nlp_compromise alternatives and similar libraries

compromise modest natural language processing npm install compromise by Spencer Kelly and many contributors

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don't you find it strange, how easy text is to make,

 ↬ᔐᖜ↬   and how hard it is to actually parse and use?

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compromise tries its best to turn text into data. it makes limited and sensible decisions. it's not as smart as you'd think.

<!-- it is small, quick, and often good-enough. -->

import nlp from 'compromise'

let doc = nlp('she sells seashells by the seashore.')
doc.verbs().toPastTense()
doc.text()
// 'she sold seashells by the seashore.'

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don't be fancy, at all:

if (doc.has('simon says #Verb')) {
  return true
}

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grab parts of the text:

let doc = nlp(entireNovel)
doc.match('the #Adjective of times').text()
// "the blurst of times?"

match docs <!-- spacer -->

and get data:

import plg from 'compromise-speech'
nlp.extend(plg)

let doc = nlp('Milwaukee has certainly had its share of visitors..')
doc.compute('syllables')
doc.places().json()
/*
[{
  "text": "Milwaukee",
  "terms": [{ 
    "normal": "milwaukee",
    "syllables": ["mil", "wau", "kee"]
  }]
}]
*/

json docs

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avoid the problems of brittle parsers:

let doc = nlp("we're not gonna take it..")

doc.has('gonna') // true
doc.has('going to') // true (implicit)

// transform
doc.contractions().expand()
dox.text()
// 'we are not going to take it..'

contraction docs <!-- spacer -->

and whip stuff around like it's data:

let doc = nlp('ninety five thousand and fifty two')
doc.numbers().add(20)
doc.text()
// 'ninety five thousand and seventy two'

number docs

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-because it actually is-

let doc = nlp('the purple dinosaur')
doc.nouns().toPlural()
doc.text()
// 'the purple dinosaurs'

noun docs

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Use it on the client-side:

<script src="https://unpkg.com/compromise"></script>
<script>
  var doc = nlp('two bottles of beer')
  doc.numbers().minus(1)
  document.body.innerHTML = doc.text()
  // 'one bottle of beer'
</script>

or likewise:

import nlp from 'compromise'

var doc = nlp('London is calling')
doc.verbs().toNegative()
// 'London is not calling'

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compromise is ~250kb (minified):

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it's pretty fast. It can run on keypress:

it works mainly by conjugating all forms of a basic word list.

The final lexicon is ~14,000 words:

you can read more about how it works, here. it's weird.

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<!-- one/two/three parts --> okay - compromise/one A tokenizer of words, sentences, and punctuation.

import nlp from 'compromise/one'

let doc = nlp("Wayne's World, party time")
let data = doc.json()
/* [{ 
  normal:"wayne's world party time",
    terms:[{ text: "Wayne's", normal: "wayne" }, 
      ...
      ] 
  }]
*/

tokenizer docs

compromise/one splits your text up, wraps it in a handy API, and does nothing else -

/one is quick - most sentences take a 10th of a millisecond.

It can do ~1mb of text a second - or 10 wikipedia pages.

Infinite jest is takes 3s.

You can also parallelize, or stream text to it with compromise-speed.

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<!-- two --> compromise/two A part-of-speech tagger, and grammar-interpreter.

import nlp from 'compromise/two'

let doc = nlp("Wayne's World, party time")
let str = doc.match('#Possessive #Noun').text()
// "Wayne's World"

tagger docs

compromise/two automatically calculates the very basic grammar of each word.

this is more useful than people sometimes realize.

Light grammar helps you write cleaner templates, and get closer to the information.

<!-- Part-of-speech tagging is profoundly-difficult task to get 100% on. It is also a profoundly easy task to get 85% on. -->

compromise has 83 tags, arranged in a handsome graph.

