217 lines
6.9 KiB
Python
217 lines
6.9 KiB
Python
import asyncio
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from datetime import datetime, timedelta
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import functools
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import logging
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import os
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import pprint
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import zoneinfo
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from fastapi import FastAPI, HTTPException
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import httpx
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pp = pprint.PrettyPrinter()
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logger = logging.getLogger("uvicorn.error")
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eastern = zoneinfo.ZoneInfo("America/New_York")
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app = FastAPI()
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CONFIG = {
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# salem, ma
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"zip": "01970",
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"lat": "42.3554334",
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"lon": "-71.060511",
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"weather_api_key": os.environ.get("WEATHER_API_KEY", ""),
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"auth_token": os.environ["AUTH_TOKEN"],
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}
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def format_date(dt):
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dt = dt.astimezone(eastern)
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return dt.strftime("%a %d").lower()
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def format_time(dt):
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dt = dt.astimezone(eastern)
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return dt.strftime("%I:%M%p").lower()
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def format_datetime(dt):
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dt = dt.astimezone(eastern)
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return f"{format_date(dt)} {format_time(dt)}"
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def relative_day_to_date(rel_dt):
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dt = datetime.now()
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day = timedelta(days=1)
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match rel_dt.lower().strip():
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case "yesterday":
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return format_date(dt - day)
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case "today":
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return format_date(dt)
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case "tomorrow":
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return format_date(dt + day)
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case passthrough:
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return passthrough
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def build_daily_data(date, pollen_periods, weather_periods):
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daily_data = {}
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if date in pollen_periods:
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daily_data["pollen"] = pollen_periods[date]["index"]
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if date in weather_periods:
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weather_data = weather_periods[date]
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daily_data.update({
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"low": weather_data["low"],
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"high": weather_data["high"],
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"desc": weather_data["desc"],
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"humidity": weather_data["humidity"],
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"sunrise": weather_data["sunrise"],
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"sunset": weather_data["sunset"],
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"pressure": weather_data["pressure"],
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})
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return daily_data
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def fallback_handler(func):
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@functools.wraps(func)
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async def wrapper(*args, **kwargs):
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try:
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result = await func(*args, **kwargs)
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except Exception as e:
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logger.exception(e)
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return []
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return result
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return wrapper
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@fallback_handler
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async def fetch_pollen(zipcode):
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url = f"https://www.pollen.com/api/forecast/current/pollen/{zipcode}"
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headers = {
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"User-Agent": (
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"Mozilla/5.0 (Macintosh; Intel Mac OS X 10_15_7) "
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"AppleWebKit/537.36 (KHTML, like Gecko) "
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"Chrome/123.0.0.0 Safari/537.36"
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),
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"Accept": "application/json, text/plain, */*",
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"Referer": url,
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"Cookie": f"geo={zipcode}",
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}
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async with httpx.AsyncClient() as client:
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response = await client.get(url, headers=headers)
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response.raise_for_status()
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data = response.json()
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return [
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{
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"forecast_date": format_datetime(
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datetime.fromisoformat(data["ForecastDate"])
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),
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"periods": [
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{
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"index": int(d["Index"] / 12. * 100),
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"period": relative_day_to_date(d["Type"]),
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}
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for d in data["Location"]["periods"]
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if d["Type"].lower().strip() in ["today", "tomorrow"]
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],
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}
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]
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@fallback_handler
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async def fetch_weather(lat, lon, weather_api_key):
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url = f"https://api.openweathermap.org/data/3.0/onecall?lat={lat}&lon={lon}&appid={weather_api_key}&units=imperial"
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async with httpx.AsyncClient() as client:
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response = await client.get(url)
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response.raise_for_status()
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data = response.json()
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current, periods = data["current"], data["daily"][:2]
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return [
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{
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"forecast_date": format_datetime(datetime.fromtimestamp(current["dt"])),
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"current_temp": int(round(current["temp"])),
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"current_feels_like": int(round(current["feels_like"])),
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"current_humidity": current["humidity"],
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"sunrise": format_time(datetime.fromtimestamp(current["sunrise"])),
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"sunset": format_time(datetime.fromtimestamp(current["sunset"])),
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"current_pressure": current["pressure"],
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"current_desc": current["weather"][0]["description"],
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"periods": [
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{
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"low": int(round(p["temp"]["min"])),
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"high": int(round(p["temp"]["max"])),
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"desc": p["weather"][0]["description"],
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"humidity": p["humidity"],
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"sunrise": format_time(datetime.fromtimestamp(p["sunrise"])),
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"sunset": format_time(datetime.fromtimestamp(p["sunset"])),
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"pressure": p["pressure"],
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"period": format_date(datetime.fromtimestamp(p["dt"])),
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}
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for p in periods
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],
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}
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]
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@app.get("/")
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async def read_root(token: str):
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if token != CONFIG["auth_token"]:
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raise HTTPException(status_code=403, detail="unauthorized")
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[
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pollen,
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weather,
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] = await asyncio.gather(
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fetch_pollen(CONFIG["zip"]),
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fetch_weather(CONFIG["lat"], CONFIG["lon"], CONFIG["weather_api_key"]),
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)
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pollen_periods = {p["period"]: p for p in pollen[0]["periods"]} if pollen and pollen[0]["periods"] else {}
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weather_periods = {p["period"]: p for p in weather[0]["periods"]} if weather and weather[0]["periods"] else {}
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# Add current weather data as a "current" period
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if weather and weather[0]:
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data = weather[0]
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weather_periods["current"] = {
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"period": "current",
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"temp": data["current_temp"],
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"feels_like": data["current_feels_like"],
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"humidity": data["current_humidity"],
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"pressure": data["current_pressure"],
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"desc": data["current_desc"],
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"sunrise": data["sunrise"],
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"sunset": data["sunset"]
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}
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today_date = format_date(datetime.now())
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tomorrow_date = format_date(datetime.now() + timedelta(days=1))
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result = {
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"fetched_at": format_datetime(datetime.now()),
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"current": {},
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"today": {},
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"tomorrow": {},
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}
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if "current" in weather_periods:
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weather_data = weather_periods["current"]
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result["current"] = {
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"temp": weather_data["temp"],
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"feels_like": weather_data["feels_like"],
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"desc": weather_data["desc"],
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"humidity": weather_data["humidity"],
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"pressure": weather_data["pressure"]
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}
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today_data = build_daily_data(today_date, pollen_periods, weather_periods)
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if today_data:
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result["today"] = today_data
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tomorrow_data = build_daily_data(tomorrow_date, pollen_periods, weather_periods)
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if tomorrow_data:
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result["tomorrow"] = tomorrow_data
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return result
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