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loogle-scripts/services/telegram-bot/student_alert.py

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import requests
import datetime
import time
import json
import os
from dateutil import parser
from zoneinfo import ZoneInfo
# --- CONFIGURAZIONE UTENTE ---
# 👇👇 INSERISCI QUI I TUOI DATI 👇👇
TELEGRAM_BOT_TOKEN = "8155587974:AAF9OekvBpixtk8ZH6KoIc0L8edbhdXt7A4"
TELEGRAM_CHAT_IDS = ["64463169", "24827341", "132455422", "5405962012"]
# --- SOGLIE DI ALLARME (Bologna) ---
SOGLIA_NEVE = 0.0 # cm (Basta neve per attivare)
SOGLIA_PIOGGIA_3H = 30.0 # mm in 3 ore (Pioggia molto forte)
# File di stato per la memoria
STATE_FILE = "/home/daniely/docker/telegram-bot/student_state.json"
# --- PUNTI DEL PERCORSO (Caselli A14) ---
POINTS = [
{"name": "🎓 Bologna (V. Regnoli)", "lat": 44.4930, "lon": 11.3690, "type": "trigger"},
{"name": "🛣️ Casello Imola", "lat": 44.3798, "lon": 11.7397, "type": "route"},
{"name": "🛣️ Casello Faenza", "lat": 44.3223, "lon": 11.9040, "type": "route"},
{"name": "🛣️ Casello Forlì", "lat": 44.2502, "lon": 12.0910, "type": "route"},
{"name": "🛣️ Casello Cesena", "lat": 44.1675, "lon": 12.2835, "type": "route"},
{"name": "🛣️ Casello Rimini", "lat": 44.0362, "lon": 12.5659, "type": "route"},
{"name": "🏠 San Marino", "lat": 43.9356, "lon": 12.4296, "type": "end"}
]
# --- FUNZIONI DI UTILITÀ ---
def load_last_state():
"""Legge se c'era un allerta attiva"""
if not os.path.exists(STATE_FILE): return False
try:
with open(STATE_FILE, 'r') as f:
data = json.load(f)
return data.get("alert_active", False)
except: return False
def save_current_state(is_active):
"""Salva lo stato corrente"""
try:
with open(STATE_FILE, 'w') as f:
json.dump({"alert_active": is_active, "updated": str(datetime.datetime.now())}, f)
except Exception as e:
print(f"Errore salvataggio stato: {e}")
def send_telegram_message(message):
if not TELEGRAM_BOT_TOKEN or "INSERISCI" in TELEGRAM_BOT_TOKEN:
print(f"[TEST OUT] {message}")
return
url = f"https://api.telegram.org/bot{TELEGRAM_BOT_TOKEN}/sendMessage"
for chat_id in TELEGRAM_CHAT_IDS:
try:
requests.post(url, json={"chat_id": chat_id, "text": message, "parse_mode": "Markdown"}, timeout=10)
time.sleep(0.2)
except: pass
def get_forecast(lat, lon):
url = "https://api.open-meteo.com/v1/forecast"
params = {
"latitude": lat, "longitude": lon,
"hourly": "precipitation,snowfall",
"models": "arome_france_hd",
"timezone": "Europe/Rome",
"forecast_days": 2
}
try:
res = requests.get(url, params=params, timeout=5)
res.raise_for_status()
return res.json()
except: return None
def get_stats(data):
if not data: return None
hourly = data.get("hourly", {})
times = hourly.get("time", [])
snow = hourly.get("snowfall", [])
rain = hourly.get("precipitation", [])
now = datetime.datetime.now(ZoneInfo("Europe/Rome"))
start_idx = -1
for i, t in enumerate(times):
if parser.isoparse(t).replace(tzinfo=ZoneInfo("Europe/Rome")) >= now.replace(minute=0,second=0,microsecond=0):
start_idx = i
break
if start_idx == -1: return None
limit = min(start_idx + 24, len(times))
def sum_slice(arr, hours):
return sum(x for x in arr[start_idx:min(start_idx+hours, limit)] if x)
return {
"snow_3h": sum_slice(snow, 3),
"snow_6h": sum_slice(snow, 6),
"snow_12h": sum_slice(snow, 12),
"snow_24h": sum_slice(snow, 24),
"rain_3h": sum_slice(rain, 3),
"rain_max": max(rain[start_idx:limit]) if rain else 0
}
# --- LOGICA PRINCIPALE ---
def main():
print("--- Analisi Studente Bologna ---")
now_str = datetime.datetime.now(ZoneInfo("Europe/Rome")).strftime('%H:%M')
# 1. ANALISI BOLOGNA (Il Trigger)
bo_point = POINTS[0]
bo_data = get_forecast(bo_point["lat"], bo_point["lon"])
bo_stats = get_stats(bo_data)
if not bo_stats: return
# Controlla se scatta l'allarme
alarm_snow = bo_stats["snow_24h"] > SOGLIA_NEVE
alarm_rain = bo_stats["rain_3h"] > SOGLIA_PIOGGIA_3H
# Carica stato precedente
WAS_ACTIVE = load_last_state()
# --- SCENARIO A: C'È ALLERTA ---
if alarm_snow or alarm_rain:
icon_main = "❄️" if alarm_snow else "🌧️"
msg = f"{icon_main} **ALLERTA METEO BOLOGNA**\n"
msg += f"📅 _Aggiornamento ore {now_str}_\n\n"
# Dettaglio Bologna
msg += f"🎓 **A BOLOGNA:**\n"
if alarm_snow:
msg += f"• Neve 3h: **{bo_stats['snow_3h']:.1f}** cm\n"
msg += f"• Neve 6h: **{bo_stats['snow_6h']:.1f}** cm\n"
msg += f"• Neve 12h: **{bo_stats['snow_12h']:.1f}** cm\n"
msg += f"• Neve 24h: **{bo_stats['snow_24h']:.1f}** cm\n"
if alarm_rain:
msg += f"• Pioggia 3h: **{bo_stats['rain_3h']:.1f}** mm (Intensa!)\n"
msg += "\n🚗 **SITUAZIONE AI CASELLI (A14):**\n"
# 2. ANALISI PERCORSO (Solo se c'è allerta)
route_issues = False
for p in POINTS[1:]:
stats = get_stats(get_forecast(p["lat"], p["lon"]))
if not stats: continue
has_snow = stats["snow_24h"] > 0
has_rain = stats["rain_3h"] > 5.0
if has_snow or has_rain:
route_issues = True
line = f"**{p['name']}**: "
if has_snow: line += f"❄️ {stats['snow_12h']:.1f}cm (12h) "
if has_rain: line += f"🌧️ {stats['rain_3h']:.1f}mm "
msg += f"{line}\n"
if not route_issues:
msg += "✅ I caselli autostradali sembrano puliti."
send_telegram_message(msg)
save_current_state(True)
print("Allerta inviata.")
# --- SCENARIO B: ALLARME RIENTRATO ---
elif not (alarm_snow or alarm_rain) and WAS_ACTIVE:
msg = (
f"🟢 **ALLARME RIENTRATO (Bologna)**\n"
f"📅 _Aggiornamento ore {now_str}_\n\n"
f"Le previsioni non indicano più neve o piogge critiche per le prossime 24 ore.\n"
f"Situazione tornata alla normalità."
)
send_telegram_message(msg)
save_current_state(False)
print("Allarme rientrato. Notifica inviata.")
# --- SCENARIO C: TRANQUILLO ---
else:
save_current_state(False)
print("Nessuna allerta.")
if __name__ == "__main__":
main()
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