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c882373baf
gcc report: ccstruct/blamer.cpp:343:65: warning: 'truth_x' may be used uninitialized in this function [-Wmaybe-uninitialized] Signed-off-by: Stefan Weil <sw@weilnetz.de>
588 lines
24 KiB
C++
588 lines
24 KiB
C++
///////////////////////////////////////////////////////////////////////
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// File: blamer.cpp
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// Description: Module allowing precise error causes to be allocated.
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// Author: Rike Antonova
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// Refactored: Ray Smith
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// Created: Mon Feb 04 14:37:01 PST 2013
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//
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// (C) Copyright 2013, 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 "blamer.h"
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#include "blobs.h"
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#include "matrix.h"
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#include "normalis.h"
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#include "pageres.h"
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// Names for each value of IncorrectResultReason enum. Keep in sync.
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const char kBlameCorrect[] = "corr";
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const char kBlameClassifier[] = "cl";
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const char kBlameChopper[] = "chop";
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const char kBlameClassLMTradeoff[] = "cl/LM";
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const char kBlamePageLayout[] = "pglt";
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const char kBlameSegsearchHeur[] = "ss_heur";
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const char kBlameSegsearchPP[] = "ss_pp";
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const char kBlameClassOldLMTradeoff[] = "cl/old_LM";
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const char kBlameAdaption[] = "adapt";
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const char kBlameNoTruthSplit[] = "no_tr_spl";
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const char kBlameNoTruth[] = "no_tr";
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const char kBlameUnknown[] = "unkn";
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const char * const kIncorrectResultReasonNames[] = {
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kBlameCorrect,
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kBlameClassifier,
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kBlameChopper,
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kBlameClassLMTradeoff,
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kBlamePageLayout,
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kBlameSegsearchHeur,
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kBlameSegsearchPP,
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kBlameClassOldLMTradeoff,
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kBlameAdaption,
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kBlameNoTruthSplit,
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kBlameNoTruth,
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kBlameUnknown
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};
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const char *BlamerBundle::IncorrectReasonName(IncorrectResultReason irr) {
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return kIncorrectResultReasonNames[irr];
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}
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const char *BlamerBundle::IncorrectReason() const {
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return kIncorrectResultReasonNames[incorrect_result_reason_];
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}
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// Functions to setup the blamer.
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// Whole word string, whole word bounding box.
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void BlamerBundle::SetWordTruth(const UNICHARSET& unicharset,
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const char* truth_str, const TBOX& word_box) {
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truth_word_.InsertBox(0, word_box);
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truth_has_char_boxes_ = false;
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// Encode the string as UNICHAR_IDs.
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GenericVector<UNICHAR_ID> encoding;
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GenericVector<char> lengths;
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unicharset.encode_string(truth_str, false, &encoding, &lengths, NULL);
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int total_length = 0;
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for (int i = 0; i < encoding.size(); total_length += lengths[i++]) {
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STRING uch(truth_str + total_length);
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uch.truncate_at(lengths[i] - total_length);
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UNICHAR_ID id = encoding[i];
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if (id != INVALID_UNICHAR_ID) uch = unicharset.get_normed_unichar(id);
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truth_text_.push_back(uch);
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}
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}
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// Single "character" string, "character" bounding box.
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// May be called multiple times to indicate the characters in a word.
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void BlamerBundle::SetSymbolTruth(const UNICHARSET& unicharset,
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const char* char_str, const TBOX& char_box) {
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STRING symbol_str(char_str);
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UNICHAR_ID id = unicharset.unichar_to_id(char_str);
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if (id != INVALID_UNICHAR_ID) {
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STRING normed_uch(unicharset.get_normed_unichar(id));
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if (normed_uch.length() > 0) symbol_str = normed_uch;
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}
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int length = truth_word_.length();
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truth_text_.push_back(symbol_str);
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truth_word_.InsertBox(length, char_box);
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if (length == 0)
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truth_has_char_boxes_ = true;
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else if (truth_word_.BlobBox(length - 1) == char_box)
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truth_has_char_boxes_ = false;
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}
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// Marks that there is something wrong with the truth text, like it contains
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// reject characters.