#FirstName → #Person → #ProperNoun → #Noun

you can see the grammar of each word by running doc.debug()

you can see the reasoning for each tag with nlp.verbose('tagger').

if you prefer Penn tags, you can derive them with:

let doc = nlp('welcome thrillho')
doc.compute('penn')
doc.json()

<!-- three --> compromise/three Phrase and sentence tooling.

import nlp from 'compromise/three'

let doc = nlp("Wayne's World, party time")
let str = doc.people().normalize().text()
// "wayne"

selection docs

compromise/three is a set of tooling to zoom into and operate on parts of a text.

.numbers() grabs all the numbers in a document, for example - and extends it with new methods, like .subtract().

When you have a phrase, or group of words, you can see additional metadata about it with .json()

let doc = nlp("four out of five dentists")
console.log(doc.fractions().json())
/*[{
    text: 'four out of five',
    terms: [ [Object], [Object], [Object], [Object] ],
    fraction: { numerator: 4, denominator: 5, decimal: 0.8 }
  }
]*/

let doc = nlp("$4.09CAD")
doc.money().json()
/*[{
    text: '$4.09CAD',
    terms: [ [Object] ],
    number: { prefix: '$', num: 4.09, suffix: 'cad'}
  }
]*/

API

Compromise/one

Output

• .text() - return the document as text
• .json() - return the document as data
• .debug() - pretty-print the interpreted document
• .out() - a named or custom output
• .html({}) - output custom html tags for matches
• .wrap({}) - produce custom output for document matches

Utils

• .found [getter] - is this document empty?
• .docs [getter] get term objects as json
• .length [getter] - count the # of characters in the document (string length)
• .isView [getter] - identify a compromise object
• .compute() - run a named analysis on the document
• .clone() - deep-copy the document, so that no references remain
• .termList() - return a flat list of all Term objects in match
• .cache({}) - freeze the current state of the document, for speed-purposes
• .uncache() - un-freezes the current state of the document, so it may be transformed

Accessors

• .all() - return the whole original document ('zoom out')
• .terms() - split-up results by each individual term
• .first(n) - use only the first result(s)
• .last(n) - use only the last result(s)
• .slice(n,n) - grab a subset of the results
• .eq(n) - use only the nth result
• .firstTerms() - get the first word in each match
• .lastTerms() - get the end word in each match
• .fullSentences() - get the whole sentence for each match
• .groups() - grab any named capture-groups from a match
• .wordCount() - count the # of terms in the document
• .confidence() - an average score for pos tag interpretations

Match

(match methods use the match-syntax.)

• .match('') - return a new Doc, with this one as a parent
• .not('') - return all results except for this
• .matchOne('') - return only the first match
• .if('') - return each current phrase, only if it contains this match ('only')
• .ifNo('') - Filter-out any current phrases that have this match ('notIf')
• .has('') - Return a boolean if this match exists
• .before('') - return all terms before a match, in each phrase
• .after('') - return all terms after a match, in each phrase
• .union() - return combined matches without duplicates
• .intersection() - return only duplicate matches
• .complement() - get everything not in another match
• .settle() - remove overlaps from matches
• .growRight('') - add any matching terms immediately after each match
• .growLeft('') - add any matching terms immediately before each match
• .grow('') - add any matching terms before or after each match
• .sweep(net) - apply a series of match objects to the document
• .splitOn('') - return a Document with three parts for every match ('splitOn')
• .splitBefore('') - partition a phrase before each matching segment
• .splitAfter('') - partition a phrase after each matching segment
• .lookup([]) - quick find for an array of string matches
• .autoFill() - create type-ahead assumptions on the document

Tag

• .tag('') - Give all terms the given tag
• .tagSafe('') - Only apply tag to terms if it is consistent with current tags
• .unTag('') - Remove this term from the given terms
• .canBe('') - return only the terms that can be this tag

Case

• .toLowerCase() - turn every letter of every term to lower-cse
• .toUpperCase() - turn every letter of every term to upper case
• .toTitleCase() - upper-case the first letter of each term
• .toCamelCase() - remove whitespace and title-case each term

