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399 lines
15 KiB
C++
399 lines
15 KiB
C++
///////////////////////////////////////////////////////////////////////
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// File: ambigs.cc
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// Description: Functions for dealing with ambiguities
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// (training and recognition).
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// Author: Daria Antonova
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// Created: Mon Feb 5 11:26:43 PDT 2009
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//
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// (C) Copyright 2008, 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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//
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///////////////////////////////////////////////////////////////////////
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#include "ambigs.h"
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#include <stdio.h>
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#include "helpers.h"
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#include "universalambigs.h"
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#if defined _WIN32 || defined(__CYGWIN__)
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#ifndef __GNUC__
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#define strtok_r strtok_s
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#else
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#include "strtok_r.h"
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#endif /* __GNUC__ */
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#endif /* _WIN32 __CYGWIN__*/
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namespace tesseract {
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// Maximum line size:
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// 10 for sizes of ambigs, tabs, abmig type and newline
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// UNICHAR_LEN * (MAX_AMBIG_SIZE + 1) for each part of the ambig
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const int kMaxAmbigStringSize = UNICHAR_LEN * (MAX_AMBIG_SIZE + 1);
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AmbigSpec::AmbigSpec() {
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wrong_ngram[0] = INVALID_UNICHAR_ID;
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correct_fragments[0] = INVALID_UNICHAR_ID;
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correct_ngram_id = INVALID_UNICHAR_ID;
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type = NOT_AMBIG;
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wrong_ngram_size = 0;
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}
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ELISTIZE(AmbigSpec);
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// Initializes the ambigs by adding a NULL pointer to each table.
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void UnicharAmbigs::InitUnicharAmbigs(const UNICHARSET& unicharset,
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bool use_ambigs_for_adaption) {
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for (int i = 0; i < unicharset.size(); ++i) {
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replace_ambigs_.push_back(NULL);
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dang_ambigs_.push_back(NULL);
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one_to_one_definite_ambigs_.push_back(NULL);
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if (use_ambigs_for_adaption) {
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ambigs_for_adaption_.push_back(NULL);
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reverse_ambigs_for_adaption_.push_back(NULL);
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}
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}
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}
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// Loads the universal ambigs that are useful for any language.
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void UnicharAmbigs::LoadUniversal(const UNICHARSET& encoder_set,
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UNICHARSET* unicharset) {
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TFile file;
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if (!file.Open(kUniversalAmbigsFile, ksizeofUniversalAmbigsFile)) return;
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LoadUnicharAmbigs(encoder_set, &file, 0, false, unicharset);
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}
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void UnicharAmbigs::LoadUnicharAmbigs(const UNICHARSET& encoder_set,
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TFile *ambig_file,
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int debug_level,
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bool use_ambigs_for_adaption,
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UNICHARSET *unicharset) {
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int i, j;
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UnicharIdVector *adaption_ambigs_entry;
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if (debug_level) tprintf("Reading ambiguities\n");
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int test_ambig_part_size;
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int replacement_ambig_part_size;
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// The space for buffer is allocated on the heap to avoid
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// GCC frame size warning.
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const int kBufferSize = 10 + 2 * kMaxAmbigStringSize;
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char *buffer = new char[kBufferSize];
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char replacement_string[kMaxAmbigStringSize];
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UNICHAR_ID test_unichar_ids[MAX_AMBIG_SIZE + 1];
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int line_num = 0;
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int type = NOT_AMBIG;
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// Determine the version of the ambigs file.
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int version = 0;
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ASSERT_HOST(ambig_file->FGets(buffer, kBufferSize) != NULL &&
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strlen(buffer) > 0);
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if (*buffer == 'v') {
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version = static_cast<int>(strtol(buffer+1, NULL, 10));
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++line_num;
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} else {
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ambig_file->Rewind();
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}
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while (ambig_file->FGets(buffer, kBufferSize) != NULL) {
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chomp_string(buffer);
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if (debug_level > 2) tprintf("read line %s\n", buffer);
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++line_num;
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if (!ParseAmbiguityLine(line_num, version, debug_level, encoder_set,
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buffer, &test_ambig_part_size, test_unichar_ids,
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&replacement_ambig_part_size,
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replacement_string, &type)) continue;
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// Construct AmbigSpec and add it to the appropriate AmbigSpec_LIST.