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void BlamerBundle::SetRejectedTruth() {
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incorrect_result_reason_ = IRR_NO_TRUTH;
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truth_has_char_boxes_ = false;
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}
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// Returns true if the provided word_choice is correct.
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bool BlamerBundle::ChoiceIsCorrect(const WERD_CHOICE* word_choice) const {
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if (word_choice == NULL) return false;
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const UNICHARSET* uni_set = word_choice->unicharset();
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STRING normed_choice_str;
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for (int i = 0; i < word_choice->length(); ++i) {
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normed_choice_str +=
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uni_set->get_normed_unichar(word_choice->unichar_id(i));
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}
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STRING truth_str = TruthString();
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return truth_str == normed_choice_str;
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}
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void BlamerBundle::FillDebugString(const STRING &msg,
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const WERD_CHOICE *choice,
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STRING *debug) {
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(*debug) += "Truth ";
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for (int i = 0; i < this->truth_text_.length(); ++i) {
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(*debug) += this->truth_text_[i];
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}
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if (!this->truth_has_char_boxes_) (*debug) += " (no char boxes)";
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if (choice != NULL) {
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(*debug) += " Choice ";
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STRING choice_str;
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choice->string_and_lengths(&choice_str, NULL);
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(*debug) += choice_str;
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}
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if (msg.length() > 0) {
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(*debug) += "\n";
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(*debug) += msg;
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}
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(*debug) += "\n";
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}
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// Sets up the norm_truth_word from truth_word using the given DENORM.
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void BlamerBundle::SetupNormTruthWord(const DENORM& denorm) {
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// TODO(rays) Is this the last use of denorm in WERD_RES and can it go?
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norm_box_tolerance_ = kBlamerBoxTolerance * denorm.x_scale();
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TPOINT topleft;
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TPOINT botright;
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TPOINT norm_topleft;
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TPOINT norm_botright;
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for (int b = 0; b < truth_word_.length(); ++b) {
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const TBOX &box = truth_word_.BlobBox(b);
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topleft.x = box.left();
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topleft.y = box.top();
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botright.x = box.right();
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botright.y = box.bottom();
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denorm.NormTransform(NULL, topleft, &norm_topleft);
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denorm.NormTransform(NULL, botright, &norm_botright);
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TBOX norm_box(norm_topleft.x, norm_botright.y,
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norm_botright.x, norm_topleft.y);
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norm_truth_word_.InsertBox(b, norm_box);
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}
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}
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// Splits *this into two pieces in bundle1 and bundle2 (preallocated, empty
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// bundles) where the right edge/ of the left-hand word is word1_right,
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// and the left edge of the right-hand word is word2_left.
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void BlamerBundle::SplitBundle(int word1_right, int word2_left, bool debug,
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BlamerBundle* bundle1,
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BlamerBundle* bundle2) const {
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STRING debug_str;
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// Find truth boxes that correspond to the split in the blobs.
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int b;
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int begin2_truth_index = -1;
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if (incorrect_result_reason_ != IRR_NO_TRUTH &&
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truth_has_char_boxes_) {
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debug_str = "Looking for truth split at";
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debug_str.add_str_int(" end1_x ", word1_right);
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debug_str.add_str_int(" begin2_x ", word2_left);
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debug_str += "\nnorm_truth_word boxes:\n";
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if (norm_truth_word_.length() > 1) {
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norm_truth_word_.BlobBox(0).print_to_str(&debug_str);
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for (b = 1; b < norm_truth_word_.length(); ++b) {
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norm_truth_word_.BlobBox(b).print_to_str(&debug_str);
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if ((abs(word1_right - norm_truth_word_.BlobBox(b - 1).right()) <
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norm_box_tolerance_) &&
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(abs(word2_left - norm_truth_word_.BlobBox(b).left()) <
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norm_box_tolerance_)) {
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begin2_truth_index = b;
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debug_str += "Split found";
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break;
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}
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}
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debug_str += '\n';
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}
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}
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// Populate truth information in word and word2 with the first and second
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// part of the original truth.
