mlflow: R interface for MLflow

Build Status CRAN_Status_Badge codecov


Install mlflow followed by installing the mlflow runtime as follows:

devtools::install_github("mlflow/mlflow", subdir = "mlflow/R/mlflow")

Notice also that Anaconda or Miniconda need to be manually installed.


Install the mlflow package as follows:

devtools::install_github("mlflow/mlflow", subdir = "mlflow/R/mlflow")

Then install the latest released mlflow runtime.

# Install latest released version

However, currently, the development runtime of mlflow is also required; which means you also need to download or clone the mlflow GitHub repo:

git clone

And upgrade the runtime to the development version as follows:

# Upgrade to the latest development version
reticulate::conda_install("r-mlflow", "<local github repo>", pip = TRUE)


MLflow Tracking allows you to logging parameters, code versions, metrics, and output files when running R code and for later visualizing the results.

MLflow allows you to group runs under experiments, which can be useful for comparing runs intended to tackle a particular task. You can create and activate a new experiment locally using mlflow as follows:


Then you can list view your experiments from MLflows user interface by running:


You can also use a MLflow server to track and share experiments, see running a tracking server, and then make use of this server by running:


Once the tracking url is defined, the experiments will be stored and tracked in the specified server which others will also be able to access.


An MLflow Project is a format for packaging data science code in a reusable and reproducible way.

MLflow projects can be explicitly created or implicitly used by running R with mlflow from the terminal as follows:

mlflow run examples/r_wine --entry-point train.R

Notice that is equivalent to running from examples/r_wine,

Rscript -e "mlflow::mlflow_source('train.R')"

and train.R performing training and logging as follows:


# read parameters
column <- mlflow_log_param("column", 1)

# log total rows
mlflow_log_metric("rows", nrow(iris))

# train model
model <- lm(
  Sepal.Width ~ x,
  data.frame(Sepal.Width = iris$Sepal.Width, x = iris[,column])

# log models intercept
mlflow_log_metric("intercept", model$coefficients[["(Intercept)"]])


You will often want to parameterize your scripts to support running and tracking multiple experiments. Ypu can define parameters with type under a params_example.R example as follows:


# define parameters
my_int <- mlflow_param("my_int", 1, "integer")
my_num <- mlflow_param("my_num", 1.0, "numeric")

# log parameters
mlflow_log_param("param_int", my_int)
mlflow_log_param("param_num", my_num)

Then run mlflow run with custom parameters as follows

mlflow run tests/testthat/examples/ --entry-point params_example.R -P my_int=10 -P my_num=20.0 -P my_str=XYZ

=== Created directory /var/folders/ks/wm_bx4cn70s6h0r5vgqpsldm0000gn/T/tmpi6d2_wzf for downloading remote URIs passed to arguments of type 'path' ===
=== Running command 'source /miniconda2/bin/activate mlflow-da39a3ee5e6b4b0d3255bfef95601890afd80709 && Rscript -e "mlflow::mlflow_source('params_example.R')" --args --my_int 10 --my_num 20.0 --my_str XYZ' in run with ID '191b489b2355450a8c3cc9bf96cb1aa3' === 
=== Run (ID '191b489b2355450a8c3cc9bf96cb1aa3') succeeded ===

Run results that we can view with mlflow_ui().


An MLflow Model is a standard format for packaging machine learning models that can be used in a variety of downstream tools—for example, real-time serving through a REST API or batch inference on Apache Spark. They provide a convention to save a model in different “flavors” that can be understood by different downstream tools.

To save a model use mlflow_save_model(). For instance, you can add the following lines to the previous train.R script:

# train model (...)

# save model
  crate(~ stats::predict(model, .x), model)

And trigger a run with that will also save your model as follows:

mlflow run train.R

Each MLflow Model is simply a directory containing arbitrary files, together with an MLmodel file in the root of the directory that can define multiple flavors that the model can be viewed in.

The directory containing the model looks as follows:

## [1] "crate.bin" "MLmodel"

and the model definition model/MLmodel like:

cat(paste(readLines("model/MLmodel"), collapse = "\n"))
## flavors:
##   crate:
##     version: 0.1.0
##     model: crate.bin
## time_created: 18-10-03T22:18:25.25.55
## run_id: 4286a3d27974487b95b19e01b7b3caab

Later on, the R model can be deployed which will perform predictions using mlflow_rfunc_predict():

mlflow_rfunc_predict("model", data = data.frame(x = c(0.3, 0.2)))
## Warning in mlflow_snapshot_warning(): Running without restoring the
## packages snapshot may not reload the model correctly. Consider running
## 'mlflow_restore_snapshot()' or setting the 'restore' parameter to 'TRUE'.

## 3.400381396714573.40656987651099

##        1        2 
## 3.400381 3.406570


MLflow provides tools for deployment on a local machine and several production environments. You can use these tools to easily apply your models in a production environment.

You can serve a model by running,

mlflow rfunc serve model

which is equivalent to running,

Rscript -e "mlflow_rfunc_serve('model')"

You can also run:

mlflow rfunc predict model data.json

which is equivalent to running,

Rscript -e "mlflow_rfunc_predict('model', 'data.json')"


When running a project, mlflow_snapshot() is automatically called to generate a r-dependencies.txt file which contains a list of required packages and versions.

However, restoring dependencies is not automatic since it’s usually an expensive operation. To restore dependencies run:


Notice that the MLFLOW_SNAPSHOT_CACHE environment variable can be set to a cache directory to improve the time required to restore dependencies.


To enable fast iteration while tracking with MLflow improvements over a model, RStudio 1.2.897 an be configured to automatically trigger mlflow_run() when sourced. This is enabled by including a # !source mlflow::mlflow_run comment at the top of the R script as follows:


See the MLflow contribution guidelines.