micropy-light/code/main.py

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# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
"""
Eclairage à LED Neopixel
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avec contrôle (encodeur rotatif)
"""
__author__ = "arofarn"
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__version__ = 0.3
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# Imports
import time
import machine
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import esp
import neopixel
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from encoder import Encoder
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import ntptime
from umqtt.robust import MQTTClient
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import light_modes
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import config
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# Déclaration des objets et initialisation des variables
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NEOPIX_PIN = 2
NEOPIX2_PIN = 16
# Les deux broches suivantes doivent être capable d'interruption !!!
# sur ESP8266 => : 4, 5, 12, 13 et 14
ENC_PIN_A = 14 # N° de la 1ere broche de l'encodeur
ENC_PIN_B = 12 # N° de la 2e broche de l'encodeur
ENC_PIN_C = 13 # broche du clic central de l'encodeur
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WIFI_LED_PIN = 0
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# With ESP8266 (no timing parameter)
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NPXL_STRIP = neopixel.NeoPixel(machine.Pin(NEOPIX_PIN), config.NB_PIX)
# NPXL_STRIP2 = neopixel.NeoPixel(machine.Pin(NEOPIX2_PIN), config.NB_PIX2)
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# Eteint tout à l'initialisation
NPXL_STRIP.fill([0, 0, 0])
NPXL_STRIP.write()
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# Encodeur rotatif
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ENCODER = Encoder(ENC_PIN_A, ENC_PIN_B,
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min_val=0, max_val=config.MAX_BRIGHT,
clicks=1)
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# Bouton
ENC_BUT = machine.Pin(ENC_PIN_C, machine.Pin.IN)
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# LED status WIFI_LED_PIN
WIFI_LED = machine.Pin(WIFI_LED_PIN, machine.Pin.OUT)
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# RTC setup
rtc = machine.RTC()
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# initialisation des variables d'état
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BRIGHTN = 50 # Luminosité (0 - 100)
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PWR = True # Est-ce que l'éclairage est allumé ?
BUTTN_STATE = 1
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CURRENT_MODE = 0
PWROFF_DELAY = 0
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MQTT_DELAY = 2 # Délais en sec. avant d'envoyer les données au MQTT
# Connection au broker MQTT
CLIENT = MQTTClient(client_id=config.CLIENT_ID,
server=config.MQTT_HOST,
user=config.MQTT_USERNAME,
password=config.MQTT_PASSWD,
port=config.MQTT_PORT)
CLIENT.DEBUG = True
CLIENT.connect()
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#############
# FUNCTIONS #
#############
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def set_rtc():
while True:
try:
return ntptime.settime()
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except OSError as err:
print("OS error: {0}".format(err))
if err.args[0] == 110:
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time.sleep(2)
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except OverflowError as err:
print("OverflowError: {0}".format(err))
time.sleep(2)
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except Exception as err:
return print(err)
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def now(clock):
"""Return a string representing date/time now."""
return "{0:04d}/{1:02d}/{2:02d}_{4:02d}:{5:02d}:{6:02d}".format(*clock.datetime())
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def mqtt_publish(topic, message, retain=False, qos=0, sleep=0):
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"""MQTT publish helper."""
global CLIENT
CLIENT.publish("{location}/{device}/{topic}".format(location=config.LOCATION,
device=CLIENT.client_id,
topic=topic),
message,
retain=retain,
qos=qos)
time.sleep_ms(sleep)
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def mqtt_multipub(payload, sleep=0):
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"""Send multiple data"""
for pl in payload:
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mqtt_publish(pl[0], pl[1], retain=pl[2], qos=pl[3], sleep=sleep)
def mqtt_callback(topic, msg):
"""Callback en cas de changement de mode"""
global CURRENT_MODE
global BRIGHTN
global PWR
# print(topic, msg)
t = topic.split(b'/')
l = len(t)
if t[l-1] == b'value' and msg.isdigit():
msg = int(msg)
# print(t[l-2], msg)
if t[l-2] == b'mode' and msg in range(0, len(light_modes.MODES_LST)):
# print("Nouveau mode: ", int(msg))
CURRENT_MODE = msg
if t[l-2] == b'brightness' and msg in range(0, 101):
# print("Modif. luminosité :", int(msg))
BRIGHTN = msg
ENCODER.reset(BRIGHTN)
if t[l-2] == b'power' and msg in (0, 1):
PWR = bool(msg)
else:
print("Pas une valeur. Ignore...")
