mirror of
https://github.com/moses-smt/mosesdecoder.git
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422 lines
13 KiB
C++
422 lines
13 KiB
C++
#ifndef UTIL_PROBING_HASH_TABLE_H
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#define UTIL_PROBING_HASH_TABLE_H
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#include "util/exception.hh"
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#include "util/mmap.hh"
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#include <algorithm>
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#include <cstddef>
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#include <functional>
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#include <vector>
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#include <cassert>
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#include <stdint.h>
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namespace util {
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/* Thrown when table grows too large */
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class ProbingSizeException : public Exception {
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public:
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ProbingSizeException() throw() {}
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~ProbingSizeException() throw() {}
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};
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// std::identity is an SGI extension :-(
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struct IdentityHash {
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template <class T> T operator()(T arg) const { return arg; }
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};
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class DivMod {
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public:
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explicit DivMod(std::size_t buckets) : buckets_(buckets) {}
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static std::size_t RoundBuckets(std::size_t from) {
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return from;
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}
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template <class It> It Ideal(It begin, uint64_t hash) const {
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return begin + (hash % buckets_);
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}
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template <class BaseIt, class OutIt> void Next(BaseIt begin, BaseIt end, OutIt &it) const {
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if (++it == end) it = begin;
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}
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void Double() {
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buckets_ *= 2;
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}
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private:
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std::size_t buckets_;
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};
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class Power2Mod {
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public:
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explicit Power2Mod(std::size_t buckets) {
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UTIL_THROW_IF(!buckets || (((buckets - 1) & buckets)), ProbingSizeException, "Size " << buckets << " is not a power of 2.");
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mask_ = buckets - 1;
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}
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// Round up to next power of 2.
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static std::size_t RoundBuckets(std::size_t from) {
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--from;
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from |= from >> 1;
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from |= from >> 2;
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from |= from >> 4;
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from |= from >> 8;
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from |= from >> 16;
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from |= from >> 32;
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return from + 1;
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}
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template <class It> It Ideal(It begin, uint64_t hash) const {
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return begin + (hash & mask_);
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}
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template <class BaseIt, class OutIt> void Next(BaseIt begin, BaseIt /*end*/, OutIt &it) const {
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it = begin + ((it - begin + 1) & mask_);
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}
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void Double() {
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mask_ = (mask_ << 1) | 1;
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}
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private:
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std::size_t mask_;
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};
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template <class EntryT, class HashT, class EqualT> class AutoProbing;
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/* Non-standard hash table
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* Buckets must be set at the beginning and must be greater than maximum number
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* of elements, else it throws ProbingSizeException.
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* Memory management and initialization is externalized to make it easier to
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* serialize these to disk and load them quickly.
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* Uses linear probing to find value.
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* Only insert and lookup operations.
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*/
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template <class EntryT, class HashT, class EqualT = std::equal_to<typename EntryT::Key>, class ModT = DivMod> class ProbingHashTable {
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public:
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typedef EntryT Entry;
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typedef typename Entry::Key Key;
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typedef const Entry *ConstIterator;
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typedef Entry *MutableIterator;
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typedef HashT Hash;
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typedef EqualT Equal;
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typedef ModT Mod;
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static uint64_t Size(uint64_t entries, float multiplier) {
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uint64_t buckets = Mod::RoundBuckets(std::max(entries + 1, static_cast<uint64_t>(multiplier * static_cast<float>(entries))));
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return buckets * sizeof(Entry);
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}
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// Must be assigned to later.
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ProbingHashTable() : mod_(1), entries_(0)
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#ifdef DEBUG
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, initialized_(false)
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#endif
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{}
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ProbingHashTable(void *start, std::size_t allocated, const Key &invalid = Key(), const Hash &hash_func = Hash(), const Equal &equal_func = Equal())
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: begin_(reinterpret_cast<MutableIterator>(start)),
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end_(begin_ + allocated / sizeof(Entry)),
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buckets_(end_ - begin_),
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invalid_(invalid),
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hash_(hash_func),
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equal_(equal_func),
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mod_(end_ - begin_),
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entries_(0)
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#ifdef DEBUG
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, initialized_(true)
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#endif
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{}
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void Relocate(void *new_base) {
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begin_ = reinterpret_cast<MutableIterator>(new_base);
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end_ = begin_ + buckets_;
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}
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MutableIterator Ideal(const Key key) {
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return mod_.Ideal(begin_, hash_(key));
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}
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ConstIterator Ideal(const Key key) const {
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return mod_.Ideal(begin_, hash_(key));
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}
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template <class T> MutableIterator Insert(const T &t) {
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#ifdef DEBUG
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assert(initialized_);
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#endif
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UTIL_THROW_IF(++entries_ >= buckets_, ProbingSizeException, "Hash table with " << buckets_ << " buckets is full.");
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return UncheckedInsert(t);
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}
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// Return true if the value was found (and not inserted). This is consistent with Find but the opposite of hash_map!
