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serial-control.py
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serial-control.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# Log the temperatures reported by the oven in a live plot and
# in a CSV file.
#
# Requires
# python 2.7
# - pyserial (python-serial in ubuntu, pip install pyserial)
# - matplotlib (python-matplotlib in ubuntu, pip install matplotlib)
#
import csv
import datetime
import matplotlib.pyplot as plt
import matplotlib.gridspec as gridspec
import serial
import sys
from time import time
# settings
#
FIELD_NAMES = 'Time,Temp0,Temp1,Temp2,Temp3,Set,Actual,Heat,Fan,ColdJ,Mode'
TTYs = ('/dev/ttyUSB0', '/dev/ttyUSB1', '/dev/ttyUSB2')
BAUD_RATE = 115200
logdir = 'logs/'
MAX_X = 470
MAX_Y_temperature = 300
MAX_Y_pwm = 260
#
# end of settings
def timestamp(dt=None):
if dt is None:
dt = datetime.datetime.now()
return dt.strftime('%Y-%m-%d-%H%M%S')
def logname(filetype, profile):
return '%s%s-%s.%s' % (
logdir,
timestamp(),
profile.replace(' ', '_').replace('/', '_'),
filetype
)
def get_tty():
for devname in TTYs:
try:
port = serial.Serial(devname, baudrate=BAUD_RATE)
print 'Using serial port %s' % port.name
return port
except:
print 'Tried serial port %s, but failed.' % str(devname)
pass
return None
class Line(object):
def __init__(self, axis, key, label=None):
self.xvalues = []
self.yvalues = []
self._key = key
self._line, = axis.plot(self.xvalues, self.yvalues, label=label or key)
def add(self, log):
self.xvalues.append(log['Time'])
self.yvalues.append(log[self._key])
self.update()
def update(self):
self._line.set_data(self.xvalues, self.yvalues)
def clear(self):
self.xvalues = []
self.yvalues = []
self.update()
class Log(object):
profile = ''
last_action = None
def __init__(self):
self.init_plot()
self.clear_logs()
def clear_logs(self):
self.raw_log = []
map(Line.clear, self.lines)
self.mode = ''
def init_plot(self):
plt.ion()
gs = gridspec.GridSpec(2, 1, height_ratios=(4, 1))
fig = plt.figure(figsize=(14, 10))
axis_upper = fig.add_subplot(gs[0])
axis_lower = fig.add_subplot(gs[1])
plt.subplots_adjust(hspace=0.05, top=0.95, bottom=0.05, left=0.05, right=0.95)
# setup axis for upper graph (temperature values)
axis_upper.set_ylabel(u'Temperature [°C]')
axis_upper.set_xlim(0, MAX_X)
axis_upper.set_xticklabels([])
axis_upper.set_ylim(0, MAX_Y_temperature)
# setup axis for lower graph (PWM values)
axis_lower.set_xlim(0, MAX_X)
axis_lower.set_ylim(0, MAX_Y_pwm)
axis_lower.set_ylabel('PWM value')
axis_lower.set_xlabel('Time [s]')
# select values to be plotted
self.lines = [
Line(axis_upper, 'Actual'),
Line(axis_upper, 'Temp0'),
Line(axis_upper, 'Temp1'),
Line(axis_upper, 'Set', u'Setpoint'),
Line(axis_upper, 'ColdJ', u'Coldjunction'),
# Line(axis_upper, 'Temp2'),
# Line(axis_upper, 'Temp3'),
Line(axis_lower, 'Fan'),
Line(axis_lower, 'Heat', 'Heater')
]
axis_upper.legend()
axis_lower.legend()
plt.draw()
self.axis_upper = axis_upper
self.axis_lower = axis_lower
def save_logfiles(self):
print 'Saved log in %s ' % logname('csv', self.profile)
plt.savefig(logname('png', self.profile))
plt.savefig(logname('pdf', self.profile))
with open(logname('csv', self.profile), 'w+') as csvout:
writer = csv.DictWriter(csvout, FIELD_NAMES.split(','))
writer.writeheader()
for l in self.raw_log:
writer.writerow(l)
def parse(self, line):
values = map(str.strip, line.split(','))
# Convert all values to float, except the mode
values = map(float, values[0:-1]) + [values[-1], ]
fields = FIELD_NAMES.split(',')
if len(values) != len(fields):
raise ValueError('Expected %d fields, found %d' % (len(fields), len(values)))
return dict(zip(fields, values))
def process_log(self, logline):
# ignore 'comments'
if logline.startswith('#'):
print logline
return
# parse Profile name
if logline.startswith('Starting reflow with profile: '):
self.profile = logline[30:].strip()
return
if logline.startswith('Selected profile'):
self.profile = logline[20:].strip()
return
try:
log = self.parse(logline)
except ValueError, e:
if len(logline) > 0:
print '!!', logline
return
if 'Mode' in log:
# clean up log before starting reflow
if self.mode == 'STANDBY' and log['Mode'] in ('BAKE', 'REFLOW'):
self.clear_logs()
# save png graph an csv file when bake or reflow ends.
if self.mode in ('BAKE', 'REFLOW') and log['Mode'] == 'STANDBY':
self.save_logfiles()
self.mode = log['Mode']
if log['Mode'] == 'BAKE':
self.profile = 'bake'
if log['Mode'] in ('REFLOW', 'BAKE'):
self.last_action = time()
self.axis_upper.set_title('Profile: %s Mode: %s ' % (self.profile, self.mode))
if 'Time' in log and log['Time'] != 0.0:
if 'Actual' not in log:
return
# update all lines
map(lambda x: x.add(log), self.lines)
self.raw_log.append(log)
# update view
plt.draw()
def isdone(self):
return (
self.last_action is not None and
time() - self.last_action > 5
)
def loop_all_profiles(num_profiles=6):
log = Log()
with get_tty() as port:
profile = 0
def select_profile(profile):
port.write('stop\n')
port.write('select profile %d\n' % profile)
port.write('reflow\n')
select_profile(profile)
while True:
logline = port.readline().strip()
if log.isdone():
log.last_action = None
profile += 1
if profile > 6:
print 'Done.'
sys.exit()
select_profile(profile)
log.process_log(logline)
def logging_only():
log = Log()
with get_tty() as port:
while True:
log.process_log(port.readline().strip())
if __name__ == '__main__':
action = sys.argv[1] if len(sys.argv) > 1 else 'log'
if action == 'log':
print 'Logging reflow sessions...'
logging_only()
elif action == 'test':
print 'Looping over all profiles'
loop_all_profiles()
else:
print 'Unknown action', action