2013-07-24 11:41:39 +04:00
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/* -*- 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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2012-08-27 05:58:23 +04:00
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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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/* mfbt maths algorithms. */
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2013-07-24 11:41:39 +04:00
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#ifndef mozilla_MathAlgorithms_h
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#define mozilla_MathAlgorithms_h
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2012-08-27 05:58:23 +04:00
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#include "mozilla/Assertions.h"
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2013-02-16 07:55:36 +04:00
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#include "mozilla/TypeTraits.h"
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2013-03-14 11:16:55 +04:00
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#include <cmath>
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2013-02-16 07:55:36 +04:00
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#include <limits.h>
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2013-07-30 18:25:31 +04:00
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#include <stdint.h>
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2012-08-27 05:58:23 +04:00
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namespace mozilla {
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// Greatest Common Divisor
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template<typename IntegerType>
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MOZ_ALWAYS_INLINE IntegerType
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EuclidGCD(IntegerType a, IntegerType b)
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{
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// Euclid's algorithm; O(N) in the worst case. (There are better
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// ways, but we don't need them for the current use of this algo.)
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MOZ_ASSERT(a > 0);
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MOZ_ASSERT(b > 0);
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while (a != b) {
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if (a > b) {
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a = a - b;
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} else {
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b = b - a;
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}
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}
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return a;
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}
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// Least Common Multiple
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template<typename IntegerType>
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MOZ_ALWAYS_INLINE IntegerType
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EuclidLCM(IntegerType a, IntegerType b)
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{
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// Divide first to reduce overflow risk.
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return (a / EuclidGCD(a, b)) * b;
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}
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2013-02-16 07:55:36 +04:00
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namespace detail {
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2013-03-06 03:43:23 +04:00
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template<typename T>
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struct AllowDeprecatedAbsFixed : FalseType {};
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template<> struct AllowDeprecatedAbsFixed<int32_t> : TrueType {};
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template<> struct AllowDeprecatedAbsFixed<int64_t> : TrueType {};
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template<typename T>
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struct AllowDeprecatedAbs : AllowDeprecatedAbsFixed<T> {};
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template<> struct AllowDeprecatedAbs<int> : TrueType {};
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template<> struct AllowDeprecatedAbs<long> : TrueType {};
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} // namespace detail
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// DO NOT USE DeprecatedAbs. It exists only until its callers can be converted
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// to Abs below, and it will be removed when all callers have been changed.
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template<typename T>
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inline typename mozilla::EnableIf<detail::AllowDeprecatedAbs<T>::value, T>::Type
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DeprecatedAbs(const T t)
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{
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// The absolute value of the smallest possible value of a signed-integer type
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// won't fit in that type (on twos-complement systems -- and we're blithely
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// assuming we're on such systems, for the non-<stdint.h> types listed above),
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// so assert that the input isn't that value.
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//
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// This is the case if: the value is non-negative; or if adding one (giving a
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// value in the range [-maxvalue, 0]), then negating (giving a value in the
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// range [0, maxvalue]), doesn't produce maxvalue (because in twos-complement,
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// (minvalue + 1) == -maxvalue).
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MOZ_ASSERT(t >= 0 ||
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-(t + 1) != T((1ULL << (CHAR_BIT * sizeof(T) - 1)) - 1),
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"You can't negate the smallest possible negative integer!");
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return t >= 0 ? t : -t;
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}
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namespace detail {
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2013-02-16 07:55:36 +04:00
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// For now mozilla::Abs only takes intN_T, the signed natural types, and
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// float/double/long double. Feel free to add overloads for other standard,
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// signed types if you need them.
