364 lines
18 KiB
Python
364 lines
18 KiB
Python
from lib.db import Recipes, Steps, db
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from PyQt5.QtCore import QSemaphore, pyqtSignal
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from PyQt5.QtWidgets import QMessageBox
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from .component import Component
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from .modbus_component import ModbusComponent
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from .tecna_marposs_provaset_t3l_registers import registers as t3l_registers
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from .tecna_marposs_provaset_t3p_registers import registers as t3p_registers
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# from pymodbus.client.sync import ModbusSerialClient as ModbusClient
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# import serial
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# client = ModbusClient(method="rtu", port="COM3", stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, parity=serial.PARITY_NONE, baudrate=115200, timeout=1, strict=False)
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# client.connect()
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# client.read_holding_registers(1, count=1)
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class TecnaMarpossProvasetT3(ModbusComponent):
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_store_recipes_signal = pyqtSignal(object)
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_store_recipes_lock = QSemaphore(0)
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def __init__(self, config=None, name=None, period=1, lazy=True, paused=False, threaded=True):
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super().__init__(config=config, name=name, period=period, lazy=lazy, paused=paused, threaded=threaded, registers=None)
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# pin_registers = {
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# "admin_pin": "PASSWORD: Administration", # was 1909
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# "modify_pin": "PASSWORD: Modify program", # was 0
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# "select_pin": "PASSWORD: Select program", # was 0
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# }
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def config_changed(self):
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super().config_changed()
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self._store_recipes_signal.connect(self._store_recipes)
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# self.pins = {
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# "admin_pin": self.config.get("admin_pin", None),
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# "modify_pin": self.config.get("modify_pin", None),
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# "select_pin": self.config.get("select_pin", None),
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# }
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# self.unlock_tecna()
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self.model = self.config[self.name]["model"].lower()
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if self.model == "t3p":
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self.registers = t3p_registers
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elif self.model == "t3l":
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self.registers = t3l_registers
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else:
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raise NotImplementedError(f"techna t3 model {self.model!r} not implemented.")
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self.set_measure_units()
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self.units = self.get_measure_units()
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self.max_program_number = self.read("Max number of programs")
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self.log.info(f"units: {self.units}")
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# def unlock_tecna(self, **kwargs):
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# pins = self.pins.copy()
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# pins.update(kwargs)
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# for pin_name, register in self.pin_registers.items():
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# pin = pins[pin_name]
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# if pin is not None:
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# self.write(register, pin)
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_pressure_units = {"mH2O": 0, "mbar": 1, "kPa": 2, "mmHg": 3, "inH2O": 4, "psi": 5, "mmH2O": 6, } # (se fondoscala <=6 bar)
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_leak_units = {"mmH2O": 0, "mbar": 1, "Pa": 2, "mmHg": 3, "inH2O": 4, "psi": 5, }
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_leak_flow_units = {"cm3/min": 0, "cm3/h": 1, }
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_volume_units = {"litri": 0, "cm3": 1, }
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_time_units = {"seconds": 0, }
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_flow_units = {"liters/min": 0, "liters/h": 1, "m3/h": 2, "cfm": 3}
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_pressure_units_map = {v: k for k, v in _pressure_units.items()}
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_leak_units_map = {v: k for k, v in _leak_units.items()}
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_leak_flow_units_map = {v: k for k, v in _leak_flow_units.items()}
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_volume_units_map = {v: k for k, v in _volume_units.items()}
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_time_units_map = {v: k for k, v in _time_units.items()}
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_flow_units_map = {v: k for k, v in _flow_units.items()}
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def set_measure_units(self):
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if self.model == "t3p":
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for register, [unit, decimals] in {
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"MEASURE UNITS: Relative pressure": [self._pressure_units["mbar"], 0], # red, purple
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"MEASURE UNITS: Differential (leak) pressure": [self._leak_units["mbar"], 0], # yellow
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"MEASURE UNITS: Calculated leak flow rate": [self._leak_flow_units["cm3/min"], 0], # blue
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"MEASURE UNITS: Volume": [self._volume_units["litri"], 0], # green
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"MEASURE UNITS: Flow rate": [self._flow_units["liters/min"], 0], # orange
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}.items():
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self.write(register, (decimals << 8) + unit)
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elif self.model == "t3l":
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for register, [unit, decimals] in {
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"MEASURE UNITS: Relative pressure": [self._pressure_units["mbar"], 0], # red, purple
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"MEASURE UNITS: Differential (leak) pressure": [self._leak_units["mbar"], 0], # yellow
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"MEASURE UNITS: Calculated leak flow rate": [self._leak_flow_units["cm3/min"], 0], # blue
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"MEASURE UNITS: Volume": [self._volume_units["litri"], 0], # green
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"MEASURE UNITS: Flow rate": [self._flow_units["liters/min"], 0], # orange
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}.items():
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self.write(register, unit) # (decimals << 8) + unit)
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else:
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raise NotImplementedError(f"techna t3 model {self.model!r} not implemented.")
