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git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@873 d0cd1f9f-072b-0410-8dd7-cf729c803f20
508 lines
21 KiB
C++
508 lines
21 KiB
C++
// Copyright 2011 Google Inc. All Rights Reserved.
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// Author: rays@google.com (Ray Smith)
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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///////////////////////////////////////////////////////////////////////
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#include <ctime>
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#include "errorcounter.h"
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#include "fontinfo.h"
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#include "ndminx.h"
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#include "sampleiterator.h"
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#include "shapeclassifier.h"
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#include "shapetable.h"
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#include "trainingsample.h"
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#include "trainingsampleset.h"
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#include "unicity_table.h"
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namespace tesseract {
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// Difference in result rating to be thought of as an "equal" choice.
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const double kRatingEpsilon = 1.0 / 32;
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// Tests a classifier, computing its error rate.
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// See errorcounter.h for description of arguments.
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// Iterates over the samples, calling the classifier in normal/silent mode.
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// If the classifier makes a CT_UNICHAR_TOPN_ERR error, and the appropriate
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// report_level is set (4 or greater), it will then call the classifier again
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// with a debug flag and a keep_this argument to find out what is going on.
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double ErrorCounter::ComputeErrorRate(ShapeClassifier* classifier,
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int report_level, CountTypes boosting_mode,
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const FontInfoTable& fontinfo_table,
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const GenericVector<Pix*>& page_images, SampleIterator* it,
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double* unichar_error, double* scaled_error, STRING* fonts_report) {
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int fontsize = it->sample_set()->NumFonts();
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ErrorCounter counter(classifier->GetUnicharset(), fontsize);
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GenericVector<UnicharRating> results;
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clock_t start = clock();
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int total_samples = 0;
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double unscaled_error = 0.0;
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// Set a number of samples on which to run the classify debug mode.
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int error_samples = report_level > 3 ? report_level * report_level : 0;
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// Iterate over all the samples, accumulating errors.
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for (it->Begin(); !it->AtEnd(); it->Next()) {
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TrainingSample* mutable_sample = it->MutableSample();
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int page_index = mutable_sample->page_num();
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Pix* page_pix = 0 <= page_index && page_index < page_images.size()
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? page_images[page_index] : NULL;
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// No debug, no keep this.
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classifier->UnicharClassifySample(*mutable_sample, page_pix, 0,
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INVALID_UNICHAR_ID, &results);
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bool debug_it = false;
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int correct_id = mutable_sample->class_id();
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if (counter.unicharset_.has_special_codes() &&
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(correct_id == UNICHAR_SPACE || correct_id == UNICHAR_JOINED ||
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correct_id == UNICHAR_BROKEN)) {
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// This is junk so use the special counter.
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debug_it = counter.AccumulateJunk(report_level > 3,
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results,
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mutable_sample);
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} else {
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debug_it = counter.AccumulateErrors(report_level > 3, boosting_mode,
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fontinfo_table,
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results, mutable_sample);
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}
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if (debug_it && error_samples > 0) {
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// Running debug, keep the correct answer, and debug the classifier.
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tprintf("Error on sample %d: %s Classifier debug output:\n",
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it->GlobalSampleIndex(),
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it->sample_set()->SampleToString(*mutable_sample).string());
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classifier->DebugDisplay(*mutable_sample, page_pix, correct_id);
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--error_samples;
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}
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++total_samples;
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}
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double total_time = 1.0 * (clock() - start) / CLOCKS_PER_SEC;
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// Create the appropriate error report.
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unscaled_error = counter.ReportErrors(report_level, boosting_mode,
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fontinfo_table,
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*it, unichar_error, fonts_report);
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if (scaled_error != NULL) *scaled_error = counter.scaled_error_;
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if (report_level > 1) {
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// It is useful to know the time in microseconds/char.
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tprintf("Errors computed in %.2fs at %.1f μs/char\n",
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total_time, 1000000.0 * total_time / total_samples);
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}
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return unscaled_error;
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}
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// Tests a pair of classifiers, debugging errors of the new against the old.
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// See errorcounter.h for description of arguments.
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// Iterates over the samples, calling the classifiers in normal/silent mode.
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// If the new_classifier makes a boosting_mode error that the old_classifier
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// does not, it will then call the new_classifier again with a debug flag
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// and a keep_this argument to find out what is going on.
