tesseract/ccmain/cubeclassifier.cpp

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// Copyright 2011 Google Inc. All Rights Reserved.
// Author: rays@google.com (Ray Smith)
///////////////////////////////////////////////////////////////////////
// File: cubeclassifier.cpp
// Description: Cube implementation of a ShapeClassifier.
// Author: Ray Smith
// Created: Wed Nov 23 10:39:45 PST 2011
//
// (C) Copyright 2011, 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 "cubeclassifier.h"
#include "char_altlist.h"
#include "char_set.h"
#include "cube_object.h"
#include "cube_reco_context.h"
#include "tessclassifier.h"
#include "tesseractclass.h"
#include "trainingsample.h"
#include "unicharset.h"
namespace tesseract {
CubeClassifier::CubeClassifier(tesseract::Tesseract* tesseract)
: cube_cntxt_(tesseract->GetCubeRecoContext()),
shape_table_(*tesseract->shape_table()) {
}
CubeClassifier::~CubeClassifier() {
}
// Classifies the given [training] sample, writing to results.
// See ShapeClassifier for a full description.
int CubeClassifier::UnicharClassifySample(
const TrainingSample& sample, Pix* page_pix, int debug,
UNICHAR_ID keep_this, GenericVector<UnicharRating>* results) {
results->clear();
if (page_pix == NULL) return 0;
ASSERT_HOST(cube_cntxt_ != NULL);
const TBOX& char_box = sample.bounding_box();
CubeObject* cube_obj = new tesseract::CubeObject(
cube_cntxt_, page_pix, char_box.left(),
pixGetHeight(page_pix) - char_box.top(),
char_box.width(), char_box.height());
CharAltList* alt_list = cube_obj->RecognizeChar();
if (alt_list != NULL) {
alt_list->Sort();
CharSet* char_set = cube_cntxt_->CharacterSet();
for (int i = 0; i < alt_list->AltCount(); ++i) {
// Convert cube representation to a shape_id.
int alt_id = alt_list->Alt(i);
int unichar_id = char_set->UnicharID(char_set->ClassString(alt_id));
if (unichar_id >= 0)
results->push_back(UnicharRating(unichar_id, alt_list->AltProb(i)));
}
delete alt_list;
}
delete cube_obj;
return results->size();
}
// Provides access to the ShapeTable that this classifier works with.
const ShapeTable* CubeClassifier::GetShapeTable() const {
return &shape_table_;
}
CubeTessClassifier::CubeTessClassifier(tesseract::Tesseract* tesseract)
: cube_cntxt_(tesseract->GetCubeRecoContext()),
shape_table_(*tesseract->shape_table()),
pruner_(new TessClassifier(true, tesseract)) {
}
CubeTessClassifier::~CubeTessClassifier() {
delete pruner_;
}
// Classifies the given [training] sample, writing to results.
// See ShapeClassifier for a full description.
int CubeTessClassifier::UnicharClassifySample(
const TrainingSample& sample, Pix* page_pix, int debug,
UNICHAR_ID keep_this, GenericVector<UnicharRating>* results) {
int num_results = pruner_->UnicharClassifySample(sample, page_pix, debug,
keep_this, results);
if (page_pix == NULL) return num_results;
ASSERT_HOST(cube_cntxt_ != NULL);
const TBOX& char_box = sample.bounding_box();
CubeObject* cube_obj = new tesseract::CubeObject(
cube_cntxt_, page_pix, char_box.left(),
pixGetHeight(page_pix) - char_box.top(),
char_box.width(), char_box.height());
CharAltList* alt_list = cube_obj->RecognizeChar();
CharSet* char_set = cube_cntxt_->CharacterSet();
if (alt_list != NULL) {
for (int r = 0; r < num_results; ++r) {
// Get the best cube probability of the unichar in the result.
double best_prob = 0.0;
for (int i = 0; i < alt_list->AltCount(); ++i) {
int alt_id = alt_list->Alt(i);
int unichar_id = char_set->UnicharID(char_set->ClassString(alt_id));
if (unichar_id == (*results)[r].unichar_id &&
alt_list->AltProb(i) > best_prob) {
best_prob = alt_list->AltProb(i);
}
}
(*results)[r].rating = best_prob;
}
delete alt_list;
// Re-sort by rating.
results->sort(&UnicharRating::SortDescendingRating);
}
delete cube_obj;
return results->size();
}
// Provides access to the ShapeTable that this classifier works with.
const ShapeTable* CubeTessClassifier::GetShapeTable() const {
return &shape_table_;
}
} // namespace tesseract