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def get_measure_units(self):
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units = {}
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if self.model == "t3p":
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for [register, unit_map, unit_names] in [
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["Running test: relative pressure format", self._pressure_units_map, ["relative_pressure", "red", "r", 21, ]], # also by documentation color and register number
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["Running test: differential pressure format", self._pressure_units_map, ["differential_pressure", "purple", "p", 22, ]], # also by documentation color and register number
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["Running test: relative pressure format (low resolution)", self._leak_units_map, ["relative_pressure_lr", "yellow", "y", 23, ]], # also by documentation color and register number
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["Running test: calculated leak flow rate format", self._leak_flow_units_map, ["leak_flow", "blue", "b", 24, ]], # also by documentation color and register number
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["Running test: volume format", self._volume_units_map, ["volume", "green", "g", 25, ]], # also by documentation color and register number
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["Running test: time format", self._time_units_map, ["time", "orange", "t", 26, ]], # also by documentation color and register number
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["Running test: flow rate format", self._flow_units_map, ["flow", "white", "o", 27, ]], # also by documentation color and register number
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]:
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v = self.read(register)
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unit_spec = [10**(-((v >> 8) & 0xff)), unit_map[v & 0xff]]
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for unit_name in unit_names:
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units[unit_name] = unit_spec
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elif self.model == "t3l":
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for [register, unit_map, unit_names] in [
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[["Running test: relative pressure scale", "Running test: relative pressure decimals"], self._pressure_units_map, ["relative_pressure", "red", "r", 1501, ]], # also by documentation color and register number
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[["Running test: differential pressure scale", "Running test: differential pressure decimals"], self._pressure_units_map, ["differential_pressure", "purple", "p", 1503, ]], # also by documentation color and register number
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[["Running test: relative pressure scale (low resolution)", "Running test: relative pressure decimals (low resolution)"], self._leak_units_map, ["relative_pressure_lr", "yellow", "y", 1505, ]], # also by documentation color and register number
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["Running test: calculated leak flow rate format", self._leak_flow_units_map, ["leak_flow", "blue", "b", 1507, ]], # also by documentation color and register number
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["Running test: volume format", self._volume_units_map, ["volume", "green", "g", 1508, ]], # also by documentation color and register number
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["Running test: time format", self._time_units_map, ["time", "orange", "t", 1509, ]], # also by documentation color and register number
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["Running test: flow rate format", self._flow_units_map, ["flow", "white", "o", 1510, ]], # also by documentation color and register number
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["Running test: line pressure format", self._pressure_units_map, ["line_pressure", "lp", "l", 1511, ]], # also by documentation color and register number
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]:
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if type(register) is list:
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v = [self.read(r) for r in register]
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unit_spec = [10**(-(v[1] & 0xff)), v[0]]
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else:
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v = self.read(register)
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unit_spec = [10**(-((v >> 8) & 0xff)), unit_map[v & 0xff]]
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for unit_name in unit_names:
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units[unit_name] = unit_spec
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else:
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raise NotImplementedError(f"techna t3 model {self.model!r} not implemented.")
