tesseract/wordrec/associate.cpp

165 lines
6.6 KiB
C++

///////////////////////////////////////////////////////////////////////
// File: associate.cpp
// Description: 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.
//
///////////////////////////////////////////////////////////////////////
#include <stdio.h>
#ifdef __UNIX__
#include <assert.h>
#endif
#include <math.h>
#include "associate.h"
#include "baseline.h"
namespace tesseract {
const float AssociateUtils::kMaxFixedPitchCharAspectRatio = 2.0f;
const float AssociateUtils::kMinGap = 0.03f;
void AssociateUtils::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) {
stats->Clear();
if (debug_level > 0) {
tprintf("AssociateUtils::ComputeStats() for col=%d, row=%d%s\n",
col, row, fixed_pitch ? " (fixed pitch)" : "");
}
float normalizing_height = BASELINE_SCALE;
// TODO(rays/daria) Can unicharset.script_has_xheight be useful here?
if (fixed_pitch && denorm != NULL && denorm->row() != NULL) {
// For fixed pitch language like CJK, we use the full text height as the
// normalizing factor so we are not dependent on xheight calculation.
// In the normalized coord. xheight * scale == BASELINE_SCALE(128),
// so add proportionally scaled ascender zone to get full text height.
normalizing_height = denorm->scale() *
(denorm->row()->x_height() + denorm->row()->ascenders());
if (debug_level > 0) {
tprintf("normalizing height = %g (scale %g xheight %g ascenders %g)\n",
normalizing_height, denorm->scale(), denorm->row()->x_height(),
denorm->row()->ascenders());
}
}
float wh_ratio =
GetChunksWidth(chunks_record->chunk_widths, col, row) / normalizing_height;
if (debug_level) tprintf("wh_ratio %g\n", wh_ratio);
if (!fixed_pitch) {
if (wh_ratio > max_char_wh_ratio) stats->bad_shape = true;
} else {
bool end_row = (row == (chunks_record->ratings->dimension() - 1));
// Ensure that the blob has gaps on the left and the right sides
// (except for beginning and ending punctuation) and that there is
// no cutting through ink at the blob boundaries.
if (col > 0) {
float left_gap =
GetChunksGap(chunks_record->chunk_widths, col-1) / normalizing_height;
SEAM *left_seam =
static_cast<SEAM *>(array_value(chunks_record->splits, col-1));
if (debug_level) {
tprintf("left_gap %g, left_seam %g\n", left_gap, left_seam->priority);
}
if ((!end_row && left_gap < kMinGap) || left_seam->priority > 0.0f) {
stats->bad_shape = true;
}
}
float right_gap = 0.0f;
if (!end_row) {
right_gap =
GetChunksGap(chunks_record->chunk_widths, row) / normalizing_height;
SEAM *right_seam =
static_cast<SEAM *>(array_value(chunks_record->splits, row));
if (debug_level) {
tprintf("right_gap %g right_seam %g\n",
right_gap, right_seam->priority);
}
if (right_gap < kMinGap || right_seam->priority > 0.0f) {
stats->bad_shape = true;
if (right_gap < kMinGap) stats->bad_fixed_pitch_right_gap = true;
}
}
// Impose additional segmentation penalties if blob widths or gaps
// distribution don't fit a fixed-pitch model.
// Since we only know the widths and gaps of the path explored so far,
// the means and variances are computed for the path so far (not
// considering characters to the right of the last character on the path).
stats->full_wh_ratio = wh_ratio + right_gap;
if (parent_stats != NULL) {
stats->full_wh_ratio_total =
(parent_stats->full_wh_ratio_total + stats->full_wh_ratio);
float mean =
stats->full_wh_ratio_total / static_cast<float>(parent_path_length+1);
stats->full_wh_ratio_var =
parent_stats->full_wh_ratio_var + pow(mean-stats->full_wh_ratio, 2);
} else {
stats->full_wh_ratio_total = stats->full_wh_ratio;
}
if (debug_level) {
tprintf("full_wh_ratio %g full_wh_ratio_total %g full_wh_ratio_var %g\n",
stats->full_wh_ratio, stats->full_wh_ratio_total,
stats->full_wh_ratio_var);
}
stats->shape_cost =
FixedPitchWidthCost(wh_ratio, right_gap, end_row, max_char_wh_ratio);
// For some reason Tesseract prefers to treat the whole CJ words
// as one blob when the initial segmentation is particularly bad.
// This hack is to avoid favoring such states.
if (col == 0 && end_row && wh_ratio > max_char_wh_ratio) {
stats->shape_cost += 10;
}
stats->shape_cost += stats->full_wh_ratio_var;
if (debug_level) tprintf("shape_cost %g\n", stats->shape_cost);
}
}
int AssociateUtils::GetChunksWidth(WIDTH_RECORD *width_record,
int start_blob, int last_blob) {
int result = 0;
for (int x = start_blob * 2; x <= last_blob * 2; x++)
result += width_record->widths[x];
return result;
}
float AssociateUtils::FixedPitchWidthCost(float norm_width,
float right_gap,
bool end_pos,
float max_char_wh_ratio) {
float cost = 0.0f;
if (norm_width > max_char_wh_ratio) cost += norm_width;
if (norm_width > kMaxFixedPitchCharAspectRatio)
cost += norm_width * norm_width; // extra penalty for merging CJK chars
// Penalize skinny blobs, except for punctuation in the last position.
if (norm_width+right_gap < 0.5f && !end_pos) {
cost += 1.0f - (norm_width + right_gap);
}
return cost;
}
} // namespace tesseract