def write(self, text=None, line=1, cursor=0, truncate=True, center=False):
"""
Function to write text to the LCD Screen.
Parameters
----------
text : str
String to be written to the screen.
line : int, optional
Line number to write to (default: 1)
cursor : int, optional
The cursor position to start at (default: 0)
truncate : bool, optional
Boolean flag to indicate whether to truncate the line or not
(default: True)
center : bool, optional
Boolean flag to indicate whether to center the line or not
(default: False)
"""
# Force the text to be a string
# [X] I couldn't find a way to test this variable without making it
# a variable of the class, look into a way to not have to do
# this as it's not necessary
self.text = str(text)
# If the truncate flag is set and the length of the text is
# longer than 16 characters then cut it down to size
if len(self.text) > 16 and truncate:
self.text = self.text[:16]
if center:
self.text = self.text.center(16)
lcd.set_cursor_position(cursor, line)
lcd.write(self.text)
def showNodeMetrics():
# Get usage metrics from raw API call to /apis/metrics.k8s.io/v1beta1/nodes
api_client = client.ApiClient()
raw_resp = api_client.call_api('/apis/metrics.k8s.io/v1beta1/nodes/', 'GET', _preload_content=False)
# Crazy conversion required, dunno why this is so hard
response_metrics = json.loads(raw_resp[0].data.decode('utf-8'))
# Call list Nodes
nodes = v1.list_node()
count = 0
for node in nodes.items:
if count > 2: break
# Get name and cpu/mem capacity
name = node.metadata.name
mem_capacity = utils.parse_quantity(node.status.allocatable["memory"])
cpu_capacity = utils.parse_quantity(node.status.allocatable["cpu"])
# Search node metrics we grabbed before keyed on node name
node_metrics = next(n for n in response_metrics["items"] if n["metadata"]["name"] == name)
mem_usage = utils.parse_quantity(node_metrics["usage"]["memory"])
cpu_usage = utils.parse_quantity(node_metrics["usage"]["cpu"])
cpu_perc = round((cpu_usage/cpu_capacity)*100)
mem_perc = round((mem_usage/mem_capacity)*100)
lcd.set_cursor_position(7, count)
lcd.write(f"{cpu_perc: 3}%")
lcd.set_cursor_position(12, count)
lcd.write(f"{mem_perc: 3}%")
count = count + 1
def showWelcomeMessage():
lcd.clear()
lcd.set_cursor_position(0,0)
lcd.write("Welcome!")
lcd.set_cursor_position(0,1)
lcd.write("FruityWiFi " + __FRUITYWIFI__)
time.sleep(2)
def temperatures():
#--------------------------------
#TEMPERATURE AMBIANTE
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Temp Ambiante:") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(climat_now)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
#--------------------------------
time.sleep(5)
#--------------------------------
#TEMPERATURE MIN & MAX
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Temp MIN/MAX:") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(climat_min)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
lcd.set_cursor_position(0,2) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(climat_max)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def redraw(self, menu):
lcd.clear()
lcd.set_cursor_position(3,1)
lcd.write("Bye (^_^)/")
for x in reversed(range(127)):
backlight.rgb(0, x * 2, 0)
lcd.clear()
sys.exit(0)
def lcdInfo(lcdMessage, line, rgb=""):
lcd.set_cursor_position(0, line)
lcd.write(lcdMessage)
if rgb == "red":
backlight.rgb(200, 0, 0)
if rgb == "green":
backlight.rgb(0, 200, 0)
def redraw(self, menu):
print "Bye ;)"
lcd.clear()
lcd.set_cursor_position(4, 1)
lcd.write("Bye Bye!")
time.sleep(2)
lcd.clear()
backlight.rgb(0, 0, 0)
sys.exit()
def printNodes():
nodes = v1.list_node()
count = 0
for node in nodes.items:
if count > 2: break
name = node.metadata.name
lcd.set_cursor_position(0, count)
lcd.write(name+":")
count = count + 1
def redraw(self, menu):
print "Bye ;)"
lcd.clear()
lcd.set_cursor_position(4,1)
lcd.write("Bye Bye!")