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return units
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def _convert_from_format(self, data, formatting=None, decoding_map=None):
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if decoding_map is not None and data in decoding_map:
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data = decoding_map[data]
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if formatting is not None:
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# units = self.units[formatting]
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# data = [data * units[0], units[1]]
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data = data * self.units[formatting][0]
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return data
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def _convert_to_format(self, data, formatting=None, encoding_map=None):
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if formatting is not None:
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data = int(data / self.units[formatting][0])
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if encoding_map is not None and data in encoding_map:
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data = encoding_map[data]
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return data
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@Component.reconfig_on_error
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def read(self, register, *args, data_type=None, gain=None, offset=None, formatting=None, decoding_map=None, **kwargs):
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if type(register) is str:
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register, s = self.registers[register]
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if data_type is None:
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data_type = s.get("dt", None)
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if gain is None:
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gain = s.get("g", None)
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if offset is None:
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offset = s.get("o", None)
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if formatting is None:
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formatting = s.get("f", None)
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if decoding_map is None:
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decoding_map = s.get("decoding", None)
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if not len(args):
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args = s.get("a", [])
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if not len(kwargs):
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kwargs = s.get("k", {})
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if data_type is None:
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data_type = "16bit_uint"
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if gain is None:
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gain = 1
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if offset is None:
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offset = 0
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return self._convert_from_format(
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super().read(
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register,
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*args,
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data_type=data_type,
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gain=gain,
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offset=offset,
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**kwargs,
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),
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formatting=formatting,
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decoding_map=decoding_map,
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)
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@Component.reconfig_on_error
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def write(self, register, data, *args, data_type=None, gain=None, offset=None, formatting=None, encoding_map=None, **kwargs):
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if type(register) is str:
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register, s = self.registers[register]
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if data_type is None:
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data_type = s.get("dt", None)
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if gain is None:
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gain = s.get("g", None)
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if offset is None:
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offset = s.get("o", None)
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if formatting is None:
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formatting = s.get("f", None)
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if encoding_map is None:
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encoding_map = s.get("encoding", None)
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if not len(args):
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args = s.get("a", [])
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if not len(kwargs):
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kwargs = s.get("k", {})
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if data_type is None:
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data_type = "16bit_uint"
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if gain is None:
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gain = 1
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if offset is None:
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offset = 0
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return super().write(
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register,
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self._convert_to_format(
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data,
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formatting=formatting,
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encoding_map=encoding_map,
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),
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*args,
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data_type=data_type,
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gain=gain,
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offset=offset,
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**kwargs,
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)
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@Component.reconfig_on_error
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def _get(self):
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# print("TECNA", str(int(QThread.currentThreadId())), flush=True)
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# READ INFO
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info = {r: self.read(r) for r in [
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"Real time test pressure output",
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"Real time differential pressure output",
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"Real time pressure line regulator",
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"Active alarm flags",
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"Active test program number",
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"Running test: active phase",
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"Running test: test type",
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"Running test: sequence index",
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"Digital inputs status (mask)",
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# "Digital outputs status (mask)",
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]}
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if self.model == "t3p":
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pass
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elif self.model == "t3l":
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info.update({r: self.read(r) for r in [
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"Active not severe alarm flags",
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]})
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else:
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raise NotImplementedError(f"techna t3 model {self.model!r} not implemented.")
