/ecmwfr

Interface to the public ECMWF API Web Services

Primary LanguageROtherNOASSERTION

ecmwfr

R-CMD-check codecov CRAN_Status_Badge Project Status: Active – The project has reached a stable, usable state and is being actively developed. DOI

Programmatic interface to the two European Centre for Medium-Range Weather Forecasts API services. The package provides easy access to the 'ECMWF' web API services and Copernicus Climate Data Store or 'CDS' from within R, matching and expanding upon the ECMWF python tools.

How to cite this package in your article

You can cite this package like this "we obtained data from the European Centre for Medium-Range Weather Forecasts API using the ecmwf R package (Hufkens, Stauffer, and Campitelli 2019)". Here is the full bibliographic reference to include in your reference list (don't forget to update the 'last accessed' date):

Hufkens, K., R. Stauffer, & E. Campitelli. (2019). ecmwfr: Programmatic interface to the two European Centre for Medium-Range Weather Forecasts API services. Zenodo. http://doi.org/10.5281/zenodo.2647531.

Installation

stable release

To install the current stable release use a CRAN repository:

install.packages("ecmwfr")
library("ecmwfr")

development release

To install the development releases of the package run the following commands:

if(!require(devtools)){install.packages("devtools")}
devtools::install_github("bluegreen-labs/ecmwfr")
library("ecmwfr")

Vignettes are not rendered by default, if you want to include additional documentation please use:

if(!require(devtools)){install.packages("devtools")}
devtools::install_github("bluegreen-labs/ecmwfr", build_vignettes = TRUE)
library("ecmwfr")

Use: ECMWF services

Create a ECMWF account by self registering and retrieving your key at https://api.ecmwf.int/v1/key/ after you log in. The key is a long series of numbers and characters (X in the example below).

{
    "url"   : "https://api.ecmwf.int/v1",
    "key"   : "XXXXXXXXXXXXXXXXXXXXXX",
    "email" : "john.smith@example.com"
}

Setup

Before starting save the provided key to your local keychain. The package does not allow you to use your key inline in scripts to limit security issues when sharing scripts on github or otherwise.

# set a key to the keychain
wf_set_key(user = "john.smith@example.com",
           key = "XXXXXXXXXXXXXXXXXXXXXX",
           service = "webapi")

# you can retrieve the key using
wf_get_key(user = "john.smith@example.com")

# the output should be the key you provided
# "XXXXXXXXXXXXXXXXXXXXXX"

# Alternatively you can input your login info with an interactive request
wf_set_key(service = "webapi")

# you will get a command line request to provide the required details

Before you can download any data you have to make sure to accept the terms and conditions here: https://apps.ecmwf.int/datasets/licences/general/.

Data Requests

To download data use the wf_request() function, together with your email and a request string syntax as documented. Instead of json formatting the function uses a simple R list for all the arguments. Be sure to specify which service to use, in this case webapi is the correct service to request data from.

The conversion from a MARS or python based query to the list format can be automated if you use the RStudio based Addin. By selecting and using Addin -> Mars to list (or 'Python to list') you dynamically convert queries copied from either ECMWF or CDS/ADS based services.

# this is an example of a request
my_request <- list(
 stream = "oper",
 levtype = "sfc",
 param = "165.128/166.128/167.128",
 dataset = "interim",
 step = "0",
 grid = "0.75/0.75",
 time = "00/06/12/18",
 date = "2014-07-01/to/2014-07-31",
 type = "an",
 class = "ei",
 area = "73.5/-27/33/45",
 format = "netcdf",
 target = "tmp.nc"
 )

# an example download using fw_request()
# using the above request list()
# 
# data will be transferred to disk
# and saved in your home directory (~)
# set by the path argument

wf_request(
  user = "khrdev@outlook.com",
  request = my_request,
  transfer = TRUE,
  path = "~")

This operation might take a while. A progress indicator will keep you informed on the status of your request. Keep in mind that all data downloaded will be buffered in memory limiting the downloads to ~6GB on low end systems. You can track ongoing jobs at in the joblist at: https://apps.ecmwf.int/webmars/joblist/.

Use: Copernicus Climate Data Store (CDS)

Create a free CDS user account by self registering. Once your user account has been verified you can get your personal user ID and key by visiting the user profile. This information is required to be able to retrieve data via the ecmwfr package. Use the ecmwf wf_set_key function to store your login information in the system keyring (see below). Be aware, that unlike the API key for the ECMWF API your user does not correspond to the email address you use for the CDS login.

UID: 1234
API key: abcd1234-foo-bar-98765431-XXXXXXXXXX

Setup

If you prefer to use your local keychain (rather than using the .cdsapirc file) you have to save your login information first. The package does not allow you to use your key inline in scripts to limit security issues when sharing scripts on github or otherwise.

# set a key to the keychain
wf_set_key(user = "1234",
            key = "abcd1234-foo-bar-98765431-XXXXXXXXXX",
            service = "cds")

# you can retrieve the key using
wf_get_key(user = "1234")

# the output should be the key you provided
# "abcd1234-foo-bar-98765431-XXXXXXXXXX"

# Alternatively you can input your login info with an interactive request
wf_set_key(service = "cds")

# you will get a command line request to provide the required details

Before you can download any data you have to make sure to accept the terms and conditions here: Before downloading and processing data from CDS please make sure you accept the terms and conditions which can be found here: Copernicus Climate Data Store Disclaimer/Privacy.

Data Requests

To download data use the wf_request function, together with your user ID and a request string syntax as documented. Instead of json formatting the function uses a simple R list for all the arguments. Be sure to specify the service you want to use in your query in this case cds.

