def _randomSemanticClass():
randID = random.randint(0, 100)
possibleTypes = (
semantics.Discrete(f"Button {randID}"),
semantics.LCDDisplay(f"LCD {randID}"),
semantics.ContinuousDial(f"ContinuousDial {randID}",0,180,7,11),
)
return random.choice(possibleTypes)
def create_light(pixels, typeof_light):
r = SC.Discrete(typeof_light + ' light')
r.measure_func = lambda so: B3.light_switch.get_button_state(
so.np, np.array(so.cal_on), np.array(so.cal_off))
r.cal_on = cals_dict[typeof_light]["on"]
r.cal_off = cals_dict[typeof_light]["off"]
return r
def create_threestate(pixels):
r = SC.Discrete('threestate',
valueMap={
-45.0: 'left',
0.0: 'middle',
45.0: 'right'
})
r.measure_func = lambda so: B3.dial.get_angle(so.np)[0]
return r
def create_voltmeter(pixels, range_d=(-30, 30), val_d=(0, 15)):
r = SC.ContinuousDial('voltmeter', range_d[0], range_d[1], val_d[0],
val_d[1])
r.measure_func = lambda so: B3.voltmeter.get_voltmeter_angle(so.np)
return r
def create_dial(pixels, typeof_dial='cont'):
range_d, val_d = dial_dic[typeof_dial]
r = SC.ContinuousDial(typeof_dial + ' dial', range_d[0], range_d[1],
val_d[0], val_d[1])
r.measure_func = lambda so: B3.dial.get_angle(so.np)
return r
def create_silver(pixels):
r = SC.Discrete('silver_switch')
r.measure_func = lambda so: B3.silver_switch.get_switch_state(so.np)
return r
def create_placeholder(pixels):
r = SC.Discrete("light")
return r
def create_disp(pixels):
r = SC.LCDDisplay('7sed_disp')
r.measure_func = lambda so : B3.seven_seg.seven_seg_disp(so.np)
return r
"Commander,\n\nFault conditions have been violated on your control panel!\n\n{}\n\nThe factory is in peril! \n\nBest wishes, \nGeeWhizWare"
.format(error_message))
# me == the sender's email address
# you == the recipient's email address
msg['Subject'] = f"Error on your control panel"
msg['From'] = "*****@*****.**"
msg['To'] = to
sendEmail(msg)
if __name__ == "__main__":
#from DataCollation.SemanticOutputMap import _randomSemanticClass as randSemantic
test = Sem.Discrete("Fan Oven Status")
test.value = True
# print(test.meaning, test.value)
# print(test._valueMap)
Switchvalue = Sem.Discrete("Oven Power", {
0: "left",
1: "middle",
2: "right"
})
Switchvalue.value = 1
#print(Switchvalue.meaning, Switchvalue.value)
Needle_test = Sem.ContinuousDial("Voltage", 20, -20, 40, 0)
Needle_test.value = 10
#print(Needle_test.meaning, Needle_test.value)
# -*- coding: utf-8 -*-
from E3.Fault_Conditions import ConditionCheck
import DataCollation.Semantic_Class as sem
from Email import dispatchFaultMessage
from UserInput import ConditionMapCreator
import pandas as pd
example_button = sem.Discrete("BOILER ON")
example_button.value = True
example_three_state = sem.Discrete("BOILER MODE", {
-45: "LEFT",
0: "MIDDLE",
45: "RIGHT"
})
example_three_state.value = 20
example_needle = sem.ContinuousDial("HEAT GAUGE", -30, 30, 0, 20)
example_needle.value = -29
example_semantic_map = {
1: example_button,
2: example_three_state,
3: example_needle
}
file = pd.read_csv(
r"C:\Users\Tomos\Documents\Programming, Projects\Python\IfM Hackathon\conditions.csv"
)
ConditionMaps = ConditionMapCreator(example_semantic_map, file)
testmap = ConditionMaps[1]
ConditionCheck(testmap, example_semantic_map)