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AmbigSpec *ambig_spec = new AmbigSpec();
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if (!InsertIntoTable((type == REPLACE_AMBIG) ? replace_ambigs_
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: dang_ambigs_,
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test_ambig_part_size, test_unichar_ids,
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replacement_ambig_part_size, replacement_string, type,
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ambig_spec, unicharset))
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continue;
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// Update one_to_one_definite_ambigs_.
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if (test_ambig_part_size == 1 &&
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replacement_ambig_part_size == 1 && type == DEFINITE_AMBIG) {
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if (one_to_one_definite_ambigs_[test_unichar_ids[0]] == NULL) {
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one_to_one_definite_ambigs_[test_unichar_ids[0]] = new UnicharIdVector();
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}
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one_to_one_definite_ambigs_[test_unichar_ids[0]]->push_back(
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ambig_spec->correct_ngram_id);
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}
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// Update ambigs_for_adaption_.
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if (use_ambigs_for_adaption) {
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GenericVector<UNICHAR_ID> encoding;
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// Silently ignore invalid strings, as before, so it is safe to use a
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// universal ambigs file.
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if (unicharset->encode_string(replacement_string, true, &encoding,
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NULL, NULL)) {
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for (i = 0; i < test_ambig_part_size; ++i) {
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if (ambigs_for_adaption_[test_unichar_ids[i]] == NULL) {
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ambigs_for_adaption_[test_unichar_ids[i]] = new UnicharIdVector();
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}
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adaption_ambigs_entry = ambigs_for_adaption_[test_unichar_ids[i]];
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for (int r = 0; r < encoding.size(); ++r) {
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UNICHAR_ID id_to_insert = encoding[r];
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ASSERT_HOST(id_to_insert != INVALID_UNICHAR_ID);
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// Add the new unichar id to adaption_ambigs_entry (only if the
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// vector does not already contain it) keeping it in sorted order.
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for (j = 0; j < adaption_ambigs_entry->size() &&
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(*adaption_ambigs_entry)[j] > id_to_insert; ++j);
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if (j < adaption_ambigs_entry->size()) {
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if ((*adaption_ambigs_entry)[j] != id_to_insert) {
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adaption_ambigs_entry->insert(id_to_insert, j);
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}
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} else {
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adaption_ambigs_entry->push_back(id_to_insert);
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}
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}
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}
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}
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}
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}
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delete[] buffer;
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// Fill in reverse_ambigs_for_adaption from ambigs_for_adaption vector.
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if (use_ambigs_for_adaption) {
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for (i = 0; i < ambigs_for_adaption_.size(); ++i) {
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adaption_ambigs_entry = ambigs_for_adaption_[i];
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if (adaption_ambigs_entry == NULL) continue;
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for (j = 0; j < adaption_ambigs_entry->size(); ++j) {
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UNICHAR_ID ambig_id = (*adaption_ambigs_entry)[j];
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if (reverse_ambigs_for_adaption_[ambig_id] == NULL) {
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reverse_ambigs_for_adaption_[ambig_id] = new UnicharIdVector();
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}
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reverse_ambigs_for_adaption_[ambig_id]->push_back(i);
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}
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}
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}
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// Print what was read from the input file.
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if (debug_level > 1) {
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for (int tbl = 0; tbl < 2; ++tbl) {
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const UnicharAmbigsVector &print_table =
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(tbl == 0) ? replace_ambigs_ : dang_ambigs_;
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for (i = 0; i < print_table.size(); ++i) {
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AmbigSpec_LIST *lst = print_table[i];
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if (lst == NULL) continue;
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if (!lst->empty()) {
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tprintf("%s Ambiguities for %s:\n",
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(tbl == 0) ? "Replaceable" : "Dangerous",
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unicharset->debug_str(i).string());
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}
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AmbigSpec_IT lst_it(lst);
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for (lst_it.mark_cycle_pt(); !lst_it.cycled_list(); lst_it.forward()) {
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AmbigSpec *ambig_spec = lst_it.data();
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tprintf("wrong_ngram:");
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UnicharIdArrayUtils::print(ambig_spec->wrong_ngram, *unicharset);
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tprintf("correct_fragments:");
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UnicharIdArrayUtils::print(ambig_spec->correct_fragments, *unicharset);
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}
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}
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}
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if (use_ambigs_for_adaption) {
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for (int vec_id = 0; vec_id < 2; ++vec_id) {
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const GenericVector<UnicharIdVector *> &vec = (vec_id == 0) ?
