wetter/app.py

# -*- coding: utf-8 -*-
from flask import Flask, render_template, request, jsonify
from geopy.geocoders import Nominatim
from geopy.exc import GeocoderTimedOut
import math
import traceback
import pandas as pd
import datetime as _dt

from wetterdienst.provider.dwd.mosmix import DwdMosmixRequest
from cachetools import TTLCache
from astral import LocationInfo
from astral.sun import sun as astral_sun
import requests as _requests

app = Flask(__name__)

# ── Zeitzone ────────────────────────────────────────────────────────────
try:
    import zoneinfo
    BERLIN = zoneinfo.ZoneInfo("Europe/Berlin")
except ImportError:
    import pytz
    BERLIN = pytz.timezone("Europe/Berlin")

# ── Cache: Forecasts 45 Min, DWD-Warnungen 15 Min ────────────────────────────
_forecast_cache = TTLCache(maxsize=64, ttl=2700)
_warn_cache     = TTLCache(maxsize=32, ttl=900)

# ── MOSMIX Parameter ─────────────────────────────────────────────────────────
MOSMIX_PARAMS = [
    "hourly/large/temperature_air_mean_2m",
    "hourly/large/wind_speed",
    "hourly/large/wind_direction",
    "hourly/large/wind_gust_max_last_1h",
    "hourly/large/cloud_cover_total",
    "hourly/large/pressure_air_site_reduced",
    "hourly/large/precipitation_height_last_1h",
    "hourly/large/sunshine_duration",
    "hourly/large/probability_precipitation_height_gt_0_1mm_last_1h",
    "hourly/large/uv_index",
]

def _get_berlin():
    try:
        import zoneinfo
        return zoneinfo.ZoneInfo("Europe/Berlin")
    except ImportError:
        import pytz
        return pytz.timezone("Europe/Berlin")

def geocode_location(query):
    geolocator = Nominatim(user_agent="skywatcher-app/1.0")
    try:
        loc = geolocator.geocode(query, language="de", timeout=10)
        if loc:
            return loc.latitude, loc.longitude, loc.address
    except GeocoderTimedOut:
        pass
    return None, None, None

def haversine(lat1, lon1, lat2, lon2):
    R = 6371
    dlat = math.radians(lat2 - lat1)
    dlon = math.radians(lon2 - lon1)
    a = (math.sin(dlat/2)**2 + math.cos(math.radians(lat1))*math.cos(math.radians(lat2))*math.sin(dlon/2)**2)
    return R * 2 * math.atan2(math.sqrt(a), math.sqrt(1-a))

def _isnan(v):
    try:
        return math.isnan(float(v))
    except (TypeError, ValueError):
        return True

def _round_temp(k):
    if k is None or _isnan(k):
        return None
    return round(float(k), 1)

def feels_like(temp_c, wind_kmh, cloud_pct):
    if temp_c is None:
        return None
    if temp_c <= 10 and wind_kmh is not None and wind_kmh > 4.8:
        v = wind_kmh
        wc = 13.12 + 0.6215*temp_c - 11.37*(v**0.16) + 0.3965*temp_c*(v**0.16)
        return round(wc, 1)
    if temp_c >= 27:
        rh = 60
        hi = (-8.78469475556 + 1.61139411*temp_c + 2.33854883889*rh
              - 0.14611605*temp_c*rh - 0.012308094*temp_c**2
              - 0.016424828*rh**2 + 0.002211732*temp_c**2*rh
              + 0.00072546*temp_c*rh**2 - 0.000003582*temp_c**2*rh**2)
        return round(hi, 1)
    return temp_c

def get_sun_times(lat, lon, date=None):
    try:
        loc = LocationInfo(latitude=lat, longitude=lon, timezone="Europe/Berlin")
        d = date or _dt.date.today()
        s = astral_sun(loc.observer, date=d, tzinfo=_get_berlin())
        return (s["sunrise"].strftime("%H:%M"), s["sunset"].strftime("%H:%M"),
                s["dawn"].strftime("%H:%M"), s["dusk"].strftime("%H:%M"))
    except Exception:
        return None, None, None, None

def get_dwd_warnings(lat, lon):
    key = (round(lat, 1), round(lon, 1))
    if key in _warn_cache:
        return _warn_cache[key]
    try:
        url = "https://www.dwd.de/DWD/warnungen/warnapp/json/warnings.json"
        resp = _requests.get(url, timeout=8)
        if resp.status_code != 200:
            _warn_cache[key] = []
            return []
        text = resp.text
        if text.startswith("warnWetter.loadWarnings("):
            text = text[len("warnWetter.loadWarnings("):-2]
        import json
        data = json.loads(text)
        warnings = []
        for region_warns in data.get("warnings", {}).values():
            for w in region_warns:
                level = w.get("level", 0)
                if level >= 1:
                    warnings.append({
                        "level":       level,
                        "type":        w.get("event", ""),
                        "headline":    w.get("headline", ""),
                        "description": w.get("description", ""),
                    })
        warnings.sort(key=lambda x: x["level"], reverse=True)
        result = warnings[:3]
        _warn_cache[key] = result
        return result
    except Exception:
        _warn_cache[key] = []
        return []