Note: the simplest way to get the requests is to go to the CDS website which offers an interactive interface to create these requests. E.g., for ERA-5 reanalysis:

# This is an example of a request for # downloading 'ERA-5' reanalysis data for
# 2000-04-04 00:00 UTC, temperature on # 850 hectopascal for an area covering 
# northern Europe.
# File will be stored as "era5-demo.nc" (netcdf format).
request <- list(
 "dataset_short_name" = "reanalysis-era5-pressure-levels",
 "product_type" = "reanalysis",
 "variable" = "temperature",
 "pressure_level" = "850",
 "year" = "2000",
 "month" = "04",
 "day" = "04",
 "time" = "00:00",
 "area" = "70/-20/00/60",
 "format" = "netcdf",
 "target" = "era5-demo.nc"
 )

# If you have stored your user login information
# in the keyring by calling cds_set_key you can
# call:
file <- wf_request(
 user     = "1234",   # user ID (for authentification)
 request  = request,  # the request
 transfer = TRUE,     # download the file
 path     = "."       # store data in current working directory
 )

The CDS services are quite fast, however, if you request a lot of variables, multiple levels, and data over several years these requests might take quite a while! Note: If you need to download larger amounts of data it is suggested to split the downloads, e.g., download the data in chunks (e.g., month-by-month, or year-by-year). A progress indicator will keep you informed on the status of your request. Keep in mind that all data downloaded will be buffered in memory limiting the downloads to ~6GB on low end systems.

Use: Copernicus Atmosphere Data Store (ADS)

Create a free ADS user account by self registering. Once your user account has been verified you can get your personal user ID and key by visiting the user profile. This information is required to be able to retrieve data via the ecmwfr package. Use the ecmwf wf_set_key function to store your login information in the system keyring (see below). Be aware, that unlike the API key for the ECMWF API your user does not correspond to the email address you use for the ADS login.

UID: 2345
API key: asfed1234-foo-bar-98765431-XXXXXXXXXX

Setup

If you prefer to use your local keychain (rather than using the .cdsapirc file) you have to save your login information first. The package does not allow you to use your key inline in scripts to limit security issues when sharing scripts on github or otherwise.

# set a key to the keychain
wf_set_key(user = "2345",
            key = "asfed1234-foo-bar-98765431-XXXXXXXXXX",
            service = "cds")

# you can retrieve the key using
wf_get_key(user = "2345")

# the output should be the key you provided
# "asfed1234-foo-bar-98765431-XXXXXXXXXX"

# Alternatively you can input your login info with an interactive request
wf_set_key(service = "ads")

# you will get a command line request to provide the required details

Before you can download any data you have to make sure to accept the terms and conditions here: Before downloading and processing data from CDS please make sure you accept the terms and conditions which can be found here: Copernicus Atmosphere Data Store Disclaimer/Privacy.

Data Requests

To download data use the wf_request function, together with your user ID and a request string syntax. Instead of json formatting the function uses a simple R list for all the arguments. Be sure to specify the service you want to use in your query in this case ads. Note that the cds and ads services are identical in use except for their login credentials

Note: the simplest way to get the requests is to go to the ADS website which offers an interactive interface to create these requests. E.g., for air quality data:

# This is an example of a request for global
# particulate matter data, data will be stored
# in your present working directory with filename
# particulate_matter.nc
request <- list(
  date = "2003-01-01/2003-01-01",
  format = "netcdf",
  variable = "particulate_matter_2.5um",
  time = "00:00",
  dataset_short_name = "cams-global-reanalysis-eac4",
  target = "particulate_matter.nc"
)

# If you have stored your user login information
# in the keyring by calling cds_set_key you can
# call:
file <- wf_request(
 user     = "2345",   # user ID (for authentification)
 request  = request,  # the request
 transfer = TRUE,     # download the file
 path     = "."       # store data in current working directory
 )

The same file restrictions and notes as for the CDS apply to the ADS.

File based keychains

On linux you can opt to use a file based keyring, instead of a GUI based keyring manager. This is helpful for headless setups such as servers. For this option to work linux users must set an environmental option.

options(keyring_backend="file")

You will be asked to provide a password to encrypt the keyring with. Upon the start of each session you will be asked to provide this password, unlocking all ecmwfr credentials for this session. Should you ever forget the password just delete the file at: ~/.config/r-keyring/ecmwfr.keyring and re-enter all your credentials.

Date specification

For those familiar to ECMWF mars syntax: CDS/ADS does not accept date = "2000-01-01/to/2000-12-31" specifications. It is possible to specify one specific date via date = "2000-01-01" or multiple days via date = ["2000-01-01","2000-01-02","2000-10-20"] or date = "YYYY-MM-DD/YYYY-MM-DD". Specifying the date as a range allows you to sidestep the ERA5T restricted access issue.

Citation

Hufkens, K., R. Stauffer, & E. Campitelli. (2019). ecmwfr: Programmatic interface to the two European Centre for Medium-Range Weather Forecasts API services. Zenodo. http://doi.org/10.5281/zenodo.2647531.

Acknowledgements

This project was in part supported by the Belgian Science Policy office COBECORE project (BELSPO; grant BR/175/A3/COBECORE), a "Fonds voor Wetenschappelijk Onderzoek" travel grant (FWO; V438318N) and the Marie Skłodowska-Curie Action (H2020 grant 797668). Logo design elements are taken from the FontAwesome library according to these terms, where the globe element was inverted and intersected.