/////////////////////////////////////////////////////////////////////// // File: ltrresultiterator.cpp // Description: Iterator for tesseract results in strict left-to-right // order that avoids using tesseract internal data structures. // Author: Ray Smith // Created: Fri Feb 26 14:32:09 PST 2010 // // (C) Copyright 2010, Google Inc. // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // /////////////////////////////////////////////////////////////////////// #include "ltrresultiterator.h" #include "allheaders.h" #include "pageres.h" #include "strngs.h" #include "tesseractclass.h" namespace tesseract { LTRResultIterator::LTRResultIterator(PAGE_RES* page_res, Tesseract* tesseract, int scale, int scaled_yres, int rect_left, int rect_top, int rect_width, int rect_height) : PageIterator(page_res, tesseract, scale, scaled_yres, rect_left, rect_top, rect_width, rect_height), line_separator_("\n"), paragraph_separator_("\n") { } LTRResultIterator::~LTRResultIterator() { } // Returns the null terminated UTF-8 encoded text string for the current // object at the given level. Use delete [] to free after use. char* LTRResultIterator::GetUTF8Text(PageIteratorLevel level) const { if (it_->word() == NULL) return NULL; // Already at the end! STRING text; PAGE_RES_IT res_it(*it_); WERD_CHOICE* best_choice = res_it.word()->best_choice; ASSERT_HOST(best_choice != NULL); if (level == RIL_SYMBOL) { text = res_it.word()->BestUTF8(blob_index_, false); } else if (level == RIL_WORD) { text = best_choice->unichar_string(); } else { bool eol = false; // end of line? bool eop = false; // end of paragraph? do { // for each paragraph in a block do { // for each text line in a paragraph do { // for each word in a text line best_choice = res_it.word()->best_choice; ASSERT_HOST(best_choice != NULL); text += best_choice->unichar_string(); text += " "; res_it.forward(); eol = res_it.row() != res_it.prev_row(); } while (!eol); text.truncate_at(text.length() - 1); text += line_separator_; eop = res_it.block() != res_it.prev_block() || res_it.row()->row->para() != res_it.prev_row()->row->para(); } while (level != RIL_TEXTLINE && !eop); if (eop) text += paragraph_separator_; } while (level == RIL_BLOCK && res_it.block() == res_it.prev_block()); } int length = text.length() + 1; char* result = new char[length]; strncpy(result, text.string(), length); return result; } // Set the string inserted at the end of each text line. "\n" by default. void LTRResultIterator::SetLineSeparator(const char *new_line) { line_separator_ = new_line; } // Set the string inserted at the end of each paragraph. "\n" by default. void LTRResultIterator::SetParagraphSeparator(const char *new_para) { paragraph_separator_ = new_para; } // Returns the mean confidence of the current object at the given level. // The number should be interpreted as a percent probability. (0.0f-100.0f) float LTRResultIterator::Confidence(PageIteratorLevel level) const { if (it_->word() == NULL) return 0.0f; // Already at the end! float mean_certainty = 0.0f; int certainty_count = 0; PAGE_RES_IT res_it(*it_); WERD_CHOICE* best_choice = res_it.word()->best_choice; ASSERT_HOST(best_choice != NULL); switch (level) { case RIL_BLOCK: do { best_choice = res_it.word()->best_choice; ASSERT_HOST(best_choice != NULL); mean_certainty += best_choice->certainty(); ++certainty_count; res_it.forward(); } while (res_it.block() == res_it.prev_block()); break; case RIL_PARA: do { best_choice = res_it.word()->best_choice; ASSERT_HOST(best_choice != NULL); mean_certainty += best_choice->certainty(); ++certainty_count; res_it.forward(); } while (res_it.block() == res_it.prev_block() && res_it.row()->row->para() == res_it.prev_row()->row->para()); break; case RIL_TEXTLINE: do { best_choice = res_it.word()->best_choice; ASSERT_HOST(best_choice != NULL); mean_certainty += best_choice->certainty(); ++certainty_count; res_it.forward(); } while (res_it.row() == res_it.prev_row()); break; case RIL_WORD: mean_certainty += best_choice->certainty(); ++certainty_count; break; case RIL_SYMBOL: mean_certainty += best_choice->certainty(blob_index_); ++certainty_count; } if (certainty_count > 0) { mean_certainty /= certainty_count; float confidence = 100 + 5 * mean_certainty; if (confidence < 0.0f) confidence = 0.0f; if (confidence > 100.0f) confidence = 100.0f; return confidence; } return 0.0f; } void