420 lines
12 KiB
C++
420 lines
12 KiB
C++
/*
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* Copyright (c) Facebook, Inc. and its affiliates.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <folly/experimental/QuotientMultiSet.h>
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#include <folly/Format.h>
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#include <folly/Portability.h>
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#include <folly/experimental/Bits.h>
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#include <folly/experimental/Select64.h>
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#include <folly/lang/Bits.h>
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#include <folly/lang/SafeAssert.h>
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#include <glog/logging.h>
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#if FOLLY_QUOTIENT_MULTI_SET_SUPPORTED
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namespace folly {
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namespace qms_detail {
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/*
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* Reference: Faster Remainder by Direct Computation: Applications to Compilers
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* and Software Libraries, Software: Practice and Experience 49 (6), 2019.
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*/
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FOLLY_ALWAYS_INLINE UInt64InverseType getInverse(uint64_t divisor) {
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UInt64InverseType fraction = UInt64InverseType(-1);
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fraction /= divisor;
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fraction += 1;
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return fraction;
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}
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FOLLY_ALWAYS_INLINE uint64_t
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mul128(UInt64InverseType lowbits, uint64_t divisor) {
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UInt64InverseType bottomHalf =
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(lowbits & UINT64_C(0xFFFFFFFFFFFFFFFF)) * divisor;
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bottomHalf >>= 64;
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UInt64InverseType topHalf = (lowbits >> 64) * divisor;
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UInt64InverseType bothHalves = bottomHalf + topHalf;
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bothHalves >>= 64;
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return static_cast<uint64_t>(bothHalves);
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}
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FOLLY_ALWAYS_INLINE std::pair<uint64_t, uint64_t> getQuotientAndRemainder(
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uint64_t dividend,
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uint64_t divisor,
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UInt64InverseType inverse) {
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if (FOLLY_UNLIKELY(divisor == 1)) {
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return {dividend, 0};
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}
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auto quotient = mul128(inverse, dividend);
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auto remainder = dividend - quotient * divisor;
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DCHECK_LT(remainder, divisor);
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return {quotient, remainder};
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}
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// Max value for given bits.
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FOLLY_ALWAYS_INLINE uint64_t maxValue(uint32_t nbits) {
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return nbits == 64 ? std::numeric_limits<uint64_t>::max()
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: (uint64_t(1) << nbits) - 1;
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}
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} // namespace qms_detail
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template <class Instructions>
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struct QuotientMultiSet<Instructions>::Metadata {
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// Total number of blocks.
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uint64_t numBlocks;
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uint64_t numKeys;
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uint64_t divisor;
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uint8_t keyBits;
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uint8_t remainderBits;
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std::string debugString() const {
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return sformat(
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"Number of blocks: {}\n"
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"Number of elements: {}\n"
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"Divisor: {}\n"
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"Key bits: {}\n"
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"Remainder bits: {}",
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numBlocks,
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numKeys,
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divisor,
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keyBits,
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remainderBits);
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}
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} FOLLY_PACK_ATTR;
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template <class Instructions>
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struct QuotientMultiSet<Instructions>::Block {
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static const Block* get(const char* data) {
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return reinterpret_cast<const Block*>(data);
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}
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static BlockPtr make(size_t remainderBits) {
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auto ptr = reinterpret_cast<Block*>(calloc(blockSize(remainderBits), 1));
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return {ptr, free};
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}
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uint64_t payload;
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uint64_t occupieds;
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uint64_t offset;
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uint64_t runends;
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char remainders[0];
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static uint64_t blockSize(size_t remainderBits) {
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return sizeof(Block) + remainderBits * 8;
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}
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FOLLY_ALWAYS_INLINE bool isOccupied(size_t offsetInBlock) const {
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return ((occupieds >> offsetInBlock) & uint64_t(1)) != 0;
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}
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FOLLY_ALWAYS_INLINE bool isRunend(size_t offsetInBlock) const {
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return ((runends >> offsetInBlock) & uint64_t(1)) != 0;
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}
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FOLLY_ALWAYS_INLINE uint64_t getRemainder(
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size_t offsetInBlock,
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size_t remainderBits,
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size_t remainderMask) const {
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DCHECK_LE(remainderBits, 56);
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const size_t bitPos = offsetInBlock * remainderBits;
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const uint64_t remainderWord =
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loadUnaligned<uint64_t>(remainders + (bitPos / 8));
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return (remainderWord >> (bitPos % 8)) & remainderMask;
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}
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void setOccupied(size_t offsetInBlock) {
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occupieds |= uint64_t(1) << offsetInBlock;
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}
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void setRunend(size_t offsetInBlock) {
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runends |= uint64_t(1) << offsetInBlock;
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}
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void
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setRemainder(size_t offsetInBlock, size_t remainderBits, uint64_t remainder) {
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DCHECK_LT(offsetInBlock, kBlockSize);
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if (FOLLY_UNLIKELY(remainderBits == 0)) {
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return;
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}
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Bits<uint64_t>::set(
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reinterpret_cast<uint64_t*>(remainders),
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offsetInBlock * remainderBits,
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remainderBits,
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remainder);
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}
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} FOLLY_PACK_ATTR;
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template <class Instructions>
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QuotientMultiSet<Instructions>::QuotientMultiSet(StringPiece data) {