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void ErrorCounter::DebugNewErrors(
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ShapeClassifier* new_classifier, ShapeClassifier* old_classifier,
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CountTypes boosting_mode,
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const FontInfoTable& fontinfo_table,
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const GenericVector<Pix*>& page_images, SampleIterator* it) {
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int fontsize = it->sample_set()->NumFonts();
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ErrorCounter old_counter(old_classifier->GetUnicharset(), fontsize);
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ErrorCounter new_counter(new_classifier->GetUnicharset(), fontsize);
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GenericVector<UnicharRating> results;
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int total_samples = 0;
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int error_samples = 25;
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int total_new_errors = 0;
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// Iterate over all the samples, accumulating errors.
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for (it->Begin(); !it->AtEnd(); it->Next()) {
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TrainingSample* mutable_sample = it->MutableSample();
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int page_index = mutable_sample->page_num();
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Pix* page_pix = 0 <= page_index && page_index < page_images.size()
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? page_images[page_index] : NULL;
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// No debug, no keep this.
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old_classifier->UnicharClassifySample(*mutable_sample, page_pix, 0,
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INVALID_UNICHAR_ID, &results);
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int correct_id = mutable_sample->class_id();
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if (correct_id != 0 &&
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!old_counter.AccumulateErrors(true, boosting_mode, fontinfo_table,
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results, mutable_sample)) {
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// old classifier was correct, check the new one.
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new_classifier->UnicharClassifySample(*mutable_sample, page_pix, 0,
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INVALID_UNICHAR_ID, &results);
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if (correct_id != 0 &&
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new_counter.AccumulateErrors(true, boosting_mode, fontinfo_table,
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results, mutable_sample)) {
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tprintf("New Error on sample %d: Classifier debug output:\n",
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it->GlobalSampleIndex());
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++total_new_errors;
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new_classifier->UnicharClassifySample(*mutable_sample, page_pix, 1,
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correct_id, &results);
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if (results.size() > 0 && error_samples > 0) {
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new_classifier->DebugDisplay(*mutable_sample, page_pix, correct_id);
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--error_samples;
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}
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}
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}
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++total_samples;
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}
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tprintf("Total new errors = %d\n", total_new_errors);
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}
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// Constructor is private. Only anticipated use of ErrorCounter is via
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// the static ComputeErrorRate.
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ErrorCounter::ErrorCounter(const UNICHARSET& unicharset, int fontsize)
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: scaled_error_(0.0), rating_epsilon_(kRatingEpsilon),
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unichar_counts_(unicharset.size(), unicharset.size(), 0),
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ok_score_hist_(0, 101), bad_score_hist_(0, 101),
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unicharset_(unicharset) {
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Counts empty_counts;
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font_counts_.init_to_size(fontsize, empty_counts);
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multi_unichar_counts_.init_to_size(unicharset.size(), 0);
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}
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ErrorCounter::~ErrorCounter() {
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}
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// Accumulates the errors from the classifier results on a single sample.
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// Returns true if debug is true and a CT_UNICHAR_TOPN_ERR error occurred.
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// boosting_mode selects the type of error to be used for boosting and the
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// is_error_ member of sample is set according to whether the required type
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// of error occurred. The font_table provides access to font properties
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// for error counting and shape_table is used to understand the relationship
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// between unichar_ids and shape_ids in the results
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bool ErrorCounter::AccumulateErrors(bool debug, CountTypes boosting_mode,
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const FontInfoTable& font_table,
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const GenericVector<UnicharRating>& results,
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TrainingSample* sample) {
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int num_results = results.size();
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int answer_actual_rank = -1;
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int font_id = sample->font_id();
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int unichar_id = sample->class_id();
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sample->set_is_error(false);
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if (num_results == 0) {
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// Reject. We count rejects as a separate category, but still mark the
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// sample as an error in case any training module wants to use that to
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// improve the classifier.
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sample->set_is_error(true);
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++font_counts_[font_id].n[CT_REJECT];
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} else {
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// Find rank of correct unichar answer, using rating_epsilon_ to allow
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// different answers to score as equal. (Ignoring the font.)
