Use machine learning to classify text using n-grams and cosine similarity.
Minimal library that can be used both in the browser and in Node.js, that allows you to train a model with a large amount of text samples (and corresponding labels), and then use this model to quickly predict one or more appropriate labels for new text samples.
Using npm
npm install ml-classify-text
Using yarn
yarn add ml-classify-text
Import as an ES6 module
import Classifier from 'ml-classify-text'
Import as a CommonJS module
const { Classifier } = require('ml-classify-text')
const classifier = new Classifier()
let positive = [
'This is great, so cool!',
'Wow, I love it!',
'It really is amazing',
]
let negative = [
'This is really bad',
'I hate it with a passion',
'Just terrible!',
]
classifier.train(positive, 'positive')
classifier.train(negative, 'negative')
let predictions = classifier.predict('It sure is pretty great!')
if (predictions.length) {
predictions.forEach(prediction => {
console.log(`${prediction.label} (${prediction.confidence})`)
})
} else {
console.log('No predictions returned')
}
Returning:
positive (0.5423261445466404)
The following configuration options can be passed both directly to a new Model, or indirectly by passing it to the Classifier constructor.
Property | Type | Default | Description |
---|---|---|---|
nGramMin | int |
1 |
Minimum n-gram size |
nGramMax | int |
1 |
Maximum n-gram size |
vocabulary | Array | Set | false |
[] |
Terms mapped to indexes in the model data, set to false to store terms directly in the data entries |
data | Object |
{} |
Key-value store of labels and training data vectors |
The default behavior is to split up texts by single words (known as a bag of words, or unigrams).
This has a few limitations, since by ignoring the order of words, it's impossible to correctly match phrases and expressions.
In comes n-grams, which, when set to use more than one word per term, act like a sliding window that moves across the text — a continuous sequence of words of the specified amount, which can greatly improve the accuracy of predictions.
const classifier = new Classifier({
nGramMin: 2,
nGramMax: 2
})
let tokens = classifier.tokenize('I really dont like it')
console.log(tokens)
Returning:
{
'i really': 1,
'really dont': 1,
'dont like': 1,
'like it': 1
}
After training a model with large sets of data, you'll want to store all this data, to allow you to simply set up a new model using this training data at another time, and quickly make predictions.
To do this, simply use the serialize
method on your Model, and either save the data structure to a file, send it to a server, or store it in any other way you want.
let model = classifier.model
console.log(model.serialize())
Returning:
{
nGramMin: 1,
nGramMax: 1,
vocabulary: [
'this', 'is', 'great',
'so', 'cool', 'wow',
'i', 'love', 'it',
'really', 'amazing', 'bad',
'hate', 'with', 'a',
'passion', 'just', 'terrible'
],
data: {
positive: {
'0': 1, '1': 2, '2': 1,
'3': 1, '4': 1, '5': 1,
'6': 1, '7': 1, '8': 2,
'9': 1, '10': 1
},
negative: {
'0': 1, '1': 1, '6': 1,
'8': 1, '9': 1, '11': 1,
'12': 1, '13': 1, '14': 1,
'15': 1, '16': 1, '17': 1
}
}
}
Read the contribution guidelines.
Refer to the changelog for a full history of the project.
ClassifyText is licensed under the MIT license.