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if (begin2_truth_index > 0) {
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bundle1->truth_has_char_boxes_ = true;
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bundle1->norm_box_tolerance_ = norm_box_tolerance_;
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bundle2->truth_has_char_boxes_ = true;
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bundle2->norm_box_tolerance_ = norm_box_tolerance_;
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BlamerBundle *curr_bb = bundle1;
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for (b = 0; b < norm_truth_word_.length(); ++b) {
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if (b == begin2_truth_index) curr_bb = bundle2;
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curr_bb->norm_truth_word_.InsertBox(b, norm_truth_word_.BlobBox(b));
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curr_bb->truth_word_.InsertBox(b, truth_word_.BlobBox(b));
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curr_bb->truth_text_.push_back(truth_text_[b]);
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}
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} else if (incorrect_result_reason_ == IRR_NO_TRUTH) {
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bundle1->incorrect_result_reason_ = IRR_NO_TRUTH;
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bundle2->incorrect_result_reason_ = IRR_NO_TRUTH;
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} else {
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debug_str += "Truth split not found";
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debug_str += truth_has_char_boxes_ ?
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"\n" : " (no truth char boxes)\n";
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bundle1->SetBlame(IRR_NO_TRUTH_SPLIT, debug_str, NULL, debug);
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bundle2->SetBlame(IRR_NO_TRUTH_SPLIT, debug_str, NULL, debug);
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}
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}
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// "Joins" the blames from bundle1 and bundle2 into *this.
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void BlamerBundle::JoinBlames(const BlamerBundle& bundle1,
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const BlamerBundle& bundle2, bool debug) {
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STRING debug_str;
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IncorrectResultReason irr = incorrect_result_reason_;
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if (irr != IRR_NO_TRUTH_SPLIT) debug_str = "";
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if (bundle1.incorrect_result_reason_ != IRR_CORRECT &&
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bundle1.incorrect_result_reason_ != IRR_NO_TRUTH &&
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bundle1.incorrect_result_reason_ != IRR_NO_TRUTH_SPLIT) {
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debug_str += "Blame from part 1: ";
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debug_str += bundle1.debug_;
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irr = bundle1.incorrect_result_reason_;
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}
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if (bundle2.incorrect_result_reason_ != IRR_CORRECT &&
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bundle2.incorrect_result_reason_ != IRR_NO_TRUTH &&
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bundle2.incorrect_result_reason_ != IRR_NO_TRUTH_SPLIT) {
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debug_str += "Blame from part 2: ";
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debug_str += bundle2.debug_;
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if (irr == IRR_CORRECT) {
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irr = bundle2.incorrect_result_reason_;
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} else if (irr != bundle2.incorrect_result_reason_) {
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irr = IRR_UNKNOWN;
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}
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}
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incorrect_result_reason_ = irr;
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if (irr != IRR_CORRECT && irr != IRR_NO_TRUTH) {
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SetBlame(irr, debug_str, NULL, debug);
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}
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}
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// If a blob with the same bounding box as one of the truth character
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// bounding boxes is not classified as the corresponding truth character
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// blames character classifier for incorrect answer.
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void BlamerBundle::BlameClassifier(const UNICHARSET& unicharset,
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const TBOX& blob_box,
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const BLOB_CHOICE_LIST& choices,
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bool debug) {
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if (!truth_has_char_boxes_ ||
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incorrect_result_reason_ != IRR_CORRECT)
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return; // Nothing to do here.
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for (int b = 0; b < norm_truth_word_.length(); ++b) {
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const TBOX &truth_box = norm_truth_word_.BlobBox(b);
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// Note that we are more strict on the bounding box boundaries here
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// than in other places (chopper, segmentation search), since we do
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// not have the ability to check the previous and next bounding box.
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if (blob_box.x_almost_equal(truth_box, norm_box_tolerance_/2)) {
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bool found = false;
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bool incorrect_adapted = false;
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UNICHAR_ID incorrect_adapted_id = INVALID_UNICHAR_ID;
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const char *truth_str = truth_text_[b].string();
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// We promise not to modify the list or its contents, using a
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// const BLOB_CHOICE* below.
