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https://github.com/tesseract-ocr/tesseract.git
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309 lines
12 KiB
C++
309 lines
12 KiB
C++
// (C) Copyright 2017, Google Inc.
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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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// Although this is a trivial-looking test, it exercises a lot of code:
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// SampleIterator has to correctly iterate over the correct characters, or
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// it will fail.
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// The canonical and cloud features computed by TrainingSampleSet need to
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// be correct, along with the distance caches, organizing samples by font
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// and class, indexing of features, distance calculations.
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// IntFeatureDist has to work, or the canonical samples won't work.
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// Mastertrainer has ability to read tr files and set itself up tested.
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// Finally the serialize/deserialize test ensures that MasterTrainer,
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// TrainingSampleSet, TrainingSample can all serialize/deserialize correctly
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// enough to reproduce the same results.
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#include <string>
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#include <utility>
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#include <vector>
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#include "absl/strings/numbers.h" // for safe_strto32
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#include "absl/strings/str_split.h" // for absl::StrSplit
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#include "include_gunit.h"
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#include "genericvector.h"
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#include "log.h" // for LOG
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#include "unicharset.h"
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#include "errorcounter.h"
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#include "mastertrainer.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 "commontraining.h"
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#include "tessopt.h" // tessoptind
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// Commontraining command-line arguments for font_properties, xheights and
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// unicharset.
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DECLARE_STRING_PARAM_FLAG(F);
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DECLARE_STRING_PARAM_FLAG(X);
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DECLARE_STRING_PARAM_FLAG(U);
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DECLARE_STRING_PARAM_FLAG(output_trainer);
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// Specs of the MockClassifier.
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static const int kNumTopNErrs = 10;
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static const int kNumTop2Errs = kNumTopNErrs + 20;
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static const int kNumTop1Errs = kNumTop2Errs + 30;
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static const int kNumTopTopErrs = kNumTop1Errs + 25;
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static const int kNumNonReject = 1000;
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static const int kNumCorrect = kNumNonReject - kNumTop1Errs;
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// The total number of answers is given by the number of non-rejects plus
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// all the multiple answers.
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static const int kNumAnswers = kNumNonReject + 2 * (kNumTop2Errs - kNumTopNErrs) +
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(kNumTop1Errs - kNumTop2Errs) +
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(kNumTopTopErrs - kNumTop1Errs);
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static bool safe_strto32(const std::string& str, int* pResult)
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{
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long n = strtol(str.c_str(), nullptr, 0);
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*pResult = n;
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return true;
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}
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namespace tesseract {
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// Mock ShapeClassifier that cheats by looking at the correct answer, and
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// creates a specific pattern of errors that can be tested.
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class MockClassifier : public ShapeClassifier {
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public:
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explicit MockClassifier(ShapeTable* shape_table)
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: shape_table_(shape_table), num_done_(0), done_bad_font_(false) {
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// Add a false font answer to the shape table. We pick a random unichar_id,
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// add a new shape for it with a false font. Font must actually exist in
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// the font table, but not match anything in the first 1000 samples.
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false_unichar_id_ = 67;
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false_shape_ = shape_table_->AddShape(false_unichar_id_, 25);
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}
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virtual ~MockClassifier() {}
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// Classifies the given [training] sample, writing to results.
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// If debug is non-zero, then various degrees of classifier dependent debug
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// information is provided.
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// If keep_this (a shape index) is >= 0, then the results should always
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// contain keep_this, and (if possible) anything of intermediate confidence.
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// The return value is the number of classes saved in results.
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virtual int ClassifySample(const TrainingSample& sample, Pix* page_pix,
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int debug, UNICHAR_ID keep_this,
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GenericVector<ShapeRating>* results) {
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results->clear();
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// Everything except the first kNumNonReject is a reject.
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if (++num_done_ > kNumNonReject) return 0;
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int class_id = sample.class_id();
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int font_id = sample.font_id();
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int shape_id = shape_table_->FindShape(class_id, font_id);
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// Get ids of some wrong answers.
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int wrong_id1 = shape_id > 10 ? shape_id - 1 : shape_id + 1;
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int wrong_id2 = shape_id > 10 ? shape_id - 2 : shape_id + 2;
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if (num_done_ <= kNumTopNErrs) {
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// The first kNumTopNErrs are top-n errors.
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results->push_back(ShapeRating(wrong_id1, 1.0f));
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} else if (num_done_ <= kNumTop2Errs) {
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// The next kNumTop2Errs - kNumTopNErrs are top-2 errors.