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def power_cycle():
"""ON/OFF function"""
PWR = not PWR
print("Power :", PWR)
if not PWR:
# Extinction des LED
NPXL_STRIP.fill((0, 0, 0))
NPXL_STRIP.write()
else:
# Luminosité basse si on rallume avec une luminisité de 0
if BRIGHTN == 0:
BRIGHTN = 10
# On remet l'encodeur à la dernière luminosité connue
# pour ignorer les mouvements pendant l'extinction
ENCODER.reset(BRIGHTN)
# on attend que le bouton soit relâché
while ENC_BUT.value() == 0:
time.sleep_ms(10)
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# Envoi de la nouvelle info au MQTT
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mqtt_multipub([['power/date', now(rtc), True, 1],
['power/value', "{:d}".format(PWR), True, 0]])
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def update_button_c(button, button_state, pwr, mode):
"""Surveille le bouton C (clic central)"""
global PWROFF_DELAY
if button.value() == 0:
# print("appui")
if button_state == 1:
# Deadline avant de changer l'état d'allumage
PWROFF_DELAY = time.ticks_add(time.ticks_ms(), 2000)
# print(PWROFF_DELAY)
else:
# Est-ce que la deadline est atteinte ? si oui on change l'état
# d'allumage
# print(PWROFF_DELAY, "/", time.ticks_ms())
if time.ticks_diff(time.ticks_ms(), PWROFF_DELAY) >= 0:
PWROFF_DELAY = 0
power_cycle()
else:
if pwr and button_state == 0:
# Si on a juste un clic rapide sur le bouton, on change de mode au
# relachement du bouton
mode = mode + 1
print("Mode : {}/{}".format(CURRENT_MODE,
len(light_modes.MODES_LST)))
if mode >= len(light_modes.MODES_LST):
mode = 0
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mqtt_multipub([['mode/date', now(rtc), True, 1],
['mode/value', "{}".format(mode), True, 1]])
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return mode
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def update_conn_led():
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"""Refresh Wifi status LED"""
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WIFI_LED.value(not WLAN.isconnected())
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#####################
# BOUCLE PRINCIPALE #
#####################
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set_rtc()
# Envoi de l'état de départ au broker
data = [["last_boot", now(rtc), True, 1],
["location", config.LOCATION, True, 1],
["sys/wifi_ssid", WLAN.config('essid'), True, 0],
["sys/ip", WLAN.ifconfig()[0], True, 1],
["sys/esp8266_device_id", "{:d}".format(esp.flash_id()), True, 1],
['mode/date', now(rtc), True, 1],
["mode/value", "{}".format(CURRENT_MODE), True, 1],
['brightness/date', now(rtc), True, 1],
["brightness/value", "{}".format(BRIGHTN), True, 1],
['power/date', now(rtc), True, 1],
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["power/value", "{:d}".format(PWR), True, 1],
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]
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mqtt_multipub(data)
# MQTT subscription
print("Set callback...")
CLIENT.set_callback(mqtt_callback)
print("OK")
print("Subcribe...")
CLIENT.subscribe(b"{location}/{device}/#".format(location=config.LOCATION,
device=CLIENT.client_id))
print("OK")
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time.sleep(1)
BRIGHTN_DATA = None
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while True:
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# Si on a un changement de valeur, on met à jour la luminosité
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if PWR:
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if BRIGHTN != ENCODER.value:
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print(ENCODER.value)
BRIGHTN = ENCODER.value
MQTT_TIMER = time.ticks_add(time.ticks_ms(), MQTT_DELAY * 1000)
BRIGHTN_DATA = [['brightness/date', now(rtc), True, 1],
['brightness/value', "{}".format(BRIGHTN), True, 0]]
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# Mise à jour des LED
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light_modes.update_neopixel(CURRENT_MODE,
NPXL_STRIP,
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config.USR_COLOR,
BRIGHTN)
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# Si on laisse appuyer 2 secondes: extinction
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CURRENT_MODE = update_button_c(ENC_BUT,
BUTTN_STATE,
PWR, CURRENT_MODE)
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BUTTN_STATE = ENC_BUT.value()
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update_conn_led()
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CLIENT.check_msg()
# On n'envoie les données de luminosité qu'une fois stabilisée (MQTT_DELAY)
if BRIGHTN_DATA is not None and time.ticks_diff(time.ticks_ms(), MQTT_TIMER) >= 0:
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mqtt_multipub(BRIGHTN_DATA)
BRIGHTN_DATA = None
time_to_test = rtc.datetime()
if time_to_test[5] + time_to_test[6] == 0: # (chaque heure quand min et sec = 0)
print("Old Time: {0:04d}/{1:02d}/{2:02d}_{4:02d}:{5:02d}:{6:02d}.{7:03d}".format(*time_to_test))
set_rtc()
print("Time set: {0:04d}/{1:02d}/{2:02d}_{4:02d}:{5:02d}:{6:02d}.{7:03d}".format(*rtc.datetime()))
time.sleep(1)