kopia lustrzana https://github.com/jamesgao/kiln_controller
298 wiersze
9.1 KiB
Python
298 wiersze
9.1 KiB
Python
import time
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import atexit
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import threading
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import warnings
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import Queue
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import logging
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logger = logging.getLogger("kiln.Stepper")
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try:
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from RPi import GPIO
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except ImportError:
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pass
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class Stepper(threading.Thread):
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pattern = [
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[1,1,0,0],
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[0,1,1,0],
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[0,0,1,1],
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[1,0,0,1]]
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def __init__(self, pin1=5, pin2=6, pin3=13, pin4=19, timeout=1, home_pin=None):
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super(Stepper, self).__init__()
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self.daemon = True
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self.queue = Queue.Queue()
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self.finished = threading.Event()
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self.pins = [pin1, pin2, pin3, pin4]
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GPIO.setmode(GPIO.BCM)
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GPIO.setup(pin1, GPIO.OUT)
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GPIO.setup(pin2, GPIO.OUT)
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GPIO.setup(pin3, GPIO.OUT)
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GPIO.setup(pin4, GPIO.OUT)
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self.home_pin = home_pin
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GPIO.setup(home_pin, GPIO.IN, pull_up_down=GPIO.PUD_UP)
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self.timeout = timeout
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self.home()
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self.start()
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def stop(self):
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self.queue.put((None, None, None))
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def step(self, num, speed=10, block=False):
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"""Step the stepper motor
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Parameters
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----------
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num : int
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Number of steps
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speed : int
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Number of steps per second
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block : bool
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Block while stepping?
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"""
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self.finished.clear()
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self.queue.put((num, speed, block))
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self.finished.wait()
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def home(self):
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if self.home_pin is None:
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raise ValueError("No homing switch defined")
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while GPIO.input(self.home_pin):
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for i in range(len(self.pattern)):
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for pin, out in zip(self.pins, self.pattern[i]):
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GPIO.output(pin, out)
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time.sleep(1. / 150.)
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self.phase = 0
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def run(self):
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try:
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step, speed, block = self.queue.get()
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while step is not None:
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for pin, out in zip(self.pins, self.pattern[self.phase%len(self.pattern)]):
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GPIO.output(pin, out)
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if block:
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self._step(step, speed)
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self.finished.set()
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else:
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self.finished.set()
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self._step_noblock(step, speed)
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try:
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step, speed, block = self.queue.get(True, self.timeout)
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except Queue.Empty:
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#handle the timeout, turn off all pins
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for pin in self.pins:
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GPIO.output(pin, False)
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step, speed, block = self.queue.get()
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except:
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import traceback
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traceback.print_exc()
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for pin in self.pins:
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GPIO.output(pin, False)
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GPIO.cleanup()
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def _step_noblock(self, step, speed):
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ispeed = 1. / (2.*speed)
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target = self.phase + step
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while self.phase != target:
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now = time.time()
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self.phase += 1 if target > self.phase else -1
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output = self.pattern[self.phase%len(self.pattern)]
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for pin, out in zip(self.pins, output):
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GPIO.output(pin, out)
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if not self.queue.empty():
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step, speed, block = self.queue.get()
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ispeed = 1. / (2.*speed)
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target += step
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if block:
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self._step(target - self.phase, speed)
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self.finished.set()
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diff = ispeed - (time.time() - now)
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if (diff) > 0:
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time.sleep(diff)
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else:
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warnings.warn("Step rate too high, stepping as fast as possible")
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def _step(self, step, speed):
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print "Stepping %d steps at %d steps / second"%(step, speed)
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if step < 0:
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steps = range(step, 0)[::-1]
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else:
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steps = range(step)
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for i in steps:
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now = time.time()
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output = self.pattern[(self.phase+i)%len(self.pattern)]
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for pin, out in zip(self.pins, output):
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GPIO.output(pin, out)
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diff = 1. / (2*speed) - (time.time() - now)
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if (diff) > 0:
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time.sleep(diff)
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self.phase += step
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class StepperSim(object):
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def __init__(self):
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self.phase = 0
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def step(self, num, speed=10, block=False):
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print "Simulated stepping %d steps at %d steps / second"%(num, speed)
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if block:
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time.sleep(1)
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def stop(self):
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print "stopping simulated regulator"
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class Regulator(threading.Thread):
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def __init__(self, maxsteps=4500, minsteps=2480, speed=150, ignite_pin=None, flame_pin=None, simulate=False):
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"""Set up a stepper-controlled regulator. Implement some safety measures
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to make sure everything gets shut off at the end
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TODO: integrate flame sensor by converting this into a thread, and checking
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flame state regularly. If flame sensor off, immediately increase gas and attempt
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reignition, or shut off after 5 seconds of failure.