time.sleep(2)
lcd.clear()
backlight.rgb(0,0,0)
sys.exit()
def Taux_Humidite():
#Taux d'Humidité présent dans l'Environnement actuel
#--------------------------------
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Taux d'Humidite") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(pourcentage_humidite)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def Vitesse_du_vent():
#Vitesse du Vent
#--------------------------------
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Vitesse Vent m/s") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(vitesse_du_vent)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def Taux_de_Nuage():
#Taux de Nuages présent dans le ciel
#--------------------------------
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Taux Nuage") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(couverture_de_nuage)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def redraw(self, menu):
lcd.clear()
menu.write_option(row=0, text="About this App")
menu.write_option(
row=1,
text=
"Site: https://github.com/Floppynator/FruityDisplay_DisplayOTron3000",
scroll=True)
lcd.set_cursor_position(0, 2)
lcd.write("Twitter: @HA1pe")
def handle_down(pin):
global loopcount
loopcount = 0
lcd.clear()
backlight.rgb(255, 0, 0)
lcd.write("Shutting Down!")
time.sleep(1)
os.system('systemctl poweroff')
sys.exit()
time.sleep(2)
def JobIsDone(self, localLcd):
lcd.clear()
backlight.rgb(255, 255, 255)
localLcd.write('Job is Done!')
for i in range(0, 100):
backlight.set_graph((100 - i) / 100.0)
time.sleep(0.05)
backlight.update()
lcd.clear()
lcd.write('Ready for the next job')
def show_follower_count(pin):
try:
followers = twitter.follower_count()
msg = "You have %-6i followers" % followers
except:
msg = "Twitter API limit reached"
backlight.sweep(random())
lcd.clear()
lcd.write(msg)
def handle_down(pin):
print("Down pressed!")
global image_num
global reset_initiated
if reset_initiated == False:
reset_initiated = True
print("first time")
else:
lcd.set_cursor_position(0, 0)
lcd.write("SHUTTING DOWN ")
os.system("sudo shutdown now");
def handle_down(pin):
print("Down pressed!")
global image_num
global reset_initiated
if reset_initiated == False:
reset_initiated = True
print("first time")
else:
lcd.set_cursor_position(0, 0)
lcd.write("SHUTTING DOWN ")
os.system("sudo shutdown now")
def temps_systeme():
system_time = temps_actuel()
#Affichage DOT3K
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(
0, 0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Temps/Time:") #Affichage du String entre guillemet
lcd.set_cursor_position(
0, 1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(system_time)
def on_print_progress(self, storage, path, progress):
lcd.clear()
start = path.rfind('/')
end = path.rfind('.')
