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This website provides supplementary material for the paper “SEAL: Integrating Program Analysis and Repository Mining”, submitted to TOSEM. The paper describes an integrated approach that combines low-level program analysis with high-level repository information and allows us to efficiently address software engineering problems that span multiple levels of abstraction, from low-level data flow to high-level organizational information. On this page, we provide access to the used tools and data and describe how to reproduce our results of the paper.

Tools

SEAL is implemented in a tool called VaRA which is available on github. A detailed description on how to reproduce our data using VaRA can be found here. We also provide the raw data in our replication package alongside with instructions how to generate the plots on this website below.

Experiments

To demonstrate the wide applicability of SEAL and how it can be used to make existing data-flow analyses commit-aware, we conducted an evaluation consisting of four different study problems. The links lead to plots visualizing the results for the three problems that we evaluated on 13 open-source projects. The raw data used to generate these plots can be found in the replication package linked below.

P1: Which fraction of commits affects central code? (Results)

P2: Which authors interact via commit interactions and what are the characteristics of the arising socio-technical structure? (Results)

P3: How many authors interact via commit interactions? (Results)

Replication Package

The replication package containing the raw data used to generate all plots on this web page and in the paper can be downloaded by clicking here.

To reproduce the plots from this website, we first need to install the VaRA-Tool-Suite, an experimentation framework designed to allow easy reproduction of research results. The tool suite is also open-source and available on github.

The VaRA-Tool-Suite can be installed as follows:

  1. First, we need to install some system dependencies (example for Debian 11)

    sudo apt install python3-dev python3-venv python3-tk python3-psutil psutils python3-pip ruby curl time libyaml-dev git graphviz-dev
    
  2. Next, we create and activate a python virtual environment (optional)

    # create virtualenv
    python3 -m venv /where/you/want/your/virtualenv/to/live
    # activate virtualenv
    source /path/to/virtualenv/bin/activate
    
  3. We can now simply install varats via pip

    # update pip
    pip3 install --upgrade pip
    # install wheel (needed by some dependencies)
    pip3 install wheel
    # install VaRA-Tool-Suite
    pip3 install varats==11.1.4
    
  4. Then, we need to prepare a working directory.

    # create working directory, for example in ~/varats
    export VARATS_ROOT='~/varats'
    mkdir -p $VARATS_ROOT
    cd $VARATS_ROOT
    # create config files and initialize working directory
    vara-gen-bbconfig
    
  5. Extract the replication package to the working directory and select it

    # download the replication package
    wget https://anonymousx721337.github.io/SEAL-Supplementary/SEAL_replication_package.zip
    # extract replication backage
    tar -xvf SEAL_replication_package.tar.xz
    # select replication package (enter number next to "SEAL" in list)
    vara-pc select
    
  6. Reproduce plots (this step can take some time)

    vara-art generate
    

    The plots are written to $VARATS_ROOT/artefacts/seal.

For more information on the tool suite and its capabilities, we refer to its documentation.