Formatting

This commit is contained in:
atse 2024-07-03 14:40:13 +08:00
parent 01e4ff8dd5
commit 0f708c0298
13 changed files with 164 additions and 97 deletions

3
pytec/.flake8 Normal file
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@ -0,0 +1,3 @@
[flake8]
max-line-length = 88
extend-ignore = E203,E701

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@ -12,16 +12,16 @@ from pytec.client import Client
class PIDAutotuneState(Enum): class PIDAutotuneState(Enum):
STATE_OFF = 'off' STATE_OFF = "off"
STATE_RELAY_STEP_UP = 'relay step up' STATE_RELAY_STEP_UP = "relay step up"
STATE_RELAY_STEP_DOWN = 'relay step down' STATE_RELAY_STEP_DOWN = "relay step down"
STATE_SUCCEEDED = 'succeeded' STATE_SUCCEEDED = "succeeded"
STATE_FAILED = 'failed' STATE_FAILED = "failed"
STATE_READY = 'ready' STATE_READY = "ready"
class PIDAutotune: class PIDAutotune:
PIDParams = namedtuple('PIDParams', ['Kp', 'Ki', 'Kd']) PIDParams = namedtuple("PIDParams", ["Kp", "Ki", "Kd"])
PEAK_AMPLITUDE_TOLERANCE = 0.05 PEAK_AMPLITUDE_TOLERANCE = 0.05
@ -31,13 +31,14 @@ class PIDAutotune:
"ciancone-marlin": [0.303, 0.1364, 0.0481], "ciancone-marlin": [0.303, 0.1364, 0.0481],
"pessen-integral": [0.7, 1.75, 0.105], "pessen-integral": [0.7, 1.75, 0.105],
"some-overshoot": [0.333, 0.667, 0.111], "some-overshoot": [0.333, 0.667, 0.111],
"no-overshoot": [0.2, 0.4, 0.0667] "no-overshoot": [0.2, 0.4, 0.0667],
} }
def __init__(self, setpoint, out_step=10, lookback=60, def __init__(
noiseband=0.5, sampletime=1.2): self, setpoint, out_step=10, lookback=60, noiseband=0.5, sampletime=1.2
):
if setpoint is None: if setpoint is None:
raise ValueError('setpoint must be specified') raise ValueError("setpoint must be specified")
self._inputs = deque(maxlen=round(lookback / sampletime)) self._inputs = deque(maxlen=round(lookback / sampletime))
self._setpoint = setpoint self._setpoint = setpoint
@ -84,7 +85,7 @@ class PIDAutotune:
"""Get a list of all available tuning rules.""" """Get a list of all available tuning rules."""
return self._tuning_rules.keys() return self._tuning_rules.keys()
def get_pid_parameters(self, tuning_rule='ziegler-nichols'): def get_pid_parameters(self, tuning_rule="ziegler-nichols"):
"""Get PID parameters. """Get PID parameters.
Args: Args:
@ -97,7 +98,7 @@ class PIDAutotune:
kd = divisors[2] * self._Ku * self._Pu kd = divisors[2] * self._Ku * self._Pu
return PIDAutotune.PIDParams(kp, ki, kd) return PIDAutotune.PIDParams(kp, ki, kd)
def get_tec_pid (self): def get_tec_pid(self):
divisors = self._tuning_rules["tyreus-luyben"] divisors = self._tuning_rules["tyreus-luyben"]
kp = self._Ku * divisors[0] kp = self._Ku * divisors[0]
ki = divisors[1] * self._Ku / self._Pu ki = divisors[1] * self._Ku / self._Pu
@ -116,28 +117,34 @@ class PIDAutotune:
""" """
now = time_input * 1000 now = time_input * 1000
if (self._state == PIDAutotuneState.STATE_OFF if (
self._state == PIDAutotuneState.STATE_OFF
or self._state == PIDAutotuneState.STATE_SUCCEEDED or self._state == PIDAutotuneState.STATE_SUCCEEDED
or self._state == PIDAutotuneState.STATE_FAILED or self._state == PIDAutotuneState.STATE_FAILED