# Just want the file name, no path or extension.
# The rfind gets us the deepest directory so we can truncate that off the string
# It also gets us the index of the file extension
# The code below will substring any directories off the path, and remove the extention
if (start == -1):
start = 0
if (end == -1):
end = path.len() - 1
lcd.write(path[start:end])
backlight.set_graph(progress / 100.0)
backlight.rgb(0, 0, 255)
backlight.update()
lcd.set_cursor_position(0, 1)
lcd.write('Completed: ' + str(progress) + '%')
if progress == 1:
self.start_date = time.time()
if progress > 10 and progress < 100:
now = time.time()
elapsed = now - self.start_date
average = elapsed / (progress - 1)
remaining = int((100 - progress) * average)
remaining = str(datetime.timedelta(seconds=remaining))
lcd.set_cursor_position(0, 2)
lcd.write('ETC: ')
lcd.write(remaining)
if progress == 100:
self.JobIsDone(lcd)
def affichage_numero():
#--------------------------------
#NUMEROS D'URGENCES INTERNATIONAUX
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(
0, 0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Numero Urgence:") #Affichage du String entre guillemet
lcd.set_cursor_position(
0, 1) #Positionnement du Curseur à la colonne 0 et ligne 1
print(tel_urgence)
lcd.write(
str(tel_urgence)
) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def _message(code, credit_balance=None):
message_lock.acquire()
_message_output(code)
lcd.clear()
lcd.write(message_code[code])
if credit_balance is not None:
lcd.set_cursor_position(0,2)
lcd.write(" ")
lcd.write(balance)
credit_balance_string = locale.format('%.2f', credit_balance, monetary=True)
lcd.set_cursor_position(lcd.COLS-len(credit_balance_string)-1,2)
lcd.write(credit_balance_string)
lcd.write(" ")
time.sleep(2.5)
message_lock.release()
def animate(self): self.get_messages() message_portion = self.message[self.message_position : self.message_position + self.display_width] message_portion = message_portion + " " * (self.display_width - len(message_portion)) lcd.set_cursor_position(0, self.line) lcd.write(message_portion) if self.progress: self.message_position = self.message_position + 1 self.progress = not self.progress if self.message_position >= len(self.message): self.message_position = 0
def loadingScreen():
lcd.clear()
# set brigthness
backlight.set_bar(0, 20)
# write loading message to lcd
lcd.set_cursor_position(3,1)
lcd.write("Loading...")
# fire up bargraph leds! Wohoo
for i in range(100):
backlight.set_graph(i / 70.0)
time.sleep(0.005)
# disable leds =(
backlight.set_graph(0)
def handle_press (pin):
global camera_running
lcd.clear()
lcd.write("Stopping camera...")
backlight.rgb(0, 0, 0)
sleep(0.5)
print "Stopping camera..."
camera_running = False
camera.terminate()
camera.join()
lcd.clear()
lcd.write("Camera stopped...")
sleep(0.5)
print "Camera stopped..."
def handle_button(pin):
print("Button pressed!")
global image_num
global reset_initiated
global picture_waiting
if picture_waiting!=True:
picture_waiting = True
image_num = image_num + 1
camera.capture('image' + format(image_num,'03') + '.jpg')
print 'image file: image' + format(image_num,'03') + '.jpg'
lcd.set_cursor_position(13, 2)
lcd.write(format(image_num,'03'))
reset_initiated = False
picture_waiting = False
else:
print 'waiting on image to return'
def handle_button(pin):
print("Button pressed!")
global image_num
global reset_initiated
global picture_waiting
if picture_waiting != True:
picture_waiting = True
image_num = image_num + 1
camera.capture('image' + format(image_num, '03') + '.jpg')
print 'image file: image' + format(image_num, '03') + '.jpg'
lcd.set_cursor_position(13, 2)
lcd.write(format(image_num, '03'))
reset_initiated = False
picture_waiting = False
else:
print 'waiting on image to return'
def display_tweet(lcd, tweet, scroll_speed):
"""Displays a tweet as a scrolling marquee with its author's name
written underneath."""
# Remove '\n' characters because dot3k displays them wierdly!
s = tweet.text.replace("\n", " ")
# Append 16 spaces to the tweet for scrolling. This stops the
# author's handle from spilling into the tweet.
s += " " * 16
lcd.clear()
for i in range(0, len(s) - 16):
lcd.write(s[i:i + 16]) # 16 = Width of Dot3k display in chars.
# Add the author's handle below the tweet
lcd.write("@" + tweet.author.screen_name)
time.sleep(scroll_speed)
lcd.clear()
def determination_dot3k():
recup_affichage(
) #Demarrage du fichier python Recuperation_Determination.py
global ville #Déclaration de la variable GLOBAL 'ville'
ville = determine_less(
) #L'information dtermine par un autre fichier python est stocker dans la variable pour être utiliser apès
#Using the 'lcd.write' way
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(
0, 0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Nous sommes ici:") #Affichage du String entre guillemet
lcd.set_cursor_position(
0, 1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(
ville
) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def right(self):
# fire cmd
self.last_update = 1
cmd = self.config.get('commands', self.cmds[self.selected_cmd])
time.sleep(1)
cmd = cmd.split(",")
lcd.clear()
lcd.set_cursor_position(0,0)
lcd.write("Execute CMD")
lcd.set_cursor_position(0,1)
lcd.write(cmd[0])
time.sleep(1)
# EXECUTE THIS COMMAND
out = str(self.execCommand(cmd[1]))
print(out)
lcd.clear()
lcd.set_cursor_position(6,1)
lcd.write("Done.")
