"""
Arguments:

VECTOR (Double[][], Scan vector: Eph,Elow,Ehigh or Eph,Ecenter)
SENSORS (list)
LATENCY (double)
MODE ('fixed' or 'swept')
TYPE ('CIS' or 'CFS')
STEP (double)
"""

global VECTOR, SENSORS

MODE = "swept"
LATENCY = 2.0
SENSORS = [Counts, Scienta.dataMatrix, SampleCurrent, RefCurrent, MachineCurrent]

Scienta.setAcquisitionMode(ch.psi.pshell.epics.Scienta.AcquisitionMode.Swept)
writables = (Eph, Scienta.lowEnergy, Scienta.highEnergy)

adjust_sensors()
SampleCurrentAveraging.write(600)
RefCurrentAveraging.write(600)
set_preference(Preference.PLOT_TYPES, {'Scienta spectrum':1})

try:
    # N-B
    VECTOR = [[425.0 + i * 2.5, 19.0 + i * 2.5, 29.0 + i * 2.5] for i in range(121)]
    #ManipulatorPhi.move(+21.1)
    #ManipulatorTilt.move(+0.5)
    #Scienta.getStepTime().write(0.824)
    #print VECTOR
    #vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)

    # N-N
    #ManipulatorPhi.move(-8.9)
    #ManipulatorTilt.move(+0.5)
    #Scienta.getStepTime().write(0.824)
    #vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)

    # B-Cu
    VECTOR = [[218.0 + i * 2.5, 19.0 + i * 2.5, 29.0 + i * 2.5] for i in range(121)]
    ManipulatorPhi.move(-8.9)
    ManipulatorTilt.move(+25.5)
    Scienta.getStepTime().write(1.47)
    vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)
finally:
    after_scan()