Hans Martin's website

beakr for R

(updated: ) in Code.

What is beakr?

beakr is an unopinionated and minimalist web framework for developing and deploying web services with R. It is designed to be as simple as possible for data scientists and engineerings to quickly write web applications, services, and APIs without worrying about lower-level details or high-level side-effects. In other words, beakr is made to be explicit, robust, and scalable – and the batteries are not included.

beakr is built on the httpuv package – which itself is built on top of the libuv and http-parser C libraries. So while beakr will be stable for most all R operations, it is not necessarily recommended for building extensive web-applications and is not designed to be an especially performant web framework. If you’re looking for a full-featured web framework see Shiny, django, etc. beakr is inspired by the minimalist and massively-expandable frameworks offered by Express.js and Flask.

beakr takes a programmatic approach to creating web-services and the framework focuses on just core HTTP protocol functionality (e.g POST, GET, PUT, etc.). To illustrate, we can create a “Hello World” application with beakr with only a few lines of code.

beakr <- newBeakr()
beakr %>%
  httpGET("/hello", function(req, res, err) {
    "Hello, world!"
  }) %>% 

Running this script will serve the application (by default on host = and port = 25118). When a client points to the path /hello a GET request is made to the server. The beakr instance is listening and handles it with a defined server response – in this case, the response will show an HTML page with the plain-text “Hello, world!”.

So what is beakr good for?

beakr is simple and flexible and as such is best suited for simplicity. It is a great tool to quickly and easily stand up web services without the limitations of heavier-weight contenders so you can worry less about having to learn a new framework and more about what the application should do. A few examples could be:

  • Building RESTful APIs
  • Building web-applications and services



It is increasingly important for data scientists to share operational data across computers, languages, and pipelines. beakr makes it easy to create micro-services like RESTful (Representational State Transfer) APIs and other infrastructure that are flexible, easy to deploy, scale, and maintain.

For example, we can easily build a RESTful API with two endpoints (/Sepal.Length, /Sepal.Width) that retrieve and respond with a JSON data object from Fischers Iris dataset.



beakr <- newBeakr()

beakr %>% 
  httpGET("/iris/Sepal.Width", function(req, res, err) {
  }) %>% 
  httpGET("/iris/Sepal.Length", function(req, res, err) {
  }) %>%

Now a client (web-browser) can access the JSON data at and

Deploy a model

beakr can also be used to deploy models and algorithms as micro-services. For example, we can deploy a simple KNN-model to return the flower species (from the Iris dataset) to a client as plain text. Using the POST method we can create a beakr instance to handle recvieving a JSON object containing the sepal and petal lengths and widths (sl, sw, pl, pw, respectively).

First we can define and train a simplistic K-nearest neighbors flower model using the caret package.


# Load the Iris data set 

# Train using KNN
knn_model <- train(
  Species ~ ., 
  data = iris, 
  method = 'knn', 
  trControl = trainControl(method='cv', number=10), 
  metric = 'Accuracy'

With beakr‘s we can create and expose normal R functions using the built in decorate() function, which easily prepares functions to accept and respond as you’d expect. With this is mind, we can write a simple function to accept our petal and sepal parameters and return the predicted species using our model defined above.

# Function to predict the species using the trained model.
predict_species <- function(sl, sw, pl, pw) {
  test <- data.frame(
    Sepal.Length = as.numeric(sl),
    Sepal.Width = as.numeric(sw),
    Petal.Length = as.numeric(pl),
    Petal.Width = as.numeric(pw),
    Species = NA
  predict(knn_model, test)

newBeakr() %>%
  httpPOST("/predict-species", decorate(predict_species)) %>%
  handleErrors() %>%
  listen(host = "", port = 25118)

By sending a POST request to with a JSON object containing labeled numeric data we can see it responds with an answer.

$ curl -X POST \
  -H 'content-type: application/json' \
  -d '{ "sl": 5.3, "sw": 4, "pl": 1.6, "pw": 0.2 }'
> setosa

beakr really shines in these sort of things. At Mazama Science, we use beakr to provide services for server monitoring, logging, and serving data. It has become a proven tool and we at Mazama are excited to share!