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BLOB_CHOICE_IT choices_it(const_cast<BLOB_CHOICE_LIST*>(&choices));
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for (choices_it.mark_cycle_pt(); !choices_it.cycled_list();
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choices_it.forward()) {
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const BLOB_CHOICE* choice = choices_it.data();
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if (strcmp(truth_str, unicharset.get_normed_unichar(
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choice->unichar_id())) == 0) {
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found = true;
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break;
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} else if (choice->IsAdapted()) {
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incorrect_adapted = true;
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incorrect_adapted_id = choice->unichar_id();
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}
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} // end choices_it for loop
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if (!found) {
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STRING debug_str = "unichar ";
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debug_str += truth_str;
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debug_str += " not found in classification list";
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SetBlame(IRR_CLASSIFIER, debug_str, NULL, debug);
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} else if (incorrect_adapted) {
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STRING debug_str = "better rating for adapted ";
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debug_str += unicharset.id_to_unichar(incorrect_adapted_id);
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debug_str += " than for correct ";
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debug_str += truth_str;
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SetBlame(IRR_ADAPTION, debug_str, NULL, debug);
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}
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break;
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}
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} // end iterating over blamer_bundle->norm_truth_word
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}
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// Checks whether chops were made at all the character bounding box
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// boundaries in word->truth_word. If not - blames the chopper for an
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// incorrect answer.
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void BlamerBundle::SetChopperBlame(const WERD_RES* word, bool debug) {
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if (NoTruth() || !truth_has_char_boxes_ ||
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word->chopped_word->blobs.empty()) {
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return;
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}
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STRING debug_str;
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bool missing_chop = false;
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int num_blobs = word->chopped_word->blobs.size();
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int box_index = 0;
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int blob_index = 0;
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inT16 truth_x = -1;
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while (box_index < truth_word_.length() && blob_index < num_blobs) {
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truth_x = norm_truth_word_.BlobBox(box_index).right();
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TBLOB * curr_blob = word->chopped_word->blobs[blob_index];
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if (curr_blob->bounding_box().right() < truth_x - norm_box_tolerance_) {
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++blob_index;
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continue; // encountered an extra chop, keep looking
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} else if (curr_blob->bounding_box().right() >
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truth_x + norm_box_tolerance_) {
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missing_chop = true;
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break;
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} else {
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++blob_index;
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}
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}
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if (missing_chop || box_index < norm_truth_word_.length()) {
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STRING debug_str;
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if (missing_chop) {
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debug_str.add_str_int("Detected missing chop (tolerance=",
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norm_box_tolerance_);
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debug_str += ") at Bounding Box=";
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TBLOB * curr_blob = word->chopped_word->blobs[blob_index];
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curr_blob->bounding_box().print_to_str(&debug_str);
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debug_str.add_str_int("\nNo chop for truth at x=", truth_x);
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} else {
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debug_str.add_str_int("Missing chops for last ",
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norm_truth_word_.length() - box_index);
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debug_str += " truth box(es)";
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}
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debug_str += "\nMaximally chopped word boxes:\n";
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for (blob_index = 0; blob_index < num_blobs; ++blob_index) {
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TBLOB * curr_blob = word->chopped_word->blobs[blob_index];
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curr_blob->bounding_box().print_to_str(&debug_str);
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debug_str += '\n';
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}
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debug_str += "Truth bounding boxes:\n";
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for (box_index = 0; box_index < norm_truth_word_.length(); ++box_index) {
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norm_truth_word_.BlobBox(box_index).print_to_str(&debug_str);
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debug_str += '\n';
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}
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SetBlame(IRR_CHOPPER, debug_str, word->best_choice, debug);
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}
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}
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// Blames the classifier or the language model if, after running only the
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// chopper, best_choice is incorrect and no blame has been yet set.
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// Blames the classifier if best_choice is classifier's top choice and is a
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// dictionary word (i.e. language model could not have helped).