LTRResultIterator::RowAttributes(float* row_height, float* descenders, float* ascenders) const { *row_height = it_->row()->row->x_height() + it_->row()-> row->ascenders() - it_->row()->row->descenders(); *descenders = it_->row()->row->descenders(); *ascenders = it_->row()->row->ascenders(); } // Returns the font attributes of the current word. If iterating at a higher // level object than words, eg textlines, then this will return the // attributes of the first word in that textline. // The actual return value is a string representing a font name. It points // to an internal table and SHOULD NOT BE DELETED. Lifespan is the same as // the iterator itself, ie rendered invalid by various members of // TessBaseAPI, including Init, SetImage, End or deleting the TessBaseAPI. // Pointsize is returned in printers points (1/72 inch.) const char* LTRResultIterator::WordFontAttributes(bool* is_bold, bool* is_italic, bool* is_underlined, bool* is_monospace, bool* is_serif, bool* is_smallcaps, int* pointsize, int* font_id) const { if (it_->word() == NULL) return NULL; // Already at the end! if (it_->word()->fontinfo == NULL) { *font_id = -1; return NULL; // No font information. } const FontInfo& font_info = *it_->word()->fontinfo; *font_id = font_info.universal_id; *is_bold = font_info.is_bold(); *is_italic = font_info.is_italic(); *is_underlined = false; // TODO(rays) fix this! *is_monospace = font_info.is_fixed_pitch(); *is_serif = font_info.is_serif(); *is_smallcaps = it_->word()->small_caps; float row_height = it_->row()->row->x_height() + it_->row()->row->ascenders() - it_->row()->row->descenders(); // Convert from pixels to printers points. *pointsize = scaled_yres_ > 0 ? static_cast(row_height * kPointsPerInch / scaled_yres_ + 0.5) : 0; return font_info.name; } // Returns the name of the language used to recognize this word. const char* LTRResultIterator::WordRecognitionLanguage() const { if (it_->word() == NULL || it_->word()->tesseract == NULL) return NULL; return it_->word()->tesseract->lang.string(); } // Return the overall directionality of this word. StrongScriptDirection LTRResultIterator::WordDirection() const { if (it_->word() == NULL) return DIR_NEUTRAL; bool has_rtl = it_->word()->AnyRtlCharsInWord(); bool has_ltr = it_->word()->AnyLtrCharsInWord(); if (has_rtl && !has_ltr) return DIR_RIGHT_TO_LEFT; if (has_ltr && !has_rtl) return DIR_LEFT_TO_RIGHT; if (!has_ltr && !has_rtl) return DIR_NEUTRAL; return DIR_MIX; } // Returns true if the current word was found in a dictionary. bool LTRResultIterator::WordIsFromDictionary() const { if (it_->word() == NULL) return false; // Already at the end! int permuter = it_->word()->best_choice->permuter(); return permuter == SYSTEM_DAWG_PERM || permuter == FREQ_DAWG_PERM || permuter == USER_DAWG_PERM; } // Returns true if the current word is numeric. bool LTRResultIterator::WordIsNumeric() const { if (it_->word() == NULL) return false; // Already at the end! int permuter = it_->word()->best_choice->permuter(); return permuter == NUMBER_PERM; } // Returns true if the word contains blamer information. bool LTRResultIterator::HasBlamerInfo() const { return it_->word() != NULL && it_->word()->blamer_bundle != NULL && it_->word()->blamer_bundle->HasDebugInfo(); } // Returns the pointer to ParamsTrainingBundle stored in the BlamerBundle // of the current word. const void *LTRResultIterator::GetParamsTrainingBundle() const { return (it_->word() != NULL && it_->word()->blamer_bundle != NULL) ? &(it_->word()->blamer_bundle->params_training_bundle()) : NULL; } // Returns the pointer to the string with blamer information for this word. // Assumes that the word's blamer_bundle is not NULL. const char *LTRResultIterator::GetBlamerDebug() const { return it_->word()->blamer_bundle->debug().string(); } // Returns the pointer to the string with misadaption information for this word. // Assumes that the word's blamer_bundle is not NULL. const char *LTRResultIterator::GetBlamerMisadaptionDebug() const { return it_->word()->blamer_bundle->misadaption_debug().string(); } // Returns true if a truth string was recorded for the current word. bool LTRResultIterator::HasTruthString() const { if (it_->word() == NULL) return false; // Already at the end! if (it_->word()->blamer_bundle == NULL || it_->word()->blamer_bundle->NoTruth()) { return false; // no truth information for this word } return