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if info["Running test: active phase"] == "FINE TEST": # "END TEST, WAITING THE START OF A NEW TEST":
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info.update(self.get_test_results())
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self.log.debug(str(info))
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super()._get([info])
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@Component.reconfig_on_error
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def _set(self, val=None):
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if val is not None: # handle request:
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for register, value in val.items():
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print(register, value)
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self.write(register, value)
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super()._set(val)
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def start_test(self, table=None):
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if table is None:
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table = self.max_program_number
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self.log.info(f"starting test table {table!r}")
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self.write("Source of test program number selection", "FROM PARAMETER (SET BY LCD OR SERIAL LINE)")
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self.write("Selected program", table)
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self.write("Start test", table)
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def stop_test(self):
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self.log.warning("stopping test")
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self.write("Reset running test", 0)
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def get_test_results(self):
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self.log.info("getting test results")
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return {r: self.read(r) for r in [
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"Running test: phase backwards time",
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"Running test: filling pressure",
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"Running test: pressure at the end of settling",
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"Running test: burst pressure",
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"Running test: measured leak",
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"Running test: calculated leak flow rate",
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"Running test: calculate RVP%",
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"Running test: result",
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]}
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def write_recipe(self, recipe, step, table=None):
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if table is None:
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table = self.max_program_number
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recipe_name = recipe.part_number[:16].encode("ascii")
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recipe_name += b"\x00" * (16 - len(recipe_name))
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recipe_barcode = f"j{recipe.part_number}"[:16].encode("ascii")
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recipe_barcode += b"\x00" * (24 - len(recipe_barcode))
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spec = {
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"Flag: Instrument settings": 0b0000000000000000,
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"Test program for read/write operation": table,
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**{719 - 1 + i: (recipe_name[i * 2 + 1] << 8) + recipe_name[i * 2] for i in range(8)}, # program name
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**{727 - 1 + i: (recipe_barcode[i * 2 + 1] << 8) + recipe_barcode[i * 2] for i in range(12)}, # program associated bar-code
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"Print options": 0b0110000000000001,
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"Test type": "Leak Test",
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"Test flags": 0b0110000001011100,
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"T0 - Pre-filling time": step.spec["pre_filling_time"],
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"P0 - Pre-filling pressure": step.spec["pre_filling_pressure"],
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"T1 - Filling time": step.spec["filling_time"],
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"T2 - Settling time": step.spec["settling_time"],
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"PR- - Min pressure tolerance %": step.spec["settling_pressure_min_percent"],
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"PR+ - Max pressure tolerance % (P+)": step.spec["settling_pressure_max_percent"],
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"T3 - Measure time": step.spec["test_time"],
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"Q- Lower test leak limit": step.spec["test_pressure_min_delta"],
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"PREL - Nominal test pressure": step.spec["test_pressure"],
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"Q+ Upper test leak limit": step.spec["test_pressure_max_delta"],
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"FST - Discharge time": step.spec["flush_time"],
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"FSL - Discharge limit": step.spec["flush_pressure"],
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}
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if self.model == "t3p":
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pass
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elif self.model == "t3l":
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spec.update({
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"Use programs or use products": 0,
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"Nominal peak pressure": step.spec["test_pressure"],
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"Pn - Nominal test pressure": step.spec["test_pressure"],
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})
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else:
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raise NotImplementedError(f"techna t3 model {self.model!r} not implemented.")
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self.log.debug(str(spec))
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for register, value in spec.items():
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self.write(register, value)
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@db.connection_context()
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def store_recipes(self, recipes):
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if not self.ready:
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QMessageBox.critical(
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None,
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"Impossibile salvare le ricette sulla tecna",
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"La tecna non sembra essere pronta",
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)
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return
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recipes = []
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for recipe in list(Recipes.select().order_by(Recipes.name.asc())):
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if recipe.spec["leak_1"]:
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recipes.append([recipe, Steps.get_by_id(recipe.spec["available_steps"]["leak_1"])])
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# reverve last for our recipe control
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if len(recipes) > max(self.max_program_number - 1, 0):
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self.log.warning(f"too many recipes ({len(recipes)}), saving only first {max(self.max_program_number - 1, 0)}")
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QMessageBox.warning(
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None,
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"Impossibile salvare tutte le ricette sulla tecna",
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f"Troppe ricette ({len(recipes)}), saranno salvate solamente le prime {max(self.max_program_number - 1, 0)}",
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)
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self._store_recipes_signal.emit(recipes[:max(self.max_program_number - 1, 0)])
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self._store_recipes_lock.acquire(max(self._store_recipes_lock.available(), 1))
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QMessageBox.information(
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None,
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"Ricette salvate sulla tecna",
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f"Salvate {min(len(recipes), max(self.max_program_number - 1, 0))} ricette",
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)
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def _store_recipes(self, recipes):
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if len(recipes) > max(self.max_program_number - 1, 0):
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self.log.warning(f"too many recipes ({len(recipes)}) saving only first {max(self.max_program_number - 1, 0)}")
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for i, [recipe, step] in enumerate(recipes[:max(self.max_program_number - 1, 0)], start=1):
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self.write_recipe(recipe, step, table=i)
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self.log.info(f"saved {min(len(recipes), max(self.max_program_number - 1, 0))} recipes")
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self._store_recipes_lock.release(1)
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