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ambigs_for_adaption_ : reverse_ambigs_for_adaption_;
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for (i = 0; i < vec.size(); ++i) {
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adaption_ambigs_entry = vec[i];
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if (adaption_ambigs_entry != NULL) {
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tprintf("%sAmbigs for adaption for %s:\n",
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(vec_id == 0) ? "" : "Reverse ",
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unicharset->debug_str(i).string());
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for (j = 0; j < adaption_ambigs_entry->size(); ++j) {
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tprintf("%s ", unicharset->debug_str(
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(*adaption_ambigs_entry)[j]).string());
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}
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tprintf("\n");
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}
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}
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}
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}
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}
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}
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bool UnicharAmbigs::ParseAmbiguityLine(
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int line_num, int version, int debug_level, const UNICHARSET &unicharset,
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char *buffer, int *test_ambig_part_size, UNICHAR_ID *test_unichar_ids,
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int *replacement_ambig_part_size, char *replacement_string, int *type) {
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if (version > 1) {
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// Simpler format is just wrong-string correct-string type\n.
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STRING input(buffer);
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GenericVector<STRING> fields;
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input.split(' ', &fields);
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if (fields.size() != 3) {
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if (debug_level) tprintf(kIllegalMsg, line_num);
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return false;
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}
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// Encode wrong-string.
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GenericVector<UNICHAR_ID> unichars;
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if (!unicharset.encode_string(fields[0].string(), true, &unichars, NULL,
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NULL)) {
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return false;
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}
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*test_ambig_part_size = unichars.size();
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if (*test_ambig_part_size > MAX_AMBIG_SIZE) {
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if (debug_level)
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tprintf("Too many unichars in ambiguity on line %d\n", line_num);
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return false;
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}
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// Copy encoded string to output.
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for (int i = 0; i < unichars.size(); ++i)
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test_unichar_ids[i] = unichars[i];
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test_unichar_ids[unichars.size()] = INVALID_UNICHAR_ID;
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// Encode replacement-string to check validity.
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if (!unicharset.encode_string(fields[1].string(), true, &unichars, NULL,
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NULL)) {
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return false;
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}
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*replacement_ambig_part_size = unichars.size();
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if (*replacement_ambig_part_size > MAX_AMBIG_SIZE) {
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if (debug_level)
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tprintf("Too many unichars in ambiguity on line %d\n", line_num);
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return false;
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}
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if (sscanf(fields[2].string(), "%d", type) != 1) {
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if (debug_level) tprintf(kIllegalMsg, line_num);
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return false;
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}
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snprintf(replacement_string, kMaxAmbigStringSize, "%s", fields[1].string());
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return true;
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}
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int i;
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char *token;
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char *next_token;
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if (!(token = strtok_r(buffer, kAmbigDelimiters, &next_token)) ||
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!sscanf(token, "%d", test_ambig_part_size) ||
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*test_ambig_part_size <= 0) {
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if (debug_level) tprintf(kIllegalMsg, line_num);
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return false;
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}
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if (*test_ambig_part_size > MAX_AMBIG_SIZE) {
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if (debug_level)
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tprintf("Too many unichars in ambiguity on line %d\n", line_num);
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return false;
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}
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for (i = 0; i < *test_ambig_part_size; ++i) {
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if (!(token = strtok_r(NULL, kAmbigDelimiters, &next_token))) break;
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if (!unicharset.contains_unichar(token)) {
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if (debug_level) tprintf(kIllegalUnicharMsg, token);
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break;
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}
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test_unichar_ids[i] = unicharset.unichar_to_id(token);
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}
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test_unichar_ids[i] = INVALID_UNICHAR_ID;
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if (i != *test_ambig_part_size ||
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!(token = strtok_r(NULL, kAmbigDelimiters, &next_token)) ||
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!sscanf(token, "%d", replacement_ambig_part_size) ||
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*replacement_ambig_part_size <= 0) {
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if (debug_level) tprintf(kIllegalMsg, line_num);
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return false;
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}
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if (*replacement_ambig_part_size > MAX_AMBIG_SIZE) {
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if (debug_level)
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tprintf("Too many unichars in ambiguity on line %d\n", line_num);
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return false;
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}
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replacement_string[0] = '\0';
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for (i = 0; i < *replacement_ambig_part_size; ++i) {
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if (!(token = strtok_r(NULL, kAmbigDelimiters, &next_token))) break;
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strcat(replacement_string, token);
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if (!unicharset.contains_unichar(token)) {
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if (debug_level) tprintf(kIllegalUnicharMsg, token);
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break;
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}
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}
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if (i != *replacement_ambig_part_size) {
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if (debug_level) tprintf(kIllegalMsg, line_num);
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return false;
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}
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if (version > 0) {
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// The next field being true indicates that the abiguity should
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// always be substituted (e.g. '' should always be changed to ").
