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BARRAUX Arthur 2 years ago
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2062504a7d
  1. 147
      Test extension RPI.py

147
Test extension RPI.py

@ -16,155 +16,10 @@ import threading
# initialisation du raspberry
capteurTemp = mcp.MCP9808()
GP.setwarnings(False)
GP.setmode(GP.BOARD)
GP.setup(7,GP.OUT, initial=GP.LOW) # D1, a1
GP.setup(11,GP.OUT, initial=GP.LOW) # D2, b1
GP.setup(13,GP.OUT, initial=GP.LOW) # D3, c1
GP.setup(15,GP.OUT, initial=GP.LOW) # D4, d1
GP.setup(19,GP.OUT, initial=GP.LOW) # D5, e1
GP.setup(21,GP.OUT, initial=GP.LOW) # D6, f1
GP.setup(23,GP.OUT, initial=GP.LOW) # D7, g1
GP.setup(22,GP.OUT, initial=GP.LOW) # D8, DP1
GP.setup(29,GP.OUT, initial=GP.LOW) # a2, RVB rouge
GP.setup(31,GP.OUT, initial=GP.LOW) # b2, RVB bleu
GP.setup(33,GP.OUT, initial=GP.LOW) # c2, RVB vert
GP.setup(35,GP.OUT, initial=GP.LOW) # d2
GP.setup(37,GP.OUT, initial=GP.LOW) # e2
GP.setup(16,GP.OUT, initial=GP.LOW) # f2
GP.setup(18,GP.OUT, initial=GP.LOW) # g2
GP.setup(24,GP.OUT, initial=GP.LOW) # DP2
GP.setup(26,GP.IN) # Bouton poussoir 1
GP.setup(32,GP.IN) # Bouton poussoir 2
#Ouverture et configuration du port UART
monPort = serial.Serial(
port='/dev/ttyS0',
baudrate = 9600,
parity=serial.PARITY_NONE,
stopbits=serial.STOPBITS_ONE,
bytesize=serial.EIGHTBITS,
timeout=1
)
# Lancement d'un thread pour répliquer les octets reçus sur l'uart
def Lire_port():
""" écoute le port UART et renvoie les octets reçus"""
while monPort.isOpen(): # tant que le port est ouvert le thread fonctionne
data = (monPort.read())
if len(data) !=0:
print(data)
monPort.write(data)
threadLectureUART = threading.Thread(target=Lire_port, args=())
threadLectureUART.start()
#Test des boutons poussoir
print ("appuyer sur le bouton poussoir 1")
while GP.input(26):
pass
print("BP1 OK")
print ("appuyer sur le bouton poussoir 2")
while GP.input(32):
pass
print("BP2 OK")
#Test des leds
print("mettre le cavalier en position LED puis appuyer sur BP1 pour lancer le test")
while GP.input(26):
pass
for i in range(5):
GP.output(7, GP.HIGH)
GP.output(11, GP.HIGH)
GP.output(13, GP.HIGH)
GP.output(15, GP.HIGH)
GP.output(19, GP.HIGH)
GP.output(21, GP.HIGH)
GP.output(23, GP.HIGH)
GP.output(22, GP.HIGH)
time.sleep(0.5)
GP.output(7, GP.LOW)
GP.output(11, GP.LOW)
GP.output(13, GP.LOW)
GP.output(15, GP.LOW)
GP.output(19, GP.LOW)
GP.output(21, GP.LOW)
GP.output(23, GP.LOW)
GP.output(22, GP.LOW)
time.sleep(0.5)
#Test afficheurs
print("mettre le cavalier en position afficheur puis appuyer sur BP1 pour lancer le test")
while GP.input(26):
pass
for i in range(5):
GP.output(7, GP.HIGH)
GP.output(11, GP.HIGH)
GP.output(13, GP.HIGH)
GP.output(15, GP.HIGH)
GP.output(19, GP.HIGH)
GP.output(21, GP.HIGH)
GP.output(23, GP.HIGH)
GP.output(22, GP.HIGH)
GP.output(29, GP.HIGH)
GP.output(31, GP.HIGH)
GP.output(33, GP.HIGH)
GP.output(35, GP.HIGH)
GP.output(37, GP.HIGH)
GP.output(16, GP.HIGH)
GP.output(18, GP.HIGH)
GP.output(24, GP.HIGH)
time.sleep(0.5)
GP.output(7, GP.LOW)
GP.output(11, GP.LOW)
GP.output(13, GP.LOW)
GP.output(15, GP.LOW)
GP.output(19, GP.LOW)
GP.output(21, GP.LOW)
GP.output(23, GP.LOW)
GP.output(22, GP.LOW)
GP.output(29, GP.LOW)
GP.output(31, GP.LOW)
GP.output(33, GP.LOW)
GP.output(35, GP.LOW)
GP.output(37, GP.LOW)
GP.output(16, GP.LOW)
GP.output(18, GP.LOW)
GP.output(24, GP.LOW)
time.sleep(0.5)
#Test Led RVB
print("mettre le cavalier en position Led RVB puis appuyer sur BP1 pour lancer le test Led RVB")
while GP.input(26):
pass
GP.output(29, GP.LOW)
time.sleep(0.5)
GP.output(29, GP.HIGH)
GP.output(31, GP.LOW)
time.sleep(0.5)
GP.output(31, GP.HIGH)
GP.output(33, GP.LOW)
time.sleep(0.5)
GP.output(31, GP.LOW)
time.sleep(0.5)
GP.output(31, GP.HIGH)
GP.output(29, GP.LOW)
time.sleep(0.5)
GP.output(29, GP.HIGH)
GP.output(33, GP.LOW)
time.sleep(0.5)
GP.output(29, GP.LOW)
GP.output(31, GP.LOW)
GP.output(33, GP.LOW)
time.sleep(0.5)
GP.output(29, GP.HIGH)
GP.output(31, GP.HIGH)
GP.output(33, GP.HIGH)
# Test capteur de température
print("appuyer sur BP1 pour lancer le test capteur de température")
while GP.input(26):
pass
capteurTemp.begin()
for i in range(5):
temperature = capteurTemp.readTempC()

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