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// Otherwise, blames the language model (formerly permuter word adjustment).
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void BlamerBundle::BlameClassifierOrLangModel(
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const WERD_RES* word,
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const UNICHARSET& unicharset, bool valid_permuter, bool debug) {
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if (valid_permuter) {
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// Find out whether best choice is a top choice.
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best_choice_is_dict_and_top_choice_ = true;
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for (int i = 0; i < word->best_choice->length(); ++i) {
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BLOB_CHOICE_IT blob_choice_it(word->GetBlobChoices(i));
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ASSERT_HOST(!blob_choice_it.empty());
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BLOB_CHOICE *first_choice = NULL;
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for (blob_choice_it.mark_cycle_pt(); !blob_choice_it.cycled_list();
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blob_choice_it.forward()) { // find first non-fragment choice
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if (!(unicharset.get_fragment(blob_choice_it.data()->unichar_id()))) {
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first_choice = blob_choice_it.data();
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break;
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}
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}
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ASSERT_HOST(first_choice != NULL);
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if (first_choice->unichar_id() != word->best_choice->unichar_id(i)) {
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best_choice_is_dict_and_top_choice_ = false;
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break;
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}
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}
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}
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STRING debug_str;
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if (best_choice_is_dict_and_top_choice_) {
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debug_str = "Best choice is: incorrect, top choice, dictionary word";
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debug_str += " with permuter ";
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debug_str += word->best_choice->permuter_name();
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} else {
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debug_str = "Classifier/Old LM tradeoff is to blame";
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}
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SetBlame(best_choice_is_dict_and_top_choice_ ? IRR_CLASSIFIER
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: IRR_CLASS_OLD_LM_TRADEOFF,
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debug_str, word->best_choice, debug);
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}
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// Sets up the correct_segmentation_* to mark the correct bounding boxes.
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void BlamerBundle::SetupCorrectSegmentation(const TWERD* word, bool debug) {
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params_training_bundle_.StartHypothesisList();
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if (incorrect_result_reason_ != IRR_CORRECT || !truth_has_char_boxes_)
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return; // Nothing to do here.
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STRING debug_str;
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debug_str += "Blamer computing correct_segmentation_cols\n";
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int curr_box_col = 0;
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int next_box_col = 0;
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int num_blobs = word->NumBlobs();
|
|
if (num_blobs == 0) return; // No blobs to play with.
|
|
int blob_index = 0;
|
|
inT16 next_box_x = word->blobs[blob_index]->bounding_box().right();
|
|
for (int truth_idx = 0; blob_index < num_blobs &&
|
|
truth_idx < norm_truth_word_.length();
|
|
++blob_index) {
|
|
++next_box_col;
|
|
inT16 curr_box_x = next_box_x;
|
|
if (blob_index + 1 < num_blobs)
|
|
next_box_x = word->blobs[blob_index + 1]->bounding_box().right();
|
|
inT16 truth_x = norm_truth_word_.BlobBox(truth_idx).right();
|
|
debug_str.add_str_int("Box x coord vs. truth: ", curr_box_x);
|
|
debug_str.add_str_int(" ", truth_x);
|
|
debug_str += "\n";
|
|
if (curr_box_x > (truth_x + norm_box_tolerance_)) {
|
|
break; // failed to find a matching box
|
|
} else if (curr_box_x >= truth_x - norm_box_tolerance_ && // matched
|
|
(blob_index + 1 >= num_blobs || // next box can't be included
|
|
next_box_x > truth_x + norm_box_tolerance_)) {
|
|
correct_segmentation_cols_.push_back(curr_box_col);
|
|
correct_segmentation_rows_.push_back(next_box_col-1);
|
|
++truth_idx;
|
|
debug_str.add_str_int("col=", curr_box_col);
|
|
debug_str.add_str_int(" row=", next_box_col-1);
|
|
debug_str += "\n";
|
|
curr_box_col = next_box_col;
|
|
}
|
|
}
|
|
if (blob_index < num_blobs || // trailing blobs
|
|
correct_segmentation_cols_.length() != norm_truth_word_.length()) {
|
|
debug_str.add_str_int("Blamer failed to find correct segmentation"
|
|
" (tolerance=", norm_box_tolerance_);
|
|
if (blob_index >= num_blobs) debug_str += " blob == NULL";
|
|
debug_str += ")\n";
|
|
debug_str.add_str_int(" path length ", correct_segmentation_cols_.length());
|
|
debug_str.add_str_int(" vs. truth ", norm_truth_word_.length());
|
|
debug_str += "\n";
|
|
SetBlame(IRR_UNKNOWN, debug_str, NULL, debug);
|
|
correct_segmentation_cols_.clear();
|
|
correct_segmentation_rows_.clear();
|
|
}
|
|
}
|
|
|
|
// Returns true if a guided segmentation search is needed.