time.sleep(1)
lcd.clear()
self.last_update = 0
return True
def right(self):
# fire cmd
self.last_update = 1
cmd = self.config.get('commands', self.cmds[self.selected_cmd])
time.sleep(1)
cmd = cmd.split(",")
lcd.clear()
lcd.set_cursor_position(0, 0)
lcd.write("Execute CMD")
lcd.set_cursor_position(0, 1)
lcd.write(cmd[0])
time.sleep(1)
# EXECUTE THIS COMMAND
out = str(self.execCommand(cmd[1]))
print(out)
lcd.clear()
lcd.set_cursor_position(6, 1)
lcd.write("Done.")
time.sleep(1)
lcd.clear()
self.last_update = 0
return True
def init_animation():
hourglass = [
[0x1F,0x11,0x11,0x11,0x11,0x11,0x11,0x1F],[0x1F,0x1F,0x11,0x11,0x11,0x11,0x11,0x1F],
[0x1F,0x1F,0x1F,0x11,0x11,0x11,0x11,0x1F],[0x1F,0x1F,0x1F,0x1F,0x11,0x11,0x11,0x1F],
[0x1F,0x11,0x1F,0x1F,0x1F,0x11,0x11,0x1F],[0x1F,0x11,0x11,0x1F,0x1F,0x1F,0x11,0x1F],
[0x1F,0x11,0x11,0x11,0x1F,0x1F,0x1F,0x1F],[0x1F,0x11,0x11,0x11,0x11,0x1F,0x1F,0x1F],
[0x1F,0x11,0x11,0x11,0x11,0x11,0x1F,0x1F],[0x1F,0x11,0x11,0x11,0x11,0x11,0x11,0x1F]
]
greetingtext = [
# "- - - - - - - - ",
" Welcome ",
" To ",
" Yuki-Chan "
]
dotc = 0
texti = 0
for x in range(127):
backlight.rgb(x / 2, x * 2, x / 2)
"""
lcd.create_char(0, getAnimFrame(hourglass, 5))
lcd.clear()
lcd.set_cursor_position(15,2)
lcd.write(chr(0))
"""
lcd.set_cursor_position(0,1)
lcd.write(greetingtext[texti])
if dotc > 30:
texti = (texti + 1) % len(greetingtext)
dotc = 0
else:
dotc += 1
lcd.set_cursor_position(6,2)
for i in range(dotc / 10):
lcd.write(".")
lcd.clear()
def idle():
#if debug: print "Start idle function."