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int epsilon_rank = 0;
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int answer_epsilon_rank = -1;
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int num_top_answers = 0;
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double prev_rating = results[0].rating;
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bool joined = false;
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bool broken = false;
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int res_index = 0;
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while (res_index < num_results) {
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if (results[res_index].rating < prev_rating - rating_epsilon_) {
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++epsilon_rank;
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prev_rating = results[res_index].rating;
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}
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if (results[res_index].unichar_id == unichar_id &&
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answer_epsilon_rank < 0) {
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answer_epsilon_rank = epsilon_rank;
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answer_actual_rank = res_index;
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}
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if (results[res_index].unichar_id == UNICHAR_JOINED &&
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unicharset_.has_special_codes())
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joined = true;
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else if (results[res_index].unichar_id == UNICHAR_BROKEN &&
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unicharset_.has_special_codes())
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broken = true;
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else if (epsilon_rank == 0)
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++num_top_answers;
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++res_index;
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}
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if (answer_actual_rank != 0) {
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// Correct result is not absolute top.
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++font_counts_[font_id].n[CT_UNICHAR_TOPTOP_ERR];
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if (boosting_mode == CT_UNICHAR_TOPTOP_ERR) sample->set_is_error(true);
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}
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if (answer_epsilon_rank == 0) {
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++font_counts_[font_id].n[CT_UNICHAR_TOP_OK];
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// Unichar OK, but count if multiple unichars.
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if (num_top_answers > 1) {
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++font_counts_[font_id].n[CT_OK_MULTI_UNICHAR];
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++multi_unichar_counts_[unichar_id];
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}
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// Check to see if any font in the top choice has attributes that match.
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// TODO(rays) It is easy to add counters for individual font attributes
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// here if we want them.
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if (font_table.SetContainsFontProperties(
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font_id, results[answer_actual_rank].fonts)) {
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// Font attributes were matched.
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// Check for multiple properties.
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if (font_table.SetContainsMultipleFontProperties(
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results[answer_actual_rank].fonts))
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++font_counts_[font_id].n[CT_OK_MULTI_FONT];
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} else {
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// Font attributes weren't matched.
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++font_counts_[font_id].n[CT_FONT_ATTR_ERR];
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}
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} else {
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// This is a top unichar error.
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++font_counts_[font_id].n[CT_UNICHAR_TOP1_ERR];
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if (boosting_mode == CT_UNICHAR_TOP1_ERR) sample->set_is_error(true);
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// Count maps from unichar id to wrong unichar id.
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++unichar_counts_(unichar_id, results[0].unichar_id);
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if (answer_epsilon_rank < 0 || answer_epsilon_rank >= 2) {
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// It is also a 2nd choice unichar error.
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++font_counts_[font_id].n[CT_UNICHAR_TOP2_ERR];
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if (boosting_mode == CT_UNICHAR_TOP2_ERR) sample->set_is_error(true);
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}
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if (answer_epsilon_rank < 0) {
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// It is also a top-n choice unichar error.
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++font_counts_[font_id].n[CT_UNICHAR_TOPN_ERR];
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if (boosting_mode == CT_UNICHAR_TOPN_ERR) sample->set_is_error(true);
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answer_epsilon_rank = epsilon_rank;
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}
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}
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// Compute mean number of return values and mean rank of correct answer.
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font_counts_[font_id].n[CT_NUM_RESULTS] += num_results;
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font_counts_[font_id].n[CT_RANK] += answer_epsilon_rank;
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if (joined)
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++font_counts_[font_id].n[CT_OK_JOINED];
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if (broken)
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++font_counts_[font_id].n[CT_OK_BROKEN];
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}
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// If it was an error for boosting then sum the weight.
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if (sample->is_error()) {
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scaled_error_ += sample->weight();
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if (debug) {
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tprintf("%d results for char %s font %d :",
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num_results, unicharset_.id_to_unichar(unichar_id),
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font_id);
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for (int i = 0; i < num_results; ++i) {
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tprintf(" %.3f : %s\n",
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results[i].rating,
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unicharset_.id_to_unichar(results[i].unichar_id));
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}
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return true;
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}
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int percent = 0;
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if (num_results > 0)
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percent = IntCastRounded(results[0].rating * 100);
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bad_score_hist_.add(percent, 1);
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} else {
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int percent = 0;
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if (answer_actual_rank >= 0)
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percent = IntCastRounded(results[answer_actual_rank].rating * 100);
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ok_score_hist_.add(percent, 1);
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}
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return false;
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}
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// Accumulates counts for junk. Counts only whether the junk was correctly
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// rejected or not.
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bool ErrorCounter::AccumulateJunk(bool debug,
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const GenericVector<UnicharRating>& results,
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TrainingSample* sample) {
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// For junk we accept no answer, or an explicit shape answer matching the
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// class id of the sample.
