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f4e4039f00
Summary: BottomNBits() - there is a single fast instruction for this on x86 since BMI2, but testing with godbolt indicates you need at least GCC 10 for the compiler to choose that instruction from the obvious C++ code. https://godbolt.org/z/5a7Ysd41h BitwiseAnd() - this is a convenience function that works around the language flaw that the type of the result of x & y is the larger of the two input types, when it should be the smaller. This can save some ugly static_cast. I expect to use both of these in coming HyperClockCache developments, and have applied them in a couple of places in existing code. Pull Request resolved: https://github.com/facebook/rocksdb/pull/11660 Test Plan: unit tests added Reviewed By: jowlyzhang Differential Revision: D47935531 Pulled By: pdillinger fbshipit-source-id: d148c43a1e51df4a1c549b93aaf2725a3f8d3bd6
352 lines
13 KiB
C++
352 lines
13 KiB
C++
// Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#pragma once
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#include <assert.h>
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#ifdef _MSC_VER
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#include <intrin.h>
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#endif
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#ifdef __BMI2__
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#include <immintrin.h>
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#endif
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#include <cstdint>
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#include <type_traits>
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#include "port/lang.h"
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#include "rocksdb/rocksdb_namespace.h"
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ASSERT_FEATURE_COMPAT_HEADER();
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namespace ROCKSDB_NAMESPACE {
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// Fast implementation of extracting the bottom n bits of an integer.
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// To ensure fast implementation, undefined if n bits is full width or more.
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template <typename T>
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inline T BottomNBits(T v, int nbits) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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assert(nbits >= 0);
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assert(nbits < int{8 * sizeof(T)});
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#ifdef __BMI2__
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if constexpr (sizeof(T) <= 4) {
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return static_cast<T>(_bzhi_u32(static_cast<uint32_t>(v), nbits));
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}
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if constexpr (sizeof(T) <= 8) {
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return static_cast<T>(_bzhi_u64(static_cast<uint64_t>(v), nbits));
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}
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#endif
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// Newer compilers compile this down to bzhi on x86, but some older
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// ones don't, thus the need for the intrinsic above.
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return static_cast<T>(v & ((T{1} << nbits) - 1));
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}
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// Fast implementation of floor(log2(v)). Undefined for 0 or negative
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// numbers (in case of signed type).
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template <typename T>
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inline int FloorLog2(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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assert(v > 0);
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#ifdef _MSC_VER
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static_assert(sizeof(T) <= sizeof(uint64_t), "type too big");
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unsigned long idx = 0;
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if (sizeof(T) <= sizeof(uint32_t)) {
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_BitScanReverse(&idx, static_cast<uint32_t>(v));
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} else {
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#if defined(_M_X64) || defined(_M_ARM64)
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_BitScanReverse64(&idx, static_cast<uint64_t>(v));
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#else
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const auto vh = static_cast<uint32_t>(static_cast<uint64_t>(v) >> 32);
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if (vh != 0) {
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_BitScanReverse(&idx, static_cast<uint32_t>(vh));
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idx += 32;
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} else {
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_BitScanReverse(&idx, static_cast<uint32_t>(v));
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}
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#endif
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}
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return idx;
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#else
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static_assert(sizeof(T) <= sizeof(unsigned long long), "type too big");
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if (sizeof(T) <= sizeof(unsigned int)) {
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int lz = __builtin_clz(static_cast<unsigned int>(v));
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return int{sizeof(unsigned int)} * 8 - 1 - lz;
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} else if (sizeof(T) <= sizeof(unsigned long)) {
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int lz = __builtin_clzl(static_cast<unsigned long>(v));
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return int{sizeof(unsigned long)} * 8 - 1 - lz;
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} else {
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int lz = __builtin_clzll(static_cast<unsigned long long>(v));
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return int{sizeof(unsigned long long)} * 8 - 1 - lz;
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}
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#endif
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}
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// Constexpr version of FloorLog2
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template <typename T>
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constexpr int ConstexprFloorLog2(T v) {
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// NOTE: not checking is_integral so that this works with Unsigned128
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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int rv = 0;
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while (v > T{1}) {
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++rv;
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v >>= 1;
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}
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return rv;
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}
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// Number of low-order zero bits before the first 1 bit. Undefined for 0.
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template <typename T>
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inline int CountTrailingZeroBits(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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assert(v != 0);
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#ifdef _MSC_VER
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static_assert(sizeof(T) <= sizeof(uint64_t), "type too big");
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unsigned long tz = 0;
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if (sizeof(T) <= sizeof(uint32_t)) {
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_BitScanForward(&tz, static_cast<uint32_t>(v));
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} else {
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#if defined(_M_X64) || defined(_M_ARM64)
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_BitScanForward64(&tz, static_cast<uint64_t>(v));
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#else
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_BitScanForward(&tz, static_cast<uint32_t>(v));
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if (tz == 0) {
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_BitScanForward(&tz,
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static_cast<uint32_t>(static_cast<uint64_t>(v) >> 32));
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tz += 32;
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}
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#endif
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}
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return static_cast<int>(tz);
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#else
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static_assert(sizeof(T) <= sizeof(unsigned long long), "type too big");
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if (sizeof(T) <= sizeof(unsigned int)) {
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return __builtin_ctz(static_cast<unsigned int>(v));
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} else if (sizeof(T) <= sizeof(unsigned long)) {
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return __builtin_ctzl(static_cast<unsigned long>(v));
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} else {
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return __builtin_ctzll(static_cast<unsigned long long>(v));
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}
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#endif
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}
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// Not all MSVC compile settings will use `BitsSetToOneFallback()`. We include
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// the following code at coarse granularity for simpler macros. It's important
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// to exclude at least so our non-MSVC unit test coverage tool doesn't see it.