Whitespace

• .pre('') - add this punctuation or whitespace before each match
• .post('') - add this punctuation or whitespace after each match
• .trim() - remove start and end whitespace
• .hyphenate() - connect words with hyphen, and remove whitespace
• .dehyphenate() - remove hyphens between words, and set whitespace
• .toQuotations() - add quotation marks around these matches
• .toParentheses() - add brackets around these matches

Loops

• .map(fn) - run each phrase through a function, and create a new document
• .forEach(fn) - run a function on each phrase, as an individual document
• .filter(fn) - return only the phrases that return true
• .find(fn) - return a document with only the first phrase that matches
• .some(fn) - return true or false if there is one matching phrase
• .random(fn) - sample a subset of the results

Insert

• .replace(match, replace) - search and replace match with new content
• .replaceWith(replace) - substitute-in new text
• .remove() - fully remove these terms from the document
• .insertBefore(str) - add these new terms to the front of each match (prepend)
• .insertAfter(str) - add these new terms to the end of each match (append)
• .concat() - add these new things to the end
• .swap(fromLemma, toLemma) - smart replace of root-words,using proper conjugation

Transform

• .sort('method') - re-arrange the order of the matches (in place)
• .reverse() - reverse the order of the matches, but not the words
• .normalize({}) - clean-up the text in various ways
• .unique() - remove any duplicate matches

Lib

(these methods are on the main nlp object)

• nlp.tokenize(str) - parse text without running POS-tagging
• nlp.lazy(str, match) - scan through a text with minimal analysis
• nlp.plugin({}) - mix in a compromise-plugin
• nlp.parseMatch(str) - pre-parse any match statements into json
• nlp.world() - grab or change library internals
• nlp.model() - grab all current linguistic data
• nlp.methods() - grab or change internal methods
• nlp.hooks() - see which compute methods run automatically
• nlp.verbose(mode) - log our decision-making for debugging

• nlp.version - current semver version of the library

• nlp.addWords(obj) - add new words to the lexicon

• nlp.addTags(obj) - add new tags to the tagSet

• nlp.typeahead(arr) - add words to the auto-fill dictionary

• nlp.buildTrie(arr) - compile a list of words into a fast lookup form

• nlp.buildNet(arr) - compile a list of matches into a fast match form

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compromise/two:

Contractions

• .contractions() - things like "didn't"
• .contractions().expand() - things like "didn't"
• .contract() - things like "didn't"

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compromise/three:

Nouns

• .nouns() - return any subsequent terms tagged as a Noun
  • .nouns().json() - overloaded output with noun metadata
  • .nouns().parse() - get tokenized noun-phrase
  • .nouns().isPlural() - return only plural nouns
  • .nouns().isSingular() - return only singular nouns
  • .nouns().toPlural() - 'football captain' → 'football captains'
  • .nouns().toSingular() - 'turnovers' → 'turnover'
  • .nouns().adjectives() - get any adjectives describing this noun

Verbs

• .verbs() - return any subsequent terms tagged as a Verb
  • .verbs().json() - overloaded output with verb metadata
  • .verbs().parse() - get tokenized verb-phrase
  • .verbs().subjects() - what is doing the verb action
  • .verbs().adverbs() - return the adverbs describing this verb.
  • .verbs().isSingular() - return singular verbs like 'spencer walks'
  • .verbs().isPlural() - return plural verbs like 'we walk'
  • .verbs().isImperative() - only instruction verbs like 'eat it!'
  • .verbs().toPastTense() - 'will go' → 'went'
  • .verbs().toPresentTense() - 'walked' → 'walks'
  • .verbs().toFutureTense() - 'walked' → 'will walk'
  • .verbs().toInfinitive() - 'walks' → 'walk'
  • .verbs().toGerund() - 'walks' → 'walking'
  • .verbs().conjugate() - return all conjugations of these verbs
  • .verbs().isNegative() - return verbs with 'not', 'never' or 'no'
  • .verbs().isPositive() - only verbs without 'not', 'never' or 'no'
  • .verbs().toNegative() - 'went' → 'did not go'
  • .verbs().toPositive() - "didn't study" → 'studied'