backlight.off()
lcd.set_cursor_position(0,0)
lcd.write(txt_security)
lcd.set_cursor_position(4,1)
t = datetime.now().strftime("%H:%M:%S")
lcd.write(t)
lcd.set_cursor_position(0,2)
lcd.write(txt_pressme)
time.sleep(0.5)
def display():
forecast = darksky.Forecast(api_key, latitude, longitude, units=units)
current = forecast.currently
temp = current.temperature
temp = str(temp)
humidity = current.humidity * 100
humidity = str(humidity)
rain = current.precipProbability * 100
rain = str(rain)
uvIndex = current.uvIndex
uv = str(uvIndex)
if uvIndex <= 2.9:
backlight.rgb(90, 148, 35) # Green (low)
elif (uvIndex >= 3) and (uvIndex <= 5.9):
backlight.rgb(241, 227, 54) # Yellow (moderate)
elif (uvIndex >= 6) and (uvIndex <= 7.9):
backlight.rgb(217, 90, 18) # Orange (high)
elif (uvIndex >= 8) and (uvIndex <= 10.9):
backlight.rgb(185, 2, 34) # Red (very high)
else:
backlight.rgb(99, 74, 195) # Violet (extreme)
try:
lcd.clear()
lcd.set_cursor_position(0, 0)
print("Temperture: " + temp + " C")
lcd.write("Temp: " + temp + "\xf2C")
lcd.set_cursor_position(0, 1)
print("Humidity: " + humidity + "%")
lcd.write("Humidity: " + humidity + "%")
lcd.set_cursor_position(0, 2)
print("Rain: " + rain + "%")
lcd.write("Rain: " + rain + "%")
print("UV Index: " + uv + "")
except:
lcd.write("Connection Error")
# Press the button on the joystick to exit
@nav.on(nav.BUTTON)
def handle_button(pin):
lcd.clear()
backlight.rgb(0, 0, 0)
backlight.set_graph(0)
os._exit(1)
def Volumes():
#Volume de Neige (en m² ?)
#--------------------------------
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Volumes Neige/Pluie") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(volume_de_neige) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
lcd.set_cursor_position(0,2) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(str(volume_de_pluie)) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def condition_climatique():
#Status de la Météo Actuel
#--------------------------------
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(0,0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Condition Meteo") #Affichage du String entre guillemet
lcd.set_cursor_position(0,1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write("Actuel:") #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
lcd.set_cursor_position(0,2) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(status_climat) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def printIt(self, message1="", message2="", message3=""):
lcd.clear()
message1 = self.validateMessage(message1)
message2 = self.validateMessage(message2)
message3 = self.validateMessage(message3)
print "+".ljust(columns+1,"-")+"+"
print "|"+message1+"|"
print "|"+message2+"|"
print "|"+message3+"|"
print "+".ljust(columns+1,"-")+"+"
lcd.write(message1)
lcd.write(message2)
lcd.write(message3)
def update_weather():
payload = {
'id': CITY_ID,
'units': 'metric',
'appid': API_KEY
}
global temp
try:
r = requests.get(url=url, params=payload)
location = r.json().get('name')
temp = r.json().get('main').get('temp')
humidity = r.json().get('main').get('humidity')
lcd.set_cursor_position(0, 0)
print("City: "+str(location)+" ")
lcd.write("City: "+str(location)+" ")
lcd.set_cursor_position(0, 1)
print("Temperture: "+str(temp)+"°C")
lcd.write("Temp: "+str(temp)+"\xf2C")
lcd.set_cursor_position(0, 2)
print("Humidity: "+str(humidity)+" %")
lcd.write("Humidity: "+str(humidity)+" %")
except:
lcd.write("Connection Error")
def redraw(self):
volume = subprocess.check_output("mpc status | grep volume", shell=True, stderr=subprocess.STDOUT)
volume = volume[7:volume.find("%")]
lcd.clear()
lcd.set_cursor_position(0, 0)
lcd.write(self.channelName[self.selectedStation])
lcd.set_cursor_position(0, 1)
lcd.write(time.strftime("%d.%m. %H:%M:%S"))
lcd.set_cursor_position(0, 2)
lcd.write('Volume:' + volume + ' %')
cpu = psutil.cpu_percent()
backlight.set_graph(float(cpu) / 100.0)
def showKubeDeploys():
global deploy_index, deploy_max
all_deploys = v1Apps.list_deployment_for_all_namespaces()
deploy_max = 0
deploys = []
for deploy in all_deploys.items:
if deploy.metadata.namespace != "kube-system":
deploys.append(deploy)
deploy_max = len(deploys)
lcd.set_cursor_position(0, 0)
lcd.write(deploys[deploy_index].metadata.name[:16])
lcd.set_cursor_position(0, 1)
lcd.write(deploys[deploy_index].spec.template.spec.containers[0].image[:16])
lcd.set_cursor_position(0, 2)
lcd.write(f"replicas: {deploys[deploy_index].status.replicas}/{deploys[deploy_index].status.ready_replicas}")
def queries_thread():
"""Print pihole stats to the lcd"""
lcd.clear()
t = threading.currentThread()
while getattr(t, "running", True):
pihole = ph.PiHole("192.168.1.32")
lcd.set_cursor_position(0, 0)
lcd.write('{} queries'.format(pihole.queries))
lcd.set_cursor_position(0, 1)
lcd.write('{}% blocked'.format(pihole.ads_percentage))
lcd.set_cursor_position(0, 2)
lcd.write('{} total'.format(pihole.blocked))
time.sleep(5)
def neige_3h():
#Prochainement de la Neige ?
