зеркало из https://github.com/mozilla/gecko-dev.git
242 строки
7.9 KiB
C++
242 строки
7.9 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/* Various predicates and operations on IEEE-754 floating point types. */
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#ifndef mozilla_FloatingPoint_h
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#define mozilla_FloatingPoint_h
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#include "mozilla/Assertions.h"
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#include "mozilla/Attributes.h"
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#include "mozilla/Casting.h"
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#include <stdint.h>
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namespace mozilla {
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/*
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* It's reasonable to ask why we have this header at all. Don't isnan,
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* copysign, the built-in comparison operators, and the like solve these
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* problems? Unfortunately, they don't. We've found that various compilers
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* (MSVC, MSVC when compiling with PGO, and GCC on OS X, at least) miscompile
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* the standard methods in various situations, so we can't use them. Some of
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* these compilers even have problems compiling seemingly reasonable bitwise
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* algorithms! But with some care we've found algorithms that seem to not
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* trigger those compiler bugs.
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*
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* For the aforementioned reasons, be very wary of making changes to any of
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* these algorithms. If you must make changes, keep a careful eye out for
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* compiler bustage, particularly PGO-specific bustage.
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*/
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/*
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* These implementations all assume |double| is a 64-bit double format number
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* type, compatible with the IEEE-754 standard. C/C++ don't require this to be
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* the case. But we required this in implementations of these algorithms that
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* preceded this header, so we shouldn't break anything if we continue doing so.
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*/
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static_assert(sizeof(double) == sizeof(uint64_t), "double must be 64 bits");
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const unsigned DoubleExponentBias = 1023;
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const unsigned DoubleExponentShift = 52;
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const uint64_t DoubleSignBit = 0x8000000000000000ULL;
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const uint64_t DoubleExponentBits = 0x7ff0000000000000ULL;
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const uint64_t DoubleSignificandBits = 0x000fffffffffffffULL;
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static_assert((DoubleSignBit & DoubleExponentBits) == 0,
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"sign bit doesn't overlap exponent bits");
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static_assert((DoubleSignBit & DoubleSignificandBits) == 0,
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"sign bit doesn't overlap significand bits");
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static_assert((DoubleExponentBits & DoubleSignificandBits) == 0,
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"exponent bits don't overlap significand bits");
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static_assert((DoubleSignBit | DoubleExponentBits | DoubleSignificandBits) ==
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~uint64_t(0),
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"all bits accounted for");
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/*
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* Ditto for |float| that must be a 32-bit double format number type, compatible
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* with the IEEE-754 standard.
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*/
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static_assert(sizeof(float) == sizeof(uint32_t), "float must be 32bits");
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const unsigned FloatExponentBias = 127;
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const unsigned FloatExponentShift = 23;
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const uint32_t FloatSignBit = 0x80000000UL;
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const uint32_t FloatExponentBits = 0x7F800000UL;
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const uint32_t FloatSignificandBits = 0x007FFFFFUL;
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static_assert((FloatSignBit & FloatExponentBits) == 0,
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"sign bit doesn't overlap exponent bits");
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static_assert((FloatSignBit & FloatSignificandBits) == 0,
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"sign bit doesn't overlap significand bits");
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static_assert((FloatExponentBits & FloatSignificandBits) == 0,
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"exponent bits don't overlap significand bits");
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static_assert((FloatSignBit | FloatExponentBits | FloatSignificandBits) ==
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~uint32_t(0),
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"all bits accounted for");
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/** Determines whether a double is NaN. */
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static MOZ_ALWAYS_INLINE bool
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IsNaN(double d)
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{
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/*
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* A double is NaN if all exponent bits are 1 and the significand contains at
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* least one non-zero bit.
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*/
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uint64_t bits = BitwiseCast<uint64_t>(d);
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return (bits & DoubleExponentBits) == DoubleExponentBits &&
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(bits & DoubleSignificandBits) != 0;
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}
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/** Determines whether a double is +Infinity or -Infinity. */
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static MOZ_ALWAYS_INLINE bool
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IsInfinite(double d)
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{
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/* Infinities have all exponent bits set to 1 and an all-0 significand. */
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uint64_t bits = BitwiseCast<uint64_t>(d);
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return (bits & ~DoubleSignBit) == DoubleExponentBits;
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}
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/** Determines whether a double is not NaN or infinite. */
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static MOZ_ALWAYS_INLINE bool
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IsFinite(double d)
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{
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/*
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* NaN and Infinities are the only non-finite doubles, and both have all
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* exponent bits set to 1.
