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import codecs |
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import csv |
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import http.client |
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import os |
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import re |
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import sys |
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import urllib.request |
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from datetime import date, timedelta |
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from io import StringIO |
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import pandas as pd |
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PAST_WEATHER_DATA_FILE = "past_weather_data.csv" |
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PAST_POLLUTION_DATA_FILE = "past_pollution_data.csv" |
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def update_past_weather_data(): |
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last_year_date = date.today() - timedelta(days=365) |
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if os.path.exists(PAST_WEATHER_DATA_FILE): |
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df = pd.read_csv(PAST_WEATHER_DATA_FILE) |
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start_date = pd.to_datetime(df["date"]).max().date().isoformat() |
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end_date = (last_year_date + timedelta(days=2)).isoformat() |
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else: |
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df = pd.DataFrame() |
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start_date = (last_year_date - timedelta(days=8)).isoformat() |
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end_date = (last_year_date + timedelta(days=2)).isoformat() |
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try: |
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ResultBytes = urllib.request.urlopen( |
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f"https://weather.visualcrossing.com/VisualCrossingWebServices/rest/services/timeline/Utrecht/{start_date}/{end_date}?unitGroup=metric&elements=datetime%2Cwindspeed%2Ctemp%2Csolarradiation%2Cprecip%2Cpressure%2Cvisibility%2Chumidity&include=days&key=7Y6AY56M6RWVNHQ3SAVHNJWFS&maxStations=1&contentType=csv" |
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) |
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CSVText = csv.reader(codecs.iterdecode(ResultBytes, "utf-8")) |
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data = pd.DataFrame(list(CSVText)) |
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data.columns = data.iloc[0] |
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data = data[1:] |
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data = data.rename(columns={"datetime": "date"}) |
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updated_df = pd.concat([df, data], ignore_index=True) |
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updated_df.drop_duplicates(subset="date", keep="last", inplace=True) |
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updated_df.to_csv(PAST_WEATHER_DATA_FILE, index=False) |
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except urllib.error.HTTPError as e: |
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ErrorInfo = e.read().decode() |
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print("Error code: ", e.code, ErrorInfo) |
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sys.exit() |
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except urllib.error.URLError as e: |
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ErrorInfo = e.read().decode() |
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print("Error code: ", e.code, ErrorInfo) |
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sys.exit() |
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def update_past_pollution_data(): |
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O3 = [] |
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NO2 = [] |
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particles = ["NO2", "O3"] |
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stations = ["NL10636", "NL10639", "NL10643"] |
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all_dataframes = [] |
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last_year_date = date.today() - timedelta(days=365) |
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if os.path.exists(PAST_POLLUTION_DATA_FILE): |
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existing_data = pd.read_csv(PAST_POLLUTION_DATA_FILE) |
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last_date = pd.to_datetime(existing_data["date"]).max() |
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if last_date >= pd.to_datetime(last_year_date): |
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print("Data is already up to date.") |
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return |
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else: |
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start_date = last_date.date() |
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end_date = last_year_date + timedelta(days=3) |
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else: |
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existing_data = pd.DataFrame() |
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start_date = last_year_date - timedelta(days=7) |
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end_date = last_year_date + timedelta(days=3) |
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date_list = [ |
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start_date + timedelta(days=x) for x in range((end_date - start_date).days + 1) |
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] |
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for current_date in date_list: |
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today = current_date.isoformat() + "T09:00:00Z" |
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yesterday = (current_date - timedelta(1)).isoformat() + "T09:00:00Z" |
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for particle in particles: |
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all_dataframes = [] |
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for station in stations: |
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conn = http.client.HTTPSConnection("api.luchtmeetnet.nl") |
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payload = "" |
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headers = {} |
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conn.request( |
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"GET", |
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f"/open_api/measurements?station_number={station}&formula={particle}&page=1&order_by=timestamp_measured&order_direction=desc&end={today}&start={yesterday}", |
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payload, |
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headers, |
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) |