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int num_results = results.size();
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int font_id = sample->font_id();
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int unichar_id = sample->class_id();
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int percent = 0;
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if (num_results > 0)
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percent = IntCastRounded(results[0].rating * 100);
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if (num_results > 0 && results[0].unichar_id != unichar_id) {
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// This is a junk error.
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++font_counts_[font_id].n[CT_ACCEPTED_JUNK];
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sample->set_is_error(true);
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// It counts as an error for boosting too so sum the weight.
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scaled_error_ += sample->weight();
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bad_score_hist_.add(percent, 1);
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return debug;
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} else {
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// Correctly rejected.
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++font_counts_[font_id].n[CT_REJECTED_JUNK];
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sample->set_is_error(false);
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ok_score_hist_.add(percent, 1);
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}
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return false;
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}
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// Creates a report of the error rate. The report_level controls the detail
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// that is reported to stderr via tprintf:
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// 0 -> no output.
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// >=1 -> bottom-line error rate.
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// >=3 -> font-level error rate.
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// boosting_mode determines the return value. It selects which (un-weighted)
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// error rate to return.
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// The fontinfo_table from MasterTrainer provides the names of fonts.
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// The it determines the current subset of the training samples.
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// If not NULL, the top-choice unichar error rate is saved in unichar_error.
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// If not NULL, the report string is saved in fonts_report.
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// (Ignoring report_level).
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double ErrorCounter::ReportErrors(int report_level, CountTypes boosting_mode,
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const FontInfoTable& fontinfo_table,
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const SampleIterator& it,
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double* unichar_error,
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STRING* fonts_report) {
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// Compute totals over all the fonts and report individual font results
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// when required.
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Counts totals;
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int fontsize = font_counts_.size();
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for (int f = 0; f < fontsize; ++f) {
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// Accumulate counts over fonts.
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totals += font_counts_[f];
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STRING font_report;
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if (ReportString(false, font_counts_[f], &font_report)) {
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if (fonts_report != NULL) {
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*fonts_report += fontinfo_table.get(f).name;
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*fonts_report += ": ";
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*fonts_report += font_report;
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*fonts_report += "\n";
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}
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if (report_level > 2) {
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// Report individual font error rates.
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tprintf("%s: %s\n", fontinfo_table.get(f).name, font_report.string());
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}
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}
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}
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// Report the totals.
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STRING total_report;
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bool any_results = ReportString(true, totals, &total_report);
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if (fonts_report != NULL && fonts_report->length() == 0) {
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// Make sure we return something even if there were no samples.
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*fonts_report = "NoSamplesFound: ";
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*fonts_report += total_report;
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*fonts_report += "\n";
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}
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if (report_level > 0) {
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// Report the totals.
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STRING total_report;
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if (any_results) {
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tprintf("TOTAL Scaled Err=%.4g%%, %s\n",
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scaled_error_ * 100.0, total_report.string());
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}
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// Report the worst substitution error only for now.
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if (totals.n[CT_UNICHAR_TOP1_ERR] > 0) {
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int charsetsize = unicharset_.size();
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int worst_uni_id = 0;
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int worst_result_id = 0;
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int worst_err = 0;
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for (int u = 0; u < charsetsize; ++u) {
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for (int v = 0; v < charsetsize; ++v) {
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if (unichar_counts_(u, v) > worst_err) {
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worst_err = unichar_counts_(u, v);
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worst_uni_id = u;
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worst_result_id = v;
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}
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}
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}
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if (worst_err > 0) {
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tprintf("Worst error = %d:%s -> %s with %d/%d=%.2f%% errors\n",
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worst_uni_id, unicharset_.id_to_unichar(worst_uni_id),
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unicharset_.id_to_unichar(worst_result_id),
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worst_err, totals.n[CT_UNICHAR_TOP1_ERR],
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100.0 * worst_err / totals.n[CT_UNICHAR_TOP1_ERR]);
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}
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}
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tprintf("Multi-unichar shape use:\n");
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for (int u = 0; u < multi_unichar_counts_.size(); ++u) {
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if (multi_unichar_counts_[u] > 0) {
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tprintf("%d multiple answers for unichar: %s\n",
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multi_unichar_counts_[u],
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unicharset_.id_to_unichar(u));
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}
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}
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tprintf("OK Score histogram:\n");
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ok_score_hist_.print();
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tprintf("ERROR Score histogram:\n");
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bad_score_hist_.print();
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}
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double rates[CT_SIZE];
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if (!ComputeRates(totals, rates))
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return 0.0;
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// Set output values if asked for.