Numbers

• .numbers() - grab all written and numeric values
  • .numbers().parse() - get tokenized number phrase
  • .numbers().get() - get a simple javascript number
  • .numbers().json() - overloaded output with number metadata
  • .numbers().toNumber() - convert 'five' to 5
  • .numbers().toLocaleString() - add commas, or nicer formatting for numbers
  • .numbers().toText() - convert '5' to five
  • .numbers().toOrdinal() - convert 'five' to fifth or 5th
  • .numbers().toCardinal() - convert 'fifth' to five or 5
  • .numbers().isOrdinal() - return only ordinal numbers
  • .numbers().isCardinal() - return only cardinal numbers
  • .numbers().isEqual(n) - return numbers with this value
  • .numbers().greaterThan(min) - return numbers bigger than n
  • .numbers().lessThan(max) - return numbers smaller than n
  • .numbers().between(min, max) - return numbers between min and max
  • .numbers().set(n) - set number to n
  • .numbers().add(n) - increase number by n
  • .numbers().subtract(n) - decrease number by n
  • .numbers().increment() - increase number by 1
  • .numbers().decrement() - decrease number by 1
• .money() - things like '$2.50'
  • .money().get() - retrieve the parsed amount(s) of money
  • .money().json() - currency + number info
  • .money().currency() - which currency the money is in
• .fractions() - like '2/3rds' or 'one out of five'
  • .fractions().parse() - get tokenized fraction
  • .fractions().get() - simple numerator, denomenator data
  • .fractions().json() - json method overloaded with fractions data
  • .fractions().toDecimal() - '2/3' -> '0.66'
  • .fractions().normalize() - 'four out of 10' -> '4/10'
  • .fractions().toText() - '4/10' -> 'four tenths'
  • .fractions().toPercentage() - '4/10' -> '40%'
• .percentages() - like '2.5%'
  • .fractions().get() - return the percentage number / 100
  • .fractions().json() - json overloaded with percentage information
  • .fractions().toFraction() - '80%' -> '8/10'

Sentences

• .sentences() - return a sentence class with additional methods
  • .sentences().json() - overloaded output with sentence metadata
  • .sentences().subjects() - return the main noun of each sentence
  • .sentences().toPastTense() - he walks -> he walked
  • .sentences().toPresentTense() - he walked -> he walks
  • .sentences().toFutureTense() -- he walks -> he will walk
  • .sentences().toInfinitive() -- verb root-form he walks -> he walk
  • .sentences().toNegative() - - he walks -> he didn't walk
  • .sentences().isQuestion() - return questions with a ?
  • .sentences().isExclamation() - return sentences with a !
  • .sentences().isStatement() - return sentences without ? or !

Adjectives

• .adjectives() - things like 'quick'
• .adjectives().json() - get adjective metadata
• .adjectives().conjugate() - return all inflections of these adjectives
• .adjectives().adverbs() - get adverbs describing this adjective
• .adjectives().toComparative() - 'quick' -> 'quicker'
• .adjectives().toSuperlative() - 'quick' -> 'quickest'
• .adjectives().toAdverb() - 'quick' -> 'quickly'
• .adjectives().toNoun() - 'quick' -> 'quickness'

