tesseract/cube/beam_search.h
Stefan Weil a190f340cb cube: Fix typos in comments
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Signed-off-by: Stefan Weil <sw@weilnetz.de>
2016-02-05 10:54:41 +01:00

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/**********************************************************************
* File: beam_search.h
* Description: Declaration of Beam Word Search Algorithm Class
* Author: Ahmad Abdulkader
* Created: 2007
*
* (C) Copyright 2008, Google Inc.
** Licensed under the Apache License, Version 2.0 (the "License");
** you may not use this file except in compliance with the License.
** You may obtain a copy of the License at
** http://www.apache.org/licenses/LICENSE-2.0
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
** See the License for the specific language governing permissions and
** limitations under the License.
*
**********************************************************************/
// The Beam Search class implements a Beam Search algorithm for the
// N-best paths through the lattice of a search object using a language model
// The search object is a segmented bitmap of a word image. The language model
// is a state machine that defines valid sequences of characters
// The cost of each path is the combined (product) probabilities of the
// characters along the path. The character probabilities are computed using
// the character classifier member of the RecoContext
// The BeamSearch class itself holds the state of the last search it performed
// using its "Search" method. Subsequent class to the Search method erase the
// states of previously done searches
#ifndef BEAM_SEARCH_H
#define BEAM_SEARCH_H
#include "search_column.h"
#include "word_altlist.h"
#include "search_object.h"
#include "lang_model.h"
#include "cube_utils.h"
#include "cube_reco_context.h"
#include "allheaders.h"
namespace tesseract {
class BeamSearch {
public:
explicit BeamSearch(CubeRecoContext *cntxt, bool word_mode = true);
~BeamSearch();
// Performs a beam search in the specified search using the specified
// language model; returns an alternate list of possible words as a result.
WordAltList *Search(SearchObject *srch_obj, LangModel *lang_mod = NULL);
// Returns the best node in the last column of last performed search.
SearchNode *BestNode() const;
// Returns the string corresponding to the specified alt.
char_32 *Alt(int alt) const;
// Backtracks from the specified lattice node and returns the corresponding
// character-mapped segments, character count, char_32 result string, and
// character bounding boxes (if char_boxes is not NULL). If the segments
// cannot be constructed, returns NULL, and all result arguments
// will be NULL.
CharSamp **BackTrack(SearchObject *srch_obj, int node_index,
int *char_cnt, char_32 **str32, Boxa **char_boxes) const;
// Same as above, except it takes a pointer to a search node object
// instead of node index.
CharSamp **BackTrack(SearchObject *srch_obj, SearchNode *node,
int *char_cnt, char_32 **str32, Boxa **char_boxes) const;
// Returns the size cost of a specified string of a lattice
// path that ends at the specified lattice node.
int SizeCost(SearchObject *srch_obj, SearchNode *node,
char_32 **str32 = NULL) const;
// Returns the word unigram cost of the given string, possibly
// stripping out a single trailing punctuation character.
int WordUnigramCost(char_32 *str32, WordUnigrams* word_unigrams) const;
// Supplementary functions needed for visualization
// Return column count of the lattice.
inline int ColCnt() const { return col_cnt_; }
// Returns the lattice column corresponding to the specified column index.
SearchColumn *Column(int col_idx) const;
// Return the index of the best node in the last column of the
// best-cost path before the alternates list is sorted.
inline int BestPresortedNodeIndex() const {
return best_presorted_node_idx_;
};
private:
// Maximum reasonable segmentation point count
static const int kMaxSegPointCnt = 128;
// Recognition context object; the context holds the character classifier
// and the tuning parameters object
CubeRecoContext *cntxt_;
// Count of segmentation pts
int seg_pt_cnt_;
// Lattice column count; currently redundant with respect to seg_pt_cnt_
// but that might change in the future
int col_cnt_;
// Array of lattice columns
SearchColumn **col_;
// Run in word or phrase mode
bool word_mode_;
// Node index of best-cost node, before alternates are merged and sorted
int best_presorted_node_idx_;
// Cleans up beam search state
void Cleanup();
// Creates a Word alternate list from the results in the lattice.
// This function computes a cost for each node in the final column
// of the lattice, which is a weighted average of several costs:
// size cost, character bigram cost, word unigram cost, and
// recognition cost from the beam search. The weights are the
// CubeTuningParams, which are learned together with the character
// classifiers.
WordAltList *CreateWordAltList(SearchObject *srch_obj);
// Creates a set of children nodes emerging from a parent node based on
// the character alternate list and the language model.
void CreateChildren(SearchColumn *out_col, LangModel *lang_mod,
SearchNode *parent_node, LangModEdge *lm_parent_edge,
CharAltList *char_alt_list, int extra_cost);
// Backtracks from the given lattice node and returns the corresponding
// char mapped segments, character count, and character bounding boxes (if
// char_boxes is not NULL). If the segments cannot be constructed,
// returns NULL, and all result arguments will be NULL.
CharSamp **SplitByNode(SearchObject *srch_obj, SearchNode *srch_node,
int* char_cnt, Boxa **char_boxes) const;
};
}
#endif // BEAM_SEARCH_H