// Copyright 2017 Google Inc. All Rights Reserved. // Author: rays@google.com (Ray Smith) // Purpose: Program to generate a traineddata file that can be used to train an // LSTM-based neural network model from a unicharset and an optional // set of wordlists. Eliminates the need to run // set_unicharset_properties, wordlist2dawg, some non-existent binary // to generate the recoder, and finally combine_tessdata. // 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 "commandlineflags.h" #include "commontraining.h" // CheckSharedLibraryVersion #include "lang_model_helpers.h" #include "tprintf.h" #include "unicharset_training_utils.h" STRING_PARAM_FLAG(input_unicharset, "", "Filename with unicharset to complete and use in encoding"); STRING_PARAM_FLAG(script_dir, "", "Directory name for input script unicharsets"); STRING_PARAM_FLAG(words, "", "File listing words to use for the system dictionary"); STRING_PARAM_FLAG(puncs, "", "File listing punctuation patterns"); STRING_PARAM_FLAG(numbers, "", "File listing number patterns"); STRING_PARAM_FLAG(output_dir, "", "Root directory for output files"); STRING_PARAM_FLAG(version_str, "", "Version string to add to traineddata file"); STRING_PARAM_FLAG(lang, "", "Name of language being processed"); BOOL_PARAM_FLAG(lang_is_rtl, false, "True if lang being processed is written right-to-left"); BOOL_PARAM_FLAG(pass_through_recoder, false, "If true, the recoder is a simple pass-through of the" " unicharset. Otherwise, potentially a compression of it"); int main(int argc, char** argv) { // Sets properties on the input unicharset file, and writes: // rootdir/lang/lang.charset_size=ddd.txt // rootdir/lang/lang.traineddata // rootdir/lang/lang.unicharset // If the 3 word lists are provided, the dawgs are also added // to the traineddata file. // The output unicharset and charset_size files are just for // human readability. tesseract::CheckSharedLibraryVersion(); tesseract::ParseCommandLineFlags(argv[0], &argc, &argv, true); GenericVector words, puncs, numbers; // If these reads fail, we get a warning message and an empty list of words. tesseract::ReadFile(FLAGS_words.c_str(), nullptr).split('\n', &words); tesseract::ReadFile(FLAGS_puncs.c_str(), nullptr).split('\n', &puncs); tesseract::ReadFile(FLAGS_numbers.c_str(), nullptr).split('\n', &numbers); // Load the input unicharset UNICHARSET unicharset; if (!unicharset.load_from_file(FLAGS_input_unicharset.c_str(), false)) { tprintf("Failed to load unicharset from %s\n", FLAGS_input_unicharset.c_str()); return 1; } tprintf("Loaded unicharset of size %d from file %s\n", unicharset.size(), FLAGS_input_unicharset.c_str()); // Set unichar properties tprintf("Setting unichar properties\n"); tesseract::SetupBasicProperties(/*report_errors*/ true, /*decompose (NFD)*/ false, &unicharset); tprintf("Setting script properties\n"); tesseract::SetScriptProperties(FLAGS_script_dir.c_str(), &unicharset); // Combine everything into a traineddata file. return tesseract::CombineLangModel( unicharset, FLAGS_script_dir.c_str(), FLAGS_version_str.c_str(), FLAGS_output_dir.c_str(), FLAGS_lang.c_str(), FLAGS_pass_through_recoder, words, puncs, numbers, FLAGS_lang_is_rtl, /*reader*/ nullptr, /*writer*/ nullptr); }