pm100d_waist.py
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#!/usr/bin/env python
import argparse, time, os
import matplotlib.pyplot as plt
#==============================================================================
# Path
PATH = os.getcwd()
# File footer
OFILENAME = '130'
#==============================================================================
def parse():
"""
Specific parsing procedure for transfering data from Thorlabs PM100D.
:returns: populated namespace (parser)
"""
parser = argparse.ArgumentParser(description = 'Acquire data from Thorlabs PM100D',
epilog = 'Example: \'./pm100d.py -st 10 -o toto\' logs PM100D every 10 seconds to output file YYYYMMDD-HHMMSS-toto.dat')
parser.add_argument('-p',
action='store',
dest='path',
default=PATH,
help='Absolute path (default '+PATH+')')
parser.add_argument('-o',
action='store',
dest='ofile',
default=OFILENAME,
help='Output data filename (default '+OFILENAME+')')
args = parser.parse_args()
return args
#==============================================================================
class usbtmc:
def __init__(self, device):
self.device = device
self.FILE = os.open(device, os.O_RDWR)
def write(self, command):
os.write(self.FILE, command);
def read(self, length = 4000):
return os.read(self.FILE, length)
def getName(self):
self.write("*IDN?")
return self.read(300)
def sendReset(self):
self.write("*RST")
#==============================================================================
class instrument:
"""Class to control a SCPI compatible instrument"""
def __init__(self, device):
print 'Connecting to device %s...' %device
self.meas = usbtmc(device)
self.name = self.meas.getName()
print self.name
print ' --> Ok'
def write(self, command):
"""Send an arbitrary command directly to the scope"""
self.meas.write(command)
def read(self, command):
"""Read an arbitrary amount of data directly from the scope"""
return self.meas.read(command)
def reset(self):
"""Reset the instrument"""
self.meas.sendReset()
def value(self):
self.write('MEAS?')
return self.read(300)
#==============================================================================
def acqu_PM100D(instrument, path, ofile):
t0 = time.time()
filename = time.strftime("%Y%m%d-%H%M%S", time.gmtime(t0)) + '-' + ofile + '.dat'
print('Opening %s' %filename)
data_file = open(filename, 'wr', 0)
dx = 0.
xmes = []
Pmes = []
plt.ion()
fig = plt.figure()
ax1 = fig.add_subplot(111)
line1, = ax1.plot(xmes, Pmes, 'o')
# Infinite loop
while True:
try:
keypressed = raw_input("Press Enter to continue...\n")
if keypressed=='':
# Power values
sensors_values = instrument.value()
sensors_values = sensors_values.replace('E', 'e')
string = "%f\t%s" % (dx , sensors_values)
data_file.write(string) # Write in a file
print(string)
xmes.append(dx)
Pmes.append(float(sensors_values))
dx = dx + 0.05
elif keypressed.isdigit():
print('Closing %s' %filename)
data_file.close()
t0 = time.time()
filename = time.strftime("%Y%m%d-%H%M%S", time.gmtime(t0)) + '-' + keypressed + '.dat'
print('Opening %s' %filename)
data_file = open(filename, 'wr', 0)
dx = 0.
xmes = []
Pmes = []
line1, = ax1.plot(xmes, Pmes, 'o')
else:
raise KeyboardInterrupt
line1.set_data(xmes, Pmes)
ax1.relim()
ax1.autoscale_view()
fig.canvas.draw()
except Exception as ex:
print 'Exception during controler data reading: ' + str(ex)
except KeyboardInterrupt:
print '\n --> Disconnected'
data_file.close()
# To stop the loop in a clean way
break
#==============================================================================
def main():
"""
Main script
"""
# Parse command line
args = parse()
# path
path = args.path
# Data output filename
ofile = args.ofile
try:
pm100 = instrument("/dev/usbtmc0")
# acquisition with 2 sec. timeout
acqu_PM100D(pm100, path, ofile)
except Exception as ex:
print 'Oups '+str(ex)
print 'Program ending\n'
#==============================================================================
if __name__ == "__main__":
main()