or self._state == PIDAutotuneState.STATE_READY): or self._state == PIDAutotuneState.STATE_READY
):
self._state = PIDAutotuneState.STATE_RELAY_STEP_UP self._state = PIDAutotuneState.STATE_RELAY_STEP_UP
self._last_run_timestamp = now self._last_run_timestamp = now
# check input and change relay state if necessary # check input and change relay state if necessary
if (self._state == PIDAutotuneState.STATE_RELAY_STEP_UP if (
and input_val > self._setpoint + self._noiseband): self._state == PIDAutotuneState.STATE_RELAY_STEP_UP
and input_val > self._setpoint + self._noiseband
):
self._state = PIDAutotuneState.STATE_RELAY_STEP_DOWN self._state = PIDAutotuneState.STATE_RELAY_STEP_DOWN
logging.debug('switched state: {0}'.format(self._state)) logging.debug("switched state: {0}".format(self._state))
logging.debug('input: {0}'.format(input_val)) logging.debug("input: {0}".format(input_val))
elif (self._state == PIDAutotuneState.STATE_RELAY_STEP_DOWN elif (
and input_val < self._setpoint - self._noiseband): self._state == PIDAutotuneState.STATE_RELAY_STEP_DOWN
and input_val < self._setpoint - self._noiseband
):
self._state = PIDAutotuneState.STATE_RELAY_STEP_UP self._state = PIDAutotuneState.STATE_RELAY_STEP_UP
logging.debug('switched state: {0}'.format(self._state)) logging.debug("switched state: {0}".format(self._state))
logging.debug('input: {0}'.format(input_val)) logging.debug("input: {0}".format(input_val))
# set output # set output
if (self._state == PIDAutotuneState.STATE_RELAY_STEP_UP): if self._state == PIDAutotuneState.STATE_RELAY_STEP_UP:
self._output = self._initial_output - self._outputstep self._output = self._initial_output - self._outputstep
elif self._state == PIDAutotuneState.STATE_RELAY_STEP_DOWN: elif self._state == PIDAutotuneState.STATE_RELAY_STEP_DOWN:
self._output = self._initial_output + self._outputstep self._output = self._initial_output + self._outputstep
@ -180,8 +187,8 @@ class PIDAutotune:
self._peak_count += 1 self._peak_count += 1
self._peaks.append(input_val) self._peaks.append(input_val)
self._peak_timestamps.append(now) self._peak_timestamps.append(now)
logging.debug('found peak: {0}'.format(input_val)) logging.debug("found peak: {0}".format(input_val))
logging.debug('peak count: {0}'.format(self._peak_count)) logging.debug("peak count: {0}".format(self._peak_count))
# check for convergence of induced oscillation # check for convergence of induced oscillation
# convergence of amplitude assessed on last 4 peaks (1.5 cycles) # convergence of amplitude assessed on last 4 peaks (1.5 cycles)
@ -191,20 +198,19 @@ class PIDAutotune:
abs_max = self._peaks[-2] abs_max = self._peaks[-2]
abs_min = self._peaks[-2] abs_min = self._peaks[-2]
for i in range(0, len(self._peaks) - 2): for i in range(0, len(self._peaks) - 2):
self._induced_amplitude += abs(self._peaks[i] self._induced_amplitude += abs(self._peaks[i] - self._peaks[i + 1])
- self._peaks[i+1])
abs_max = max(self._peaks[i], abs_max) abs_max = max(self._peaks[i], abs_max)
abs_min = min(self._peaks[i], abs_min) abs_min = min(self._peaks[i], abs_min)