|
|
bool BlamerBundle::GuidedSegsearchNeeded(const WERD_CHOICE *best_choice) const {
|
|
return incorrect_result_reason_ == IRR_CORRECT &&
|
|
!segsearch_is_looking_for_blame_ &&
|
|
truth_has_char_boxes_ &&
|
|
!ChoiceIsCorrect(best_choice);
|
|
}
|
|
|
|
// Setup ready to guide the segmentation search to the correct segmentation.
|
|
// The callback pp_cb is used to avoid a cyclic dependency.
|
|
// It calls into LMPainPoints::GenerateForBlamer by pre-binding the
|
|
// WERD_RES, and the LMPainPoints itself.
|
|
// pp_cb must be a permanent callback, and should be deleted by the caller.
|
|
void BlamerBundle::InitForSegSearch(const WERD_CHOICE *best_choice,
|
|
MATRIX* ratings, UNICHAR_ID wildcard_id,
|
|
bool debug, STRING *debug_str,
|
|
TessResultCallback2<bool, int, int>* cb) {
|
|
segsearch_is_looking_for_blame_ = true;
|
|
if (debug) {
|
|
tprintf("segsearch starting to look for blame\n");
|
|
}
|
|
// Fill pain points for any unclassifed blob corresponding to the
|
|
// correct segmentation state.
|
|
*debug_str += "Correct segmentation:\n";
|
|
for (int idx = 0; idx < correct_segmentation_cols_.length(); ++idx) {
|
|
debug_str->add_str_int("col=", correct_segmentation_cols_[idx]);
|
|
debug_str->add_str_int(" row=", correct_segmentation_rows_[idx]);
|
|
*debug_str += "\n";
|
|
if (!ratings->Classified(correct_segmentation_cols_[idx],
|
|
correct_segmentation_rows_[idx],
|
|
wildcard_id) &&
|
|
!cb->Run(correct_segmentation_cols_[idx],
|
|
correct_segmentation_rows_[idx])) {
|
|
segsearch_is_looking_for_blame_ = false;
|
|
*debug_str += "\nFailed to insert pain point\n";
|
|
SetBlame(IRR_SEGSEARCH_HEUR, *debug_str, best_choice, debug);
|
|
break;
|
|
}
|
|
} // end for blamer_bundle->correct_segmentation_cols/rows
|
|
}
|
|
// Returns true if the guided segsearch is in progress.
|
|
bool BlamerBundle::GuidedSegsearchStillGoing() const {
|
|
return segsearch_is_looking_for_blame_;
|
|
}
|
|
|
|
// The segmentation search has ended. Sets the blame appropriately.
|
|
void BlamerBundle::FinishSegSearch(const WERD_CHOICE *best_choice,
|
|
bool debug, STRING *debug_str) {
|
|
// If we are still looking for blame (i.e. best_choice is incorrect, but a
|
|
// path representing the correct segmentation could be constructed), we can
|
|
// blame segmentation search pain point prioritization if the rating of the
|
|
// path corresponding to the correct segmentation is better than that of
|
|
// best_choice (i.e. language model would have done the correct thing, but
|
|
// because of poor pain point prioritization the correct segmentation was
|
|
// never explored). Otherwise we blame the tradeoff between the language model
|
|
// and the classifier, since even after exploring the path corresponding to
|
|
// the correct segmentation incorrect best_choice would have been chosen.