def wind_direction_name(degrees):
    if degrees is None or _isnan(degrees):
        return "–"
    dirs = ["N","NNO","NO","ONO","O","OSO","SO","SSO","S","SSW","SW","WSW","W","WNW","NW","NNW"]
    idx = round(float(degrees)/22.5) % 16
    return dirs[idx]

def weather_icon(cloud_pct, precip_mm, rain_prob, temp_c):
    if temp_c is not None and temp_c <= 0 and (precip_mm and precip_mm > 0 or rain_prob and rain_prob >= 40):
        return "❄️"
    if precip_mm and precip_mm > 0.2:
        return "🌧️"
    if rain_prob is not None and rain_prob >= 60:
        return "🌦️"
    if rain_prob is not None and rain_prob >= 30 and cloud_pct is not None and cloud_pct > 50:
        return "🌦️"
    if cloud_pct is not None:
        if cloud_pct > 80: return "☁️"
        if cloud_pct > 35: return "⛅"
    return "☀️"

def get_mosmix_forecast(lat, lon, hours=72):
    cache_key = (round(lat,2), round(lon,2), hours)
    if cache_key in _forecast_cache:
        return _forecast_cache[cache_key]
    try:
        berlin = _get_berlin()
        req = DwdMosmixRequest(parameters=MOSMIX_PARAMS)
        nearest = req.filter_by_rank(latlon=(lat, lon), rank=1)
        result = nearest.values.all()
        df = result.df
        if df is None or (hasattr(df,"__len__") and len(df)==0):
            return [], {}
        if hasattr(df,"to_pandas"): df = df.to_pandas()
        station_info = {}
        sdf = nearest.df
        if sdf is not None and len(sdf) > 0:
            if hasattr(sdf,"to_pandas"): sdf = sdf.to_pandas()
            station_info = sdf.iloc[0].to_dict()
        df = df.sort_values("date").copy()
        min_date = df["date"].min()
        cutoff = min_date + pd.Timedelta(hours=hours)
        df = df[df["date"] <= cutoff]
        forecast = []
        for date_val, group in df.groupby("date"):
            p = {row["parameter"]: row["value"] for _, row in group.iterrows()}
            temp_c   = _round_temp(p.get("temperature_air_mean_2m"))
            ff       = p.get("wind_speed")
            wind_kmh = round(float(ff)*3.6,1) if not _isnan(ff) else None
            fx1      = p.get("wind_gust_max_last_1h")
            gust_kmh = round(float(fx1)*3.6,1) if not _isnan(fx1) else None
            pppp     = p.get("pressure_air_site_reduced")
            pressure = round(float(pppp),1) if not _isnan(pppp) else None
            rr1c     = p.get("precipitation_height_significant_weather_last_1h")
            rr1      = p.get("precipitation_height_last_1h")
            prec_raw = rr1c if not _isnan(rr1c) else (rr1 if not _isnan(rr1) else None)
            precip   = round(float(prec_raw),1) if prec_raw is not None else 0.0
            rprob    = p.get("probability_precipitation_height_gt_0_1mm_last_1h")
            rain_prob = round(float(rprob)*100) if not _isnan(rprob) else None
            n        = p.get("cloud_cover_total")
            clouds   = round(float(n)) if not _isnan(n) else None
            sun      = p.get("sunshine_duration")
            sun_min  = round(float(sun)/60) if not _isnan(sun) else 0
            wd       = p.get("wind_direction")
            wind_dir = float(wd) if not _isnan(wd) else None
            uv_raw   = p.get("uv_index")
            uv       = round(float(uv_raw),1) if not _isnan(uv_raw) else None
            feels    = feels_like(temp_c, wind_kmh, clouds)
            dt_local = pd.Timestamp(date_val).tz_convert(berlin).tz_localize(None)
            forecast.append({
                "datetime":     dt_local,
                "temp_c":       temp_c,
                "feels_like":   feels,
                "wind_kmh":     wind_kmh,
                "gust_kmh":     gust_kmh,
                "pressure_hpa": pressure,
                "precip_mm":    precip,
                "rain_prob":    rain_prob,
                "cloud_pct":    clouds,
                "sun_min":      sun_min,
                "wind_dir":     wind_dir,
                "uv_index":     uv,
                "icon":         weather_icon(clouds, precip, rain_prob, temp_c),
            })
        result_data = (forecast, station_info)
        _forecast_cache[cache_key] = result_data
        return result_data
    except Exception:
        traceback.print_exc()
        return [], {}

@app.route("/")
def index():
    return render_template("index.html")

@app.route("/wetter", methods=["GET"])
def wetter():
    ort = request.args.get("ort","").strip()
    lat_param = request.args.get("lat")
    lon_param = request.args.get("lon")