self._induced_amplitude /= 6.0 self._induced_amplitude /= 6.0
# check convergence criterion for amplitude of induced oscillation # check convergence criterion for amplitude of induced oscillation
amplitude_dev = ((0.5 * (abs_max - abs_min) amplitude_dev = (
- self._induced_amplitude) 0.5 * (abs_max - abs_min) - self._induced_amplitude
/ self._induced_amplitude) ) / self._induced_amplitude
logging.debug('amplitude: {0}'.format(self._induced_amplitude)) logging.debug("amplitude: {0}".format(self._induced_amplitude))
logging.debug('amplitude deviation: {0}'.format(amplitude_dev)) logging.debug("amplitude deviation: {0}".format(amplitude_dev))
if amplitude_dev < PIDAutotune.PEAK_AMPLITUDE_TOLERANCE: if amplitude_dev < PIDAutotune.PEAK_AMPLITUDE_TOLERANCE:
self._state = PIDAutotuneState.STATE_SUCCEEDED self._state = PIDAutotuneState.STATE_SUCCEEDED
@ -218,25 +224,24 @@ class PIDAutotune:
if self._state == PIDAutotuneState.STATE_SUCCEEDED: if self._state == PIDAutotuneState.STATE_SUCCEEDED:
self._output = 0 self._output = 0
logging.debug('peak finding successful') logging.debug("peak finding successful")
# calculate ultimate gain # calculate ultimate gain
self._Ku = 4.0 * self._outputstep / \ self._Ku = 4.0 * self._outputstep / (self._induced_amplitude * math.pi)
(self._induced_amplitude * math.pi) logging.debug("Ku: {0}".format(self._Ku))
logging.debug('Ku: {0}'.format(self._Ku))
# calculate ultimate period in seconds # calculate ultimate period in seconds
period1 = self._peak_timestamps[3] - self._peak_timestamps[1] period1 = self._peak_timestamps[3] - self._peak_timestamps[1]
period2 = self._peak_timestamps[4] - self._peak_timestamps[2] period2 = self._peak_timestamps[4] - self._peak_timestamps[2]
self._Pu = 0.5 * (period1 + period2) / 1000.0 self._Pu = 0.5 * (period1 + period2) / 1000.0
logging.debug('Pu: {0}'.format(self._Pu)) logging.debug("Pu: {0}".format(self._Pu))
for rule in self._tuning_rules: for rule in self._tuning_rules:
params = self.get_pid_parameters(rule) params = self.get_pid_parameters(rule)
logging.debug('rule: {0}'.format(rule)) logging.debug("rule: {0}".format(rule))
logging.debug('Kp: {0}'.format(params.Kp)) logging.debug("Kp: {0}".format(params.Kp))
logging.debug('Ki: {0}'.format(params.Ki)) logging.debug("Ki: {0}".format(params.Ki))
logging.debug('Kd: {0}'.format(params.Kd)) logging.debug("Kd: {0}".format(params.Kd))
return True return True
return False return False
@ -263,16 +268,17 @@ def main():
data = next(tec.report_mode()) data = next(tec.report_mode())
ch = data[channel] ch = data[channel]
tuner = PIDAutotune(target_temperature, output_step, tuner = PIDAutotune(
lookback, noiseband, ch['interval']) target_temperature, output_step, lookback, noiseband, ch["interval"]
)
for data in tec.report_mode(): for data in tec.report_mode():
ch = data[channel] ch = data[channel]
temperature = ch['temperature'] temperature = ch["temperature"]
if (tuner.run(temperature, ch['time'])): if tuner.run(temperature, ch["time"]):
break break
tuner_out = tuner.output() tuner_out = tuner.output()

