mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-25 12:52:29 +03:00
355 lines
7.6 KiB
C++
355 lines
7.6 KiB
C++
/*
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* FeatureStats.cpp
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* mert - Minimum Error Rate Training
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*
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* Created by Nicola Bertoldi on 13/05/08.
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*
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*/
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#include "FeatureStats.h"
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#include <fstream>
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#include <cmath>
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#include <stdexcept>
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#include <boost/functional/hash.hpp>
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#include "util/murmur_hash.hh"
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#include "Util.h"
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using namespace std;
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namespace
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{
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const int kAvailableSize = 8;
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} // namespace
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namespace MosesTuning
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{
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SparseVector::name2id_t SparseVector::m_name_to_id;
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SparseVector::id2name_t SparseVector::m_id_to_name;
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FeatureStatsType SparseVector::get(const string& name) const
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{
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name2id_t::const_iterator name2id_iter = m_name_to_id.find(name);
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if (name2id_iter == m_name_to_id.end()) return 0;
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size_t id = name2id_iter->second;
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return get(id);
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}
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FeatureStatsType SparseVector::get(size_t id) const
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{
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fvector_t::const_iterator fvector_iter = m_fvector.find(id);
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if (fvector_iter == m_fvector.end()) return 0;
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return fvector_iter->second;
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}
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void SparseVector::set(const string& name, FeatureStatsType value)
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{
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name2id_t::const_iterator name2id_iter = m_name_to_id.find(name);
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size_t id = 0;
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if (name2id_iter == m_name_to_id.end()) {
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id = m_id_to_name.size();
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m_id_to_name.push_back(name);
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m_name_to_id[name] = id;
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} else {
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id = name2id_iter->second;
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}
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m_fvector[id] = value;
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}
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void SparseVector::set(size_t id, FeatureStatsType value)
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{
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assert(m_id_to_name.size() > id);
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m_fvector[id] = value;
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}
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void SparseVector::write(ostream& out, const string& sep) const
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{
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for (fvector_t::const_iterator i = m_fvector.begin(); i != m_fvector.end(); ++i) {
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if (abs(i->second) < 0.00001) continue;
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string name = m_id_to_name[i->first];
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out << name << sep << i->second << " ";
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}
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}
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void SparseVector::clear()
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{
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m_fvector.clear();
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}
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void SparseVector::load(const string& file)
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{
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ifstream in(file.c_str());
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if (!in) {
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throw runtime_error("Failed to open sparse weights file: " + file);
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}
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string line;
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while(getline(in,line)) {
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if (line[0] == '#') continue;
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istringstream linestream(line);
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string name;
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float value;
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linestream >> name;
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linestream >> value;
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set(name,value);
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}
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}
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SparseVector& SparseVector::operator+=(const SparseVector& rhs)
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{
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for (fvector_t::const_iterator i = rhs.m_fvector.begin();
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i != rhs.m_fvector.end(); ++i) {
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m_fvector[i->first] = get(i->first) + (i->second);
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}
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return *this;
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}
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SparseVector& SparseVector::operator-=(const SparseVector& rhs)
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{
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for (fvector_t::const_iterator i = rhs.m_fvector.begin();
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i != rhs.m_fvector.end(); ++i) {
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m_fvector[i->first] = get(i->first) - (i->second);
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}
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return *this;
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}
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FeatureStatsType SparseVector::inner_product(const SparseVector& rhs) const
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{
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FeatureStatsType product = 0.0;
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for (fvector_t::const_iterator i = m_fvector.begin();
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i != m_fvector.end(); ++i) {
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product += ((i->second) * (rhs.get(i->first)));
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}
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return product;
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}
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SparseVector operator-(const SparseVector& lhs, const SparseVector& rhs)
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{
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SparseVector res(lhs);
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res -= rhs;
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return res;
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}
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FeatureStatsType inner_product(const SparseVector& lhs, const SparseVector& rhs)
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{
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if (lhs.size() >= rhs.size()) {
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return rhs.inner_product(lhs);
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} else {
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return lhs.inner_product(rhs);
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}
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}
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std::vector<std::size_t> SparseVector::feats() const
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{
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std::vector<std::size_t> toRet;
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for(fvector_t::const_iterator iter = m_fvector.begin();
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iter!=m_fvector.end();
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iter++) {
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toRet.push_back(iter->first);
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}
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return toRet;
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}
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std::size_t SparseVector::encode(const std::string& name)
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{
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name2id_t::const_iterator name2id_iter = m_name_to_id.find(name);
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size_t id = 0;
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if (name2id_iter == m_name_to_id.end()) {
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id = m_id_to_name.size();
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m_id_to_name.push_back(name);
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m_name_to_id[name] = id;
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} else {
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id = name2id_iter->second;
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}
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return id;
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}
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std::string SparseVector::decode(std::size_t id)
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{
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return m_id_to_name[id];
