/********************************************************************** * File: cube_reco_context.cpp * Description: Implementation of the Cube Recognition Context Class * Author: Ahmad Abdulkader * Created: 2007 * * (C) Copyright 2008, 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 #include #include "cube_reco_context.h" #include "classifier_factory.h" #include "cube_tuning_params.h" #include "dict.h" #include "feature_bmp.h" #include "tessdatamanager.h" #include "tesseractclass.h" #include "tess_lang_model.h" namespace tesseract { // Instantiate a CubeRecoContext object using a Tesseract object. // CubeRecoContext will not take ownership of tess_obj, but will // record the pointer to it and will make use of various Tesseract // components (language model, flags, etc). Thus the caller should // keep tess_obj alive so long as the instantiated CubeRecoContext is used. CubeRecoContext::CubeRecoContext(Tesseract *tess_obj) { tess_obj_ = tess_obj; lang_ = ""; loaded_ = false; lang_mod_ = NULL; params_ = NULL; char_classifier_ = NULL; char_set_ = NULL; word_size_model_ = NULL; char_bigrams_ = NULL; word_unigrams_ = NULL; noisy_input_ = false; size_normalization_ = false; } CubeRecoContext::~CubeRecoContext() { if (char_classifier_ != NULL) { delete char_classifier_; char_classifier_ = NULL; } if (word_size_model_ != NULL) { delete word_size_model_; word_size_model_ = NULL; } if (char_set_ != NULL) { delete char_set_; char_set_ = NULL; } if (char_bigrams_ != NULL) { delete char_bigrams_; char_bigrams_ = NULL; } if (word_unigrams_ != NULL) { delete word_unigrams_; word_unigrams_ = NULL; } if (lang_mod_ != NULL) { delete lang_mod_; lang_mod_ = NULL; } if (params_ != NULL) { delete params_; params_ = NULL; } } // Returns the path of the data files by looking up the TESSDATA_PREFIX // environment variable and appending a "tessdata" directory to it bool CubeRecoContext::GetDataFilePath(string *path) const { *path = tess_obj_->datadir.string(); return true; } // The object initialization function that loads all the necessary // components of a RecoContext. TessdataManager is used to load the // data from [lang].traineddata file. If TESSDATA_CUBE_UNICHARSET // component is present, Cube will be instantiated with the unicharset // specified in this component and the corresponding dictionary // (TESSDATA_CUBE_SYSTEM_DAWG), and will map Cube's unicharset to // Tesseract's. Otherwise, TessdataManager will assume that Cube will // be using Tesseract's unicharset and dawgs, and will load the // unicharset from the TESSDATA_UNICHARSET component and will load the // dawgs from TESSDATA_*_DAWG components. bool CubeRecoContext::Load(TessdataManager *tessdata_manager, UNICHARSET *tess_unicharset) { ASSERT_HOST(tess_obj_ != NULL); tess_unicharset_ = tess_unicharset; string data_file_path; // Get the data file path. if (GetDataFilePath(&data_file_path) == false) { fprintf(stderr, "Unable to get data file path\n"); return false; } // Get the language from the Tesseract object. lang_ = tess_obj_->lang.string(); // Create the char set. if ((char_set_ = CharSet::Create(tessdata_manager, tess_unicharset)) == NULL) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Load): unable to load " "CharSet\n"); return false; } // Create the language model. string lm_file_name = data_file_path + lang_ + ".cube.lm"; string lm_params; if (!CubeUtils::ReadFileToString(lm_file_name, &lm_params)) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Load): unable to read cube " "language model params from %s\n", lm_file_name.c_str()); return false; } lang_mod_ = new TessLangModel(lm_params, data_file_path, tess_obj_->getDict().load_system_dawg, tessdata_manager, this); if (lang_mod_ == NULL) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Load): unable to create " "TessLangModel\n"); return false; } // Create the optional char bigrams object. char_bigrams_ = CharBigrams::Create(data_file_path, lang_); // Create the optional word unigrams object. word_unigrams_ = WordUnigrams::Create(data_file_path, lang_); // Create the optional size model. word_size_model_ = WordSizeModel::Create(data_file_path, lang_, char_set_, Contextual()); // Load tuning params. params_ = CubeTuningParams::Create(data_file_path, lang_); if (params_ == NULL) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Load): unable to read " "CubeTuningParams from %s\n", data_file_path.c_str()); return false; } // Create the char classifier. char_classifier_ = CharClassifierFactory::Create(data_file_path, lang_, lang_mod_, char_set_, params_); if (char_classifier_ == NULL) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Load): unable to load " "CharClassifierFactory object from %s\n", data_file_path.c_str()); return false; } loaded_ = true; return true; } // Creates a CubeRecoContext object using a tesseract object CubeRecoContext * CubeRecoContext::Create(Tesseract *tess_obj, TessdataManager *tessdata_manager, UNICHARSET *tess_unicharset) { // create the object CubeRecoContext *cntxt = new CubeRecoContext(tess_obj); if (cntxt == NULL) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Create): unable to create " "CubeRecoContext object\n"); return NULL; } // load the necessary components if (cntxt->Load(tessdata_manager, tess_unicharset) == false) { fprintf(stderr, "Cube ERROR (CubeRecoContext::Create): unable to init " "CubeRecoContext object\n"); delete cntxt; return NULL; } // success return cntxt; } } // tesseract}