x11ma/script/templates/DelayScanBasic.py

print "\nStarting delay scan - Parameters: ",
print START,END,STEP,ENERGIES,ROUNDS, RUNTYPE

run("utils")
polswitch = 1 

####################### Set Delay and fine delay function #####################
LPP_DELAY_NEW = 0
LPP_FINE_DELAY_NEW = 0


def Convert_LPP_Delays(NewDelay):
    global LPP_DELAY_NEW, LPP_FINE_DELAY_NEW
    LPP_DELAY_NEW = math.trunc(((-NewDelay*100.0+DELAY*(1E9/SLS_freq.read())*100+FINEDELAY)/100.0)/(1E9/SLS_freq.read()))
    LPP_FINE_DELAY_NEW = math.trunc(-NewDelay*100.0+DELAY*1E9/SLS_freq.read()*100+FINEDELAY-LPP_DELAY_NEW*(1E9/SLS_freq.read()*100.0))
    
def Timing(New_Time):
    caput (TIME_DELAY_SET, New_Time)
    caput (TIME_DELAY_START, 1)
    Convert_LPP_Delays(New_Time)
    caput (LPP_DELAY, LPP_DELAY_NEW)
    caput (LPP_FINE_DELAY, LPP_FINE_DELAY_NEW)  
    wait_channel(TIME_DELAY_COMPLETE, 'SCAN Complete', timeout=10+abs((caget(TIME_DELAY_SET, type='d')-caget(TIME_DELAY_VAL, type='d')))*10) 

##################### Setting filenames #######################################

file_prefix = time.strftime("%y%m%d")
sep = "\t"
line_sep = "\r\n"

input_path =  PATH
output_path = input_path

###############################################################################
#Prepare scan
###############################################################################

x=ENERGIES
y = []
x=x.split(',')
for i in x:
    y.append(float(i))

caput ("X11PHS-E:OPT","PGM+ID1+ID2")

if RUNTYPE in ["+/-", "+", "-"]:
    caput(ID1_MODE,1) # circ + in ID1 
    caput(ID2_MODE,2) # circ - in ID2
    wait_channel(All_DONE, 1, type = 'i')
    if RUNTYPE == "+/-":
        number_of_scans = 2 * ROUNDS
    else: 
        number_of_scans = ROUNDS
elif RUNTYPE in ["LH/LV", "LH", "LV"]:
    caput(ID1_MODE,0)
    caput(ID2_MODE,0)
    wait_channel(ALL_DONE, 1, type = 'i')
    caput(ID1_ALPHA, 0.0)  # LH in ID1
    caput(ID2_ALPHA, 90.0) # LV in ID2
    wait_channel(ALL_DONE, 1, type = 'i')
    if RUNTYPE == "LH/LV":
        number_of_scans = 2 * ROUNDS
    else:
        number_of_scans = ROUNDS
else:
    raise Exception("Invalid run type: " +  RUNTYPE)

if RUNTYPE in ["-", "LV"]:
    switchpol(2, RUNTYPE) # tune ID2 --> polarization: C- or LV
    polswitch = 0
elif RUNTYPE in ["+/-", "+", "LH/LV", "LH"]:
    switchpol(1, RUNTYPE) # tune ID1 --> polarization: C+ or LH
time.sleep(1.0)

caput (TIME_DELAY_SET, START)
caput (TIME_DELAY_START, 1)
if START == 0:
    caput (LPP_DELAY, DELAY)
    caput (LPP_FINE_DELAY, FINEDELAY)
    wait_channel(TIME_DELAY_COMPLETE, 'SCAN Complete', timeout= 10)
else:
    Convert_LPP_Delays(caget(TIME_DELAY_SET, type='d'))
    caput (LPP_DELAY, LPP_DELAY_NEW)
    caput (LPP_FINE_DELAY, LPP_FINE_DELAY_NEW)
    wait_channel(TIME_DELAY_COMPLETE, 'SCAN Complete', timeout= abs((caget(TIME_DELAY_SET, type='d')-caget(TIME_DELAY_VAL, type='d')))*10)

###############################################################################
#DAQ function
###############################################################################

def Daq():
    # Your Data Aquisition function 

        
###############################################################################
# Scanning
###############################################################################


for scan_no  in range(number_of_scans):

    print "Running polarisation " + str(scan_no+1) + " out of " + str(number_of_scans)

    Delay_Time = START
    while Delay_Time <= END:
            Timing(Delay_Time)
            for en in y:
                caput(ENERGY_SP,en)
                wait_channel(ALL_DONE, 1, type = 'i')
                Daq(Delay_Time)
            Delay_Time += STEP

    print "Finished polarisation " + str(scan_no+1) + " out of " + str(number_of_scans)
    if RUNTYPE in ["+/-", "LH/LV"]:
        if polswitch == 1:
            switchpol(2, RUNTYPE) # tune ID2 --> polarization: C- or LV
            polswitch = 0
        else:
            polswitch = 1
            switchpol(1, RUNTYPE) # tune ID1 --> polarization: C+ or LH
    else:
        print "running in one polarization mode"

print "Finished Delay scan"