bool UVSpectra::checkForData(Molecule * mol) {
    OpenBabel::OBMol obmol = mol->OBMol();
    OpenBabel::OBElectronicTransitionData *etd = static_cast<OpenBabel::OBElectronicTransitionData*>(obmol.GetData("ElectronicTransitionData"));

    if (!etd) return false;
    if (etd->GetEDipole().size() == 0) return false;

    // OK, we have valid data, so store them for later
    std::vector<double> wavelengths = etd->GetWavelengths();
    std::vector<double> edipole= etd->GetEDipole();

    // Store in member vars
    m_xList.clear();
    m_yList.clear();
    for (uint i = 0; i < wavelengths.size(); i++){
      m_xList.append(wavelengths.at(i));
      m_yList.append(edipole.at(i));
    }

    return true;
  }
Beispiel #2
0
  bool CDSpectra::checkForData(Molecule * mol) {
    OpenBabel::OBMol obmol = mol->OBMol();
    OpenBabel::OBElectronicTransitionData *etd = static_cast<OpenBabel::OBElectronicTransitionData*>(obmol.GetData("ElectronicTransitionData"));

    if (!etd) return false;
    if ( etd->GetRotatoryStrengthsVelocity().size() == 0 &&
         etd->GetRotatoryStrengthsLength().size() == 0 ) return false;

    // OK, we have valid data, so store them for later
    std::vector<double> wavelengths = etd->GetWavelengths();
    std::vector<double> rotl = etd->GetRotatoryStrengthsLength();
    std::vector<double> rotv = etd->GetRotatoryStrengthsVelocity();

    ui.combo_rotatoryType->clear();
    if (rotl.size() != 0) ui.combo_rotatoryType->addItem("Length");
    if (rotv.size() != 0) ui.combo_rotatoryType->addItem("Velocity");

    // Store in member vars
    m_xList.clear();
    m_yList.clear();
    for (uint i = 0; i < wavelengths.size(); i++)
      m_xList.append(wavelengths.at(i));
    for (uint i = 0; i < rotl.size(); i++)
      m_yListLength->append(rotl.at(i));
    for (uint i = 0; i < rotv.size(); i++)
      m_yListVelocity->append(rotv.at(i));


    rotatoryTypeChanged(ui.combo_rotatoryType->currentText());

    return true;
  }