|
|
// One special case when we blame the classifier instead is when best choice
|
|
// is incorrect, but it is a dictionary word and it classifier's top choice.
|
|
if (segsearch_is_looking_for_blame_) {
|
|
segsearch_is_looking_for_blame_ = false;
|
|
if (best_choice_is_dict_and_top_choice_) {
|
|
*debug_str = "Best choice is: incorrect, top choice, dictionary word";
|
|
*debug_str += " with permuter ";
|
|
*debug_str += best_choice->permuter_name();
|
|
SetBlame(IRR_CLASSIFIER, *debug_str, best_choice, debug);
|
|
} else if (best_correctly_segmented_rating_ <
|
|
best_choice->rating()) {
|
|
*debug_str += "Correct segmentation state was not explored";
|
|
SetBlame(IRR_SEGSEARCH_PP, *debug_str, best_choice, debug);
|
|
} else {
|
|
if (best_correctly_segmented_rating_ >=
|
|
WERD_CHOICE::kBadRating) {
|
|
*debug_str += "Correct segmentation paths were pruned by LM\n";
|
|
} else {
|
|
debug_str->add_str_double("Best correct segmentation rating ",
|
|
best_correctly_segmented_rating_);
|
|
debug_str->add_str_double(" vs. best choice rating ",
|
|
best_choice->rating());
|
|
}
|
|
SetBlame(IRR_CLASS_LM_TRADEOFF, *debug_str, best_choice, debug);
|
|
}
|
|
}
|
|
}
|
|
|
|
// If the bundle is null or still does not indicate the correct result,
|
|
// fix it and use some backup reason for the blame.
|
|
void BlamerBundle::LastChanceBlame(bool debug, WERD_RES* word) {
|
|
if (word->blamer_bundle == NULL) {
|
|
word->blamer_bundle = new BlamerBundle();
|
|
word->blamer_bundle->SetBlame(IRR_PAGE_LAYOUT, "LastChanceBlame",
|
|
word->best_choice, debug);
|
|
} else if (word->blamer_bundle->incorrect_result_reason_ == IRR_NO_TRUTH) {
|
|
word->blamer_bundle->SetBlame(IRR_NO_TRUTH, "Rejected truth",
|
|
word->best_choice, debug);
|
|
} else {
|
|
bool correct = word->blamer_bundle->ChoiceIsCorrect(word->best_choice);
|
|
IncorrectResultReason irr = word->blamer_bundle->incorrect_result_reason_;
|
|
if (irr == IRR_CORRECT && !correct) {
|
|
STRING debug_str = "Choice is incorrect after recognition";
|
|
word->blamer_bundle->SetBlame(IRR_UNKNOWN, debug_str, word->best_choice,
|
|
debug);
|
|
} else if (irr != IRR_CORRECT && correct) {
|
|
if (debug) {
|
|
tprintf("Corrected %s\n", word->blamer_bundle->debug_.string());
|
|
}
|
|
word->blamer_bundle->incorrect_result_reason_ = IRR_CORRECT;
|
|
word->blamer_bundle->debug_ = "";
|
|
}
|
|
}
|
|
}
|
|
|
|
// Sets the misadaption debug if this word is incorrect, as this word is
|
|
// being adapted to.
|
|
void BlamerBundle::SetMisAdaptionDebug(const WERD_CHOICE *best_choice,
|
|
bool debug) {
|
|
if (incorrect_result_reason_ != IRR_NO_TRUTH &&
|
|
!ChoiceIsCorrect(best_choice)) {
|
|
misadaption_debug_ ="misadapt to word (";
|
|
misadaption_debug_ += best_choice->permuter_name();
|
|
misadaption_debug_ += "): ";
|
|
FillDebugString("", best_choice, &misadaption_debug_);
|
|
if (debug) {
|
|
tprintf("%s\n", misadaption_debug_.string());
|
|
}
|
|
}
|
|
}
|
|
|