import numpy as np from slic.utils import nice_arange from time import sleep #def kescan3D(): # x0 = 11.0 # y0 = 4.0 # z0 = 0.029 # npulses = 500 # step = 0.0005 # xstart = 10.535 # xstop = 10.575 # ystart = 0.295 # ystop = 0.335 # ntry = "04" # wait_time = 0.1 # for i in range(100): ## for z_val in nice_arange(z0-1.0, z0+0.2, 0.05): ## for z_val in np.linspace(z0-1.0, z0+0.2, 25): # for z_val in list(reversed(list(z0 + np.linspace(-1.0, -0.4, 5)) + list(z0 + np.linspace(-0.2, 0.2, 5)))): # mot_z.set(z_val).wait() # print(i) # print(mot_x) # print(mot_y) # print(mot_z) # mot_y.set(y0).wait() # mot_x.set(xstart).wait() # scan.scan1D(mot_x, xstart, xstop, step, npulses, f"focus_knifeedge3D_x_scan_{ntry}_{z_val}", return_to_initial_values=False) # sleep(wait_time) # print(mot_x) # print(mot_y) # print(mot_z) # mot_x.set(x0).wait() # mot_y.set(ystart).wait() # scan.scan1D(mot_y, ystart, ystop, step, npulses, f"focus_knifeedge3D_y_scan_{ntry}_{z_val}", return_to_initial_values=False) # sleep(wait_time) # print("-" * 10) # print() #from time import time #def overnight(): # current = mot_z.get_current_value() # start = time() # ntry = 7 # for i in range(100): # si = str(i).zfill(6) # fname = f"z_hop_{ntry}_coarse_{si}" # print(fname) # print(current, mot_z) # mot_z.set_target_value(current).wait() ## sleep(0.5) # if np.abs(mot_z.get_current_value() - current) > 0.01: # break # print(current, mot_z) # scan.scan1D(mot_z, -0.1, +0.1, 0.1, 500, fname, relative=True, return_to_initial_values=True) # print(current, mot_z) ## sleep(0.5) # fname = f"z_hop_{ntry}_fine_{si}" # print(fname) # print(current, mot_z) # mot_z.set_target_value(current).wait() ## sleep(0.5) # if np.abs(mot_z.get_current_value() - current) > 0.01: # break # print(current, mot_z) # scan.scan1D(mot_z, -0.01, +0.01, 0.001, 500, fname, relative=True, return_to_initial_values=True) # print(current, mot_z) ## sleep(0.5) # now = time() # deltat = now - start # print(start, now, deltat, 4*60*60) # if deltat > 4*60*60: # break #def kescan3Dv2(): # x0 = 23.947 # y0 = 0 # npulses = 25 * 100/25 # step = 0.0005 # xstart = 21.897 # xstop = 21.997 # ystart = -2.573 # ystop = -2.713 # wait_time = 0.01 # for i in range(100): # for z_val in nice_arange(0.2, -1.3, 0.1): # mot_z.set(z_val).wait() # print(i) # print(mot_x) # print(mot_y) # print(mot_z) # mot_y.set(y0).wait() # mot_x.set(xstart).wait() # scan.scan1D(mot_x, xstart, xstop, step, npulses, f"focus_knifeedge3D_v2_x_scan_{i}_{z_val}", return_to_initial_values=False) # sleep(wait_time) # print(mot_x) # print(mot_y) # print(mot_z) # mot_x.set(x0).wait() # mot_y.set(ystart).wait() # scan.scan1D(mot_y, ystart, ystop, step, npulses, f"focus_knifeedge3D_v2_y_scan_{i}_{z_val}", return_to_initial_values=False) # sleep(wait_time) # print("-" * 10) # print() #def tof_loop(): # for i in range(50): # fn = f"tof_loop2_{i}" # daq.acquire(fn, n_pulses=10*10000) #from time import sleep #def overnight(): # sig = 101.617 # bkg = sig + 1 # while True: # delay.set(sig).wait() # sleep(10) # daq.acquire("TT_overnight_sig", n_pulses=10 * 10000) # delay.set(bkg).wait() # daq.acquire("TT_overnight_bkg", n_pulses=10 * 1000) # sleep(10) #def overnight(): # start = 102.1 # stop = 102.4 # step = 0.015 # n_pulses = 10 * 500 # bkg = 103.3 # for i in range(1000): # print(i, "sig") # delay.set(start).wait() # sleep(10) # scan.scan1D(delay, start, stop, step, n_pulses, f"TT_overnight2_sig_{i:04}", return_to_initial_values=False) # print(i, "bkg") # delay.set(bkg).wait() # daq.acquire(f"TT_overnight2_bkg_{i:04}", n_pulses=n_pulses) # sleep(10) #def overnight(): # start = 102.0 # stop = 102.3 # step = 0.0075 # n_pulses = 10 * 500 # bkg = 103.3 # for i in range(1000): # print(i, "sig") # delay.set(start).wait() # sleep(10) # scan.scan1D(delay, start, stop, step, n_pulses, f"TT_overnight3_sig_{i:04}", return_to_initial_values=False) # print(i, "bkg") # delay.set(bkg).wait() # daq.acquire(f"TT_overnight3_bkg_{i:04}", n_pulses=n_pulses) # sleep(10)