sf-op/script/Alignment/Gun_solenoid_alignment.py

# Tool to align the solenoid on the gun.
# S. Bettoni, A. Gobbo, D. Voulot
# 06/06/2016
#Code ok with the GUI

# Procedure:
    # switch off all the magnets between the gun solenoid and the screen or BPM used for the measurement
    # change the current of the gun soleoid
    # look at the centroid position (BPM or screen) downstream of the gun.

import datetime

use_bpm = False

if get_exec_pars().source == CommandSource.ui:
    I1 = 95.0
    I2 = 100.0
    dI = 1.0
    settling_time = 0.1
    plot_image = False    
    number_images = 5
    use_background = True
    multiple_background = False
    number_backgrounds = 5
    do_elog = False    
    centroid_excursion_plot = True
else:
    centroid_excursion_plot = False

#from camtool import CamTool
run("camtool")
#from ImageStats import ImageStats, get_simulated_source

laser_was_on = is_laser_on()
original_gun_solenoid = gun_solenoid.read()
    

multiple_background = multiple_background and use_background   
print "Parameters: ", I1, I2, dI, settling_time, plot_image, number_images, use_background, multiple_background, number_backgrounds 

plot_name = datetime.datetime.fromtimestamp(time.time()).strftime('%H%M%S')


if (use_bpm):
    add_device(BpmStats("image_stats", "SINEG01-DBPM340"), True)
    use_background = False
    multiple_background = False    
else:
    if get_device("image_stats") is None:
        print "Instantiating camtool"    
        add_device(CamTool("image_stats",  prefix = "SINEG01-DSCR190:", latch = True, camera = "SINEG01-DSCR190"), True)
    if (image_stats.latch):
        image_stats.start()
#add_device(ImageStats("image_stats", get_simulated_source(image)), True)

image_stats.setNumberOfImages(max(number_images,1))
image_stats.enableBackground (use_background)
if use_background:    
    laser_off()
    if not multiple_background:
        image_stats.captureBackground(number_backgrounds)

# Switch off magnets
mag = [ "SINEG01-MCRX120","SINEG01-MCRY120",
        "SINEG01-MQUA140",
        "SINEG01-MQUA150",
        "SINEG01-MCRX160","SINEG01-MCRY160",
        "SINEG01-MCRX180","SINEG01-MCRY180",
        "SINEG01-MCRX200","SINEG01-MCRY200",
        "SINEG01-MCRX220","SINEG01-MCRY220",
        "SINEG01-MQUA310",
        "SINEG01-MQUA320" ]

#switch_off_magnets(mag)   

# add here gun phase setting see wiki page

def before_sample():    
    if multiple_background:
        image_stats.captureBackground(number_backgrounds)
        laser_on()            
    image_stats.update()
    
def after_sample():
    if multiple_background:
        laser_off()    
     
r = None
if not multiple_background:
    laser_on()

try:    
    #sensors =  [image_stats.com_x, image_stats.com_y] 
    sensors =  [image_stats.com_x_mean, image_stats.com_y_mean, image_stats.com_x_stdev, image_stats.com_y_stdev] 
    if plot_image:
        sensors.append(image_stats.image)
    r = lscan(gun_solenoid, sensors , I1, I2, dI, settling_time, before_read = before_sample, after_read = after_sample)
finally:
    #laser_off()
    pass

#image_stats.stop()

gun_solenoid.write(original_gun_solenoid)
if laser_was_on:
    laser_on()
else:
    laser_off()


# take the result of the scan and generate convex hull plot
if centroid_excursion_plot:
    (hx,hy)=add_convex_hull_plot ("Centroid excursion", r.getReadable(0),r.getReadable(1), plot_name)
else:   
    (hx,hy)= convex_hull(x=r.getReadable(0), y=r.getReadable(1))
    hx.append(hx[0]); hy.append(hy[0])        

# save the entry in the logbook
gsa_log_msg = "Data file: " + get_exec_pars().path
gsa_log_msg = gsa_log_msg + "\nImages: " + str(number_images)
gsa_log_msg = gsa_log_msg + "\nBackground: enabled=" + str(use_background) + " multiple="  + str(multiple_background) + " number="  + str(number_backgrounds) 
gsa_log_msg = gsa_log_msg + "\n\n" + r.print()
if do_elog:
    elog("Gun solenoid current scan", gsa_log_msg , get_plot_snapshots())

_ = [r, hx, hy]
set_return([r, hx, hy])