tesseract/ccmain/tessedit.cpp

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/**********************************************************************
* File: tessedit.cpp (Formerly tessedit.c)
* Description: (Previously) Main program for merge of tess and editor.
* Now just code to load the language model and various
* engine-specific data files.
* Author: Ray Smith
* Created: Tue Jan 07 15:21:46 GMT 1992
*
* (C) Copyright 1992, Hewlett-Packard Ltd.
** 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 automatically generated configuration file if running autoconf.
#ifdef HAVE_CONFIG_H
#include "config_auto.h"
#endif
#include "stderr.h"
#include "basedir.h"
#include "tessvars.h"
#include "control.h"
#include "reject.h"
#include "pageres.h"
#include "nwmain.h"
#include "pgedit.h"
#include "tprintf.h"
#include "tessedit.h"
#include "stopper.h"
#include "intmatcher.h"
#include "chop.h"
#include "efio.h"
#include "danerror.h"
#include "globals.h"
#ifndef ANDROID_BUILD
#include "lstmrecognizer.h"
#endif
#include "tesseractclass.h"
#include "params.h"
#define VARDIR "configs/" /*variables files */
2016-11-08 02:46:33 +08:00
// config under api
#define API_CONFIG "configs/api_config"
ETEXT_DESC *global_monitor = NULL; // progress monitor
namespace tesseract {
// Read a "config" file containing a set of variable, value pairs.
// Searches the standard places: tessdata/configs, tessdata/tessconfigs
// and also accepts a relative or absolute path name.
void Tesseract::read_config_file(const char *filename,
SetParamConstraint constraint) {
STRING path = datadir;
path += "configs/";
path += filename;
FILE* fp;
if ((fp = fopen(path.string(), "rb")) != NULL) {
fclose(fp);
} else {
path = datadir;
path += "tessconfigs/";
path += filename;
if ((fp = fopen(path.string(), "rb")) != NULL) {
fclose(fp);
} else {
path = filename;
}
}
ParamUtils::ReadParamsFile(path.string(), constraint, this->params());
}
// Returns false if a unicharset file for the specified language was not found
// or was invalid.
// This function initializes TessdataManager. After TessdataManager is
// no longer needed, TessdataManager::End() should be called.
//
// This function sets tessedit_oem_mode to the given OcrEngineMode oem, unless
// it is OEM_DEFAULT, in which case the value of the variable will be obtained
// from the language-specific config file (stored in [lang].traineddata), from
// the config files specified on the command line or left as the default
// OEM_TESSERACT_ONLY if none of the configs specify this variable.
bool Tesseract::init_tesseract_lang_data(
const char *arg0, const char *textbase, const char *language,
OcrEngineMode oem, char **configs, int configs_size,
const GenericVector<STRING> *vars_vec,
const GenericVector<STRING> *vars_values,
bool set_only_non_debug_params) {
// Set the basename, compute the data directory.
main_setup(arg0, textbase);
// Set the language data path prefix
lang = language != NULL ? language : "eng";
language_data_path_prefix = datadir;
language_data_path_prefix += lang;
language_data_path_prefix += ".";
// Initialize TessdataManager.
STRING tessdata_path = language_data_path_prefix + kTrainedDataSuffix;
if (!tessdata_manager.Init(tessdata_path.string(),
tessdata_manager_debug_level)) {
return false;
}
// If a language specific config file (lang.config) exists, load it in.
if (tessdata_manager.SeekToStart(TESSDATA_LANG_CONFIG)) {
ParamUtils::ReadParamsFromFp(
tessdata_manager.GetDataFilePtr(),
tessdata_manager.GetEndOffset(TESSDATA_LANG_CONFIG),
SET_PARAM_CONSTRAINT_NONE, this->params());
if (tessdata_manager_debug_level) {
tprintf("Loaded language config file\n");
}
}
SetParamConstraint set_params_constraint = set_only_non_debug_params ?
SET_PARAM_CONSTRAINT_NON_DEBUG_ONLY : SET_PARAM_CONSTRAINT_NONE;
// Load tesseract variables from config files. This is done after loading
// language-specific variables from [lang].traineddata file, so that custom
// config files can override values in [lang].traineddata file.
for (int i = 0; i < configs_size; ++i) {
read_config_file(configs[i], set_params_constraint);
}
// Set params specified in vars_vec (done after setting params from config
// files, so that params in vars_vec can override those from files).
