from fastapi import FastAPI import uvicorn import pandas as pd import numpy as np import pickle import rasterio import h5py from skimage.morphology import disk from geopy.extra.rate_limiter import RateLimiter from geopy.geocoders import Nominatim import pyproj app = FastAPI() #Endpoints #Root endpoints @app.get("/") def root(): return {"API": "ACPC HRRR"} def lat_lon_to_row_col(lat, lon): crs_dic = pickle.load(open('hrrr_crs.pkl', 'rb')) lon_hrrr, lat_hrrr = crs_dic['proj_4326'].transform(lon, lat) row, col = rasterio.transform.rowcol(crs_dic['affine'], lon_hrrr, lat_hrrr) return int(row), int(col) def geocode_address(address): try: address2 = address.replace(' ', '+').replace(',', '%2C') df = pd.read_json( f'https://geocoding.geo.census.gov/geocoder/locations/onelineaddress?address={address2}&benchmark=2020&format=json') results = df.iloc[:1, 0][0][0]['coordinates'] lat, lon = results['y'], results['x'] except: geolocator = Nominatim(user_agent='GTA Lookup') geocode = RateLimiter(geolocator.geocode, min_delay_seconds=2) location = geolocator.geocode(address) lat, lon = location.latitude, location.longitude return lat, lon def get_data(address, start_date, end_date, radius_miles, get_max): start_date = pd.Timestamp(str(start_date)).strftime('%Y%m%d%H') end_date = pd.Timestamp(str(end_date)).strftime('%Y%m%d%H') date_years = pd.date_range(start=start_date[:-2], end=end_date[:-2], freq='M') date_range_days = pd.date_range(start_date[:-2], end_date[:-2], freq='H') years = list(set([d.year for d in date_years])) if len(years) == 0: years = [pd.Timestamp(start_date).year] # Geocode Address lat, lon= geocode_address(address) # Convert Lat Lon to row & col on Array row, col = lat_lon_to_row_col(lat, lon) files = [ # 'Data/APCP_2024_hrrr_v2.h5', 'Data/APCP_2020_hrrr_v3.h5', 'Data/APCP_2021_hrrr_3.h5', 'Data/APCP_2022_hrrr_v2.h5', # 'Data/APCP_2023_hrrr_v2c.h5' ] files_choosen = [i for i in files if any(i for j in years if str(j) in i)] # Query and Collect H5 Data all_data = [] all_dates = [] for file in files_choosen: with h5py.File(file, 'r') as f: # Get Dates from H5 dates = f['date_time_hr'][:] date_idx = np.where((dates >= int(start_date)) & (dates <= int(end_date)))[0] # Select Data by Date and Radius dates = dates[date_idx] data = f['APCP'][date_idx, row-radius_miles:row + radius_miles+1, col-radius_miles:col+radius_miles+1] all_data.append(data) all_dates.append(dates) data_all = np.vstack(all_data) dates_all = np.concatenate(all_dates) # Convert to Inches data_mat = np.where(data_all < 0, 0, data_all)*0.0393701 # Get Radius of Data disk_mask = np.where(disk(radius_miles) == 1, True, False) data_mat = np.where(disk_mask, data_mat, -1).round(3) # Process to DataFrame # Find Max of Data if get_max == True: data_max = np.max(data_mat, axis=(1, 2)) df_data = pd.DataFrame({'Date': dates_all, 'APCP_max': data_max}) # Get all Data else: data_all = list(data_mat) df_data = pd.DataFrame({'Date': dates_all, 'APCP_all': data_all}) df_data['Date'] = pd.to_datetime(df_data['Date'], format='%Y%m%d%H') df_data = df_data.set_index('Date') df_data = df_data.reindex(date_range_days, fill_value=0).reset_index().rename( columns={'index': 'Date'}) df_data['Date'] = df_data['Date'].dt.strftime('%Y-%m-%d:%H') return df_data # return lat, lon, row, col @app.get('/APCP_Docker_Data') async def predict(address: str, start_date: str, end_date: str, radius_miles: int, get_max: bool): try: results = get_data(address, start_date, end_date, radius_miles, get_max) except: results = pd.DataFrame({'Date': ['error'], 'APCP_max': ['error']}) return results.to_json() # return results