#--------------------------------
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(
0, 0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("Neige dans 3H?") #Affichage du String entre guillemet
if will_snow == True: #Si il y a de la pluie alors...
lcd.set_cursor_position(0, 1)
lcd.write("Neige prevue") #On affirme cela par un message
elif will_snow == False: #Sinon...
lcd.set_cursor_position(
0, 1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(
"Aucune Neige prevue"
) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def affichage_de_la_boussole_dot3k_2():
#--------------------------------
#BOUSSOLE 2/2
lcd.clear() #Nettoyage de la Zone Affichable
lcd.set_cursor_position(
0, 0) #Positionnement du Curseur à la colonne 0 et ligne 0
lcd.write("BOUSSOLE 2/2") #Affichage du String entre guillemet
lcd.set_cursor_position(
0, 1) #Positionnement du Curseur à la colonne 0 et ligne 1
lcd.write(
str(round_retourne_longitude)
) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
lcd.set_cursor_position(
0, 2) #Positionnement du Curseur à la colonne 0 et ligne 2
lcd.write(
dir_Longitude_Hemisphere
) #Affichage de la valeur convertis de FLOAT à STRING via une valeur retourné qui a stocker dans une variable
def handle_left(pin):
print("Left pressed!")
l.clear()
b.rgb(0,0,255)
l.write("Leftie left left!")
#!/usr/bin/env python
print("""Testing DOT3K Interface...""")
import dot3k.lcd as lcd
import dot3k.backlight as backlight
import time
lcd.clear()
lcd.write("=DOT3K========== ========loading=")
backlight.left_rgb(255, 0, 0)
time.sleep(0.3)
backlight.mid_rgb(255, 0, 0)
time.sleep(0.3)
backlight.right_rgb(255, 0, 0)
time.sleep(0.3)
backlight.left_rgb(255, 255, 0)
time.sleep(0.3)
backlight.mid_rgb(255, 255, 0)
time.sleep(0.3)
backlight.right_rgb(255, 255, 0)
time.sleep(0.3)
backlight.left_rgb(255, 255, 255)
time.sleep(0.3)
backlight.mid_rgb(255, 255, 255)
time.sleep(0.3)
backlight.right_rgb(255, 255, 255)
time.sleep(0.3)
lcd.clear()
lcd.write("=DOT3K========== ==========ready=")
backlight.rgb(0, 0, 255)
time.sleep(0.1)
backlight.rgb(255, 255, 255)
def display_message(message):
lcd.clear()
lcd.write(message)
#!/usr/bin/env python
import dot3k.lcd as lcd
import dot3k.backlight as backlight
import time, datetime, copy, math, psutil
import time
from datetime import datetime, timedelta
lcd.write(chr(0) + 'Yay LGBT Pride!')# + chr(0))
lcd.set_cursor_position(0,2)
lcd.write(' Party hrs left ')# + chr(3) + chr(2) + chr(5))
eqlchar = [
[0x0,0x1f,0x1f,0x0,0x0,0x1f,0x1f,0x0], #=
[0x0,0x0,0x1f,0x1f,0x0,0x0,0x1f,0x1f], #= move
[0x0,0x1f,0x1f,0x0,0x0,0x1f,0x1f,0x0], #= move
[0x1f,0x1f,0x0,0x0,0x1f,0x1f,0x0,0x0], #= move
[0x1f,0x1f,0x1b,0x1b,0x1f,0x1f,0x18,0x18], #P
[0x1f,0x1f,0x1b,0x1b,0x1f,0x1f,0x1a,0x19], #R
[0x1f,0x1f,0xe,0xe,0xe,0xe,0x1f,0x1f], #I
[0x1e,0x1f,0x1b,0x1b,0x1b,0x1b,0x1f,0x1e], #D
[0x1f,0x1f,0x18,0x1e,0x1e,0x18,0x1f,0x1f] #E
] #WHADDOESTHATSPELL?? Pride!