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@ -1,9 +1,10 @@
import asyncio import asyncio
from pytec.aioclient import Client from pytec.aioclient import Client
async def main(): async def main():
tec = Client() tec = Client()
await tec.start_session() #(host="192.168.1.26", port=23) await tec.start_session() # (host="192.168.1.26", port=23)
await tec.set_param("s-h", 1, "t0", 20) await tec.set_param("s-h", 1, "t0", 20)
print(await tec.get_pwm()) print(await tec.get_pwm())
print(await tec.get_pid()) print(await tec.get_pid())
@ -13,4 +14,5 @@ async def main():
async for data in tec.report_mode(): async for data in tec.report_mode():
print(data) print(data)
asyncio.run(main()) asyncio.run(main())

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@ -1,6 +1,6 @@
from pytec.client import Client from pytec.client import Client
tec = Client() #(host="localhost", port=6667) tec = Client() # (host="localhost", port=6667)
tec.set_param("s-h", 1, "t0", 20) tec.set_param("s-h", 1, "t0", 20)
print(tec.get_pwm()) print(tec.get_pwm())
print(tec.get_pid()) print(tec.get_pid())

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@ -7,9 +7,10 @@ from pytec.client import Client
TIME_WINDOW = 300.0 TIME_WINDOW = 300.0
tec = Client() tec = Client()
target_temperature = tec.get_pid()[0]['target'] target_temperature = tec.get_pid()[0]["target"]
print("Channel 0 target temperature: {:.3f}".format(target_temperature)) print("Channel 0 target temperature: {:.3f}".format(target_temperature))
class Series: class Series:
def __init__(self, conv=lambda x: x): def __init__(self, conv=lambda x: x):
self.conv = conv self.conv = conv
@ -27,24 +28,26 @@ class Series:
self.x_data = self.x_data[drop:] self.x_data = self.x_data[drop:]
self.y_data = self.y_data[drop:] self.y_data = self.y_data[drop:]
series = { series = {
# 'adc': Series(), # 'adc': Series(),
# 'sens': Series(lambda x: x * 0.0001), # 'sens': Series(lambda x: x * 0.0001),
'temperature': Series(), "temperature": Series(),
# 'i_set': Series(), # 'i_set': Series(),
'pid_output': Series(), "pid_output": Series(),
# 'vref': Series(), # 'vref': Series(),
# 'dac_value': Series(), # 'dac_value': Series(),
# 'dac_feedback': Series(), # 'dac_feedback': Series(),
# 'i_tec': Series(), # 'i_tec': Series(),
'tec_i': Series(), "tec_i": Series(),
'tec_u_meas': Series(), "tec_u_meas": Series(),
# 'interval': Series(), # 'interval': Series(),
} }
series_lock = Lock() series_lock = Lock()
quit = False quit = False
def recv_data(tec): def recv_data(tec):
global last_packet_time global last_packet_time
for data in tec.report_mode(): for data in tec.report_mode():
@ -55,22 +58,24 @@ def recv_data(tec):
if k in ch0: if k in ch0:
v = ch0[k] v = ch0[k]
if type(v) is float: if type(v) is float:
s.append(ch0['time'], v) s.append(ch0["time"], v)
finally: finally:
series_lock.release() series_lock.release()
if quit: if quit:
break break
thread = Thread(target=recv_data, args=(tec,)) thread = Thread(target=recv_data, args=(tec,))
thread.start() thread.start()
fig, ax = plt.subplots() fig, ax = plt.subplots()
for k, s in series.items(): for k, s in series.items():
s.plot, = ax.plot([], [], label=k) (s.plot,) = ax.plot([], [], label=k)
legend = ax.legend() legend = ax.legend()
def animate(i): def animate(i):
min_x, max_x, min_y, max_y = None, None, None, None min_x, max_x, min_y, max_y = None, None, None, None
@ -120,8 +125,8 @@ def animate(i):
legend.remove() legend.remove()
legend = ax.legend() legend = ax.legend()
ani = animation.FuncAnimation(
fig, animate, interval=1, blit=False, save_count=50) ani = animation.FuncAnimation(fig, animate, interval=1, blit=False, save_count=50)
plt.show() plt.show()
quit = True quit = True

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@ -16,3 +16,6 @@ tec_qt = "tec_qt:main"
[tool.setuptools] [tool.setuptools]
packages.find = {} packages.find = {}
py-modules = ["autotune", "plot", "tec_qt"] py-modules = ["autotune", "plot", "tec_qt"]
[tool.pylint.format]
max-line-length = "88"