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static_assert(
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kIsLittleEndian, "QuotientMultiSet requires little endianness.");
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StringPiece sp = data;
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CHECK_GE(sp.size(), sizeof(Metadata));
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sp.advance(sp.size() - sizeof(Metadata));
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metadata_ = reinterpret_cast<const Metadata*>(sp.data());
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VLOG(2) << "Metadata: " << metadata_->debugString();
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numBlocks_ = metadata_->numBlocks;
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numSlots_ = numBlocks_ * kBlockSize;
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divisor_ = metadata_->divisor;
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fraction_ = qms_detail::getInverse(divisor_);
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keyBits_ = metadata_->keyBits;
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maxKey_ = qms_detail::maxValue(keyBits_);
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remainderBits_ = metadata_->remainderBits;
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remainderMask_ = qms_detail::maxValue(remainderBits_);
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blockSize_ = Block::blockSize(remainderBits_);
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CHECK_EQ(data.size(), numBlocks_ * blockSize_ + sizeof(Metadata));
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data_ = data.data();
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}
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template <class Instructions>
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auto QuotientMultiSet<Instructions>::equalRange(uint64_t key) const
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-> SlotRange {
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if (key > maxKey_) {
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return {0, 0};
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}
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const auto qr = qms_detail::getQuotientAndRemainder(key, divisor_, fraction_);
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const auto& quotient = qr.first;
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const auto& remainder = qr.second;
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const size_t blockIndex = quotient / kBlockSize;
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const size_t offsetInBlock = quotient % kBlockSize;
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if (FOLLY_UNLIKELY(blockIndex >= numBlocks_)) {
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return {0, 0};
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}
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const auto* occBlock = getBlock(blockIndex);
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__builtin_prefetch(reinterpret_cast<const char*>(&occBlock->occupieds) + 64);
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const auto firstRunend = occBlock->offset;
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if (!occBlock->isOccupied(offsetInBlock)) {
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// Return a position that depends on the contents of the block so
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// we can create a dependency in benchmarks.
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return {firstRunend, firstRunend};
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}
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// Look for the right runend for the given key.
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const uint64_t occupiedRank = Instructions::popcount(
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Instructions::bzhi(occBlock->occupieds, offsetInBlock));
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auto runend = findRunend(occupiedRank, firstRunend);
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auto& slot = runend.first;
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auto& block = runend.second;
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// Iterates over the run backwards to find the slots whose remainder
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// matches the key.
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SlotRange range = {slot + 1, slot + 1};
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while (true) {
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uint64_t slotRemainder =
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block->getRemainder(slot % kBlockSize, remainderBits_, remainderMask_);
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if (slotRemainder > remainder) {
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range.begin = slot;
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range.end = slot;
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} else if (slotRemainder == remainder) {
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range.begin = slot;
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} else {
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break;
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}
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if (FOLLY_UNLIKELY(slot % kBlockSize == 0)) {
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// Reached block start and the run starts from a prev block.
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size_t slotBlockIndex = slot / kBlockSize;
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if (slotBlockIndex > blockIndex) {
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block = getBlock(slotBlockIndex - 1);
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} else {
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break;
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}
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}
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--slot;
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// Encounters the previous run.
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if (block->isRunend(slot % kBlockSize)) {
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break;
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}
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}
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return range;
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}
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template <class Instructions>
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auto QuotientMultiSet<Instructions>::findRunend(
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uint64_t occupiedRank,
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uint64_t firstRunend) const -> std::pair<uint64_t, const Block*> {
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// Look for the right runend.
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size_t slotBlockIndex = firstRunend / kBlockSize;
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auto block = getBlock(slotBlockIndex);
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uint64_t runendWord =
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block->runends & (uint64_t(-1) << (firstRunend % kBlockSize));
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while (true) {
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DCHECK_LE(slotBlockIndex, numBlocks_);
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const size_t numRuns = Instructions::popcount(runendWord);
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if (FOLLY_LIKELY(numRuns > occupiedRank)) {
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break;
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}
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occupiedRank -= numRuns;
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++slotBlockIndex;
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block = getBlock(slotBlockIndex);
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runendWord = block->runends;
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}
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return {slotBlockIndex * kBlockSize +
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select64<Instructions>(runendWord, occupiedRank),
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block};
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}
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template <class Instructions>
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uint64_t QuotientMultiSet<Instructions>::getBlockPayload(
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uint64_t blockIndex) const {
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DCHECK_LT(blockIndex, numBlocks_);
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return getBlock(blockIndex)->payload;
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}
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template <class Instructions>
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QuotientMultiSet<Instructions>::Iterator::Iterator(
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const QuotientMultiSet<Instructions>* qms)
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: qms_(qms),
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key_(0),
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occBlockIndex_(-1),
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occOffsetInBlock_(0),
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occWord_(0),
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occBlock_(nullptr),
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pos_(-1) {}
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template <class Instructions>
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bool QuotientMultiSet<Instructions>::Iterator::next() {
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if (pos_ == size_t(-1) ||
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qms_->getBlock(pos_ / kBlockSize)->isRunend(pos_ % kBlockSize)) {
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// Move to start of next run.
