mosesdecoder/moses/TranslationModel/CompactPT/MonotonicVector.h

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// $Id$
// vim:tabstop=2
/***********************************************************************
Moses - factored phrase-based language decoder
Copyright (C) 2006 University of Edinburgh
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
***********************************************************************/
#ifndef moses_MonotonicVector_h
#define moses_MonotonicVector_h
// MonotonicVector - Represents a monotonic increasing function that maps
// positive integers of any size onto a given number type. Each value has to be
// equal or larger than the previous one. Depending on the stepSize it can save
// up to 90% of memory compared to a std::vector<long>. Time complexity is roughly
// constant, in the worst case, however, stepSize times slower than a normal
// std::vector.
#include <vector>
#include <limits>
#include <algorithm>
#include <cstdio>
#include <cassert>
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#include "ThrowingFwrite.h"
#include "ListCoders.h"
#include "MmapAllocator.h"
namespace Moses
{
template<typename PosT = size_t, typename NumT = size_t, PosT stepSize = 32,
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template <typename> class Allocator = std::allocator>
class MonotonicVector
{
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private:
typedef std::vector<NumT, Allocator<NumT> > Anchors;
typedef std::vector<unsigned int, Allocator<unsigned int> > Diffs;
Anchors m_anchors;
Diffs m_diffs;
std::vector<unsigned int> m_tempDiffs;
size_t m_size;
PosT m_last;
bool m_final;
public:
typedef PosT value_type;
MonotonicVector() : m_size(0), m_last(0), m_final(false) {}
size_t size() const {
return m_size + m_tempDiffs.size();
}
PosT at(size_t i) const {
PosT s = stepSize;
PosT j = m_anchors[i / s];
PosT r = i % s;
typename Diffs::const_iterator it = m_diffs.begin() + j;
PosT k = 0;
k += VarInt32::DecodeAndSum(it, m_diffs.end(), 1);
if(i < m_size)
k += Simple9::DecodeAndSum(it, m_diffs.end(), r);
else if(i < m_size + m_tempDiffs.size())
for(size_t l = 0; l < r; l++)
k += m_tempDiffs[l];
return k;
}
PosT operator[](PosT i) const {
return at(i);
}
PosT back() const {
return at(size()-1);
}
void push_back(PosT i) {
assert(m_final != true);
if(m_anchors.size() == 0 && m_tempDiffs.size() == 0) {
m_anchors.push_back(0);
VarInt32::Encode(&i, &i+1, std::back_inserter(m_diffs));
m_last = i;
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m_size++;
return;
}
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if(m_tempDiffs.size() == stepSize-1) {
Simple9::Encode(m_tempDiffs.begin(), m_tempDiffs.end(),
std::back_inserter(m_diffs));
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m_anchors.push_back(m_diffs.size());
VarInt32::Encode(&i, &i+1, std::back_inserter(m_diffs));
m_size += m_tempDiffs.size() + 1;
m_tempDiffs.clear();
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} else {
PosT last = m_last;
PosT diff = i - last;
m_tempDiffs.push_back(diff);
}
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m_last = i;
}
void commit() {
assert(m_final != true);
Simple9::Encode(m_tempDiffs.begin(), m_tempDiffs.end(),
std::back_inserter(m_diffs));
m_size += m_tempDiffs.size();
m_tempDiffs.clear();
m_final = true;
}
size_t usage() {
return m_diffs.size() * sizeof(unsigned int)
+ m_anchors.size() * sizeof(NumT);
}
size_t load(std::FILE* in, bool map = false) {
size_t byteSize = 0;
byteSize += fread(&m_final, sizeof(bool), 1, in) * sizeof(bool);
byteSize += fread(&m_size, sizeof(size_t), 1, in) * sizeof(size_t);
byteSize += fread(&m_last, sizeof(PosT), 1, in) * sizeof(PosT);
byteSize += loadVector(m_diffs, in, map);
byteSize += loadVector(m_anchors, in, map);
return byteSize;
}
template <typename ValueT>
size_t loadVector(std::vector<ValueT, std::allocator<ValueT> >& v,
std::FILE* in, bool map = false) {
// Can only be read into memory. Mapping not possible with std:allocator.
assert(map == false);
size_t byteSize = 0;
size_t valSize;
byteSize += std::fread(&valSize, sizeof(size_t), 1, in) * sizeof(size_t);
v.resize(valSize, 0);
byteSize += std::fread(&v[0], sizeof(ValueT), valSize, in) * sizeof(ValueT);
return byteSize;
}
template <typename ValueT>
size_t loadVector(std::vector<ValueT, MmapAllocator<ValueT> >& v,
std::FILE* in, bool map = false) {
size_t byteSize = 0;
size_t valSize;
byteSize += std::fread(&valSize, sizeof(size_t), 1, in) * sizeof(size_t);
if(map == false) {
// Read data into temporary file (default constructor of MmapAllocator)
// and map memory onto temporary file. Can be resized.
v.resize(valSize, 0);
byteSize += std::fread(&v[0], sizeof(ValueT), valSize, in) * sizeof(ValueT);
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} else {
// Map it directly on specified region of file "in" starting at valPos
// with length valSize * sizeof(ValueT). Mapped region cannot be resized.
size_t valPos = std::ftell(in);
Allocator<ValueT> alloc(in, valPos);
std::vector<ValueT, Allocator<ValueT> > vTemp(alloc);
vTemp.resize(valSize);
v.swap(vTemp);
std::fseek(in, valSize * sizeof(ValueT), SEEK_CUR);
byteSize += valSize * sizeof(ValueT);
}
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return byteSize;
}
size_t save(std::FILE* out) {
if(!m_final)
commit();
bool byteSize = 0;
byteSize += ThrowingFwrite(&m_final, sizeof(bool), 1, out) * sizeof(bool);
byteSize += ThrowingFwrite(&m_size, sizeof(size_t), 1, out) * sizeof(size_t);
byteSize += ThrowingFwrite(&m_last, sizeof(PosT), 1, out) * sizeof(PosT);
size_t size = m_diffs.size();
byteSize += ThrowingFwrite(&size, sizeof(size_t), 1, out) * sizeof(size_t);
byteSize += ThrowingFwrite(&m_diffs[0], sizeof(unsigned int), size, out) * sizeof(unsigned int);
size = m_anchors.size();
byteSize += ThrowingFwrite(&size, sizeof(size_t), 1, out) * sizeof(size_t);
byteSize += ThrowingFwrite(&m_anchors[0], sizeof(NumT), size, out) * sizeof(NumT);
return byteSize;
}
void swap(MonotonicVector<PosT, NumT, stepSize, Allocator> &mv) {
if(!m_final)
commit();
m_diffs.swap(mv.m_diffs);
m_anchors.swap(mv.m_anchors);
}
};
}
#endif