EOS/test.py

from flask import Flask, jsonify, request
import numpy as np
from datetime import datetime
from  modules.class_load import *
from  modules.class_ems import *
from  modules.class_pv_forecast import *
from modules.class_akku import *
from pprint import pprint


date = "2024-02-16"
akku_size = 100 # Wh
year_energy = 200*1000 #Wh


akku = PVAkku(akku_size)

# Load Forecast
lf = LoadForecast(filepath=r'load_profiles.npz', year_energy=year_energy)
specific_date_load = lf.get_daily_stats(date)[0,...]  # Datum anpassen

pprint(specific_date_load.shape)

# PV Forecast
PVforecast = PVForecast(r'.\test_data\pvprognose.json')
pv_forecast = PVforecast.get_forecast_for_date(date)
pprint(pv_forecast.shape)


ems = EnergieManagementSystem(akku, specific_date_load, pv_forecast)
o = ems.simuliere()
pprint(o)

# for data in forecast.get_forecast_data():
    # print(data.get_date_time(), data.get_dc_power(), data.get_ac_power(), data.get_windspeed_10m(), data.get_temperature())for data in forecast.get_forecast_data():


# app = Flask(__name__)


# @app.route('/getdata', methods=['GET'])
# def get_data():
    # # Hole das Datum aus den Query-Parametern
    # date_str = request.args.get('date')
    # year_energy = request.args.get('year_energy')
    
    # try:
        # # Konvertiere das Datum in ein datetime-Objekt
        # date_obj = datetime.strptime(date_str, '%Y-%m-%d')
        # filepath = r'.\load_profiles.npz'  # Pfad zur JSON-Datei anpassen
        # lf = cl.LoadForecast(filepath=filepath, year_energy=float(year_energy))
        # specific_date_prices = lf.get_daily_stats('2024-02-16')

        
        # # Berechne den Tag des Jahres
        # #day_of_year = date_obj.timetuple().tm_yday
        
        # # Konvertiere den Tag des Jahres in einen String, falls die Schlüssel als Strings gespeichert sind
        # #day_key = int(day_of_year)
        # #print(day_key)
        # # Überprüfe, ob der Tag im Jahr in den Daten vorhanden ist
        # array_list = lf.get_daily_stats(date_str)
        # pprint(array_list)
        # pprint(array_list.shape)
        # if array_list.shape == (2,24):
        # #if day_key < len(load_profiles_exp):
            # # Konvertiere das Array in eine Liste für die JSON-Antwort
             # #((load_profiles_exp_l[day_key]).tolist(),(load_profiles_std_l)[day_key].tolist())
            
            # return jsonify({date_str: array_list.tolist()})
        # else:
            # return jsonify({"error": "Datum nicht gefunden"}), 404
    # except ValueError:
        # # Wenn das Datum nicht im richtigen Format ist oder ungültig ist
        # return jsonify({"error": "Ungültiges Datum"}), 400

# if __name__ == '__main__':
    # app.run(debug=True)
EMS, Akku + erster Testfall (test.py) 2024-02-18 14:32:27 +01:00			`from flask import Flask, jsonify, request`
			`import numpy as np`
			`from datetime import datetime`
			`from modules.class_load import *`
			`from modules.class_ems import *`
			`from modules.class_pv_forecast import *`
			`from modules.class_akku import *`
			`from pprint import pprint`



			`date = "2024-02-16"`
			`akku_size = 100 # Wh`
			`year_energy = 200*1000 #Wh`


			`akku = PVAkku(akku_size)`

			`# Load Forecast`
			`lf = LoadForecast(filepath=r'load_profiles.npz', year_energy=year_energy)`
			`specific_date_load = lf.get_daily_stats(date)[0,...] # Datum anpassen`

			`pprint(specific_date_load.shape)`

			`# PV Forecast`
			`PVforecast = PVForecast(r'.\test_data\pvprognose.json')`
			`pv_forecast = PVforecast.get_forecast_for_date(date)`
			`pprint(pv_forecast.shape)`



			`ems = EnergieManagementSystem(akku, specific_date_load, pv_forecast)`
			`o = ems.simuliere()`
			`pprint(o)`

			`# for data in forecast.get_forecast_data():`
			`# print(data.get_date_time(), data.get_dc_power(), data.get_ac_power(), data.get_windspeed_10m(), data.get_temperature())for data in forecast.get_forecast_data():`




			`# app = Flask(__name__)`



			`# @app.route('/getdata', methods=['GET'])`
			`# def get_data():`
			`# # Hole das Datum aus den Query-Parametern`
			`# date_str = request.args.get('date')`
			`# year_energy = request.args.get('year_energy')`

			`# try:`
			`# # Konvertiere das Datum in ein datetime-Objekt`
			`# date_obj = datetime.strptime(date_str, '%Y-%m-%d')`
			`# filepath = r'.\load_profiles.npz' # Pfad zur JSON-Datei anpassen`
			`# lf = cl.LoadForecast(filepath=filepath, year_energy=float(year_energy))`
			`# specific_date_prices = lf.get_daily_stats('2024-02-16')`


			`# # Berechne den Tag des Jahres`
			`# #day_of_year = date_obj.timetuple().tm_yday`

			`# # Konvertiere den Tag des Jahres in einen String, falls die Schlüssel als Strings gespeichert sind`
			`# #day_key = int(day_of_year)`
			`# #print(day_key)`
			`# # Überprüfe, ob der Tag im Jahr in den Daten vorhanden ist`
			`# array_list = lf.get_daily_stats(date_str)`
			`# pprint(array_list)`
			`# pprint(array_list.shape)`
			`# if array_list.shape == (2,24):`
			`# #if day_key < len(load_profiles_exp):`
			`# # Konvertiere das Array in eine Liste für die JSON-Antwort`
			`# #((load_profiles_exp_l[day_key]).tolist(),(load_profiles_std_l)[day_key].tolist())`

			`# return jsonify({date_str: array_list.tolist()})`
			`# else:`
			`# return jsonify({"error": "Datum nicht gefunden"}), 404`
			`# except ValueError:`
			`# # Wenn das Datum nicht im richtigen Format ist oder ungültig ist`
			`# return jsonify({"error": "Ungültiges Datum"}), 400`

			`# if __name__ == '__main__':`
			`# app.run(debug=True)`