void ProtXMLFile::load(const String& filename, ProteinIdentification& protein_ids, PeptideIdentification& peptide_ids) { //Filename for error messages in XMLHandler file_ = filename; resetMembers_(); // reset incoming data protein_ids = ProteinIdentification(); peptide_ids = PeptideIdentification(); // remember data link while parsing prot_id_ = &protein_ids; pep_id_ = &peptide_ids; parse_(filename, this); }
void PepNovoOutfile::load( const std::string & result_filename, vector<PeptideIdentification> & peptide_identifications, ProteinIdentification & protein_identification, const double & score_threshold, const IndexPosMappingType & index_to_precursor, const map<String, String> & pnovo_modkey_to_mod_id ) { // generally used variables StringList substrings; map<String, Int> columns; PeptideHit peptide_hit; String line, score_type = "PepNovo", version = "unknown", identifier, filename, sequence, sequence_with_mods; DateTime datetime = DateTime::now(); // there's no date given from PepNovo protein_identification.setDateTime(datetime); peptide_identifications.clear(); PeptideIdentification peptide_identification; protein_identification = ProteinIdentification(); // open the result ifstream result_file(result_filename.c_str()); if (!result_file) { throw Exception::FileNotFound(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, result_filename); } Size line_number(0); // used to report in which line an error occurred Size id_count(0); // number of IDs seen (not necessarily the ones finally returned) getSearchEngineAndVersion(result_filename, protein_identification); //if information could not be retrieved from the outfile use defaults if (protein_identification.getSearchEngineVersion().empty()) { protein_identification.setSearchEngine("PepNovo"); protein_identification.setSearchEngineVersion(version); } identifier = protein_identification.getSearchEngine() + "_" + datetime.getDate(); protein_identification.setIdentifier(identifier); map<String, String> mod_mask_map; const vector<String> & mods = protein_identification.getSearchParameters().variable_modifications; for (vector<String>::const_iterator mod_it = mods.begin(); mod_it != mods.end(); ++mod_it) { if (mod_it->empty()) continue; //cout<<*mod_it<<endl; if (pnovo_modkey_to_mod_id.find(*mod_it) != pnovo_modkey_to_mod_id.end()) { //cout<<keys_to_id.find(*mod_it)->second<<endl; ResidueModification tmp_mod = ModificationsDB::getInstance()->getModification(pnovo_modkey_to_mod_id.find(*mod_it)->second); if (mod_it->prefix(1) == "^" || mod_it->prefix(1) == "$") { mod_mask_map[*mod_it] = "(" + tmp_mod.getId() + ")"; } else { mod_mask_map[*mod_it] = String(tmp_mod.getOrigin()) + "(" + tmp_mod.getId() + ")"; } } else { if (mod_it->prefix(1) != "^" && mod_it->prefix(1) != "$") { mod_mask_map[*mod_it] = mod_it->prefix(1) + "[" + mod_it->substr(1) + "]"; //cout<<mod_mask_map[*mod_it]<<endl; } else { mod_mask_map[*mod_it] = "[" + *mod_it + "]"; //cout<<mod_mask_map[*mod_it]<<endl; } } } Size index; while (getline(result_file, line)) { if (!line.empty() && (line[line.length() - 1] < 33)) line.resize(line.length() - 1); // remove weird EOL character line.trim(); ++line_number; if (line.hasPrefix(">> ")) // >> 1 /home/shared/pepnovo/4611_raw_ms2_picked.mzXML.1001.2.dta { ++id_count; if (!peptide_identification.empty() && !peptide_identification.getHits().empty()) { peptide_identifications.push_back(peptide_identification); } line.split(' ', substrings); //String index = File::basename(line.substr(line.find(' ', strlen(">> ")) + 1)); if (substrings.size() < 3) { throw Exception::ParseError(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Not enough columns (spectrum Id) in file in line " + String(line_number) + String(" (should be 2 or more)!"), result_filename); } try { index = substrings[2].trim().toInt(); } catch (...) { throw Exception::ParseError(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Expected an index number in line " + String(line_number) + String(" at position 2 (line was: '" + line + "')!"), result_filename); } //cout<<"INDEX: "<<index<<endl; peptide_identification = PeptideIdentification(); bool success = false; if (index_to_precursor.size()>0) { if (index_to_precursor.find(index) != index_to_precursor.end()) { peptide_identification.setRT(index_to_precursor.find(index)->second.first); peptide_identification.setMZ(index_to_precursor.find(index)->second.second); success = true; } else throw Exception::ParseError(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Index '" + String(index) + String("' in line '" + line + "' not found in index table (line was: '" + line + "')!"), result_filename); } if (!success) { // try to reconstruct from title entry (usually sensible when MGF is supplied to PepNovo) try { if (substrings.size() >= 4) { StringList parts = ListUtils::create<String>(substrings[3], '_'); if (parts.size() >= 2) { peptide_identification.setRT(parts[1].toDouble()); peptide_identification.setMZ(parts[0].toDouble()); success = true; } } } catch (...) { } if (!success) throw Exception::ParseError(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Precursor could not be reconstructed from title '" + substrings[3] + String("' in line '" + line + "' (line was: '" + line + "')!"), result_filename); } peptide_identification.setSignificanceThreshold(score_threshold); peptide_identification.setScoreType(score_type); peptide_identification.setIdentifier(identifier); } else if (line.hasPrefix("#Index")) // #Index Prob Score N-mass C-Mass [M+H] Charge Sequence { if (columns.empty()) // map the column names to their column number { line.split('\t', substrings); for (vector<String>::const_iterator s_i = substrings.begin(); s_i != substrings.end(); ++s_i) { if ((*s_i) == "#Index") columns["Index"] = s_i - substrings.begin(); else if ((*s_i) == "RnkScr") columns["RnkScr"] = s_i - substrings.begin(); else if ((*s_i) == "PnvScr") columns["PnvScr"] = s_i - substrings.begin(); else if ((*s_i) == "N-Gap") columns["N-Gap"] = s_i - substrings.begin(); else if ((*s_i) == "C-Gap") columns["C-Gap"] = s_i - substrings.begin(); else if ((*s_i) == "[M+H]") columns["[M+H]"] = s_i - substrings.begin(); else if ((*s_i) == "Charge") columns["Charge"] = s_i - substrings.begin(); else if ((*s_i) == "Sequence") columns["Sequence"] = s_i - substrings.begin(); } if (columns.size() != 8) { result_file.close(); result_file.clear(); throw Exception::ParseError(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Not enough columns in file in line " + String(line_number) + String(" (should be 8)!"), result_filename); } } while (getline(result_file, line)) { ++line_number; if (!line.empty() && (line[line.length() - 1] < 33)) line.resize(line.length() - 1); line.trim(); if (line.empty()) break; line.split('\t', substrings); if (!substrings.empty()) { if (substrings.size() != 8) { result_file.close(); result_file.clear(); throw Exception::ParseError(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Not enough columns in file in line " + String(line_number) + String(" (should be 8)!"), result_filename); } if (substrings[columns["RnkScr"]].toFloat() >= score_threshold) { peptide_hit = PeptideHit(); peptide_hit.setCharge(substrings[columns["Charge"]].toInt()); peptide_hit.setRank(substrings[columns["Index"]].toInt() + 1); peptide_hit.setScore(substrings[columns["RnkScr"]].toFloat()); peptide_hit.setMetaValue("PnvScr", substrings[columns["PnvScr"]].toFloat()); peptide_hit.setMetaValue("N-Gap", substrings[columns["N-Gap"]].toFloat()); peptide_hit.setMetaValue("C-Gap", substrings[columns["C-Gap"]].toFloat()); peptide_hit.setMetaValue("MZ", substrings[columns["[M+H]"]].toFloat()); sequence = substrings[columns["Sequence"]]; for (map<String, String>::iterator mask_it = mod_mask_map.begin(); mask_it != mod_mask_map.end(); ++mask_it) { if (mask_it->first.hasPrefix("^") && sequence.hasSubstring(mask_it->first)) { sequence.substitute(mask_it->first, ""); sequence = mask_it->second + sequence; } //cout<<mask_it->first<<" "<<mask_it->second<<endl; sequence.substitute(mask_it->first, mask_it->second); } peptide_hit.setSequence(AASequence::fromString(sequence)); peptide_identification.insertHit(peptide_hit); } } } } } if (!peptide_identifications.empty() || !peptide_identification.getHits().empty()) { peptide_identifications.push_back(peptide_identification); } result_file.close(); result_file.clear(); LOG_INFO << "Parsed " << id_count << " ids, retained " << peptide_identifications.size() << "." << std::endl; }