/node-corenlp

CoreNLP @ NodeJS

Primary LanguageJavaScriptGNU General Public License v3.0GPL-3.0

CoreNLP for NodeJS

This library helps making NodeJS/Web applications using the state-of-the-art technology for Natural Language Processing: Stanford CoreNLP. It is compatible with the latest release of CoreNLP 3.9.0.

Build Status Try corenlp on RunKit

NPM package

This project is under active development, please stay tuned for updates. More documentation and examples are comming.

Example

Assuming that StanfordCoreNLPServer is running on http://localhost:9000....

import CoreNLP, { Properties, Pipeline } from 'corenlp';

const props = new Properties({
  annotators: 'tokenize,ssplit,pos,lemma,ner,parse',
});
const pipeline = new Pipeline(props, 'English'); // uses ConnectorServer by default

const sent = new CoreNLP.simple.Sentence('The little dog runs so fast.');
pipeline.annotate(sent)
  .then(sent => {
    console.log('parse', sent.parse());
    console.log(CoreNLP.util.Tree.fromSentence(sent).dump());
  })
  .catch(err => {
    console.log('err', err);
  });

API

Read the full API documentation.

Setup

1. Install the package:

npm i --save corenlp

2. Download Stanford CoreNLP

2.1. Shortcut (recommended to give this library a first try)

Via npm, run this command from your own project after having installed this library:

npm explore corenlp -- npm run corenlp:download

Once downloaded you can easily start the server by running

npm explore corenlp -- npm run corenlp:server

Or you can manually download the project from the Stanford's CoreNLP download section at: https://stanfordnlp.github.io/CoreNLP/download.html You may want to download, apart of the full package, other language models (see more on that page).

2.2. Via sources

For advanced projects, when you have to customize the library a bit more, we highly recommend to download the StanfordCoreNLP from the original repository, and compile the source code by using ant jar.

NOTE: Some functionality included in this library, for TokensRegex, Semgrex and Tregex, requires the latest version from that repository, which contains some fixes needed by this library, not included in the latest stable release.

3. Configure Stanford CoreNLP

There are two method to connect your NodeJS application to Stanford CoreNLP:

  1. HTTP is the preferred method since it requires CoreNLP to initialize just once to serve many requests, it also avoids extra I/O given that the CLI method need to write temporary files to run recommended.
  2. Via Command Line Interface, this is by spawning processes from your app.

3.1. Using StanfordCoreNLPServer

# Run the server using all jars in the current directory (e.g., the CoreNLP home directory)
java -mx4g -cp "*" edu.stanford.nlp.pipeline.StanfordCoreNLPServer -port 9000 -timeout 15000

CoreNLP connects by default via StanfordCoreNLPServer, using port 9000. You can also opt to setup the connection differently:

import CoreNLP, { Properties, Pipeline, ConnectorServer } from 'corenlp';

const connector = new ConnectorServer({ dsn: 'http://localhost:9000' });
const props = new Properties({
  annotators: 'tokenize,ssplit,pos,lemma,ner,parse',
});
const pipeline = new Pipeline(props, 'English', connector);

3.2. Use CoreNLP via CLI

CoreNLP expects by default the StanfordCoreNLP package to be placed (unzipped) inside the path ${YOUR_NPM_PROJECT_ROOT}/corenlp/. You can also opt to setup the CLI interface differently:

import CoreNLP, { Properties, Pipeline, ConnectorCli } from 'corenlp';

const connector = new ConnectorCli({
  classPath: 'corenlp/stanford-corenlp-full-2017-06-09/*', // specify the paths relative to your npm project root
  mainClass: 'edu.stanford.nlp.pipeline.StanfordCoreNLP', // optional
  props: 'StanfordCoreNLP-spanish.properties', // optional
});
const props = new Properties({
  annotators: 'tokenize,ssplit,pos,lemma,ner,parse',
});
const pipeline = new Pipeline(props, 'English', connector);

4. Usage

4.1 Pipeline

// ... include dependencies

const props = new Properties({ annotators: 'tokenize,ssplit,lemma,pos,ner' });
const pipeline = new Pipeline(props, 'English', connector);
const sent = new CoreNLP.simple.Sentence('Hello world');
pipeline.annotate(sent)
  .then(sent => {
    console.log(sent.words());
    console.log(sent.nerTags());
  })
  .catch(err => {
    console.log('err', err);
  });