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template<typename T>
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2013-03-06 03:43:38 +04:00
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struct AbsReturnTypeFixed;
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2013-02-16 07:55:36 +04:00
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2013-03-06 03:43:38 +04:00
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template<> struct AbsReturnTypeFixed<int8_t> { typedef uint8_t Type; };
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template<> struct AbsReturnTypeFixed<int16_t> { typedef uint16_t Type; };
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template<> struct AbsReturnTypeFixed<int32_t> { typedef uint32_t Type; };
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template<> struct AbsReturnTypeFixed<int64_t> { typedef uint64_t Type; };
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2013-02-16 07:55:36 +04:00
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template<typename T>
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2013-03-06 03:43:38 +04:00
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struct AbsReturnType : AbsReturnTypeFixed<T> {};
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template<> struct AbsReturnType<char> : EnableIf<char(-1) < char(0), unsigned char> {};
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template<> struct AbsReturnType<signed char> { typedef unsigned char Type; };
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template<> struct AbsReturnType<short> { typedef unsigned short Type; };
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template<> struct AbsReturnType<int> { typedef unsigned int Type; };
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template<> struct AbsReturnType<long> { typedef unsigned long Type; };
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template<> struct AbsReturnType<long long> { typedef unsigned long long Type; };
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template<> struct AbsReturnType<float> { typedef float Type; };
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template<> struct AbsReturnType<double> { typedef double Type; };
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template<> struct AbsReturnType<long double> { typedef long double Type; };
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2013-02-16 07:55:36 +04:00
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} // namespace detail
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template<typename T>
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2013-03-06 03:43:38 +04:00
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inline typename detail::AbsReturnType<T>::Type
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2013-02-16 07:55:36 +04:00
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Abs(const T t)
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{
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2013-03-06 03:43:38 +04:00
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typedef typename detail::AbsReturnType<T>::Type ReturnType;
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return t >= 0 ? ReturnType(t) : ~ReturnType(t) + 1;
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2013-02-16 07:55:36 +04:00
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}
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template<>
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inline float
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Abs<float>(const float f)
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{
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2013-03-14 11:16:55 +04:00
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return std::fabs(f);
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2013-02-16 07:55:36 +04:00
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}
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template<>
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inline double
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Abs<double>(const double d)
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{
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2013-03-14 11:16:55 +04:00
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return std::fabs(d);
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2013-02-16 07:55:36 +04:00
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}
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template<>
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inline long double
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Abs<long double>(const long double d)
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{
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2013-03-14 11:16:55 +04:00
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return std::fabs(d);
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2013-02-16 07:55:36 +04:00
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}
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2013-07-04 02:46:51 +04:00
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} // namespace mozilla
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#if defined(_WIN32) && (_MSC_VER >= 1300) && (defined(_M_IX86) || defined(_M_AMD64) || defined(_M_X64))
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# define MOZ_BITSCAN_WINDOWS
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extern "C" {
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unsigned char _BitScanForward(unsigned long* Index, unsigned long mask);
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unsigned char _BitScanReverse(unsigned long* Index, unsigned long mask);
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# pragma intrinsic(_BitScanForward, _BitScanReverse)
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# if defined(_M_AMD64) || defined(_M_X64)
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# define MOZ_BITSCAN_WINDOWS64
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unsigned char _BitScanForward64(unsigned long* index, unsigned __int64 mask);
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unsigned char _BitScanReverse64(unsigned long* index, unsigned __int64 mask);
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# pragma intrinsic(_BitScanForward64, _BitScanReverse64)
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# endif
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} // extern "C"
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#endif
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namespace mozilla {
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namespace detail {
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#if defined(MOZ_BITSCAN_WINDOWS)
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inline uint_fast8_t
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CountLeadingZeroes32(uint32_t u)
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{
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unsigned long index;
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_BitScanReverse(&index, static_cast<unsigned long>(u));
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return uint_fast8_t(31 - index);
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}
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inline uint_fast8_t
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CountTrailingZeroes32(uint32_t u)
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{
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unsigned long index;
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_BitScanForward(&index, static_cast<unsigned long>(u));
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return uint_fast8_t(index);
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}
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2013-08-19 23:32:22 +04:00
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inline uint_fast8_t
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CountPopulation32(uint32_t u)
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{
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uint32_t sum2 = (u & 0x55555555) + ((u & 0xaaaaaaaa) >> 1);
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uint32_t sum4 = (sum2 & 0x33333333) + ((sum2 & 0xcccccccc) >> 2);
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uint32_t sum8 = (sum4 & 0x0f0f0f0f) + ((sum4 & 0xf0f0f0f0) >> 4);
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uint32_t sum16 = (sum8 & 0x00ff00ff) + ((sum8 & 0xff00ff00) >> 8);
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return sum16;
