mosesdecoder/moses/BitmapContainer.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_BitmapContainer_h
#define moses_BitmapContainer_h
#include <queue>
#include <set>
#include <vector>
#include "Hypothesis.h"
#include "HypothesisStackCubePruning.h"
#include "SquareMatrix.h"
#include "TranslationOption.h"
#include "TypeDef.h"
#include "WordsBitmap.h"
namespace Moses
{
class BitmapContainer;
class BackwardsEdge;
class Hypothesis;
class HypothesisStackCubePruning;
class HypothesisQueueItem;
class QueueItemOrderer;
class TranslationOptionList;
typedef std::vector< Hypothesis* > HypothesisSet;
typedef std::set< BackwardsEdge* > BackwardsEdgeSet;
typedef std::priority_queue< HypothesisQueueItem*, std::vector< HypothesisQueueItem* >, QueueItemOrderer> HypothesisQueue;
////////////////////////////////////////////////////////////////////////////////
// Hypothesis Priority Queue Code
////////////////////////////////////////////////////////////////////////////////
//! 1 item in the priority queue for stack decoding (phrase-based)
class HypothesisQueueItem
{
private:
size_t m_hypothesis_pos, m_translation_pos;
Hypothesis *m_hypothesis;
BackwardsEdge *m_edge;
HypothesisQueueItem();
public:
HypothesisQueueItem(const size_t hypothesis_pos
, const size_t translation_pos
, Hypothesis *hypothesis
, BackwardsEdge *edge)
: m_hypothesis_pos(hypothesis_pos)
, m_translation_pos(translation_pos)
, m_hypothesis(hypothesis)
, m_edge(edge) {
}
~HypothesisQueueItem() {
}
int GetHypothesisPos() {
return m_hypothesis_pos;
}
int GetTranslationPos() {
return m_translation_pos;
}
Hypothesis *GetHypothesis() {
return m_hypothesis;
}
BackwardsEdge *GetBackwardsEdge() {
return m_edge;
}
};
//! Allows comparison of two HypothesisQueueItem objects by the corresponding scores.
class QueueItemOrderer
{
public:
bool operator()(HypothesisQueueItem* itemA, HypothesisQueueItem* itemB) const {
float scoreA = itemA->GetHypothesis()->GetTotalScore();
float scoreB = itemB->GetHypothesis()->GetTotalScore();
return (scoreA < scoreB);
/*
{
return true;
}
else if (scoreA < scoreB)
{
return false;
}
else
{
return itemA < itemB;
}*/
}
};
////////////////////////////////////////////////////////////////////////////////
// Hypothesis Orderer Code
////////////////////////////////////////////////////////////////////////////////
// Allows to compare two Hypothesis objects by the corresponding scores.
////////////////////////////////////////////////////////////////////////////////
class HypothesisScoreOrderer
{
public:
bool operator()(const Hypothesis* hypoA, const Hypothesis* hypoB) const {
float scoreA = hypoA->GetTotalScore();
float scoreB = hypoB->GetTotalScore();
return (scoreA > scoreB);
/*
{
return true;
}
else if (scoreA < scoreB)
{
return false;
}
else
{
return hypoA < hypoB;
}*/
}
};
////////////////////////////////////////////////////////////////////////////////
// Backwards Edge Code
////////////////////////////////////////////////////////////////////////////////
// Encodes an edge pointing to a BitmapContainer.
////////////////////////////////////////////////////////////////////////////////
class BackwardsEdge
{
private:
friend class BitmapContainer;
bool m_initialized;
const BitmapContainer &m_prevBitmapContainer;
BitmapContainer &m_parent;
const TranslationOptionList &m_translations;
const SquareMatrix &m_futurescore;
std::vector< const Hypothesis* > m_hypotheses;
std::set< int > m_seenPosition;
// We don't want to instantiate "empty" objects.
BackwardsEdge();
Hypothesis *CreateHypothesis(const Hypothesis &hypothesis, const TranslationOption &transOpt);
bool SeenPosition(const size_t x, const size_t y);
void SetSeenPosition(const size_t x, const size_t y);
protected:
void Initialize();
public:
BackwardsEdge(const BitmapContainer &prevBitmapContainer
, BitmapContainer &parent
, const TranslationOptionList &translations
, const SquareMatrix &futureScore,
2013-05-11 17:13:26 +04:00
const InputType& source);
~BackwardsEdge();
bool GetInitialized();
const BitmapContainer &GetBitmapContainer() const;
int GetDistortionPenalty();
void PushSuccessors(const size_t x, const size_t y);
};
////////////////////////////////////////////////////////////////////////////////
// Bitmap Container Code
////////////////////////////////////////////////////////////////////////////////
// A BitmapContainer encodes an ordered set of hypotheses and a set of edges
// pointing to the "generating" BitmapContainers. It also stores a priority
// queue that contains expanded hypotheses from the connected edges.
////////////////////////////////////////////////////////////////////////////////
class BitmapContainer
{
private:
WordsBitmap m_bitmap;
HypothesisStackCubePruning &m_stack;
HypothesisSet m_hypotheses;
BackwardsEdgeSet m_edges;
HypothesisQueue m_queue;
size_t m_numStackInsertions;
// We always require a corresponding bitmap to be supplied.
BitmapContainer();
BitmapContainer(const BitmapContainer &);
public:
BitmapContainer(const WordsBitmap &bitmap
, HypothesisStackCubePruning &stack);
// The destructor will also delete all the edges that are
// connected to this BitmapContainer.
~BitmapContainer();
void Enqueue(int hypothesis_pos, int translation_pos, Hypothesis *hypothesis, BackwardsEdge *edge);
HypothesisQueueItem *Dequeue(bool keepValue=false);
HypothesisQueueItem *Top() const;
size_t Size();
bool Empty() const;
const WordsBitmap &GetWordsBitmap();
const HypothesisSet &GetHypotheses() const;
size_t GetHypothesesSize() const;
const BackwardsEdgeSet &GetBackwardsEdges();
void InitializeEdges();
void ProcessBestHypothesis();
void EnsureMinStackHyps(const size_t minNumHyps);
void AddHypothesis(Hypothesis *hypothesis);
void AddBackwardsEdge(BackwardsEdge *edge);
void SortHypotheses();
};
}
#endif