if (vars_vec != NULL && vars_values != NULL) {
for (int i = 0; i < vars_vec->size(); ++i) {
if (!ParamUtils::SetParam((*vars_vec)[i].string(),
(*vars_values)[i].string(),
set_params_constraint, this->params())) {
tprintf("Error setting param %s\n", (*vars_vec)[i].string());
exit(1);
}
}
}
if (((STRING &)tessedit_write_params_to_file).length() > 0) {
FILE *params_file = fopen(tessedit_write_params_to_file.string(), "wb");
if (params_file != NULL) {
ParamUtils::PrintParams(params_file, this->params());
fclose(params_file);
if (tessdata_manager_debug_level > 0) {
tprintf("Wrote parameters to %s\n",
tessedit_write_params_to_file.string());
}
} else {
tprintf("Failed to open %s for writing params.\n",
tessedit_write_params_to_file.string());
}
}
// Determine which ocr engine(s) should be loaded and used for recognition.
if (oem != OEM_DEFAULT) tessedit_ocr_engine_mode.set_value(oem);
if (tessdata_manager_debug_level) {
tprintf("Loading Tesseract/Cube with tessedit_ocr_engine_mode %d\n",
static_cast<int>(tessedit_ocr_engine_mode));
}
// If we are only loading the config file (and so not planning on doing any
// recognition) then there's nothing else do here.
if (tessedit_init_config_only) {
if (tessdata_manager_debug_level) {
tprintf("Returning after loading config file\n");
}
return true;
}
// Load the unicharset
if (!tessdata_manager.SeekToStart(TESSDATA_UNICHARSET) ||
!unicharset.load_from_file(tessdata_manager.GetDataFilePtr())) {
return false;
}
if (unicharset.size() > MAX_NUM_CLASSES) {
tprintf("Error: Size of unicharset is greater than MAX_NUM_CLASSES\n");
return false;
}
if (tessdata_manager_debug_level) tprintf("Loaded unicharset\n");
right_to_left_ = unicharset.major_right_to_left();
// Setup initial unichar ambigs table and read universal ambigs.
UNICHARSET encoder_unicharset;
encoder_unicharset.CopyFrom(unicharset);
unichar_ambigs.InitUnicharAmbigs(unicharset, use_ambigs_for_adaption);
unichar_ambigs.LoadUniversal(encoder_unicharset, &unicharset);
if (!tessedit_ambigs_training &&
tessdata_manager.SeekToStart(TESSDATA_AMBIGS)) {
TFile ambigs_file;
ambigs_file.Open(tessdata_manager.GetDataFilePtr(),
tessdata_manager.GetEndOffset(TESSDATA_AMBIGS) + 1);
unichar_ambigs.LoadUnicharAmbigs(
encoder_unicharset,
&ambigs_file,
ambigs_debug_level, use_ambigs_for_adaption, &unicharset);
if (tessdata_manager_debug_level) tprintf("Loaded ambigs\n");
}
// The various OcrEngineMode settings (see publictypes.h) determine which
// engine-specific data files need to be loaded. Currently everything needs
// the base tesseract data, which supplies other useful information, but
// alternative engines, such as cube and LSTM are optional.
#ifndef NO_CUBE_BUILD
if (tessedit_ocr_engine_mode == OEM_CUBE_ONLY) {
ASSERT_HOST(init_cube_objects(false, &tessdata_manager));
if (tessdata_manager_debug_level)
tprintf("Loaded Cube w/out combiner\n");
} else if (tessedit_ocr_engine_mode == OEM_TESSERACT_CUBE_COMBINED) {
ASSERT_HOST(init_cube_objects(true, &tessdata_manager));
if (tessdata_manager_debug_level)
tprintf("Loaded Cube with combiner\n");
} else if (tessedit_ocr_engine_mode == OEM_LSTM_ONLY) {
if (tessdata_manager.swap()) {
tprintf("Error: LSTM requested on big-endian hardware!!\n");
tprintf("Big-endian not yet supported! Loading tesseract.\n");
tessedit_ocr_engine_mode.set_value(OEM_TESSERACT_ONLY);
} else if (tessdata_manager.SeekToStart(TESSDATA_LSTM)) {
lstm_recognizer_ = new LSTMRecognizer;
TFile fp;
fp.Open(tessdata_manager.GetDataFilePtr(), -1);
ASSERT_HOST(lstm_recognizer_->DeSerialize(tessdata_manager.swap(), &fp));
if (lstm_use_matrix)
lstm_recognizer_->LoadDictionary(tessdata_path.string(), language);
} else {
tprintf("Error: LSTM requested, but not present!! Loading tesseract.\n");
tessedit_ocr_engine_mode.set_value(OEM_TESSERACT_ONLY);
}
}
#endif
// Init ParamsModel.