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if (!nextOccupied()) {
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return setEnd();
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}
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// Next run either starts at pos + 1 or the start of block
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// specified by occupied slot.
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pos_ = std::max<uint64_t>(pos_ + 1, occBlockIndex_ * kBlockSize);
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} else {
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// Move to next slot since a run must be contiguous.
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pos_++;
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}
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const Block* block = qms_->getBlock(pos_ / kBlockSize);
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uint64_t quotient =
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(occBlockIndex_ * kBlockSize + occOffsetInBlock_) * qms_->divisor_;
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key_ = quotient +
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block->getRemainder(
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pos_ % kBlockSize, qms_->remainderBits_, qms_->remainderMask_);
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DCHECK_LT(pos_, qms_->numBlocks_ * kBlockSize);
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return true;
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}
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template <class Instructions>
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bool QuotientMultiSet<Instructions>::Iterator::skipTo(uint64_t key) {
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if (key > qms_->maxKey_) {
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return false;
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}
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const auto qr =
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qms_detail::getQuotientAndRemainder(key, qms_->divisor_, qms_->fraction_);
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const auto& quotient = qr.first;
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occBlockIndex_ = quotient / kBlockSize;
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occOffsetInBlock_ = quotient % kBlockSize;
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if (FOLLY_UNLIKELY(occBlockIndex_ >= qms_->numBlocks_)) {
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return setEnd();
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}
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occBlock_ = qms_->getBlock(occBlockIndex_);
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occWord_ = occBlock_->occupieds & (uint64_t(-1) << occOffsetInBlock_);
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if (!nextOccupied()) {
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return setEnd();
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}
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// Search for the next runend.
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uint64_t occupiedRank = Instructions::popcount(
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Instructions::bzhi(occBlock_->occupieds, occOffsetInBlock_));
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auto runend = qms_->findRunend(occupiedRank, occBlock_->offset);
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auto& slot = runend.first;
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auto& block = runend.second;
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uint64_t slotBlockIndex = slot / kBlockSize;
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uint64_t slotOffsetInBlock = slot % kBlockSize;
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pos_ = slot;
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uint64_t nextQuotient =
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(occBlockIndex_ * kBlockSize + occOffsetInBlock_) * qms_->divisor_;
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uint64_t nextRemainder = block->getRemainder(
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slotOffsetInBlock, qms_->remainderBits_, qms_->remainderMask_);
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if (nextQuotient + nextRemainder < key) {
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// Lower bound element is at the start of next run.
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return next();
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}
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// Iterate over the run backwards to find the first key that is larger than
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// or equal to the given key.
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while (true) {
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uint64_t slotRemainder = block->getRemainder(
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slotOffsetInBlock, qms_->remainderBits_, qms_->remainderMask_);
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if (nextQuotient + slotRemainder < key) {
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break;
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}
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pos_ = slot;
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nextRemainder = slotRemainder;
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if (FOLLY_UNLIKELY(slotOffsetInBlock == 0)) {
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// Reached block start and the run starts from a prev block.
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if (slotBlockIndex > occBlockIndex_) {
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--slotBlockIndex;
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block = qms_->getBlock(slotBlockIndex);
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slotOffsetInBlock = kBlockSize;
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} else {
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break;
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}
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}
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--slot;
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--slotOffsetInBlock;
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// Encounters the previous run.
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if (block->isRunend(slotOffsetInBlock)) {
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break;
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}
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}
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key_ = nextQuotient + nextRemainder;
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return true;
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}
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template <class Instructions>
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bool QuotientMultiSet<Instructions>::Iterator::nextOccupied() {
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while (FOLLY_UNLIKELY(occWord_ == 0)) {
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if (FOLLY_UNLIKELY(++occBlockIndex_ >= qms_->numBlocks_)) {
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return false;
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}
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occBlock_ = qms_->getBlock(occBlockIndex_);
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occWord_ = occBlock_->occupieds;
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}
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occOffsetInBlock_ = Instructions::ctz(occWord_);
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occWord_ = Instructions::blsr(occWord_);
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return true;
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}
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} // namespace folly
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#endif // FOLLY_QUOTIENT_MULTI_SET_SUPPORTED
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