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https://github.com/maif/meteole

A Python client library for weather forecast APIs (e.g., Météo-France)
https://github.com/maif/meteole

api-client maif meteo-france package python weather-api weather-forecast

Last synced: 2 months ago
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A Python client library for weather forecast APIs (e.g., Météo-France)

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  meteole





    Easy access to Météo-France weather models and data





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---



**Documentation:** [https://maif.github.io/meteole/home/](https://maif.github.io/meteole/home/)



**Repository:** [https://github.com/MAIF/meteole](https://github.com/MAIF/meteole)



**Release article:** [Medium](https://medium.com/oss-by-maif/meteole-simplifier-lacc%C3%A8s-aux-donn%C3%A9es-m%C3%A9t%C3%A9o-afeec5e5d395)



---



## Overview



**Meteole** is a Python library designed to simplify accessing weather data from the Météo-France APIs. It provides:



- **Automated token management**: Simplify authentication with a single `application_id`.

- **Unified model usage**: AROME, AROME INSTANTANE, ARPEGE, PIAF forecasts with a consistent interface.

- **User-friendly parameter handling**: Intuitive management of key weather forecasting parameters.

- **Seamless data integration**: Directly export forecasts as Pandas DataFrames

- **Vigilance bulletins**: Retrieve real-time weather warnings across France.



Perfect for data scientists, meteorologists, and developers, Meteole helps integrate weather forecasts into projects effortlessly.



### Installation



```python

pip install meteole

```



## 🕐 Quickstart



### Step 1: Obtain an API token or key



Create an account on [the Météo-France API portal](https://portail-api.meteofrance.fr/). Next, subscribe to the desired APIs (Arome, Arpege, Arome Instantané, etc.). Retrieve the API token (or key) by going to “Mes APIs” and then “Générer token”.



### Step 2: Fetch Forecasts



Meteole allows you to retrieve forecasts for a wide range of weather indicators. Here's how to get started:



| Characteristics  | AROME                | ARPEGE                      | AROME INSTANTANE               | PIAF               |

|------------------|----------------------|-----------------------------| -------------------------------| -------------------------------|

| Resolution       | 1.3 km               | 10 km                       | 1.3 km                         | 1.3 km                         |

| Update Frequency | Every 3 hours        | Every 6 hours               | Every 1 hour                   | Every 10 minutes |

| Forecast Range   | Every hour, up to 51 hours | Every hour, up to 114 hours | Every 15 minutes, up to 360 minutes | Every 5 minutes, up to 195 minutes |



*note : the date of the run cannot be more than 4 days in the past. Consequently, change the date of the run in the example below.*



```python

import datetime as dt 

from meteole import AromeForecast



# Configure the logger to provide information on data recovery: recovery status, default settings, etc.

import logging

logging.basicConfig(level=logging.INFO)

logger = logging.getLogger("meteole")



# Initialize the AROME forecast client

# Find your APPLICATION_ID by following these guidelines: https://maif.github.io/meteole/how_to/?h=application_id#get-a-token-an-api-key-or-an-application-id

arome_client = AromeForecast(application_id=APPLICATION_ID)



# Check indicators available

print(arome_client.INDICATORS)



# Fetch weather data

df_arome = arome_client.get_coverage(

    indicator="V_COMPONENT_OF_WIND_GUST__SPECIFIC_HEIGHT_LEVEL_ABOVE_GROUND",  # Optional: if not, you have to fill coverage_id

    run="2025-01-10T00.00.00Z",                                                # Optional: forecast start time

    forecast_horizons=[                                                       # Optional: prediction times (in hours)

      dt.timedelta(hours=1),

      dt.timedelta(hours=2),

    ],  

    heights=[10],                                                              # Optional: height above ground level

    pressures=None,                                                            # Optional: pressure level

    long = (-5.1413, 9.5602),                                                  # Optional: longitude

    lat = (41.33356, 51.0889),                                                 # Optional: latitude

    coverage_id=None,                                                          # Optional: an alternative to indicator/run/interval

    temp_dir=None,                                                             # Optional: Directory to store the temporary file

)

```

Note: The coverage_id can be used instead of indicator, run, and interval.



The usage of ARPEGE, AROME INSTANTANE, PIAF is identical to AROME, except that you initialize the appropriate class



### Step 3: Explore Parameters and Indicators

#### Discover Available Indicators

Use the `get_capabilities()` method to list all available indicators, run times, and intervals:



```

indicators = arome_client.get_capabilities()

print(indicators)

```



#### Fetch Description for a Specific Indicator

Understand the required parameters (`forecast_horizons`, `heights`, `pressures`)  for any indicator using `get_coverage_description()`:



```

description = arome_client.get_coverage_description(coverage_id)

print(description)

```



#### Geographical Coverage

The geographical coverage of forecasts can be customized using the lat and long parameters in the get_coverage method. By default, Meteole retrieves data for the entire metropolitan France.



#### Fetch Forecasts for Multiple Indicators

The `get_combined_coverage` method allows you to retrieve weather data for multiple indicators at the same time, streamlining the process of gathering forecasts for different parameters (e.g., temperature, wind speed, etc.). For detailed guidance on using this feature, refer to this [tutorial](./tutorial/Fetch_forecast_for_multiple_indicators.ipynb).



Explore detailed examples in the [tutorials folder](./tutorial) to quickly get started with Meteole.



### ⚠️ VIGILANCE METEO FRANCE

Meteo France provides nationwide vigilance bulletins, highlighting potential weather risks. These tools allow you to integrate weather warnings into your workflows, helping trigger targeted actions or models.



```python

from meteole import Vigilance



vigi = Vigilance(application_id=APPLICATION_ID)



df_phenomenon, df_timelaps = vigi.get_phenomenon()



bulletin = vigi.get_bulletin()



vigi.get_vignette()

```



vignette de vigilance



To have more documentation from Meteo-France in Vigilance Bulletin :

- [Meteo France Documentation](https://donneespubliques.meteofrance.fr/?fond=produit&id_produit=305&id_rubrique=50)



## Contributing



Contributions are *very* welcome!



If you see an issue that you'd like to see fixed, the best way to make it happen is to help out by submitting a pull request implementing it.



Refer to the [CONTRIBUTING.md](./CONTRIBUTING.md) file for more details about the workflow,

and general hints on how to prepare your pull request. You can also ask for clarifications or guidance in GitHub issues directly.



## License



This project is Open Source and available under the Apache 2 License.



## 🙏 Acknowledgements

The development of Meteole was inspired by the excellent work in the [meteofranceapi](https://github.com/antoinetavant/meteofranceapi) repository by Antoine Tavant.