def getAnimFrame(char,fps):
return char[ int(round(time.time()*fps) % len(char)) ]
cpu_sample_count = 200
cpu_samples = [0] * cpu_sample_count
hue = 0.0
while True:
backlight.set_graph(0.0)
sys.exit()
elif command == 'reset':
lcd.clear()
backlight.off()
backlight.set_graph(0.0)
elif component == 'LCD':
if command == 'clear':
lcd.clear()
elif command == 'setContrast':
lcd.set_contrast(parameters['contrast'])
elif command == 'setCursorPosition':
lcd.set_cursor_position(parameters['column'], parameters['row'])
elif command == 'write':
lcd.write(parameters['value'])
elif command == 'createCharacter':
lcd.create_char(parameters['memoryPosition'], parameters['map'])
elif command == 'writeCharacter':
lcd.write(chr(parameters['memoryPosition']))
elif component == 'Backlight':
if command == 'turnOff':
backlight.off()
elif command == 'useRBGMode':
backlight.use_rbg()
elif command == 'setBrightnessOfLed':
backlight.set(parameters['ledIndex'], parameters['brightness'])
elif command == 'setToHue':
backlight.hue(parameters['hue'])
elif command == 'setLeftToHue':
backlight.left_hue(parameters['hue'])
def redraw(self, menu):
lcd.clear()
menu.write_option(row=0, text="About this App")
menu.write_option(row=1, text="Site: https://github.com/Floppynator/FruityDisplay_DisplayOTron3000", scroll=True)
lcd.set_cursor_position(0,2)
lcd.write("Twitter: @HA1pe")
def shutdown_animation():
lcd.set_cursor_position(3,1)
lcd.write("Bye (^_^)/")
for x in reversed(range(127)):
backlight.rgb(x, x * 2, x)
lcd.clear()
print datetime.datetime.now().strftime('%b %d, %G %I:%M%p--'), "Started proc_animation"
print datetime.datetime.now().strftime('%b %d, %G %I:%M%p--'), "Init control, running..."
try:
@joystick.on(joystick.BUTTON)
def handle_press (pin):
global camera_running
lcd.clear()
lcd.write("Stopping camera...")
backlight.rgb(0, 0, 0)
sleep(0.5)
print "Stopping camera..."
camera_running = False
camera.terminate()
camera.join()
lcd.clear()
lcd.write("Camera stopped...")
sleep(0.5)
print "Camera stopped..."
lcd.write('Running!')
except:
pass
thread_control(d)
import dot3k.backlight as backlight
import time
from threading import Thread
pirate = [
[0x00,0x1f,0x0b,0x03,0x00,0x04,0x11,0x1f],
[0x00,0x1f,0x16,0x06,0x00,0x08,0x03,0x1e],
[0x00,0x1f,0x0b,0x03,0x00,0x04,0x11,0x1f],
[0x00,0x1f,0x05,0x01,0x00,0x02,0x08,0x07]
]
def get_anim_frame(anim, fps):
return anim[ int(round(time.time()*fps) % len(anim)) ]
lcd.set_cursor_position(1,0)
lcd.write('Display-o-tron')
lcd.write(' ' + chr(0) + '3000 ')
lcd.create_char(0,get_anim_frame(pirate,4))
while 1:
backlight.rgb(255,0,0)
time.sleep(1)
backlight.rgb(0,255,0)
time.sleep(1)
backlight.rgb(0,0,255)
time.sleep(1)
backlight.rgb(255,255,255)
time.sleep(1)
for i in range(0,360):
#!/usr/bin/env python
print("""
This example shows you how to create animations on Display-o-Tron!