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}
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2013-07-04 02:46:51 +04:00
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inline uint_fast8_t
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CountLeadingZeroes64(uint64_t u)
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{
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# if defined(MOZ_BITSCAN_WINDOWS64)
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unsigned long index;
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_BitScanReverse64(&index, static_cast<unsigned __int64>(u));
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return uint_fast8_t(63 - index);
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# else
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uint32_t hi = uint32_t(u >> 32);
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if (hi != 0)
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return CountLeadingZeroes32(hi);
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return 32 + CountLeadingZeroes32(uint32_t(u));
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# endif
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}
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inline uint_fast8_t
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CountTrailingZeroes64(uint64_t u)
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{
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# if defined(MOZ_BITSCAN_WINDOWS64)
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unsigned long index;
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2013-07-19 06:30:06 +04:00
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_BitScanForward64(&index, static_cast<unsigned __int64>(u));
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2013-07-04 02:46:51 +04:00
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return uint_fast8_t(index);
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# else
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uint32_t lo = uint32_t(u);
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if (lo != 0)
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return CountTrailingZeroes32(lo);
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return 32 + CountTrailingZeroes32(uint32_t(u >> 32));
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# endif
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}
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# ifdef MOZ_HAVE_BITSCAN64
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# undef MOZ_HAVE_BITSCAN64
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# endif
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#elif defined(__clang__) || defined(__GNUC__)
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# if defined(__clang__)
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# if !__has_builtin(__builtin_ctz) || !__has_builtin(__builtin_clz)
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# error "A clang providing __builtin_c[lt]z is required to build"
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# endif
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# else
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// gcc has had __builtin_clz and friends since 3.4: no need to check.
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# endif
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inline uint_fast8_t
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CountLeadingZeroes32(uint32_t u)
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{
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return __builtin_clz(u);
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}
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inline uint_fast8_t
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CountTrailingZeroes32(uint32_t u)
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{
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return __builtin_ctz(u);
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}
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2013-08-19 23:32:22 +04:00
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inline uint_fast8_t
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CountPopulation32(uint32_t u)
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{
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return __builtin_popcount(u);
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}
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2013-07-04 02:46:51 +04:00
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inline uint_fast8_t
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CountLeadingZeroes64(uint64_t u)
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{
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return __builtin_clzll(u);
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}
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inline uint_fast8_t
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CountTrailingZeroes64(uint64_t u)
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{
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return __builtin_ctzll(u);
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}
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#else
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# error "Implement these!"
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inline uint_fast8_t CountLeadingZeroes32(uint32_t u) MOZ_DELETE;
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inline uint_fast8_t CountTrailingZeroes32(uint32_t u) MOZ_DELETE;
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2013-08-19 23:32:22 +04:00
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inline uint_fast8_t CountPopulation32(uint32_t u) MOZ_DELETE;
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2013-07-04 02:46:51 +04:00
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inline uint_fast8_t CountLeadingZeroes64(uint64_t u) MOZ_DELETE;
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inline uint_fast8_t CountTrailingZeroes64(uint64_t u) MOZ_DELETE;
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#endif
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} // namespace detail
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/**
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* Compute the number of high-order zero bits in the NON-ZERO number |u|. That
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* is, looking at the bitwise representation of the number, with the highest-
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* valued bits at the start, return the number of zeroes before the first one
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* is observed.
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*
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* CountLeadingZeroes32(0xF0FF1000) is 0;
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* CountLeadingZeroes32(0x7F8F0001) is 1;
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* CountLeadingZeroes32(0x3FFF0100) is 2;
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* CountLeadingZeroes32(0x1FF50010) is 3; and so on.
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*/
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inline uint_fast8_t
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CountLeadingZeroes32(uint32_t u)
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{
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MOZ_ASSERT(u != 0);
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return detail::CountLeadingZeroes32(u);
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}
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/**
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* Compute the number of low-order zero bits in the NON-ZERO number |u|. That
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* is, looking at the bitwise representation of the number, with the lowest-
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* valued bits at the start, return the number of zeroes before the first one
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* is observed.
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*
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* CountTrailingZeroes32(0x0100FFFF) is 0;
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* CountTrailingZeroes32(0x7000FFFE) is 1;
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* CountTrailingZeroes32(0x0080FFFC) is 2;
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* CountTrailingZeroes32(0x0080FFF8) is 3; and so on.
