private void setWavelength(double lam) {
EnergyWavelengthType ewl = new EnergyWavelengthType();
WavelengthWavenumberType wl = new WavelengthWavenumberType();
DataType dt = new DataType();
ValueType val = new ValueType();
val.setValue(lam);
val.setUnits("A");
dt.setValue(val);
wl.setRitz(dt);
ewl.setWavelength(wl);
rt.setEnergyWavelength(ewl);
}
private void setComments(String comments) {
rt.setComments(comments);
}
public void build() {
rt = null;
root = new XSAMSData();
procs = new ProcessesType();
rad = new Radiative();
atoms = new Atoms();
sources = new Sources();
procs.setRadiative(rad);
states = new StatesType();
states.setAtoms(atoms);
root.setStates(states);
root.setProcesses(procs);
try {
int nr = 0;
while (rs.next()) {
rt = new RadiativeTransitionType();
rtp = new RadiativeTransitionProbabilityType();
rt.getProbabilities().add(rtp);
atom = new AtomType();
ist = new IsotopeType();
atom.getIsotopes().add(ist);
is = new IonStateType();
ist.getIonStates().add(is);
aslow = new AtomicStateType();
asup = new AtomicStateType();
aslow.setStateID("Initial_" + nr);
asup.setStateID("Final_" + nr);
andtlow = new AtomicNumericalDataType();
andtup = new AtomicNumericalDataType();
aslow.setAtomicNumericalData(andtlow);
asup.setAtomicNumericalData(andtup);
is.getAtomicStates().add(aslow);
is.getAtomicStates().add(asup);
aqnlow = new AtomicQuantumNumbersType();
aqnup = new AtomicQuantumNumbersType();
aslow.setAtomicQuantumNumbers(aqnlow);
asup.setAtomicQuantumNumbers(aqnup);
aclow = new AtomicCompositionType();
acup = new AtomicCompositionType();
aslow.setAtomicComposition(aclow);
asup.setAtomicComposition(acup);
acmlow = new AtomicComponentType();
acmup = new AtomicComponentType();
conflow = new ConfigurationType();
acmlow.setConfiguration(conflow);
confup = new ConfigurationType();
acmup.setConfiguration(confup);
aclow.getComponents().add(acmlow);
acup.getComponents().add(acmup);
termlow = new TermType();
termup = new TermType();
acmlow.setTerm(termlow);
acmup.setTerm(termup);
wavelength = ((Double) (rs.getObject("wavelength"))).doubleValue();
code = rs.getObject("code").toString();
loggf = ((Double) (rs.getObject("loggf"))).doubleValue();
E_low = ((Double) (rs.getObject("E_low"))).doubleValue();
E_up = ((Double) (rs.getObject("E_up"))).doubleValue();
J_low = ((Double) (rs.getObject("J_low"))).doubleValue();
J_up = ((Double) (rs.getObject("J_up"))).doubleValue();
g_low = ((Double) (rs.getObject("g_low"))).doubleValue();
g_up = ((Double) (rs.getObject("g_up"))).doubleValue();
Connection_low = rs.getObject("Connection_low").toString();
Connection_up = rs.getObject("Connection_up").toString();
Conf_low = rs.getObject("Conf_low").toString();
Conf_up = rs.getObject("Conf_up").toString();
Term_low = rs.getObject("Term_low").toString();
Term_up = rs.getObject("Term_up").toString();
Ref = rs.getObject("Ref").toString();
Comments = rs.getObject("Ref").toString();
setWavelength(wavelength);
setElement(code);
setProbability(loggf);
setElow(E_low);
setEup(E_up);
setglow(g_low);
setgup(g_up);
setQNlow(J_low);
setQNup(J_up);
// setConnlow(Connection_low);
// setConnup(Connection_up);
setConflow(Conf_low);
setConfup(Conf_up);
setComments(Comments);
atoms.getAtoms().add(atom);
rad.getRadiativeTransitions().add(rt);
nr++;
}
data2xml();
con.close();
rs.close();
} catch (Exception e) {
System.out.println(e.toString());
}
}