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#ifdef _MSC_VER
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namespace detail {
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template <typename T>
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int BitsSetToOneFallback(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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const int kBits = static_cast<int>(sizeof(T)) * 8;
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static_assert((kBits & (kBits - 1)) == 0, "must be power of two bits");
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// we static_cast these bit patterns in order to truncate them to the correct
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// size. Warning C4309 dislikes this technique, so disable it here.
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#pragma warning(disable : 4309)
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v = static_cast<T>(v - ((v >> 1) & static_cast<T>(0x5555555555555555ull)));
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v = static_cast<T>((v & static_cast<T>(0x3333333333333333ull)) +
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((v >> 2) & static_cast<T>(0x3333333333333333ull)));
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v = static_cast<T>((v + (v >> 4)) & static_cast<T>(0x0F0F0F0F0F0F0F0Full));
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#pragma warning(default : 4309)
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for (int shift_bits = 8; shift_bits < kBits; shift_bits <<= 1) {
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v += static_cast<T>(v >> shift_bits);
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}
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// we want the bottom "slot" that's big enough to represent a value up to
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// (and including) kBits.
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return static_cast<int>(v & static_cast<T>(kBits | (kBits - 1)));
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}
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} // namespace detail
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#endif // _MSC_VER
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// Number of bits set to 1. Also known as "population count".
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template <typename T>
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inline int BitsSetToOne(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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#ifdef _MSC_VER
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static_assert(sizeof(T) <= sizeof(uint64_t), "type too big");
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if (sizeof(T) < sizeof(uint32_t)) {
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// This bit mask is to avoid a compiler warning on unused path
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constexpr auto mm = 8 * sizeof(uint32_t) - 1;
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// The bit mask is to neutralize sign extension on small signed types
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constexpr uint32_t m = (uint32_t{1} << ((8 * sizeof(T)) & mm)) - 1;
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#if __POPCNT__
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return static_cast<int>(__popcnt(static_cast<uint32_t>(v) & m));
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#else
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return static_cast<int>(detail::BitsSetToOneFallback(v) & m);
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#endif // __POPCNT__
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} else if (sizeof(T) == sizeof(uint32_t)) {
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#if __POPCNT__
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return static_cast<int>(__popcnt(static_cast<uint32_t>(v)));
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#else
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return detail::BitsSetToOneFallback(static_cast<uint32_t>(v));
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#endif // __POPCNT__
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} else {
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#if __POPCNT__
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#ifdef _M_X64
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return static_cast<int>(__popcnt64(static_cast<uint64_t>(v)));
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#else
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return static_cast<int>(
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__popcnt(static_cast<uint32_t>(static_cast<uint64_t>(v) >> 32) +
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__popcnt(static_cast<uint32_t>(v))));
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#endif // _M_X64
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#else
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return detail::BitsSetToOneFallback(static_cast<uint64_t>(v));
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#endif // __POPCNT__
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}
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#else
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static_assert(sizeof(T) <= sizeof(unsigned long long), "type too big");
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if (sizeof(T) < sizeof(unsigned int)) {
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// This bit mask is to avoid a compiler warning on unused path
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constexpr auto mm = 8 * sizeof(unsigned int) - 1;
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// This bit mask is to neutralize sign extension on small signed types
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constexpr unsigned int m = (1U << ((8 * sizeof(T)) & mm)) - 1;
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return __builtin_popcount(static_cast<unsigned int>(v) & m);
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} else if (sizeof(T) == sizeof(unsigned int)) {
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return __builtin_popcount(static_cast<unsigned int>(v));
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} else if (sizeof(T) <= sizeof(unsigned long)) {
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return __builtin_popcountl(static_cast<unsigned long>(v));
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} else {
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return __builtin_popcountll(static_cast<unsigned long long>(v));
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}
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#endif
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}
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template <typename T>
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inline int BitParity(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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#ifdef _MSC_VER
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// bit parity == oddness of popcount
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return BitsSetToOne(v) & 1;
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#else
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static_assert(sizeof(T) <= sizeof(unsigned long long), "type too big");
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if (sizeof(T) <= sizeof(unsigned int)) {
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// On any sane systen, potential sign extension here won't change parity
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return __builtin_parity(static_cast<unsigned int>(v));
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} else if (sizeof(T) <= sizeof(unsigned long)) {
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return __builtin_parityl(static_cast<unsigned long>(v));
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} else {
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return __builtin_parityll(static_cast<unsigned long long>(v));
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}
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#endif
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}
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// Swaps between big and little endian. Can be used in combination with the
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// little-endian encoding/decoding functions in coding_lean.h and coding.h to
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// encode/decode big endian.