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res = conn.getresponse() |
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data = res.read() |
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decoded_data = data.decode("utf-8") |
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df = pd.read_csv(StringIO(decoded_data)) |
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df = df.filter(like="value") |
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all_dataframes.append(df) |
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combined_data = pd.concat(all_dataframes, ignore_index=True) |
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values = [] |
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for row in combined_data: |
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cleaned_value = re.findall(r"[-+]?\d*\.\d+|\d+", row) |
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if cleaned_value: |
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values.append(float(cleaned_value[0])) |
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if values: |
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avg = sum(values) / len(values) |
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if particle == "NO2": |
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NO2.append(avg) |
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else: |
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O3.append(avg) |
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new_data = pd.DataFrame( |
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{ |
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"date": date_list, |
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"NO2": NO2, |
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"O3": O3, |
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} |
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) |
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updated_data = pd.concat([existing_data, new_data], ignore_index=True) |
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updated_data.drop_duplicates(subset="date", keep="last", inplace=True) |
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updated_data.to_csv(PAST_POLLUTION_DATA_FILE, index=False) |
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return NO2, O3 |
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def get_past_combined_data(): |
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update_past_weather_data() |
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update_past_pollution_data() |
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combined_df = pd.read_csv(PAST_WEATHER_DATA_FILE) |
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pollution_data = pd.read_csv(PAST_POLLUTION_DATA_FILE) |
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combined_df["NO2"] = pollution_data["NO2"] |
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combined_df["O3"] = pollution_data["O3"] |
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combined_df = combined_df.rename( |
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columns={ |
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"date": "date", |
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"windspeed": "wind_speed", |
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"temp": "mean_temp", |
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"solarradiation": "global_radiation", |
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"precip": "percipitation", |
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"sealevelpressure": "pressure", |
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"visibility": "minimum_visibility", |
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} |
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) |
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combined_df["date"] = pd.to_datetime(combined_df["date"]) |
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combined_df["weekday"] = combined_df["date"].dt.day_name() |
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combined_df["wind_speed"] = combined_df["wind_speed"].astype(float) |
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combined_df["mean_temp"] = combined_df["mean_temp"].astype(float) |
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combined_df["minimum_visibility"] = combined_df["minimum_visibility"].astype(float) |
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combined_df["percipitation"] = combined_df["percipitation"].astype(float) |
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combined_df["pressure"] = combined_df["pressure"].astype(float).round() |
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combined_df["humidity"] = combined_df["humidity"].astype(float).round() |
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combined_df["global_radiation"] = combined_df["global_radiation"].astype(float) |
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combined_df["wind_speed"] = (combined_df["wind_speed"] / 3.6) * 10 |
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combined_df["mean_temp"] = combined_df["mean_temp"] * 10 |
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combined_df["minimum_visibility"] = combined_df["minimum_visibility"] * 10 |
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combined_df["percipitation"] = combined_df["percipitation"] * 10 |
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combined_df["pressure"] = combined_df["pressure"] * 10 |
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combined_df["wind_speed"] = ( |
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combined_df["wind_speed"].astype(float).round().astype(int) |
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) |
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combined_df["mean_temp"] = ( |
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combined_df["mean_temp"].astype(float).round().astype(int) |
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) |
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combined_df["minimum_visibility"] = ( |
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combined_df["minimum_visibility"].astype(float).round().astype(int) |
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) |
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combined_df["percipitation"] = ( |
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combined_df["percipitation"].astype(float).round().astype(int) |
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) |
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combined_df["pressure"] = combined_df["pressure"].astype(float).round().astype(int) |
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combined_df["humidity"] = combined_df["humidity"].astype(float).round().astype(int) |
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combined_df["global_radiation"] = ( |
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combined_df["global_radiation"].astype(float).round().astype(int) |
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) |
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return combined_df |
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