import  ch.psi.pshell.epics.ChannelDouble as ChannelDouble

#t = ChannelDouble("delay (us)", "SINEG01-DICT009-EVR0:Pul0-Delay-SP")
t = ChannelDouble("fine delay (ns)", "SINEG01-DICT009-EVR0:UnivDlyModule0-Delay0-SP")
q = ChannelDouble("charge (pC)", "SINEG01-DICT215:B1_CHARGE")
V = ChannelDouble("DC output (V)", "SINEG01-DICT215:B1_VOLTAGE")
t.initialize()
q.initialize()
V.initialize()

t0 = t.read()

#start   = 1001.010
#stop    = 1001.080
#step    = 0.001
#nb      = 1
#lat     = 0.300
start   = 0.0
stop    = 12.7
step    = 0.1
nb      = 5
lat     = 0.150


try:
    q_averager = create_averager(q, nb, lat)
    V_averager = create_averager(V, nb, lat)
    V_averager.monitored=True
    r = lscan(t, (q_averager, V_averager), start, stop, step, latency=lat)
    delay     = r.getPositions(0)
    charge    = [val.mean for val in r.getReadable(0)]
    chargerms = [val.stdev for val in r.getReadable(0)]
    volt      = [val.mean for val in r.getReadable(1)]
    voltrms   = [val.stdev for val in r.getReadable(1)]
finally:
    t.write(t0)
    t.close()
    q.close()
    V.close()