckedAppend(callFrame->uncheckedArgument(i).toNumber(globalObject));
RETURN_IF_EXCEPTION(scope, encodedJSValue());
if (std::isinf(args[i]))
return JSValue::encode(jsDoubleNumber(+std::numeric_limits<double>::infinity()));
max = std::max(fabs(args[i]), max);
}
if (!max)
max = 1;
// Kahan summation algorithm significantly reduces the numerical error in the total obtained.
double sum = 0;
double compensation = 0;
for (double argument : args) {
double scaledArgument = argument / max;
double summand = scaledArgument * scaledArgument - compensation;
double preliminary = sum + summand;
compensation = (preliminary - sum) - summand;
sum = preliminary;
}
return JSValue::encode(jsDoubleNumber(sqrt(sum) * max));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::log(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncMax(JSGlobalObject* globalObject, CallFrame* callFrame)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned argsCount = callFrame->argumentCount();
double result = -std::numeric_limits<double>::infinity();
for (unsigned k = 0; k < argsCount; ++k) {
double val = callFrame->uncheckedArgument(k).toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
if (std::isnan(val)) {
result = PNaN;
} else if (val > result || (!val && !result && !std::signbit(val)))
result = val;
}
return JSValue::encode(jsNumber(result));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncMin(JSGlobalObject* globalObject, CallFrame* callFrame)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
unsigned argsCount = callFrame->argumentCount();
double result = +std::numeric_limits<double>::infinity();
for (unsigned k = 0; k < argsCount; ++k) {
double val = callFrame->uncheckedArgument(k).toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
if (std::isnan(val)) {
result = PNaN;
} else if (val < result || (!val && !result && std::signbit(val)))
result = val;
}
return JSValue::encode(jsNumber(result));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncPow(JSGlobalObject* globalObject, CallFrame* callFrame)
{
// ECMA 15.8.2.1.13
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
double arg = callFrame->argument(0).toNumber(globalObject);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
scope.release();
double arg2 = callFrame->argument(1).toNumber(globalObject);
return JSValue::encode(JSValue(operationMathPow(arg, arg2)));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncRandom(JSGlobalObject* globalObject, CallFrame*)
{
return JSValue::encode(jsDoubleNumber(globalObject->weakRandomNumber()));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncRound(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsNumber(jsRound(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncSign(JSGlobalObject* globalObject, CallFrame* callFrame)
{
double arg = callFrame->argument(0).toNumber(globalObject);
if (std::isnan(arg))
return JSValue::encode(jsNaN());
if (!arg)
return JSValue::encode(std::signbit(arg) ? jsNumber(-0.0) : jsNumber(0));
return JSValue::encode(jsNumber(std::signbit(arg) ? -1 : 1));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncSin(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::sin(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncSqrt(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(sqrt(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncTan(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::tan(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncIMul(JSGlobalObject* globalObject, CallFrame* callFrame)
{
VM& vm = globalObject->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
int32_t left = callFrame->argument(0).toInt32(globalObject);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
scope.release();
int32_t right = callFrame->argument(1).toInt32(globalObject);
return JSValue::encode(jsNumber(left * right));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncACosh(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::acosh(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncASinh(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::asinh(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncATanh(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::atanh(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncCbrt(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::cbrt(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncCosh(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::cosh(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncExpm1(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::expm1(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncFround(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(static_cast<float>(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog1p(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::log1p(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog10(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::log10(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncLog2(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::log2(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncSinh(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::sinh(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncTanh(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsDoubleNumber(Math::tanh(callFrame->argument(0).toNumber(globalObject))));
}
EncodedJSValue JSC_HOST_CALL mathProtoFuncTrunc(JSGlobalObject* globalObject, CallFrame* callFrame)
{
return JSValue::encode(jsNumber(callFrame->argument(0).toIntegerPreserveNaN(globalObject)));
}
} // namespace JSC