void WindowCheckKeyterms::html_write_keyterms (HtmlWriter2& htmlwriter, unsigned int keyword_id) { // Get data about the project. extern Settings *settings; ustring project = settings->genconfig.project_get(); ProjectConfiguration *projectconfig = settings->projectconfig(project); ustring versification = projectconfig->versification_get(); // Add action links. htmlwriter.paragraph_open (); htmlwriter.hyperlink_add ("index", "[Index]"); htmlwriter.text_add (" "); htmlwriter.hyperlink_add ("send", _("[Send to references window]")); htmlwriter.paragraph_close (); // Add the keyterm itself. ustring keyterm; keyterms_get_term(keyword_id, keyterm); htmlwriter.heading_open (3); htmlwriter.text_add (keyterm); htmlwriter.heading_close(); // Retrieve the renderings. vector <ustring> renderings; vector <bool> wholewords; vector <bool> casesensitives; get_renderings(renderings, wholewords, casesensitives); // Get the data for the keyword identifier. ustring dummy; ustring information; keyterms_get_data(keyword_id, dummy, information, references); // Divide the information into lines. ParseLine parseline (information); // Write the information. for (unsigned int i = 0; i < parseline.lines.size(); i++) { information = parseline.lines[i]; htmlwriter.paragraph_open (); size_t pos = information.find (keyterms_reference_start_markup ()); while (pos != string::npos) { htmlwriter.text_add (information.substr (0, pos)); information.erase (0, pos + keyterms_reference_start_markup ().length()); pos = information.find (keyterms_reference_end_markup ()); if (pos != string::npos) { // Extract the reference. htmlwriter.paragraph_close (); ustring original_reference_text = information.substr (0, pos); Reference reference = get_reference (original_reference_text); // Remap the reference. { Mapping mapping(versification, reference.book_get()); vector <int> chapters; vector <int> verses; mapping.original_to_me(reference.chapter_get(), reference.verse_get(), chapters, verses); if (!chapters.empty()) { reference.chapter_set(chapters[0]); reference.verse_set(convert_to_string (verses[0])); } } ustring remapped_reference_text = reference.human_readable (""); ustring displayed_reference_text (remapped_reference_text); if (remapped_reference_text != original_reference_text) { displayed_reference_text.append (" ("); displayed_reference_text.append (original_reference_text); displayed_reference_text.append (")"); } // Add the reference with hyperlink. htmlwriter.hyperlink_add ("goto " + remapped_reference_text, remapped_reference_text); information.erase (0, pos + keyterms_reference_end_markup ().length()); // Add the reference's text. ustring verse = project_retrieve_verse(project, reference); if (verse.empty()) { verse.append(_("<empty>")); } else { CategorizeLine cl(verse); cl.remove_verse_number(reference.verse_get()); verse = cl.verse; } htmlwriter.text_add (" "); // Add the verse plus markup for approved text. vector <size_t> startpositions; vector <size_t> lengths; size_t processposition = 0; if (find_renderings (verse, renderings, wholewords, casesensitives, &startpositions, &lengths)) { quick_sort (startpositions, lengths, 0, startpositions.size()); // Overlapping items need to be combined to avoid crashes. xml_combine_overlaps (startpositions, lengths); for (unsigned int i = 0; i < startpositions.size(); i++) { htmlwriter.text_add (verse.substr (0, startpositions[i] - processposition)); htmlwriter.bold_open(); htmlwriter.text_add (verse.substr (startpositions[i] - processposition, lengths[i])); htmlwriter.bold_close(); verse.erase (0, startpositions[i] - processposition + lengths[i]); processposition = startpositions[i] + lengths[i]; } // Add whatever is left over of the verse. This could be the full verse in case it wasn't processed. htmlwriter.text_add (verse); } else { htmlwriter.highlight_open(); htmlwriter.text_add (verse); htmlwriter.highlight_close(); } // Proceed to next. htmlwriter.paragraph_open (); pos = information.find (keyterms_reference_start_markup ()); } } htmlwriter.text_add (information); htmlwriter.paragraph_close (); } }