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template <class T> bool FindOrInsert(const T &t, MutableIterator &out) {
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#ifdef DEBUG
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assert(initialized_);
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#endif
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for (MutableIterator i = Ideal(t.GetKey());;mod_.Next(begin_, end_, i)) {
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Key got(i->GetKey());
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if (equal_(got, t.GetKey())) { out = i; return true; }
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if (equal_(got, invalid_)) {
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UTIL_THROW_IF(++entries_ >= buckets_, ProbingSizeException, "Hash table with " << buckets_ << " buckets is full.");
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*i = t;
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out = i;
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return false;
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}
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}
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}
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void FinishedInserting() {}
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// Don't change anything related to GetKey,
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template <class Key> bool UnsafeMutableFind(const Key key, MutableIterator &out) {
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#ifdef DEBUG
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assert(initialized_);
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#endif
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for (MutableIterator i(Ideal(key));; mod_.Next(begin_, end_, i)) {
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Key got(i->GetKey());
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if (equal_(got, key)) { out = i; return true; }
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if (equal_(got, invalid_)) return false;
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}
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}
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// Like UnsafeMutableFind, but the key must be there.
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template <class Key> MutableIterator UnsafeMutableMustFind(const Key key) {
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for (MutableIterator i(Ideal(key));; mod_.Next(begin_, end_, i)) {
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Key got(i->GetKey());
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if (equal_(got, key)) { return i; }
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assert(!equal_(got, invalid_));
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}
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}
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// Iterator is both input and output.
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template <class Key> bool FindFromIdeal(const Key key, ConstIterator &i) const {
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#ifdef DEBUG
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assert(initialized_);
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#endif
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for (;; mod_.Next(begin_, end_, i)) {
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Key got(i->GetKey());
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if (equal_(got, key)) return true;
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if (equal_(got, invalid_)) return false;
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}
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}
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template <class Key> bool Find(const Key key, ConstIterator &out) const {
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out = Ideal(key);
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return FindFromIdeal(key, out);
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}
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// Like Find but we're sure it must be there.
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template <class Key> ConstIterator MustFind(const Key key) const {
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for (ConstIterator i(Ideal(key));; mod_.Next(begin_, end_, i)) {
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Key got(i->GetKey());
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if (equal_(got, key)) { return i; }
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assert(!equal_(got, invalid_));
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}
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}
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void Clear() {
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Entry invalid;
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invalid.SetKey(invalid_);
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std::fill(begin_, end_, invalid);
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entries_ = 0;
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}
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// Return number of entries assuming no serialization went on.
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std::size_t SizeNoSerialization() const {
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return entries_;
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}
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// Return memory size expected by Double.
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std::size_t DoubleTo() const {
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return buckets_ * 2 * sizeof(Entry);
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}
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// Inform the table that it has double the amount of memory.
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// Pass clear_new = false if you are sure the new memory is initialized
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// properly (to invalid_) i.e. by mremap.
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void Double(void *new_base, bool clear_new = true) {
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begin_ = static_cast<MutableIterator>(new_base);
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MutableIterator old_end = begin_ + buckets_;
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buckets_ *= 2;
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end_ = begin_ + buckets_;
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mod_.Double();
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if (clear_new) {
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Entry invalid;
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invalid.SetKey(invalid_);
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std::fill(old_end, end_, invalid);
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}
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std::vector<Entry> rolled_over;
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// Move roll-over entries to a buffer because they might not roll over anymore. This should be small.
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for (MutableIterator i = begin_; i != old_end && !equal_(i->GetKey(), invalid_); ++i) {
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rolled_over.push_back(*i);
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i->SetKey(invalid_);
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}
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/* Re-insert everything. Entries might go backwards to take over a
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* recently opened gap, stay, move to new territory, or wrap around. If
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* an entry wraps around, it might go to a pointer greater than i (which
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* can happen at the beginning) and it will be revisited to possibly fill
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* in a gap created later.
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*/
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Entry temp;
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for (MutableIterator i = begin_; i != old_end; ++i) {
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if (!equal_(i->GetKey(), invalid_)) {
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temp = *i;
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i->SetKey(invalid_);
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UncheckedInsert(temp);
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}
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}
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// Put the roll-over entries back in.
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for (typename std::vector<Entry>::const_iterator i(rolled_over.begin()); i != rolled_over.end(); ++i) {
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UncheckedInsert(*i);
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}
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}
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// Mostly for tests, check consistency of every entry.
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void CheckConsistency() {
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MutableIterator last;
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for (last = end_ - 1; last >= begin_ && !equal_(last->GetKey(), invalid_); --last) {}
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UTIL_THROW_IF(last == begin_, ProbingSizeException, "Completely full");
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MutableIterator i;
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// Beginning can be wrap-arounds.