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results->push_back(ShapeRating(wrong_id1, 1.0f));
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results->push_back(ShapeRating(wrong_id2, 0.875f));
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results->push_back(ShapeRating(shape_id, 0.75f));
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} else if (num_done_ <= kNumTop1Errs) {
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// The next kNumTop1Errs - kNumTop2Errs are top-1 errors.
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results->push_back(ShapeRating(wrong_id1, 1.0f));
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results->push_back(ShapeRating(shape_id, 0.8f));
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} else if (num_done_ <= kNumTopTopErrs) {
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// The next kNumTopTopErrs - kNumTop1Errs are cases where the actual top
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// is not correct, but do not count as a top-1 error because the rating
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// is close enough to the top answer.
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results->push_back(ShapeRating(wrong_id1, 1.0f));
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results->push_back(ShapeRating(shape_id, 0.99f));
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} else if (!done_bad_font_ && class_id == false_unichar_id_) {
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// There is a single character with a bad font.
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results->push_back(ShapeRating(false_shape_, 1.0f));
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done_bad_font_ = true;
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} else {
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// Everything else is correct.
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results->push_back(ShapeRating(shape_id, 1.0f));
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}
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return results->size();
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}
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// Provides access to the ShapeTable that this classifier works with.
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virtual const ShapeTable* GetShapeTable() const { return shape_table_; }
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private:
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// Borrowed pointer to the ShapeTable.
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ShapeTable* shape_table_;
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// Unichar_id of a random character that occurs after the first 60 samples.
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int false_unichar_id_;
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// Shape index of prepared false answer for false_unichar_id.
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int false_shape_;
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// The number of classifications we have processed.
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int num_done_;
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// True after the false font has been emitted.
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bool done_bad_font_;
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};
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} // namespace tesseract
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namespace {
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using tesseract::MasterTrainer;
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using tesseract::Shape;
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using tesseract::ShapeTable;
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using tesseract::UnicharAndFonts;
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const double kMin1lDistance = 0.25;
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// The fixture for testing Tesseract.
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class MasterTrainerTest : public testing::Test {
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protected:
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std::string TestDataNameToPath(const std::string& name) {
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return file::JoinPath(TESTING_DIR, name);
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}
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std::string TessdataPath() {
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return TESSDATA_DIR;
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}
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std::string TmpNameToPath(const std::string& name) {
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return file::JoinPath(FLAGS_test_tmpdir, name);
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}
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MasterTrainerTest() {
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shape_table_ = nullptr;
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master_trainer_ = nullptr;
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}
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~MasterTrainerTest() {
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delete master_trainer_;
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delete shape_table_;
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}
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// Initializes the master_trainer_ and shape_table_.
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// if load_from_tmp, then reloads a master trainer that was saved by a
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// previous call in which it was false.
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void LoadMasterTrainer() {
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FLAGS_output_trainer = TmpNameToPath("tmp_trainer").c_str();
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FLAGS_F = file::JoinPath(LANGDATA_DIR, "font_properties").c_str();
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FLAGS_X = TestDataNameToPath("eng.xheights").c_str();
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FLAGS_U = TestDataNameToPath("eng.unicharset").c_str();
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std::string tr_file_name(TestDataNameToPath("eng.Arial.exp0.tr"));
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const char* argv[] = {tr_file_name.c_str()};
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int argc = 1;
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STRING file_prefix;
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delete master_trainer_;
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delete shape_table_;
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shape_table_ = nullptr;
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tessoptind = 0;
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master_trainer_ =
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LoadTrainingData(argc, argv, false, &shape_table_, &file_prefix);
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EXPECT_TRUE(master_trainer_ != nullptr);
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EXPECT_TRUE(shape_table_ != nullptr);
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}
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// EXPECTs that the distance between I and l in Arial is 0 and that the
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// distance to 1 is significantly not 0.
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void VerifyIl1() {
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// Find the font id for Arial.
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int font_id = master_trainer_->GetFontInfoId("Arial");
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EXPECT_GE(font_id, 0);
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// Track down the characters we are interested in.
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int unichar_I = master_trainer_->unicharset().unichar_to_id("I");
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EXPECT_GT(unichar_I, 0);
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int unichar_l = master_trainer_->unicharset().unichar_to_id("l");
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EXPECT_GT(unichar_l, 0);
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int unichar_1 = master_trainer_->unicharset().unichar_to_id("1");
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EXPECT_GT(unichar_1, 0);
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// Now get the shape ids.