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@ -2,12 +2,15 @@ import asyncio
import json import json
import logging import logging
class CommandError(Exception): class CommandError(Exception):
pass pass
class StoppedConnecting(Exception): class StoppedConnecting(Exception):
pass pass
class Client: class Client:
def __init__(self): def __init__(self):
self._reader = None self._reader = None
@ -17,7 +20,7 @@ class Client:
self._report_mode_on = False self._report_mode_on = False
self.timeout = None self.timeout = None
async def start_session(self, host='192.168.1.26', port=23, timeout=None): async def start_session(self, host="192.168.1.26", port=23, timeout=None):
"""Start session to Thermostat at specified host and port. """Start session to Thermostat at specified host and port.
Throws StoppedConnecting if disconnect was called while connecting. Throws StoppedConnecting if disconnect was called while connecting.
Throws asyncio.TimeoutError if timeout was exceeded. Throws asyncio.TimeoutError if timeout was exceeded.
@ -69,15 +72,21 @@ class Client:
for pwm_channel in pwm_report: for pwm_channel in pwm_report:
for limit in ["max_i_neg", "max_i_pos", "max_v"]: for limit in ["max_i_neg", "max_i_pos", "max_v"]:
if pwm_channel[limit]["value"] == 0.0: if pwm_channel[limit]["value"] == 0.0:
logging.warning("`{}` limit is set to zero on channel {}".format(limit, pwm_channel["channel"])) logging.warning(
"`{}` limit is set to zero on channel {}".format(
limit, pwm_channel["channel"]
)
)
async def _read_line(self): async def _read_line(self):
# read 1 line # read 1 line
chunk = await asyncio.wait_for(self._reader.readline(), self.timeout) # Only wait for response until timeout chunk = await asyncio.wait_for(
return chunk.decode('utf-8', errors='ignore') self._reader.readline(), self.timeout
) # Only wait for response until timeout
return chunk.decode("utf-8", errors="ignore")
async def _read_write(self, command): async def _read_write(self, command):
self._writer.write(((" ".join(command)).strip() + "\n").encode('utf-8')) self._writer.write(((" ".join(command)).strip() + "\n").encode("utf-8"))
await self._writer.drain() await self._writer.drain()
return await self._read_line() return await self._read_line()
@ -256,7 +265,7 @@ class Client:
The client is disconnected as the TCP session is terminated. The client is disconnected as the TCP session is terminated.
""" """
async with self._command_lock: async with self._command_lock:
self._writer.write("reset\n".encode('utf-8')) self._writer.write("reset\n".encode("utf-8"))
await self._writer.drain() await self._writer.drain()
await self.end_session() await self.end_session()
@ -269,11 +278,11 @@ class Client:
power-cycling. power-cycling.
""" """
async with self._command_lock: async with self._command_lock:
self._writer.write("dfu\n".encode('utf-8')) self._writer.write("dfu\n".encode("utf-8"))
await self._writer.drain() await self._writer.drain()
await self.end_session() await self.end_session()
async def ipv4(self): async def ipv4(self):
"""Get the IPv4 settings of the Thermostat""" """Get the IPv4 settings of the Thermostat"""
return await self._command('ipv4') return await self._command("ipv4")

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@ -2,9 +2,11 @@ import socket
import json import json
import logging import logging
class CommandError(Exception): class CommandError(Exception):
pass pass
class Client: class Client:
def __init__(self, host="192.168.1.26", port=23, timeout=None): def __init__(self, host="192.168.1.26", port=23, timeout=None):
self._socket = socket.create_connection((host, port), timeout) self._socket = socket.create_connection((host, port), timeout)
@ -20,7 +22,11 @@ class Client:
for pwm_channel in pwm_report: for pwm_channel in pwm_report:
for limit in ["max_i_neg", "max_i_pos", "max_v"]: for limit in ["max_i_neg", "max_i_pos", "max_v"]:
if pwm_channel[limit]["value"] == 0.0: if pwm_channel[limit]["value"] == 0.0:
logging.warning("`{}` limit is set to zero on channel {}".format(limit, pwm_channel["channel"])) logging.warning(
"`{}` limit is set to zero on channel {}".format(
limit, pwm_channel["channel"]
)
)
def _read_line(self): def _read_line(self):
# read more lines # read more lines
@ -28,7 +34,7 @@ class Client:
chunk = self._socket.recv(4096) chunk = self._socket.recv(4096)
if not chunk: if not chunk:
return None return None
buf = self._lines[-1] + chunk.decode('utf-8', errors='ignore') buf = self._lines[-1] + chunk.decode("utf-8", errors="ignore")
self._lines = buf.split("\n") self._lines = buf.split("\n")
line = self._lines[0] line = self._lines[0]
@ -36,7 +42,7 @@ class Client:
return line return line
def _command(self, *command): def _command(self, *command):
self._socket.sendall((" ".join(command) + "\n").encode('utf-8')) self._socket.sendall((" ".join(command) + "\n").encode("utf-8"))
line = self._read_line() line = self._read_line()
response = json.loads(line) response = json.loads(line)