    # Geolocation via Browser-Koordinaten
    lat, lon, display_name = None, None, None
    if lat_param and lon_param:
        try:
            lat = float(lat_param)
            lon = float(lon_param)
            geolocator = Nominatim(user_agent="skywatcher-app/1.0")
            loc = geolocator.reverse((lat, lon), language="de", timeout=10)
            display_name = loc.address if loc else f"{lat:.2f}, {lon:.2f}"
            if not ort or ort == "Mein Standort":
                ort = display_name.split(",")[0]
        except Exception:
            lat, lon, display_name = None, None, None

    if lat is None:
        if not ort:
            return render_template("index.html", error="Bitte einen Ort eingeben.")
        lat, lon, display_name = geocode_location(ort)
        if lat is None:
            return render_template("index.html", error=f'Ort "{ort}" konnte nicht gefunden werden.')
    forecast, mosmix_station = get_mosmix_forecast(lat, lon, hours=72)
    if not forecast:
        return render_template("index.html", error="Keine Wetterdaten verfügbar. Bitte später erneut versuchen.")
    station_name = mosmix_station.get("name", ort)
    station_id   = mosmix_station.get("station_id", "–")
    station_lat  = float(mosmix_station.get("latitude", lat))
    station_lon  = float(mosmix_station.get("longitude", lon))
    station_dist = round(haversine(lat, lon, station_lat, station_lon), 1)
    berlin = _get_berlin()
    now_local_dt     = _dt.datetime.now(berlin)
    now_local        = now_local_dt.strftime("%H:%M")
    now_berlin_naive = now_local_dt.replace(minute=0, second=0, microsecond=0, tzinfo=None)
    current_idx = 0
    for i, h in enumerate(forecast):
        dt = h["datetime"]
        dt_naive = dt.replace(tzinfo=None) if hasattr(dt,"tzinfo") and dt.tzinfo is not None else dt
        if dt_naive >= now_berlin_naive:
            current_idx = i
            break
    current  = forecast[current_idx]
    forecast = forecast[current_idx:]
    sunrise, sunset, dawn, dusk = get_sun_times(lat, lon)
    warnings = get_dwd_warnings(lat, lon)
    daily = {}
    for h in forecast:
        dt  = h["datetime"]
        day = dt.date() if hasattr(dt,"date") else str(dt)[:10]
        if day not in daily:
            daily[day] = {"temps":[], "precip":0.0, "cloud":[], "wind":[], "icons":[], "rain_prob":[], "uv":[]}
        if h["temp_c"] is not None: daily[day]["temps"].append(h["temp_c"])
        daily[day]["precip"] += h.get("precip_mm") or 0
        if h["cloud_pct"] is not None: daily[day]["cloud"].append(h["cloud_pct"])
        if h["wind_kmh"] is not None: daily[day]["wind"].append(h["wind_kmh"])
        if h.get("rain_prob") is not None: daily[day]["rain_prob"].append(h["rain_prob"])
        if h.get("uv_index") is not None: daily[day]["uv"].append(h["uv_index"])
        daily[day]["icons"].append(h["icon"])
    daily_summary = []
    for day, d in daily.items():
        daily_summary.append({
            "date":      day,
            "temp_min":  min(d["temps"]) if d["temps"] else None,
            "temp_max":  max(d["temps"]) if d["temps"] else None,
            "precip":    round(d["precip"],1),
            "rain_prob": max(d["rain_prob"]) if d["rain_prob"] else None,
            "cloud":     round(sum(d["cloud"])/len(d["cloud"])) if d["cloud"] else None,
            "wind_max":  max(d["wind"]) if d["wind"] else None,
            "uv_max":    max(d["uv"]) if d["uv"] else None,
            "icon":      max(set(d["icons"]), key=d["icons"].count),
        })
    chart_labels, chart_temps, chart_precip, chart_rain_prob = [], [], [], []
    for h in forecast[:48]:
        dt = h["datetime"]
        label = dt.strftime("%d.%m %H:%M") if hasattr(dt,"strftime") else str(dt)[5:16]
        chart_labels.append(label)
        chart_temps.append(h["temp_c"])
        chart_precip.append(h.get("precip_mm") or 0)
        chart_rain_prob.append(h.get("rain_prob") or 0)
    return render_template(
        "weather.html",
        ort=ort, display_name=display_name, lat=lat, lon=lon,
        station_name=station_name, station_id=station_id, station_dist=station_dist,
        current=current, now_local=now_local,
        sunrise=sunrise, sunset=sunset,
        warnings=warnings,
        forecast=forecast[:48], daily=daily_summary,
        chart_labels=chart_labels, chart_temps=chart_temps,
        chart_precip=chart_precip, chart_rain_prob=chart_rain_prob,
        wind_dir_name=wind_direction_name,
    )

@app.route("/api/suggest")
def suggest():
    q = request.args.get("q","").strip()
    if len(q) < 2: return jsonify([])
    geolocator = Nominatim(user_agent="skywatcher-app/1.0")
    try:
        results = geolocator.geocode(q, exactly_one=False, limit=5, language="de", addressdetails=True, timeout=5)
        return jsonify([{"name":r.address,"lat":r.latitude,"lon":r.longitude} for r in results] if results else [])
    except Exception:
        return jsonify([])

if __name__ == "__main__":
    app.run(debug=True, host="0.0.0.0", port=5000)