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int shape_I = shape_table_->FindShape(unichar_I, font_id);
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EXPECT_GE(shape_I, 0);
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int shape_l = shape_table_->FindShape(unichar_l, font_id);
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EXPECT_GE(shape_l, 0);
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int shape_1 = shape_table_->FindShape(unichar_1, font_id);
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EXPECT_GE(shape_1, 0);
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float dist_I_l =
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master_trainer_->ShapeDistance(*shape_table_, shape_I, shape_l);
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// No tolerance here. We expect that I and l should match exactly.
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EXPECT_EQ(0.0f, dist_I_l);
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float dist_l_I =
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master_trainer_->ShapeDistance(*shape_table_, shape_l, shape_I);
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// BOTH ways.
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EXPECT_EQ(0.0f, dist_l_I);
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// l/1 on the other hand should be distinct.
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float dist_l_1 =
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master_trainer_->ShapeDistance(*shape_table_, shape_l, shape_1);
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EXPECT_GT(dist_l_1, kMin1lDistance);
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float dist_1_l =
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master_trainer_->ShapeDistance(*shape_table_, shape_1, shape_l);
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EXPECT_GT(dist_1_l, kMin1lDistance);
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// So should I/1.
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float dist_I_1 =
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master_trainer_->ShapeDistance(*shape_table_, shape_I, shape_1);
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EXPECT_GT(dist_I_1, kMin1lDistance);
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float dist_1_I =
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master_trainer_->ShapeDistance(*shape_table_, shape_1, shape_I);
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EXPECT_GT(dist_1_I, kMin1lDistance);
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}
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// Objects declared here can be used by all tests in the test case for Foo.
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ShapeTable* shape_table_;
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MasterTrainer* master_trainer_;
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};
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// Tests that the MasterTrainer correctly loads its data and reaches the correct
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// conclusion over the distance between Arial I l and 1.
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TEST_F(MasterTrainerTest, Il1Test) {
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// Initialize the master_trainer_ and load the Arial tr file.
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LoadMasterTrainer();
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VerifyIl1();
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}
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// Tests the ErrorCounter using a MockClassifier to check that it counts
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// error categories correctly.
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TEST_F(MasterTrainerTest, ErrorCounterTest) {
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// Initialize the master_trainer_ from the saved tmp file.
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LoadMasterTrainer();
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// Add the space character to the shape_table_ if not already present to
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// count junk.
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if (shape_table_->FindShape(0, -1) < 0) shape_table_->AddShape(0, 0);
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// Make a mock classifier.
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tesseract::ShapeClassifier* shape_classifier =
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new tesseract::MockClassifier(shape_table_);
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// Get the accuracy report.
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STRING accuracy_report;
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master_trainer_->TestClassifierOnSamples(tesseract::CT_UNICHAR_TOP1_ERR, 0,
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false, shape_classifier,
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&accuracy_report);
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LOG(INFO) << accuracy_report.string();
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std::string result_string = accuracy_report.string();
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std::vector<std::string> results =
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absl::StrSplit(result_string, '\t', absl::SkipEmpty());
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EXPECT_EQ(tesseract::CT_SIZE + 1, results.size());
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int result_values[tesseract::CT_SIZE];
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for (int i = 0; i < tesseract::CT_SIZE; ++i) {
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EXPECT_TRUE(safe_strto32(results[i + 1], &result_values[i]));
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}
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// These tests are more-or-less immune to additions to the number of
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// categories or changes in the training data.
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int num_samples = master_trainer_->GetSamples()->num_raw_samples();
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EXPECT_EQ(kNumCorrect, result_values[tesseract::CT_UNICHAR_TOP_OK]);
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EXPECT_EQ(1, result_values[tesseract::CT_FONT_ATTR_ERR]);
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EXPECT_EQ(kNumTopTopErrs, result_values[tesseract::CT_UNICHAR_TOPTOP_ERR]);
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EXPECT_EQ(kNumTop1Errs, result_values[tesseract::CT_UNICHAR_TOP1_ERR]);
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EXPECT_EQ(kNumTop2Errs, result_values[tesseract::CT_UNICHAR_TOP2_ERR]);
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EXPECT_EQ(kNumTopNErrs, result_values[tesseract::CT_UNICHAR_TOPN_ERR]);
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// Each of the TOPTOP errs also counts as a multi-unichar.
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EXPECT_EQ(kNumTopTopErrs - kNumTop1Errs,
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result_values[tesseract::CT_OK_MULTI_UNICHAR]);
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EXPECT_EQ(num_samples - kNumNonReject, result_values[tesseract::CT_REJECT]);
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EXPECT_EQ(kNumAnswers, result_values[tesseract::CT_NUM_RESULTS]);
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delete shape_classifier;
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}
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} // namespace.
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