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*/
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uint64_t bits = BitwiseCast<uint64_t>(d);
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return (bits & DoubleExponentBits) != DoubleExponentBits;
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}
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/**
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* Determines whether a double is negative. It is an error to call this method
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* on a double which is NaN.
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*/
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static MOZ_ALWAYS_INLINE bool
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IsNegative(double d)
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{
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MOZ_ASSERT(!IsNaN(d), "NaN does not have a sign");
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/* The sign bit is set if the double is negative. */
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uint64_t bits = BitwiseCast<uint64_t>(d);
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return (bits & DoubleSignBit) != 0;
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}
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/** Determines whether a double represents -0. */
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static MOZ_ALWAYS_INLINE bool
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IsNegativeZero(double d)
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{
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/* Only the sign bit is set if the double is -0. */
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uint64_t bits = BitwiseCast<uint64_t>(d);
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return bits == DoubleSignBit;
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}
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/** Returns the exponent portion of the double. */
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static MOZ_ALWAYS_INLINE int_fast16_t
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ExponentComponent(double d)
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{
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/*
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* The exponent component of a double is an unsigned number, biased from its
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* actual value. Subtract the bias to retrieve the actual exponent.
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*/
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uint64_t bits = BitwiseCast<uint64_t>(d);
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return int_fast16_t((bits & DoubleExponentBits) >> DoubleExponentShift) -
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int_fast16_t(DoubleExponentBias);
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}
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/** Returns +Infinity. */
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static MOZ_ALWAYS_INLINE double
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PositiveInfinity()
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{
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/*
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* Positive infinity has all exponent bits set, sign bit set to 0, and no
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* significand.
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*/
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return BitwiseCast<double>(DoubleExponentBits);
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}
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/** Returns -Infinity. */
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static MOZ_ALWAYS_INLINE double
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NegativeInfinity()
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{
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/*
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* Negative infinity has all exponent bits set, sign bit set to 1, and no
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* significand.
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*/
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return BitwiseCast<double>(DoubleSignBit | DoubleExponentBits);
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}
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/** Constructs a NaN value with the specified sign bit and significand bits. */
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static MOZ_ALWAYS_INLINE double
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SpecificNaN(int signbit, uint64_t significand)
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{
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MOZ_ASSERT(signbit == 0 || signbit == 1);
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MOZ_ASSERT((significand & ~DoubleSignificandBits) == 0);
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MOZ_ASSERT(significand & DoubleSignificandBits);
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double d = BitwiseCast<double>((signbit ? DoubleSignBit : 0) |
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DoubleExponentBits |
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significand);
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MOZ_ASSERT(IsNaN(d));
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return d;
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}
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/** Computes the smallest non-zero positive double value. */
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static MOZ_ALWAYS_INLINE double
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MinDoubleValue()
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{
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return BitwiseCast<double>(uint64_t(1));
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}
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static MOZ_ALWAYS_INLINE bool
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DoubleIsInt32(double d, int32_t* i)
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{
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/*
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* XXX Casting a double that doesn't truncate to int32_t, to int32_t, induces
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* undefined behavior. We should definitely fix this (bug 744965), but as
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* apparently it "works" in practice, it's not a pressing concern now.
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*/
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return !IsNegativeZero(d) && d == (*i = int32_t(d));
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}
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/**
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* Computes a NaN value. Do not use this method if you depend upon a particular
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* NaN value being returned.
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*/
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static MOZ_ALWAYS_INLINE double
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UnspecifiedNaN()
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{
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/*
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* If we can use any quiet NaN, we might as well use the all-ones NaN,
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* since it's cheap to materialize on common platforms (such as x64, where
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* this value can be represented in a 32-bit signed immediate field, allowing
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* it to be stored to memory in a single instruction).
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*/
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return SpecificNaN(1, 0xfffffffffffffULL);
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}
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/**
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* Compare two doubles for equality, *without* equating -0 to +0, and equating
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* any NaN value to any other NaN value. (The normal equality operators equate
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* -0 with +0, and they equate NaN to no other value.)
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*/
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static inline bool
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DoublesAreIdentical(double d1, double d2)
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{
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if (IsNaN(d1))
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return IsNaN(d2);
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return BitwiseCast<uint64_t>(d1) == BitwiseCast<uint64_t>(d2);
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}
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} /* namespace mozilla */
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#endif /* mozilla_FloatingPoint_h */
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