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if (unichar_error != NULL)
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*unichar_error = rates[CT_UNICHAR_TOP1_ERR];
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return rates[boosting_mode];
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}
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// Sets the report string to a combined human and machine-readable report
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// string of the error rates.
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// Returns false if there is no data, leaving report unchanged, unless
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// even_if_empty is true.
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bool ErrorCounter::ReportString(bool even_if_empty, const Counts& counts,
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STRING* report) {
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// Compute the error rates.
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double rates[CT_SIZE];
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if (!ComputeRates(counts, rates) && !even_if_empty)
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return false;
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// Using %.4g%%, the length of the output string should exactly match the
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// length of the format string, but in case of overflow, allow for +eddd
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// on each number.
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const int kMaxExtraLength = 5; // Length of +eddd.
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// Keep this format string and the snprintf in sync with the CountTypes enum.
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const char* format_str = "Unichar=%.4g%%[1], %.4g%%[2], %.4g%%[n], %.4g%%[T] "
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"Mult=%.4g%%, Jn=%.4g%%, Brk=%.4g%%, Rej=%.4g%%, "
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"FontAttr=%.4g%%, Multi=%.4g%%, "
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"Answers=%.3g, Rank=%.3g, "
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"OKjunk=%.4g%%, Badjunk=%.4g%%";
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int max_str_len = strlen(format_str) + kMaxExtraLength * (CT_SIZE - 1) + 1;
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char* formatted_str = new char[max_str_len];
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snprintf(formatted_str, max_str_len, format_str,
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rates[CT_UNICHAR_TOP1_ERR] * 100.0,
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rates[CT_UNICHAR_TOP2_ERR] * 100.0,
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rates[CT_UNICHAR_TOPN_ERR] * 100.0,
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rates[CT_UNICHAR_TOPTOP_ERR] * 100.0,
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rates[CT_OK_MULTI_UNICHAR] * 100.0,
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rates[CT_OK_JOINED] * 100.0,
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rates[CT_OK_BROKEN] * 100.0,
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rates[CT_REJECT] * 100.0,
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rates[CT_FONT_ATTR_ERR] * 100.0,
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rates[CT_OK_MULTI_FONT] * 100.0,
|
|
rates[CT_NUM_RESULTS],
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|
rates[CT_RANK],
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|
100.0 * rates[CT_REJECTED_JUNK],
|
|
100.0 * rates[CT_ACCEPTED_JUNK]);
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|
*report = formatted_str;
|
|
delete [] formatted_str;
|
|
// Now append each field of counts with a tab in front so the result can
|
|
// be loaded into a spreadsheet.
|
|
for (int ct = 0; ct < CT_SIZE; ++ct)
|
|
report->add_str_int("\t", counts.n[ct]);
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|
return true;
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|
}
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|
// Computes the error rates and returns in rates which is an array of size
|
|
// CT_SIZE. Returns false if there is no data, leaving rates unchanged.
|
|
bool ErrorCounter::ComputeRates(const Counts& counts, double rates[CT_SIZE]) {
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|
int ok_samples = counts.n[CT_UNICHAR_TOP_OK] + counts.n[CT_UNICHAR_TOP1_ERR] +
|
|
counts.n[CT_REJECT];
|
|
int junk_samples = counts.n[CT_REJECTED_JUNK] + counts.n[CT_ACCEPTED_JUNK];
|
|
// Compute rates for normal chars.
|
|
double denominator = static_cast<double>(MAX(ok_samples, 1));
|
|
for (int ct = 0; ct <= CT_RANK; ++ct)
|
|
rates[ct] = counts.n[ct] / denominator;
|
|
// Compute rates for junk.
|
|
denominator = static_cast<double>(MAX(junk_samples, 1));
|
|
for (int ct = CT_REJECTED_JUNK; ct <= CT_ACCEPTED_JUNK; ++ct)
|
|
rates[ct] = counts.n[ct] / denominator;
|
|
return ok_samples != 0 || junk_samples != 0;
|
|
}
|
|
|
|
ErrorCounter::Counts::Counts() {
|
|
memset(n, 0, sizeof(n[0]) * CT_SIZE);
|
|
}
|
|
// Adds other into this for computing totals.
|
|
void ErrorCounter::Counts::operator+=(const Counts& other) {
|
|
for (int ct = 0; ct < CT_SIZE; ++ct)
|
|
n[ct] += other.n[ct];
|
|
}
|
|
|
|
|
|
} // namespace tesseract.
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