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@ -48,7 +48,11 @@ class PIDAutoTuner(QObject):
ch = channel_report["channel"] ch = channel_report["channel"]
match self.autotuners[ch].state(): match self.autotuners[ch].state():
case PIDAutotuneState.STATE_READY | PIDAutotuneState.STATE_RELAY_STEP_UP | PIDAutotuneState.STATE_RELAY_STEP_DOWN: case (
PIDAutotuneState.STATE_READY
| PIDAutotuneState.STATE_RELAY_STEP_UP
| PIDAutotuneState.STATE_RELAY_STEP_DOWN
):
self.autotuners[ch].run( self.autotuners[ch].run(
channel_report["temperature"], channel_report["time"] channel_report["temperature"], channel_report["time"]
) )

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@ -67,9 +67,7 @@ class _TecGraphs:
self._t_line = self._t_widget.getPlotItem().addLine(label="{value} °C") self._t_line = self._t_widget.getPlotItem().addLine(label="{value} °C")
self._t_line.setVisible(False) self._t_line.setVisible(False)
# Hack for keeping setpoint line in plot range # Hack for keeping setpoint line in plot range
self._t_setpoint_plot = ( self._t_setpoint_plot = LiveLinePlot()
LiveLinePlot()
)
for graph in t_widget, i_widget: for graph in t_widget, i_widget:
time_axis = LiveAxis( time_axis = LiveAxis(

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@ -67,16 +67,30 @@ class QtWaitingSpinner(QWidget):
painter.setPen(Qt.PenStyle.NoPen) painter.setPen(Qt.PenStyle.NoPen)
for i in range(0, self._numberOfLines): for i in range(0, self._numberOfLines):
painter.save() painter.save()
painter.translate(self._innerRadius + self._lineLength, self._innerRadius + self._lineLength) painter.translate(
self._innerRadius + self._lineLength,
self._innerRadius + self._lineLength,
)
rotateAngle = float(360 * i) / float(self._numberOfLines) rotateAngle = float(360 * i) / float(self._numberOfLines)
painter.rotate(rotateAngle) painter.rotate(rotateAngle)
painter.translate(self._innerRadius, 0) painter.translate(self._innerRadius, 0)
distance = self.lineCountDistanceFromPrimary(i, self._currentCounter, self._numberOfLines) distance = self.lineCountDistanceFromPrimary(
color = self.currentLineColor(distance, self._numberOfLines, self._trailFadePercentage, i, self._currentCounter, self._numberOfLines
self._minimumTrailOpacity, self._color) )
color = self.currentLineColor(
distance,
self._numberOfLines,
self._trailFadePercentage,
self._minimumTrailOpacity,
self._color,
)
painter.setBrush(color) painter.setBrush(color)
painter.drawRoundedRect(QRect(0, int(-self._lineWidth / 2), self._lineLength, self._lineWidth), self._roundness, painter.drawRoundedRect(
self._roundness, Qt.SizeMode.RelativeSize) QRect(0, int(-self._lineWidth / 2), self._lineLength, self._lineWidth),
self._roundness,
self._roundness,
Qt.SizeMode.RelativeSize,
)
painter.restore() painter.restore()
def start(self): def start(self):
@ -160,7 +174,9 @@ class QtWaitingSpinner(QWidget):
self.setFixedSize(self.size, self.size) self.setFixedSize(self.size, self.size)
def updateTimer(self): def updateTimer(self):
self._timer.setInterval(int(1000 / (self._numberOfLines * self._revolutionsPerSecond))) self._timer.setInterval(
int(1000 / (self._numberOfLines * self._revolutionsPerSecond))
)
def lineCountDistanceFromPrimary(self, current, primary, totalNrOfLines): def lineCountDistanceFromPrimary(self, current, primary, totalNrOfLines):
distance = primary - current distance = primary - current
@ -168,7 +184,9 @@ class QtWaitingSpinner(QWidget):
distance += totalNrOfLines distance += totalNrOfLines
return distance return distance
def currentLineColor(self, countDistance, totalNrOfLines, trailFadePerc, minOpacity, colorinput): def currentLineColor(
self, countDistance, totalNrOfLines, trailFadePerc, minOpacity, colorinput
):
color = QColor(colorinput) color = QColor(colorinput)
if countDistance == 0: if countDistance == 0:
return color return color
@ -186,7 +204,7 @@ class QtWaitingSpinner(QWidget):
return color return color
if __name__ == '__main__': if __name__ == "__main__":
app = QApplication([]) app = QApplication([])
waiting_spinner = QtWaitingSpinner() waiting_spinner = QtWaitingSpinner()
waiting_spinner.show() waiting_spinner.show()