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// For such "certain" n -> m ambigs tesseract will insert character
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// fragments for the n pieces in the unicharset. AmbigsFound()
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// will then replace the incorrect ngram with the character
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// fragments of the correct character (or ngram if m > 1).
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// Note that if m > 1, an ngram will be inserted into the
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// modified word, not the individual unigrams. Tesseract
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// has limited support for ngram unichar (e.g. dawg permuter).
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if (!(token = strtok_r(NULL, kAmbigDelimiters, &next_token)) ||
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!sscanf(token, "%d", type)) {
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if (debug_level) tprintf(kIllegalMsg, line_num);
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return false;
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}
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}
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return true;
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}
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bool UnicharAmbigs::InsertIntoTable(
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UnicharAmbigsVector &table, int test_ambig_part_size,
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UNICHAR_ID *test_unichar_ids, int replacement_ambig_part_size,
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const char *replacement_string, int type,
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AmbigSpec *ambig_spec, UNICHARSET *unicharset) {
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ambig_spec->type = static_cast<AmbigType>(type);
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if (test_ambig_part_size == 1 && replacement_ambig_part_size == 1 &&
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unicharset->to_lower(test_unichar_ids[0]) ==
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unicharset->to_lower(unicharset->unichar_to_id(replacement_string))) {
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ambig_spec->type = CASE_AMBIG;
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}
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ambig_spec->wrong_ngram_size =
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UnicharIdArrayUtils::copy(test_unichar_ids, ambig_spec->wrong_ngram);
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// Since we need to maintain a constant number of unichar positions in
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// order to construct ambig_blob_choices vector in NoDangerousAmbig(), for
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// each n->m ambiguity we will have to place n character fragments of the
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// correct ngram into the corresponding positions in the vector (e.g. given
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// "vvvvw" and vvvv->ww we will place v and |ww|0|4 into position 0, v and
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// |ww|1|4 into position 1 and so on. The correct ngram is reconstructed
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// from fragments by dawg_permute_and_select().
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// Insert the corresponding correct ngram into the unicharset.
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// Unicharset code assumes that the "base" ngram is inserted into
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// the unicharset before fragments of this ngram are inserted.
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unicharset->unichar_insert(replacement_string);
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ambig_spec->correct_ngram_id =
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unicharset->unichar_to_id(replacement_string);
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if (replacement_ambig_part_size > 1) {
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unicharset->set_isngram(ambig_spec->correct_ngram_id, true);
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}
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// Add the corresponding fragments of the wrong ngram to unicharset.
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int i;
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for (i = 0; i < test_ambig_part_size; ++i) {
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UNICHAR_ID unichar_id;
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if (test_ambig_part_size == 1) {
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unichar_id = ambig_spec->correct_ngram_id;
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} else {
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STRING frag_str = CHAR_FRAGMENT::to_string(
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replacement_string, i, test_ambig_part_size, false);
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unicharset->unichar_insert(frag_str.string());
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unichar_id = unicharset->unichar_to_id(frag_str.string());
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}
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ambig_spec->correct_fragments[i] = unichar_id;
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}
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ambig_spec->correct_fragments[i] = INVALID_UNICHAR_ID;
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// Add AmbigSpec for this ambiguity to the corresponding AmbigSpec_LIST.
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// Keep AmbigSpec_LISTs sorted by AmbigSpec.wrong_ngram.
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if (table[test_unichar_ids[0]] == NULL) {
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table[test_unichar_ids[0]] = new AmbigSpec_LIST();
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}
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if (table[test_unichar_ids[0]]->add_sorted(
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AmbigSpec::compare_ambig_specs, true, ambig_spec))
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return true;
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delete ambig_spec;
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return false;
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}
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} // namespace tesseract
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