You should see a collection of animated icons on your display.
Press CTRL+C to exit.
""")
import dot3k.lcd as lcd
import dot3k.backlight as backlight
import time, datetime, copy, math, psutil
lcd.write(chr(0) + 'Ooo! Such time' + chr(0))
lcd.set_cursor_position(0, 2)
lcd.write(chr(1) + chr(4) + ' Very Wow! ' + chr(3) + chr(2) + chr(5))
pirate = [
[0x00, 0x1f, 0x0b, 0x03, 0x00, 0x04, 0x11, 0x1f],
[0x00, 0x1f, 0x16, 0x06, 0x00, 0x08, 0x03, 0x1e],
[0x00, 0x1f, 0x0b, 0x03, 0x00, 0x04, 0x11, 0x1f],
[0x00, 0x1f, 0x05, 0x01, 0x00, 0x02, 0x08, 0x07]
]
heart = [
[0x00, 0x0a, 0x1f, 0x1f, 0x1f, 0x0e, 0x04, 0x00],
[0x00, 0x00, 0x0a, 0x0e, 0x0e, 0x04, 0x00, 0x00],
[0x00, 0x00, 0x00, 0x0e, 0x04, 0x00, 0x00, 0x00],
[0x00, 0x00, 0x0a, 0x0e, 0x0e, 0x04, 0x00, 0x00]
]
raa = [
def handle_down(pin):
print("Down pressed!")
l.clear()
b.rgb(0,255,0)
l.write("Down down doobie down!")
def handle_button(pin):
print("Button pressed!")
l.clear()
b.rgb(255,255,255)
l.write("Ouch!")
def handle_up(pin):
print("Up pressed!")
l.clear()
b.rgb(255,0,0)
l.write("Up up and away!")
def handle_right(pin):
print("Right pressed!")
l.clear()
b.rgb(0,255,255)
l.write("Rightie tighty!")
#!/usr/bin/env python
import dot3k.lcd as lcd
import dot3k.backlight as backlight
import time
# Clear the LCD and display Hello World
lcd.clear()
lcd.write("Hello World")
# Turn off the backlight
backlight.rgb(0,0,0)
"""
set_graph accepts a float between 0.0 and 1.0
and lights up the LEDs accordingly
"""
for i in range(100):
backlight.set_graph(i/100.0)
time.sleep(0.05)
"""
set_bar will set a specific bargraph LED to
a brightness between 0 and 255
"""
for i in range(256):
backlight.set_bar(0,[255-i]*9)
time.sleep(0.01)
backlight.set_graph(0)
def temp_light(temperature):
scale = set_temp - 20
if temperature < 20:
return [0,0,255]
else:
temp_difference = set_temp - temperature
backlight_colour = int((scale - temp_difference)*(255/scale))
return [(0 + backlight_colour), 0 , (255 - backlight_colour)]
@joystick.on(joystick.UP)
def handle_up(pin):
global set_temp
set_temp += 1
@joystick.on(joystick.DOWN)
def handle_down(pin):
global set_temp
set_temp -= 1
while True:
temperature = read_temp()
lcd_text = "Water temp: " + str(round(temperature, 1)) + "Set temp: " + str(set_temp)
lcd.clear()
lcd.write(lcd_text)
rgb_colours = temp_light(temperature)
backlight.rgb(rgb_colours[0], rgb_colours[1], rgb_colours[2])
if temperature >= set_temp:
bz.on()
time.sleep(0.5)
