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These are experiments being conducted around 2014-07 by the Melodi team in IRIT on the RST Discourse Treebank corpus.

Prerequisites

  1. Python 2.7. Python 3 might also work.
  2. pip 1.5 or greater
  3. git (to keep up with educe/attelo changes)
  4. Anacoda or miniconda (conda --version should say 2.2.6 or higher)
  5. a copy of the RST Discourse Treebank

Sandboxing

If you are attempting to use the development version of this code (ie. from SVN), I highly recommend using a sandbox environment, particularly conda (Anaconda on Mac, Miniconda on Linux)

Installation (development mode)

  1. Create your virtual environment

    conda create -n irit-rst-dt pip scipy scikit-learn
    
  2. Activate the virtual environment (note that you'll need to do this whenever you want to run the harness)

    source activate irit-rst-dt
    
  3. Install this package and its dependencies

    pip install -r requirements.txt
    pip install -e .
    

    (N.B. By rights the second step pip install -e is redundant with the first; however, for some mysterious reason, the irit-rst-dt script is sometimes not installed if you only run the first)

  4. Link your copy of the RST DT corpus in, along with the Penn Treebank, for example:

    ln -s $HOME/CORPORA/rst_discourse_treebank/data corpus
    ln -s $HOME/CORPORA/PTBIII/parsed/mrg/wsj ptb3
    

Preflight checklist

  • Have you linked the corpora in? (see Installation)

Usage

Running the pieces of infrastructure here should consist of running irit-rst-dt <subcommand>

Configuration

Have a look at the irit_rst_dt.local module. You may want to modify which subcorpus we run this on. I would suggest making a sample out of 20 files or so and working with that until you are familiar with the harness first. You could likewise also consider reducing the learners and decoders you want to experiment with initially.

Basics

Using the harness consists of two steps, gathering the features, and running the n-fold cross validation loop

irit-rst-dt gather
irit-rst-dt evaluate

If you stop an evaluation (control-C) in progress, you can resume it by running

irit-rst-dt evaluate --resume

The harness will try to detect what work it has already done and pick up where it left off.

Scores and reports

You can get a sense of how things are going by inspecting the various intermediary results

  1. output files: Outputs for any decoders in a fold that happen to have finished running (for a given fold N, see TMP/latest/scratch-current/fold-N/output.*)

  2. fold reports : At the end of each fold, we will summarise all of the counts into a simple Precision/Recall/F1 report for attachment and labelling. (for a given fold N, see TMP/latest/scratch-current/fold-N/reports-*)

  3. full reports: If we make it through the entire experiment, we will produce a cross-validation summary combining the counts from all folds and several other things (TMP/latest/eval-current/reports-*)

Cleanup

The harness produces a lot of output, and can take up potentially a lot of disk space in the process. If you have saved results you want to keep, you can run the command

irit-rst-dt clean

This will delete all scratch directories, along with any evaluation directories that look incomplete (no scores).

Output files

There are two main directories for output.

  • The SNAPSHOTS directory is meant for intermediary results that you want to save. You have to copy files into here manually (more on that later). Because this directory can take up space, it does not feel quite right to dump it on the public GitHub repo. We'll need to think about where to store our snapshots later (possibly some IRIT-local SVN?)

  • The TMP directory is where the test harness does all its work. Each TMP/<timestamp> directory corresponds to a set of feature files generated by irit-rst-dt gather. For convenience, the harness will maintain a TMP/latest symlink pointing to one of these directories.

Within the each feature directory, we can have a number of evaluation and scratch directories. This layout is motivated by us wanting to suppport ongoing changes to our learning/decoding algorithms independently of feature collection. So the thinking is that we may have multiple evaluations for any given set of features. Like the feature directories, these are named by timestamp (with eval-current and scratch-current symlinks for convenience).

  • scratch directories: these are considered relatively ephemeral (hence them being deleted by irit-rst-dt clean). They contain all the models and counts saved by harness during evaluation.

  • eval directories: these contain things we would consider more essential for reproducing an evaluation. They contain the feature files (hardlinked from the parent dir) along with the fold listing and the cross-fold validation scores. If you hit any interesting milestones in development, it may be good to manually copy the eval directory to SNAPSHOTS, maybe with a small README explaining what it is, or at least a vaguely memorable name. This directory should be fairly self-contained.

Suggestions

Corpus subsets

If you are switching back and forth between a small test corpus and a larger “real” corpus; try having separate symlinks in the TMP directory, like test-LATEST and full-LATEST. Then you can replace the LATEST symlink to point to the TMP directory of your choosing

Cluster

Do you have access to a fancy compute cluster? You can use it to speed things up (mostly by taking advantage of parallelism). If it's using SLURM, check cluster/README.md

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IRIT experiments on the RST Discourse Treebank corpus

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