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@ -303,7 +303,10 @@ class MainWindow(QtWidgets.QMainWindow):
if "auto_param" in inner_param.opts: if "auto_param" in inner_param.opts:
thermostat_param = inner_param.opts["auto_param"] thermostat_param = inner_param.opts["auto_param"]
else: else:
thermostat_param = [*inner_param.opts["param"], inner_param.value() / 1000] thermostat_param = [
*inner_param.opts["param"],
inner_param.value() / 1000,
]
if thermostat_param[1] == "$ch": if thermostat_param[1] == "$ch":
thermostat_param[1] = ch thermostat_param[1] = ch
@ -312,14 +315,17 @@ class MainWindow(QtWidgets.QMainWindow):
await self.client.set_param(*thermostat_param) await self.client.set_param(*thermostat_param)
inner_param.setOpts(lock=False) inner_param.setOpts(lock=False)
@asyncSlot() @asyncSlot()
async def pid_auto_tune_request(self, ch=0): async def pid_auto_tune_request(self, ch=0):
match self.autotuners.get_state(ch): match self.autotuners.get_state(ch):
case PIDAutotuneState.STATE_OFF | PIDAutotuneState.STATE_FAILED: case PIDAutotuneState.STATE_OFF | PIDAutotuneState.STATE_FAILED:
self.autotuners.load_params_and_set_ready(ch) self.autotuners.load_params_and_set_ready(ch)
case PIDAutotuneState.STATE_READY | PIDAutotuneState.STATE_RELAY_STEP_UP | PIDAutotuneState.STATE_RELAY_STEP_DOWN: case (
PIDAutotuneState.STATE_READY
| PIDAutotuneState.STATE_RELAY_STEP_UP
| PIDAutotuneState.STATE_RELAY_STEP_DOWN
):
await self.autotuners.stop_pid_from_running(ch) await self.autotuners.stop_pid_from_running(ch)
# To Update the UI elements # To Update the UI elements
self.pid_autotune_handler([]) self.pid_autotune_handler([])
@ -333,7 +339,11 @@ class MainWindow(QtWidgets.QMainWindow):
self.ctrl_panel_view.change_params_title( self.ctrl_panel_view.change_params_title(
ch, ("pid", "pid_autotune", "run_pid"), "Run" ch, ("pid", "pid_autotune", "run_pid"), "Run"
) )
case PIDAutotuneState.STATE_READY | PIDAutotuneState.STATE_RELAY_STEP_UP | PIDAutotuneState.STATE_RELAY_STEP_DOWN: case (
PIDAutotuneState.STATE_READY
| PIDAutotuneState.STATE_RELAY_STEP_UP
| PIDAutotuneState.STATE_RELAY_STEP_DOWN
):
self.ctrl_panel_view.change_params_title( self.ctrl_panel_view.change_params_title(
ch, ("pid", "pid_autotune", "run_pid"), "Stop" ch, ("pid", "pid_autotune", "run_pid"), "Stop"
) )
@ -348,7 +358,8 @@ class MainWindow(QtWidgets.QMainWindow):
case PIDAutotuneState.STATE_FAILED: case PIDAutotuneState.STATE_FAILED:
self.info_box.display_info_box( self.info_box.display_info_box(
"PID Autotune Failed", f"Channel {ch} PID Autotune has failed." "PID Autotune Failed",
f"Channel {ch} PID Autotune has failed.",
) )
self.info_box.show() self.info_box.show()
@ -442,7 +453,9 @@ async def coro_main():
app = QtWidgets.QApplication.instance() app = QtWidgets.QApplication.instance()
app.aboutToQuit.connect(app_quit_event.set) app.aboutToQuit.connect(app_quit_event.set)
app.setWindowIcon( app.setWindowIcon(
QtGui.QIcon(str(importlib.resources.files("pytec.gui.resources").joinpath("artiq.ico"))) QtGui.QIcon(
str(importlib.resources.files("pytec.gui.resources").joinpath("artiq.ico"))
)
) )
main_window = MainWindow(args) main_window = MainWindow(args)