// Load pass1 and pass2 weights (for now these two sets are the same, but in
// the future separate sets of weights can be generated).
for (int p = ParamsModel::PTRAIN_PASS1;
p < ParamsModel::PTRAIN_NUM_PASSES; ++p) {
language_model_->getParamsModel().SetPass(
static_cast<ParamsModel::PassEnum>(p));
if (tessdata_manager.SeekToStart(TESSDATA_PARAMS_MODEL)) {
if (!language_model_->getParamsModel().LoadFromFp(
lang.string(), tessdata_manager.GetDataFilePtr(),
tessdata_manager.GetEndOffset(TESSDATA_PARAMS_MODEL))) {
return false;
}
}
}
if (tessdata_manager_debug_level) language_model_->getParamsModel().Print();
return true;
}
// Helper returns true if the given string is in the vector of strings.
static bool IsStrInList(const STRING& str,
const GenericVector<STRING>& str_list) {
for (int i = 0; i < str_list.size(); ++i) {
if (str_list[i] == str)
return true;
}
return false;
}
// Parse a string of the form [~]<lang>[+[~]<lang>]*.
// Langs with no prefix get appended to to_load, provided they
// are not in there already.
// Langs with ~ prefix get appended to not_to_load, provided they are not in
// there already.
void Tesseract::ParseLanguageString(const char* lang_str,
GenericVector<STRING>* to_load,
GenericVector<STRING>* not_to_load) {
STRING remains(lang_str);
while (remains.length() > 0) {
// Find the start of the lang code and which vector to add to.
const char* start = remains.string();
while (*start == '+')
++start;
GenericVector<STRING>* target = to_load;
if (*start == '~') {
target = not_to_load;
++start;
}
// Find the index of the end of the lang code in string start.
int end = strlen(start);
const char* plus = strchr(start, '+');
if (plus != NULL && plus - start < end)
end = plus - start;
STRING lang_code(start);
lang_code.truncate_at(end);
STRING next(start + end);
remains = next;
// Check whether lang_code is already in the target vector and add.
if (!IsStrInList(lang_code, *target)) {
if (tessdata_manager_debug_level)
tprintf("Adding language '%s' to list\n", lang_code.string());
target->push_back(lang_code);
}
}
}
// Initialize for potentially a set of languages defined by the language
// string and recursively any additional languages required by any language
// traineddata file (via tessedit_load_sublangs in its config) that is loaded.
// See init_tesseract_internal for args.
int Tesseract::init_tesseract(
const char *arg0, const char *textbase, const char *language,
OcrEngineMode oem, char **configs, int configs_size,
const GenericVector<STRING> *vars_vec,
const GenericVector<STRING> *vars_values,
bool set_only_non_debug_params) {
GenericVector<STRING> langs_to_load;
GenericVector<STRING> langs_not_to_load;
ParseLanguageString(language, &langs_to_load, &langs_not_to_load);
sub_langs_.delete_data_pointers();
sub_langs_.clear();
// Find the first loadable lang and load into this.
// Add any languages that this language requires
bool loaded_primary = false;
// Load the rest into sub_langs_.
for (int lang_index = 0; lang_index < langs_to_load.size(); ++lang_index) {
if (!IsStrInList(langs_to_load[lang_index], langs_not_to_load)) {
const char *lang_str = langs_to_load[lang_index].string();
Tesseract *tess_to_init;
if (!loaded_primary) {
tess_to_init = this;
} else {
tess_to_init = new Tesseract;
}
int result = tess_to_init->init_tesseract_internal(
arg0, textbase, lang_str, oem, configs, configs_size,
vars_vec, vars_values, set_only_non_debug_params);
if (!loaded_primary) {
if (result < 0) {
tprintf("Failed loading language '%s'\n", lang_str);
} else {
if (tessdata_manager_debug_level)
tprintf("Loaded language '%s' as main language\n", lang_str);
ParseLanguageString(tess_to_init->tessedit_load_sublangs.string(),
&langs_to_load, &langs_not_to_load);
loaded_primary = true;
}
} else {
if (result < 0) {
tprintf("Failed loading language '%s'\n", lang_str);
delete tess_to_init;
} else {
if (tessdata_manager_debug_level)
tprintf("Loaded language '%s' as secondary language\n", lang_str);
sub_langs_.push_back(tess_to_init);
// Add any languages that this language requires
ParseLanguageString(tess_to_init->tessedit_load_sublangs.string(),
&langs_to_load, &langs_not_to_load);
}
}
}
}
if (!loaded_primary) {
tprintf("Tesseract couldn't load any languages!\n");
return -1; // Couldn't load any language!
}
if (!sub_langs_.empty()) {
// In multilingual mode word ratings have to be directly comparable,
// so use the same language model weights for all languages:
// use the primary language's params model if
// tessedit_use_primary_params_model is set,
// otherwise use default language model weights.
if (tessedit_use_primary_params_model) {
for (int s = 0; s < sub_langs_.size(); ++s) {
sub_langs_[s]->language_model_->getParamsModel().Copy(
this->language_model_->getParamsModel());
}
tprintf("Using params model of the primary language\n");
if (tessdata_manager_debug_level) {
this->language_model_->getParamsModel().Print();
}
} else {
this->language_model_->getParamsModel().Clear();
for (int s = 0; s < sub_langs_.size(); ++s) {
sub_langs_[s]->language_model_->getParamsModel().Clear();
}
if (tessdata_manager_debug_level)
tprintf("Using default language params\n");
}
}
SetupUniversalFontIds();
return 0;
}
// Common initialization for a single language.