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Parameters
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----------
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maxsteps : int
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The max value for the regulator, in steps
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minsteps : int
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The minimum position to avoid extinguishing the flame
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speed : int
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Speed to turn the stepper, in steps per second
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ignite_pin : int or None
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If not None, turn on this pin during the ignite sequence
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"""
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if simulate:
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self.stepper = StepperSim()
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else:
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self.stepper = Stepper()
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self.stepper.start()
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self.current = 0
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self.max = maxsteps
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self.min = minsteps
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self.speed = speed
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self.ignite_pin = ignite_pin
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if ignite_pin is not None:
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GPIO.setup(ignite_pin, OUT)
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self.flame_pin = flame_pin
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if flame_pin is not None:
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GPIO.setup(flame_pin, IN)
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def exit():
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if self.current != 0:
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self.off()
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self.stepper.stop()
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atexit.register(exit)
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def ignite(self, start=2800, delay=1):
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if self.current != 0:
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raise ValueError("Must be off to ignite")
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logger.info("Ignition start")
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self.stepper.step(start, self.speed, block=True)
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if self.ignite_pin is not None:
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GPIO.output(self.ignite_pin, True)
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time.sleep(delay)
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if self.ignite_pin is not None:
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GPIO.output(self.ignite_pin, False)
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self.stepper.step(self.min - start, self.speed, block=True)
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self.current = self.min
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logger.info("Ignition complete")
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def off(self, block=True):
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logger.info("Shutting off gas")
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self.stepper.step(-self.current, self.speed, block=block)
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#self.stepper.home()
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self.current = 0
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def set(self, value, block=False):
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if self.current == 0:
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raise ValueError("System must be ignited to set value")
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if not 0 <= value <= 1:
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raise ValueError("Must give fraction between 0 and 1")
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target = int(value * (self.max - self.min) + self.min)
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nsteps = target - self.current
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print "Currently at %d, target %d, stepping %d"%(self.current, target, nsteps)
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self.current = target
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self.stepper.step(nsteps, self.speed, block=block)
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@property
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def output(self):
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out = (self.current - self.min) / float(self.max - self.min)
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if out < 0:
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return -1
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return out
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def run(self):
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"""Check the status of the flame sensor"""
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#since the flame sensor does not yet exist, we'll save this for later
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pass
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class Breakout(object):
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def __init__(self, addr, maxsteps=6500, minsteps=((2600, 0), (2300, 15)) ):
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import breakout
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self.device = breakout.Breakout(addr)
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self.min_interp = minsteps
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self.max = maxsteps
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def exit():
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if self.device.motor != 0:
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self.off()
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atexit.register(exit)
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@property
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def min(self):
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temp = self.device.status.aux_temp0
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if temp > self.min_interp[1][1]:
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return self.min_interp[1][0]
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elif temp <= self.min_interp[0][1]:
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return self.min_interp[0][0]
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else:
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mrange = self.min_interp[0][0] - self.min_interp[1][0]
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trange = self.min_interp[1][1] - self.min_interp[0][1]
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mix = (temp - self.min_interp[0][1]) / float(trange)
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return mrange * mix + self.min_interp[1][0]
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def ignite(self, start=2400):
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logger.info("Igniting system")
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self.device.motor = start
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while self.device.motor != start:
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time.sleep(.1)
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self.device.motor = self.min
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@property
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def output(self):
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m = self.min
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out = (self.device.motor - m) / float(self.max - m)
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if out < 0:
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return -1
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return out
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def set(self, value):
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m = self.min
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if self.device.motor == 0:
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raise ValueError('Must ignite first')
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if not 0 <= value <= 1:
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raise ValueError('Must give value between 0 and 1')
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self.device.motor = int((self.max - m)*value + m)
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def off(self):
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self.device.motor = 0
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self.device.ignite = 0
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logger.info("Shutting off regulator")
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