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*/
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inline uint_fast8_t
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CountTrailingZeroes32(uint32_t u)
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{
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MOZ_ASSERT(u != 0);
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return detail::CountTrailingZeroes32(u);
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}
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2013-08-19 23:32:22 +04:00
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/**
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* Compute the number of one bits in the number |u|,
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*/
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inline uint_fast8_t
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CountPopulation32(uint32_t u)
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{
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return detail::CountPopulation32(u);
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}
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2013-07-04 02:46:51 +04:00
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/** Analogous to CountLeadingZeroes32, but for 64-bit numbers. */
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inline uint_fast8_t
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CountLeadingZeroes64(uint64_t u)
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{
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MOZ_ASSERT(u != 0);
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return detail::CountLeadingZeroes64(u);
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}
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/** Analogous to CountTrailingZeroes32, but for 64-bit numbers. */
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inline uint_fast8_t
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CountTrailingZeroes64(uint64_t u)
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{
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MOZ_ASSERT(u != 0);
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return detail::CountTrailingZeroes64(u);
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}
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namespace detail {
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template<typename T, size_t Size = sizeof(T)>
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class CeilingLog2;
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template<typename T>
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class CeilingLog2<T, 4>
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{
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public:
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static uint_fast8_t compute(const T t) {
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// Check for <= 1 to avoid the == 0 undefined case.
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return t <= 1 ? 0 : 32 - CountLeadingZeroes32(t - 1);
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}
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};
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template<typename T>
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class CeilingLog2<T, 8>
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{
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public:
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static uint_fast8_t compute(const T t) {
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// Check for <= 1 to avoid the == 0 undefined case.
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return t <= 1 ? 0 : 64 - CountLeadingZeroes64(t - 1);
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}
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};
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} // namespace detail
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/**
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* Compute the log of the least power of 2 greater than or equal to |t|.
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*
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* CeilingLog2(0..1) is 0;
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* CeilingLog2(2) is 1;
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* CeilingLog2(3..4) is 2;
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* CeilingLog2(5..8) is 3;
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* CeilingLog2(9..16) is 4; and so on.
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*/
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template<typename T>
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inline uint_fast8_t
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CeilingLog2(const T t)
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{
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return detail::CeilingLog2<T>::compute(t);
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}
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/** A CeilingLog2 variant that accepts only size_t. */
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inline uint_fast8_t
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CeilingLog2Size(size_t n)
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{
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return CeilingLog2(n);
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}
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namespace detail {
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template<typename T, size_t Size = sizeof(T)>
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class FloorLog2;
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template<typename T>
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class FloorLog2<T, 4>
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{
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public:
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static uint_fast8_t compute(const T t) {
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return 31 - CountLeadingZeroes32(t | 1);
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}
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};
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template<typename T>
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class FloorLog2<T, 8>
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{
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public:
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static uint_fast8_t compute(const T t) {
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return 63 - CountLeadingZeroes64(t | 1);
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}
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};
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} // namespace detail
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/**
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* Compute the log of the greatest power of 2 less than or equal to |t|.
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*
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* FloorLog2(0..1) is 0;
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* FloorLog2(2..3) is 1;
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* FloorLog2(4..7) is 2;
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* FloorLog2(8..15) is 3; and so on.
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*/
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|
template<typename T>
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|
|
inline uint_fast8_t
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|
FloorLog2(const T t)
|
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|
{
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|
return detail::FloorLog2<T>::compute(t);
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|
}
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|
/** A FloorLog2 variant that accepts only size_t. */
|
|
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|
inline uint_fast8_t
|
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|
FloorLog2Size(size_t n)
|
|
|
|
{
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|
return FloorLog2(n);
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|
}
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|
/*
|
2013-07-26 07:01:45 +04:00
|
|
|
* Compute the smallest power of 2 greater than or equal to |x|. |x| must not
|
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|
|
* be so great that the computed value would overflow |size_t|.
|
2013-07-04 02:46:51 +04:00
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|
|
*/
|
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|
inline size_t
|
|
|
|
RoundUpPow2(size_t x)
|
|
|
|
{
|
2013-07-26 07:01:45 +04:00
|
|
|
MOZ_ASSERT(x <= (size_t(1) << (sizeof(size_t) * CHAR_BIT - 1)),
|
|
|
|
"can't round up -- will overflow!");
|
2013-07-04 02:46:51 +04:00
|
|
|
return size_t(1) << CeilingLog2(x);
|
|
|
|
}
|
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|
|
2012-08-27 05:58:23 +04:00
|
|
|
} /* namespace mozilla */
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2013-07-24 11:41:39 +04:00
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|
#endif /* mozilla_MathAlgorithms_h */
|