// arg0 is the datapath for the tessdata directory, which could be the
// path of the tessdata directory with no trailing /, or (if tessdata
// lives in the same directory as the executable, the path of the executable,
// hence the name arg0.
// textbase is an optional output file basename (used only for training)
// language is the language code to load.
// oem controls which engine(s) will operate on the image
// configs (argv) is an array of config filenames to load variables from.
// May be NULL.
// configs_size (argc) is the number of elements in configs.
// vars_vec is an optional vector of variables to set.
// vars_values is an optional corresponding vector of values for the variables
// in vars_vec.
// If set_only_init_params is true, then only the initialization variables
// will be set.
int Tesseract::init_tesseract_internal(
const char *arg0, const char *textbase, const char *language,
OcrEngineMode oem, char **configs, int configs_size,
const GenericVector<STRING> *vars_vec,
const GenericVector<STRING> *vars_values,
bool set_only_non_debug_params) {
if (!init_tesseract_lang_data(arg0, textbase, language, oem, configs,
configs_size, vars_vec, vars_values,
set_only_non_debug_params)) {
return -1;
}
if (tessedit_init_config_only) {
tessdata_manager.End();
return 0;
}
// If only Cube will be used, skip loading Tesseract classifier's
// pre-trained templates.
bool init_tesseract_classifier =
tessedit_ocr_engine_mode != OEM_CUBE_ONLY;
// If only Cube will be used and if it has its own Unicharset,
// skip initializing permuter and loading Tesseract Dawgs.
bool init_dict =
!(tessedit_ocr_engine_mode == OEM_CUBE_ONLY &&
tessdata_manager.SeekToStart(TESSDATA_CUBE_UNICHARSET));
program_editup(textbase, init_tesseract_classifier, init_dict);
tessdata_manager.End();
return 0; //Normal exit
}
// Helper builds the all_fonts table by adding new fonts from new_fonts.
static void CollectFonts(const UnicityTable<FontInfo>& new_fonts,
UnicityTable<FontInfo>* all_fonts) {
for (int i = 0; i < new_fonts.size(); ++i) {
// UnicityTable uniques as we go.
all_fonts->push_back(new_fonts.get(i));
}
}
// Helper assigns an id to lang_fonts using the index in all_fonts table.
static void AssignIds(const UnicityTable<FontInfo>& all_fonts,
UnicityTable<FontInfo>* lang_fonts) {
for (int i = 0; i < lang_fonts->size(); ++i) {
int index = all_fonts.get_id(lang_fonts->get(i));
lang_fonts->get_mutable(i)->universal_id = index;
}
}
// Set the universal_id member of each font to be unique among all
// instances of the same font loaded.
void Tesseract::SetupUniversalFontIds() {
// Note that we can get away with bitwise copying FontInfo in
// all_fonts, as it is a temporary structure and we avoid setting the
// delete callback.
UnicityTable<FontInfo> all_fonts;
all_fonts.set_compare_callback(NewPermanentTessCallback(CompareFontInfo));
// Create the universal ID table.
CollectFonts(get_fontinfo_table(), &all_fonts);
for (int i = 0; i < sub_langs_.size(); ++i) {
CollectFonts(sub_langs_[i]->get_fontinfo_table(), &all_fonts);
}
// Assign ids from the table to each font table.
AssignIds(all_fonts, &get_fontinfo_table());
for (int i = 0; i < sub_langs_.size(); ++i) {
AssignIds(all_fonts, &sub_langs_[i]->get_fontinfo_table());
}
font_table_size_ = all_fonts.size();
}
// init the LM component
int Tesseract::init_tesseract_lm(const char *arg0,
const char *textbase,
const char *language) {
if (!init_tesseract_lang_data(arg0, textbase, language, OEM_TESSERACT_ONLY,
NULL, 0, NULL, NULL, false))
return -1;
getDict().SetupForLoad(Dict::GlobalDawgCache());
getDict().Load(tessdata_manager.GetDataFileName().string(), lang);
getDict().FinishLoad();
tessdata_manager.End();
return 0;
}
void Tesseract::end_tesseract() {
end_recog();
}
/* Define command type identifiers */
enum CMD_EVENTS
{
ACTION_1_CMD_EVENT,
RECOG_WERDS,
RECOG_PSEUDO,
ACTION_2_CMD_EVENT
};
} // namespace tesseract