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}
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bool operator==(SparseVector const& item1, SparseVector const& item2)
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{
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return item1.m_fvector==item2.m_fvector;
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}
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std::size_t hash_value(SparseVector const& item)
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{
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size_t seed = 0;
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for (SparseVector::fvector_t::const_iterator i = item.m_fvector.begin(); i != item.m_fvector.end(); ++i) {
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seed = util::MurmurHashNative(&(i->first), sizeof(i->first), seed);
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seed = util::MurmurHashNative(&(i->second), sizeof(i->second), seed);
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}
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return seed;
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}
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FeatureStats::FeatureStats()
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: m_available_size(kAvailableSize), m_entries(0),
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m_array(new FeatureStatsType[m_available_size]) {}
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FeatureStats::FeatureStats(const size_t size)
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: m_available_size(size), m_entries(size),
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m_array(new FeatureStatsType[m_available_size])
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{
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memset(m_array, 0, GetArraySizeWithBytes());
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}
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FeatureStats::~FeatureStats()
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{
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delete [] m_array;
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}
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void FeatureStats::Copy(const FeatureStats &stats)
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{
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m_available_size = stats.available();
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m_entries = stats.size();
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m_array = new FeatureStatsType[m_available_size];
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memcpy(m_array, stats.getArray(), GetArraySizeWithBytes());
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m_map = stats.getSparse();
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}
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FeatureStats::FeatureStats(const FeatureStats &stats)
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{
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Copy(stats);
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}
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FeatureStats& FeatureStats::operator=(const FeatureStats &stats)
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{
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delete [] m_array;
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Copy(stats);
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return *this;
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}
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void FeatureStats::expand()
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{
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m_available_size *= 2;
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featstats_t t_ = new FeatureStatsType[m_available_size];
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memcpy(t_, m_array, GetArraySizeWithBytes());
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delete [] m_array;
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m_array = t_;
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}
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void FeatureStats::add(FeatureStatsType v)
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{
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if (isfull()) expand();
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m_array[m_entries++]=v;
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}
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void FeatureStats::addSparse(const string& name, FeatureStatsType v)
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{
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m_map.set(name,v);
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}
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void FeatureStats::set(string &theString, const SparseVector& sparseWeights )
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{
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string substring, stringBuf;
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reset();
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while (!theString.empty()) {
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getNextPound(theString, substring);
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// regular feature
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if (substring.find("=") == string::npos) {
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add(ConvertStringToFeatureStatsType(substring));
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}
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// sparse feature
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else {
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size_t separator = substring.find_last_of("=");
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addSparse(substring.substr(0,separator), atof(substring.substr(separator+1).c_str()) );
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}
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}
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if (sparseWeights.size()) {
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//Merge the sparse features
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FeatureStatsType merged = inner_product(sparseWeights, m_map);
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add(merged);
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/*
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cerr << "Merged ";
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sparseWeights.write(cerr,"=");
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cerr << " and ";
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map_.write(cerr,"=");
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cerr << " to give " << merged << endl;
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*/
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m_map.clear();
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}
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/*
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cerr << "FS: ";
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for (size_t i = 0; i < entries_; ++i) {
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cerr << array_[i] << " ";
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}
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cerr << endl;*/
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}
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void FeatureStats::loadbin(istream* is)
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{
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is->read(reinterpret_cast<char*>(m_array),
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static_cast<streamsize>(GetArraySizeWithBytes()));
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}
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void FeatureStats::loadtxt(istream* is, const SparseVector& sparseWeights)
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{
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string line;
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getline(*is, line);
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set(line, sparseWeights);
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}
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void FeatureStats::savetxt(const string &file)
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{
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ofstream ofs(file.c_str(), ios::out);
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ostream* os = &ofs;
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savetxt(os);
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}
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void FeatureStats::savetxt(ostream* os)
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{
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*os << *this;
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}
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void FeatureStats::savetxt()
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{
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savetxt(&cout);
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}
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void FeatureStats::savebin(ostream* os)
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{
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os->write(reinterpret_cast<char*>(m_array),
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static_cast<streamsize>(GetArraySizeWithBytes()));
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}
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ostream& operator<<(ostream& o, const FeatureStats& e)
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{
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// print regular features
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for (size_t i=0; i< e.size(); i++) {
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o << e.get(i) << " ";
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}
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// sparse features
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e.getSparse().write(o,"");
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return o;
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}
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bool operator==(const FeatureStats& f1, const FeatureStats& f2)
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{
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size_t size = f1.size();
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if (size != f2.size())
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return false;
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for (size_t k=0; k < size; k++) {
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if (f1.get(k) != f2.get(k))
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return false;
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}
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return true;
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}
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}
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