4.2 Penn TreeBank traversing

// ... include dependencies

const props = new Properties();
props.setProperty('annotators', 'tokenize,ssplit,pos,lemma,ner,parse');
const pipeline = new Pipeline(props, 'Spanish');

const sent = new CoreNLP.simple.Sentence('Jorge quiere cinco empanadas de queso y carne.');
pipeline.annotate(sent)
  .then(sent => {
    console.log('parse', sent.parse()); // constituency parsing string representation
    const tree = CoreNLP.util.Tree.fromSentence(sent);
    tree.visitLeaves(node =>
      console.log(node.word(), node.pos(), node.token().ner()));
    console.log(tree.dump());
  })
  .catch(err => {
    console.log('err', err);
  });

4.3 TokensRegex, Tregex and Semgrex

// ... include dependencies

const props = new Properties();
props.setProperty('annotators', 'tokenize,ssplit,regexner,depparse');
const expression = new CoreNLP.simple.Expression(
  'John Snow eats snow.',
  '{ner:PERSON}=who <nsubj ({pos:VBZ}=action >dobj {}=what)');
const pipeline = new Pipeline(props, 'English');

pipeline.annotateSemgrex(expression, true)  // similarly use pipeline.annotateTokensRegex / pipeline.annotateTregex
  .then(expression => expression.sentence(0).matches().map(match => {
      console.log('match', match.group('who'), match.group('action'), match.group('what'));
  }))
  .catch(err => {
    console.log('err', err);
  });

5. Client Side

This library is isomorphic, which means that works as well on a Browser. The API is exactly the same, and you can use it directly by requiring it via a <script> tag, using AMD (RequireJS), or within your app bundle.

The browser ready version of corenlp can be found as dist/index.browser.min.js, once built (npm run build).

See the examples folder for more details.

6. External Documentation

Properties
Pipeline
Service
ConnectorServer                   # https://stanfordnlp.github.io/CoreNLP/corenlp-server.html
ConnectorCli                      # https://stanfordnlp.github.io/CoreNLP/cmdline.html
CoreNLP
  simple                          # https://stanfordnlp.github.io/CoreNLP/simple.html
    Annotable
    Annotator
    Document
    Sentence
    Token
    annotator                     # https://stanfordnlp.github.io/CoreNLP/annotators.html
      TokenizerAnnotator          # https://stanfordnlp.github.io/CoreNLP/tokenize.html
      WordsToSentenceAnnotator    # https://stanfordnlp.github.io/CoreNLP/ssplit.html
      POSTaggerAnnotator          # https://stanfordnlp.github.io/CoreNLP/pos.html
      MorphaAnnotator             # https://stanfordnlp.github.io/CoreNLP/lemma.html
      NERClassifierCombiner       # https://stanfordnlp.github.io/CoreNLP/ner.html
      ParserAnnotator             # https://stanfordnlp.github.io/CoreNLP/parse.html
      DependencyParseAnnotator    # https://stanfordnlp.github.io/CoreNLP/depparse.html
      RelationExtractorAnnotator  # https://stanfordnlp.github.io/CoreNLP/relation.html
      CorefAnnotator              # https://stanfordnlp.github.io/CoreNLP/coref.html
      SentimentAnnotator          # https://stanfordnlp.github.io/CoreNLP/sentiment.html - Comming soon...
      RelationExtractorAnnotator  # https://stanfordnlp.github.io/CoreNLP/relation.html - TODO
      NaturalLogicAnnotator       # https://stanfordnlp.github.io/CoreNLP/natlog.html - TODO
      QuoteAnnotator              # https://stanfordnlp.github.io/CoreNLP/quote.html - TODO
  util
    Tree                          # http://www.cs.cornell.edu/courses/cs474/2004fa/lec1.pdf

7. References

This library is not maintained by StanfordNLP. However, it's based on and depends on StanfordNLP/CoreNLP to function.

Manning, Christopher D., Mihai Surdeanu, John Bauer, Jenny Finkel, Steven J. Bethard, and David McClosky. 2014. The Stanford CoreNLP Natural Language Processing Toolkit In Proceedings of the 52nd Annual Meeting of the Association for Computational Linguistics: System Demonstrations, pp. 55-60.