tesseract/wordrec/associate.h

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///////////////////////////////////////////////////////////////////////
// File: associate.h
// Description: Structs, classes, typedefs useful for the segmentation
// search. Functions for scoring segmentation paths according
// to their character widths, gap widths and seam cuts.
// Author: Daria Antonova
// Created: Mon Mar 8 11:26:43 PDT 2010
//
// (C) Copyright 2010, 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.
//
///////////////////////////////////////////////////////////////////////
#ifndef ASSOCIATE_H
#define ASSOCIATE_H
#include "blobs.h"
#include "elst.h"
#include "matrix.h"
#include "seam.h"
#include "split.h"
#include "states.h"
typedef inT16 BLOB_WEIGHTS[MAX_NUM_CHUNKS];
// Each unichar evaluated.
struct EVALUATION_RECORD {
float match;
float certainty;
char character;
int width;
int gap;
};
typedef EVALUATION_RECORD EVALUATION_ARRAY[MAX_NUM_CHUNKS];
// Classification info for chunks.
//
// TODO(daria): move to tesseract namespace when obsolete code using
// this struct that is not in tesseract namespace is deprecated.
struct CHUNKS_RECORD {
MATRIX *ratings;
TBLOB *chunks;
SEAMS splits;
int x_height;
WIDTH_RECORD *chunk_widths;
WIDTH_RECORD *char_widths;
inT16 *weights;
};
namespace tesseract {
// Statisitcs about character widths, gaps and seams.
struct AssociateStats {
AssociateStats() { Clear(); }
void Clear() {
shape_cost = 0.0f;
bad_shape = false;
full_wh_ratio = 0.0f;
full_wh_ratio_total = 0.0f;
full_wh_ratio_var = 0.0f;
bad_fixed_pitch_right_gap = false;
bad_fixed_pitch_wh_ratio = false;
}
void Print() {
tprintf("AssociateStats: w(%g %d) s(%g %d)\n", shape_cost, bad_shape);
}
float shape_cost; // cost of blob shape
bool bad_shape; // true if the shape of the blob is unacceptable
float full_wh_ratio; // width-to-hight ratio + gap on the right
float full_wh_ratio_total; // sum of width-to-hight ratios
// on the path terminating at this blob
float full_wh_ratio_var; // variance of full_wh_ratios on the path
bool bad_fixed_pitch_right_gap; // true if there is no gap before
// the blob on the right
bool bad_fixed_pitch_wh_ratio; // true if the blobs has width-to-hight
// ratio > kMaxFixedPitchCharAspectRatio
};
// Utility functions for scoring segmentation paths according to their
// character widths, gap widths, seam characteristics.
class AssociateUtils {
public:
static const float kMaxFixedPitchCharAspectRatio;
static const float kMinGap;
// Computes character widths, gaps and seams stats given the
// AssociateStats of the path so far, col, row of the blob that
// is being added to the path, and CHUNKS_RECORD containing information
// about character widths, gaps and seams.
// Fills associate_cost with the combined shape, gap and seam cost
// of adding a unichar from (col, row) to the path (note that since
// this function could be used to compute the prioritization for
// pain points, (col, row) entry might not be classified yet; thus
// information in the (col, row) entry of the ratings matrix is not used).
//
// Note: the function assumes that chunks_record, stats and
// associate_cost pointers are not NULL.
static void ComputeStats(int col, int row,
const AssociateStats *parent_stats,
int parent_path_length,
bool fixed_pitch,
float max_char_wh_ratio,
const DENORM *denorm,
CHUNKS_RECORD *chunks_record,
int debug_level,
AssociateStats *stats);
// Returns the width of a chunk which is a composed of several blobs
// blobs[start_blob..last_blob] inclusively.
// Widths/gaps records are in the form:
// width_record->num_char = n
// width_record->widths[2*n-1] = w0,g0,w1,g1..w(n-1),g(n-1)
static int GetChunksWidth(WIDTH_RECORD *width_record,
int start_blob, int last_blob);
// Returns the width of a gap between the specified chunk and the next one.
static inline int GetChunksGap(WIDTH_RECORD *width_record, int last_chunk) {
return (last_chunk >= 0 && last_chunk < width_record->num_chars - 1) ?
width_record->widths[last_chunk * 2 + 1] : 0;
}
// Returns the width cost for fixed-pitch text.
static float FixedPitchWidthCost(float norm_width, float right_gap,
bool end_pos, float max_char_wh_ratio);
// Returns the gap cost for fixed-pitch text (penalizes vertically
// overlapping components).
static inline float FixedPitchGapCost(float norm_gap, bool end_pos) {
return (norm_gap < 0.05 && !end_pos) ? 5.0f : 0.0f;
}
};
} // namespace tesseract
#endif