import ch.psi.pshell.plot.RangeSelectionPlot.RangeSelection as RangeSelection

ranges = []

# FE
#rs = RangeSelection(244.5, 246.5)
#rs.setVars([0.25, 0.025, 20, 250.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)
# Si 2p
#rs = RangeSelection(144.0, 148.5)
#rs.setVars([0.25, 0.025, 20, 250.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)
# Ag 3d 5/2
#rs = RangeSelection(60.5, 64.5)
#rs.setVars([0.25, 0.025, 10, 435.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)
# Si 2p
#rs = RangeSelection(329.0, 333.5)
#rs.setVars([0.25, 0.025, 20, 435.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)
# Ag 3d 5/2
#rs = RangeSelection(160.5, 164.5)
#rs.setVars([0.25, 0.025, 10, 535.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)
# Si 2p
#rs = RangeSelection(429.0, 433.5)
#rs.setVars([0.25, 0.025, 20, 535.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)


# dummy
#rs = RangeSelection(144.0, 145.0)
#rs.setVars([0.25, 1, 1, 250.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)
# Si 2p
rs = RangeSelection(144.0, 148.5)
rs.setVars([0.25, 0.025, 20, 250.]) #Time, Size, Iteration, photon energy
ranges.append(rs)
# FE
rs = RangeSelection(244.5, 246.5)
rs.setVars([0.25, 0.025, 20, 250.]) #Time, Size, Iteration, photon energy
ranges.append(rs)

# VB
#rs = RangeSelection(123.0, 134.5)
#rs.setVars([0.25, 0.05, 10, 137.]) #Time, Size, Iteration, photon energy
#ranges.append(rs)

# caution: do not insert multiple run commands in the same script!
#          earlier data is overwritten!

run("XPSSpectrum", {"save_scienta_image":True, 
                    "ranges": ranges, 
                    "ENDSCAN": True, 
                    "pass_energy":20})