Organizing an Evaluation Project

In the previous two sections, we described how to write an evaluation script and run it using the LensKit command-line tools. This is fine for simple experiments. However, it is not a very convenient way to manage more complicated experiments that involve multiple tasks and custom recommender code.

Therefore, we recommend using Gradle to control your LensKit evaluations. We have provided a Gradle plugin to make this easier.

You can find a complete example of a Gradle-based experiment in the eval-quickstart repository on GitHub.

Getting Started

To get started, just clone the eval-quickstart repository, or download its sources as a zip file. It includes a wrapper script that downloads and runs Gradle for you.

You can copy and modify this code and use it as a template to create your own project.

Layout of the Project

A Gradle-based experiment has several files and directories:

build.gradle
This file controls the entire build and evaluation process.
eval.groovy
The control script for the LensKit evaluator.
src/main/java
This directory contains the Java sources for your custom recommender components, just like in standard Gradle and Maven projects.
src/test/java
This directory contains the Java tests for your custom components.
build
This directory is created by the Gradle build process and contains your compiled class files and the evaluator’s output.

You usually will also have some data; our example downloads the MovieLens 100K data set into the directory build/ml-100k.

Running the Experiment

To run the experiment, run:

$ ./gradlew evaluate

If you are on Windows:

C:\Users\michael\Documents\Experiments\eval-quickstart> gradlew evaluate

You can also import the project as a Gradle project into IntelliJ or Eclipse and run it from there.

Analyzing the Output

In this experiment, we have provided an IPython notebook that will read the evaluator output and plot the recommender’s accuracy metrics. If you don’t yet have a Python scientific environment set up, you can install Anaconda Python to get all the packages you need.

To view the notebook, run:

ipython notebook

This will open a browser, and you can select the analyze-output.ipynb notebook.

You can also use Gradle to render the notebook to a static HTML file, build/analysis.html:

./gradlew analyzeResults

The results will look something like this.

Understanding the Build Script

The heart of the build script is the evaluate task, that runs the LensKit evaluator:

task evaluate(type: LenskitEval, group: 'evaluate') {
    description 'Runs the LensKit evaluation.'
    dependsOn classes                           // perform java compilation before running this
    dependsOn fetchData                         // download data before evaluating
    script 'eval.groovy'                        // configure the name of the lenskit eval

    inputs.dir fetchData.dataDir
    outputs.files "$buildDir/eval-results.csv", "$buildDir/eval-user.csv"

    classpath sourceSets.main.runtimeClasspath  // use the code we have here, plus its deps
}

This will run the eval.groovy script; it has some additional bookkeeping to tell Gradle how to integrate it with the other tasks in the file.

Modifying the Experiment

Once you have everything running, you can modify it to run your own experiment. There are several things you may want to modify:

  • Change the experiment setup in eval.groovy (see the walkthrough for more on this).
  • Use a different data set, by changing eval.groovy (you’ll also want to delete the fetchData task from build.gradle, and remove all dependsOn references to it)
  • Write more recommender code of your own, in src/main/java, and use it in the eval.groovy experiment.
  • Write additional pre- or post-processing steps for recommender input data or evaluation results, and orchestrate them with new Gradle tasks.