true; } // Returns true if the given string is equivalent to the truth string for // the current word. bool LTRResultIterator::EquivalentToTruth(const char *str) const { if (!HasTruthString()) return false; ASSERT_HOST(it_->word()->uch_set != NULL); WERD_CHOICE str_wd(str, *(it_->word()->uch_set)); return it_->word()->blamer_bundle->ChoiceIsCorrect(&str_wd); } // Returns the null terminated UTF-8 encoded truth string for the current word. // Use delete [] to free after use. char* LTRResultIterator::WordTruthUTF8Text() const { if (!HasTruthString()) return NULL; STRING truth_text = it_->word()->blamer_bundle->TruthString(); int length = truth_text.length() + 1; char* result = new char[length]; strncpy(result, truth_text.string(), length); return result; } // Returns the null terminated UTF-8 encoded normalized OCR string for the // current word. Use delete [] to free after use. char* LTRResultIterator::WordNormedUTF8Text() const { if (it_->word() == NULL) return NULL; // Already at the end! STRING ocr_text; WERD_CHOICE* best_choice = it_->word()->best_choice; const UNICHARSET *unicharset = it_->word()->uch_set; ASSERT_HOST(best_choice != NULL); for (int i = 0; i < best_choice->length(); ++i) { ocr_text += unicharset->get_normed_unichar(best_choice->unichar_id(i)); } int length = ocr_text.length() + 1; char* result = new char[length]; strncpy(result, ocr_text.string(), length); return result; } // Returns a pointer to serialized choice lattice. // Fills lattice_size with the number of bytes in lattice data. const char *LTRResultIterator::WordLattice(int *lattice_size) const { if (it_->word() == NULL) return NULL; // Already at the end! if (it_->word()->blamer_bundle == NULL) return NULL; *lattice_size = it_->word()->blamer_bundle->lattice_size(); return it_->word()->blamer_bundle->lattice_data(); } // Returns true if the current symbol is a superscript. // If iterating at a higher level object than symbols, eg words, then // this will return the attributes of the first symbol in that word. bool LTRResultIterator::SymbolIsSuperscript() const { if (cblob_it_ == NULL && it_->word() != NULL) return it_->word()->best_choice->BlobPosition(blob_index_) == SP_SUPERSCRIPT; return false; } // Returns true if the current symbol is a subscript. // If iterating at a higher level object than symbols, eg words, then // this will return the attributes of the first symbol in that word. bool LTRResultIterator::SymbolIsSubscript() const { if (cblob_it_ == NULL && it_->word() != NULL) return it_->word()->best_choice->BlobPosition(blob_index_) == SP_SUBSCRIPT; return false; } // Returns true if the current symbol is a dropcap. // If iterating at a higher level object than symbols, eg words, then // this will return the attributes of the first symbol in that word. bool LTRResultIterator::SymbolIsDropcap() const { if (cblob_it_ == NULL && it_->word() != NULL) return it_->word()->best_choice->BlobPosition(blob_index_) == SP_DROPCAP; return false; } ChoiceIterator::ChoiceIterator(const LTRResultIterator& result_it) { ASSERT_HOST(result_it.it_->word() != NULL); word_res_ = result_it.it_->word(); BLOB_CHOICE_LIST* choices = NULL; if (word_res_->ratings != NULL) choices = word_res_->GetBlobChoices(result_it.blob_index_); if (choices != NULL && !choices->empty()) { choice_it_ = new BLOB_CHOICE_IT(choices); choice_it_->mark_cycle_pt(); } else { choice_it_ = NULL; } } ChoiceIterator::~ChoiceIterator() { delete choice_it_; } // Moves to the next choice for the symbol and returns false if there // are none left. bool ChoiceIterator::Next() { if (choice_it_ == NULL) return false; choice_it_->forward(); return !choice_it_->cycled_list(); } // Returns the null terminated UTF-8 encoded text string for the current // choice. Do NOT use delete [] to free after use. const char* ChoiceIterator::GetUTF8Text() const { if (choice_it_ == NULL) return NULL; UNICHAR_ID id = choice_it_->data()->unichar_id(); return word_res_->uch_set->id_to_unichar_ext(id); } // Returns the confidence of the current choice. // The number should be interpreted as a percent probability. (0.0f-100.0f) float ChoiceIterator::Confidence() const { if (choice_it_ == NULL) return 0.0f; float confidence = 100 + 5 * choice_it_->data()->certainty(); if (confidence < 0.0f) confidence = 0.0f; if (confidence > 100.0f) confidence = 100.0f; return confidence; } } // namespace tesseract.