/code2seq

A fork from Code2Seq to account for Comments in Preprocessing

Primary LanguagePythonMIT LicenseMIT

code2seq

This is an UNOFFICIAL implementation of the model described in:

Uri Alon, Shaked Brody, Omer Levy and Eran Yahav, "code2seq: Generating Sequences from Structured Representations of Code" [PDF]

This is a TensorFlow 2.1 fork of the network inplementation, with Java and C# extractors for preprocessing the input code. The official network implementation repository is https://github.com/tech-srl/code2seq

Table of Contents

Requirements

  • python3
  • TensorFlow 2.1 or newer (install). To check TensorFlow version:

python3 -c 'import tensorflow as tf; print(tf.__version__)'

Quickstart

Step 0: Cloning this repository

git clone https://github.com/Kolkir/code2seq/
cd code2seq

Step 1: Creating a new dataset from Java sources

To obtain a preprocessed dataset to train a network on, you can either download preprocessed dataset, or create a new dataset from Java source files.

Download our preprocessed dataset Java-large dataset (~16M examples, compressed: 11G, extracted 125GB)

mkdir data
cd data
wget https://s3.amazonaws.com/code2seq/datasets/java-large-preprocessed.tar.gz
tar -xvzf java-large-preprocessed.tar.gz

This will create a data/java-large/ sub-directory, containing the files that hold training, test and validation sets, and a dict file for various dataset properties.

Creating and preprocessing a new Java dataset

To create and preprocess a new dataset (for example, to compare code2seq to another model on another dataset):

  • Edit the file preprocess.sh using the instructions there, pointing it to the correct training, validation and test directories.
  • Run the preprocess.sh file:

bash preprocess.sh

Training a model from scratch

To train a model from scratch:

  • Edit the file train.sh to point it to the right preprocessed data. By default, it points to our "java-large" dataset that was preprocessed in the previous step.
  • Before training, you can edit the configuration hyper-parameters in the file config.py, as explained in Configuration.
  • Run the train.sh script:
bash train.sh

Step 3: Evaluating a trained model

After config.PATIENCE iterations of no improvement on the validation set, training stops by itself.

Suppose that iteration #52 is our chosen model, run:

python3 code2seq.py --load_path models/java-large-model/model_iter52.release --test data/java-large/java-large.test.c2s

While evaluating, a file named "log.txt" is written to the same dir as the saved models, with each test example name and the model's prediction.

Step 4: Manual examination of a trained model

To manually examine a trained model, run:

python3 code2seq.py --load_path models/java-large-model/model_iter52.release --predict

After the model loads, follow the instructions and edit the file Input.java and enter a Java method or code snippet, and examine the model's predictions and attention scores.

Note:

Due to TensorFlow's limitations, if using beam search (config.BEAM_WIDTH > 0), then BEAM_WIDTH hypotheses will be printed, but without attention weights. If not using beam search (config.BEAM_WIDTH == 0), then a single hypothesis will be printed with the attention weights in every decoding timestep.

Configuration

Changing hyper-parameters is possible by editing the file config.py.

Here are some of the parameters and their description:

config.NUM_EPOCHS = 3000

The max number of epochs to train the model.

config.SAVE_EVERY_EPOCHS = 1

The frequency, in epochs, of saving a model and evaluating on the validation set during training.

config.PATIENCE = 10

Controlling early stopping: how many epochs of no improvement should training continue before stopping.

config.BATCH_SIZE = 512

Batch size during training and inference.

config.SHUFFLE_BUFFER_SIZE = 10000

The buffer size that the reader uses for shuffling the training data. Controls the randomness of the data. Increasing this value might hurt training throughput.

config.CSV_BUFFER_SIZE = 100 * 1024 * 1024

The buffer size (in bytes) of the CSV dataset reader.

config.MAX_CONTEXTS = 200

The number of contexts to sample in each example during training (resampling a different subset of this size every training iteration).

config.SUBTOKENS_VOCAB_MAX_SIZE = 190000

The max size of the subtoken vocabulary.

config.TARGET_VOCAB_MAX_SIZE = 27000

The max size of the target words vocabulary.

config.EMBEDDINGS_SIZE = 128

Embedding size for subtokens, AST nodes and target symbols.

config.RNN_SIZE = 128 * 2

The total size of the two LSTMs that are used to embed the paths if config.BIRNN is True, or the size of the single LSTM if config.BIRNN is False.

config.DECODER_SIZE = 320

Size of each LSTM layer in the decoder.

config.NUM_DECODER_LAYERS = 1

Number of decoder LSTM layers. Can be increased to support long target sequences.

config.MAX_PATH_LENGTH = 8 + 1

The max number of nodes in a path

config.MAX_NAME_PARTS = 5

The max number of subtokens in an input token. If the token is longer, only the first subtokens will be read.

config.MAX_TARGET_PARTS = 6

The max number of symbols in the target sequence. Set to 6 by default for method names, but can be increased for learning datasets with longer sequences.

config.BIRNN = True

If True, use a bidirectional LSTM to encode each path. If False, use a unidirectional LSTM only.

config.RANDOM_CONTEXTS = True

When True, sample MAX_CONTEXT from every example every training iteration. When False, take the first MAX_CONTEXTS only.

config.BEAM_WIDTH = 0

Beam width in beam search. Inactive when 0.

config.USE_MOMENTUM = True

If True, use Momentum optimizer with nesterov. If False, use Adam (Adam converges in fewer epochs; Momentum leads to slightly better results).

Extending to other languages

This project currently supports Java and C# as the input languages.

March 2020 - a code2seq extractor for C++. See: https://github.com/Kolkir/cppminer.

January 2020 - a code2seq extractor for Python (specifically targeting the Python150k dataset) was contributed by @stasbel. See: https://github.com/tech-srl/code2seq/tree/master/Python150kExtractor.

January 2020 - an extractor for predicting TypeScript type annotations for JavaScript input using code2vec was developed by @izosak and Noa Cohen, and is available here: https://github.com/tech-srl/id2vec.

June 2019 - an extractor for C that is compatible with our model was developed by CMU SEI team. - removed by CMU SEI team.

June 2019 - a code2vec extractor for Python, Java, C, C++ by JetBrains Research is available here: PathMiner.

To extend code2seq to other languages other than Java and C#, a new extractor (similar to the JavaExtractor) should be implemented, and be called by preprocess.sh. Basically, an extractor should be able to output for each directory containing source files:

  • A single text file, where each row is an example.
  • Each example is a space-delimited list of fields, where:
  1. The first field is the target label, internally delimited by the "|" character (for example: compare|ignore|case
  2. Each of the following field are contexts, where each context has three components separated by commas (","). None of these components can include spaces nor commas.

We refer to these three components as a token, a path, and another token, but in general other types of ternary contexts can be considered.

Each "token" component is a token in the code, split to subtokens using the "|" character.

Each path is a path between two tokens, split to path nodes (or other kinds of building blocks) using the "|" character. Example for a context:

my|key,StringExression|MethodCall|Name,get|value

Here my|key and get|value are tokens, and StringExression|MethodCall|Name is the syntactic path that connects them.

Datasets

Java

To download the Java-small, Java-med and Java-large datasets used in the Code Summarization task as raw *.java files, use:

To download the preprocessed datasets, use:

C#

The C# dataset used in the Code Captioning task can be downloaded from the CodeNN repository.

C++

Experimental C++ dataset created with cppminer tool.