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template <typename T>
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inline T EndianSwapValue(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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#ifdef _MSC_VER
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if (sizeof(T) == 2) {
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return static_cast<T>(_byteswap_ushort(static_cast<uint16_t>(v)));
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} else if (sizeof(T) == 4) {
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return static_cast<T>(_byteswap_ulong(static_cast<uint32_t>(v)));
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} else if (sizeof(T) == 8) {
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return static_cast<T>(_byteswap_uint64(static_cast<uint64_t>(v)));
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}
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#else
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if (sizeof(T) == 2) {
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return static_cast<T>(__builtin_bswap16(static_cast<uint16_t>(v)));
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} else if (sizeof(T) == 4) {
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return static_cast<T>(__builtin_bswap32(static_cast<uint32_t>(v)));
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} else if (sizeof(T) == 8) {
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return static_cast<T>(__builtin_bswap64(static_cast<uint64_t>(v)));
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}
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#endif
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// Recognized by clang as bswap, but not by gcc :(
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T ret_val = 0;
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for (std::size_t i = 0; i < sizeof(T); ++i) {
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ret_val |= ((v >> (8 * i)) & 0xff) << (8 * (sizeof(T) - 1 - i));
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}
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return ret_val;
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}
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// Reverses the order of bits in an integral value
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template <typename T>
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inline T ReverseBits(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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T r = EndianSwapValue(v);
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const T kHighestByte = T{1} << ((sizeof(T) - 1) * 8);
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const T kEveryByte = kHighestByte | (kHighestByte / 255);
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r = ((r & (kEveryByte * 0x0f)) << 4) | ((r >> 4) & (kEveryByte * 0x0f));
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r = ((r & (kEveryByte * 0x33)) << 2) | ((r >> 2) & (kEveryByte * 0x33));
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r = ((r & (kEveryByte * 0x55)) << 1) | ((r >> 1) & (kEveryByte * 0x55));
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return r;
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}
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// Every output bit depends on many input bits in the same and higher
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// positions, but not lower positions. Specifically, this function
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// * Output highest bit set to 1 is same as input (same FloorLog2, or
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// equivalently, same number of leading zeros)
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// * Is its own inverse (an involution)
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// * Guarantees that b bottom bits of v and c bottom bits of
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// DownwardInvolution(v) uniquely identify b + c bottom bits of v
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// (which is all of v if v < 2**(b + c)).
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// ** A notable special case is that modifying c adjacent bits at
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// some chosen position in the input is bijective with the bottom c
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// output bits.
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// * Distributes over xor, as in DI(a ^ b) == DI(a) ^ DI(b)
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//
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// This transformation is equivalent to a matrix*vector multiplication in
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// GF(2) where the matrix is recursively defined by the pattern matrix
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// P = | 1 1 |
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// | 0 1 |
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// and replacing 1's with P and 0's with 2x2 zero matices to some depth,
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// e.g. depth of 6 for 64-bit T. An essential feature of this matrix
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// is that all square sub-matrices that include the top row are invertible.
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template <typename T>
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inline T DownwardInvolution(T v) {
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static_assert(std::is_integral_v<T>, "non-integral type");
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static_assert(!std::is_reference_v<T>, "use std::remove_reference_t");
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static_assert(sizeof(T) <= 8, "only supported up to 64 bits");
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uint64_t r = static_cast<uint64_t>(v);
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if constexpr (sizeof(T) > 4) {
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r ^= r >> 32;
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}
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if constexpr (sizeof(T) > 2) {
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r ^= (r & 0xffff0000ffff0000U) >> 16;
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}
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if constexpr (sizeof(T) > 1) {
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r ^= (r & 0xff00ff00ff00ff00U) >> 8;
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}
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r ^= (r & 0xf0f0f0f0f0f0f0f0U) >> 4;
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r ^= (r & 0xccccccccccccccccU) >> 2;
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r ^= (r & 0xaaaaaaaaaaaaaaaaU) >> 1;
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return static_cast<T>(r);
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}
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// Bitwise-And with typing that allows you to avoid writing an explicit cast
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// to the smaller type, or the type of the right parameter if same size.
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template <typename A, typename B>
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inline std::conditional_t<sizeof(A) < sizeof(B), A, B> BitwiseAnd(A a, B b) {
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static_assert(std::is_integral_v<A>, "non-integral type");
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static_assert(std::is_integral_v<B>, "non-integral type");
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static_assert(!std::is_reference_v<A>, "use std::remove_reference_t");
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static_assert(!std::is_reference_v<B>, "use std::remove_reference_t");
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using Smaller = std::conditional_t<sizeof(A) < sizeof(B), A, B>;
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return static_cast<Smaller>(a & b);
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}
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} // namespace ROCKSDB_NAMESPACE
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