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for (i = begin_; !equal_(i->GetKey(), invalid_); ++i) {
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MutableIterator ideal = Ideal(i->GetKey());
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UTIL_THROW_IF(ideal > i && ideal <= last, Exception, "Inconsistency at position " << (i - begin_) << " should be at " << (ideal - begin_));
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}
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MutableIterator pre_gap = i;
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for (; i != end_; ++i) {
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if (equal_(i->GetKey(), invalid_)) {
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pre_gap = i;
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continue;
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}
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MutableIterator ideal = Ideal(i->GetKey());
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UTIL_THROW_IF(ideal > i || ideal <= pre_gap, Exception, "Inconsistency at position " << (i - begin_) << " with ideal " << (ideal - begin_));
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}
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}
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ConstIterator RawBegin() const {
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return begin_;
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}
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ConstIterator RawEnd() const {
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return end_;
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}
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private:
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friend class AutoProbing<Entry, Hash, Equal>;
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template <class T> MutableIterator UncheckedInsert(const T &t) {
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for (MutableIterator i(Ideal(t.GetKey()));; mod_.Next(begin_, end_, i)) {
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if (equal_(i->GetKey(), invalid_)) { *i = t; return i; }
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}
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}
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MutableIterator begin_;
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MutableIterator end_;
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std::size_t buckets_;
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Key invalid_;
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Hash hash_;
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Equal equal_;
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Mod mod_;
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std::size_t entries_;
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#ifdef DEBUG
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bool initialized_;
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#endif
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};
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// Resizable linear probing hash table. This owns the memory.
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template <class EntryT, class HashT, class EqualT = std::equal_to<typename EntryT::Key> > class AutoProbing {
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private:
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typedef ProbingHashTable<EntryT, HashT, EqualT, Power2Mod> Backend;
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public:
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static std::size_t MemUsage(std::size_t size, float multiplier = 1.5) {
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return Backend::Size(size, multiplier);
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}
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typedef EntryT Entry;
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typedef typename Entry::Key Key;
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typedef const Entry *ConstIterator;
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typedef Entry *MutableIterator;
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typedef HashT Hash;
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typedef EqualT Equal;
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AutoProbing(std::size_t initial_size = 5, const Key &invalid = Key(), const Hash &hash_func = Hash(), const Equal &equal_func = Equal()) :
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allocated_(Backend::Size(initial_size, 1.2)), mem_(allocated_, KeyIsRawZero(invalid)), backend_(mem_.get(), allocated_, invalid, hash_func, equal_func) {
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threshold_ = std::min<std::size_t>(backend_.buckets_ - 1, backend_.buckets_ * 0.9);
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if (!KeyIsRawZero(invalid)) {
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Clear();
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}
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}
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// Assumes that the key is unique. Multiple insertions won't cause a failure, just inconsistent lookup.
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template <class T> MutableIterator Insert(const T &t) {
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++backend_.entries_;
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DoubleIfNeeded();
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return backend_.UncheckedInsert(t);
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}
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template <class T> bool FindOrInsert(const T &t, MutableIterator &out) {
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DoubleIfNeeded();
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return backend_.FindOrInsert(t, out);
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}
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template <class Key> bool UnsafeMutableFind(const Key key, MutableIterator &out) {
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return backend_.UnsafeMutableFind(key, out);
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}
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template <class Key> MutableIterator UnsafeMutableMustFind(const Key key) {
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return backend_.UnsafeMutableMustFind(key);
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}
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template <class Key> bool Find(const Key key, ConstIterator &out) const {
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return backend_.Find(key, out);
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}
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template <class Key> ConstIterator MustFind(const Key key) const {
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return backend_.MustFind(key);
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}
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std::size_t Size() const {
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return backend_.SizeNoSerialization();
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}
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void Clear() {
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backend_.Clear();
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}
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ConstIterator RawBegin() const {
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return backend_.RawBegin();
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}
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ConstIterator RawEnd() const {
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return backend_.RawEnd();
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}
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private:
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void DoubleIfNeeded() {
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if (UTIL_LIKELY(Size() < threshold_))
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return;
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HugeRealloc(backend_.DoubleTo(), KeyIsRawZero(backend_.invalid_), mem_);
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allocated_ = backend_.DoubleTo();
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backend_.Double(mem_.get(), !KeyIsRawZero(backend_.invalid_));
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threshold_ = std::min<std::size_t>(backend_.buckets_ - 1, backend_.buckets_ * 0.9);
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}
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bool KeyIsRawZero(const Key &key) {
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for (const uint8_t *i = reinterpret_cast<const uint8_t*>(&key); i < reinterpret_cast<const uint8_t*>(&key) + sizeof(Key); ++i) {
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if (*i) return false;
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}
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return true;
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}
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std::size_t allocated_;
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util::scoped_memory mem_;
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Backend backend_;
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std::size_t threshold_;
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};
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} // namespace util
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#endif // UTIL_PROBING_HASH_TABLE_H
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