Misc selections

• .clauses() - split-up sentences into multi-term phrases
• .chunks() - split-up sentences noun-phrases and verb-phrases
• .hyphenated() - all terms connected with a hyphen or dash like 'wash-out'
• .phoneNumbers() - things like '(939) 555-0113'
• .hashTags() - things like '#nlp'
• .emails() - things like '[email protected]'
• .emoticons() - things like :)
• .emojis() - things like 💋
• .atMentions() - things like '@nlp_compromise'
• .urls() - things like 'compromise.cool'
• .pronouns() - things like 'he'
• .conjunctions() - things like 'but'
• .prepositions() - things like 'of'
• .abbreviations() - things like 'Mrs.'
• .people() - names like 'John F. Kennedy'
• .people().json() - get person-name metadata
• .people().parse() - get person-name interpretation
• .places() - like 'Paris, France'
• .organizations() - like 'Google, Inc'
• .topics() - people() + places() + organizations()
• .adverbs() - things like 'quickly'
• .adverbs().json() - get adverb metadata
• .acronyms() - things like 'FBI'
• .acronyms().strip() - remove periods from acronyms
• .acronyms().addPeriods() - add periods to acronyms
• .parentheses() - return anything inside (parentheses)
• .parentheses().strip() - remove brackets
• .possessives() - things like "Spencer's"
• .possessives().strip() - "Spencer's" -> "Spencer"
• .quotations() - return any terms inside paired quotation marks
• .quotations().strip() - remove quotation marks

.extend():

This library comes with a considerate, common-sense baseline for english grammar.

You're free to change, or lay-waste to any settings - which is the fun part actually.

the easiest part is just to suggest tags for any given words:

let myWords = {
  kermit: 'FirstName',
  fozzie: 'FirstName',
}
let doc = nlp(muppetText, myWords)

or make heavier changes with a compromise-plugin.

import nlp from 'compromise'
nlp.extend({
  // add new tags
  tags: {
    Character: {
      isA: 'Person',
      notA: 'Adjective',
    },
  },
  // add or change words in the lexicon
  words: {
    kermit: 'Character',
    gonzo: 'Character',
  },
  // change inflections
  irregulars: {
    get: {
      pastTense: 'gotten',
      gerund: 'gettin'
    },
  },
  // add new methods to compromise
  api: (View) => {
    View.prototype.kermitVoice = function () {
      this.sentences().prepend('well,')
      this.match('i [(am|was)]').prepend('um,')
      return this
    }
  }
})

.plugin() docs

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Docs:

gentle introduction:

• #1) Input → output
• #2) Match & transform
• #3) Making a chat-bot <!-- * Tutorial #4 - Making a plugin -->

Documentation:

Talks:

• Language as an Interface - by Spencer Kelly
• Coding Chat Bots - by KahWee Teng
• On Typing and data - by Spencer Kelly

Articles:

• Geocoding Social Conversations with NLP and JavaScript - by Microsoft
• Microservice Recipe - by Eventn
• Adventure Game Sentence Parsing with Compromise
• Building Text-Based Games - by Matt Eland
• Fun with javascript in BigQuery - by Felipe Hoffa
• Natural Language Processing... in the Browser? - by Charles Landau

Some fun Applications:

• Automated Bechdel Test - by The Guardian
• Story generation framework - by Jose Phrocca
• Tumbler blog of lists - horse-ebooks-like lists - by Michael Paulukonis
• Video Editing from Transcription - by New Theory
• Browser extension Fact-checking - by Alexander Kidd
• Siri shortcut - by Michael Byrns
• Amazon skill - by Tajddin Maghni
• Tasking Slack-bot - by Kevin Suh [see more]

Comparisons

• Compromise and Spacy
• Compromise and NLTK

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Plugins:

These are some helpful extensions:

Dates

npm install compromise-dates

• .dates() - find dates like June 8th or 03/03/18
  • .dates().get() - simple start/end json result
  • .dates().json() - overloaded output with date metadata
  • .dates().format('') - convert the dates to specific formats
  • .dates().toShortForm() - convert 'Wednesday' to 'Wed', etc
  • .dates().toLongForm() - convert 'Feb' to 'February', etc
• .durations() - 2 weeks or 5mins
  • .durations().get() - return simple json for duration
  • .durations().json() - overloaded output with duration metadata
• .times() - 4:30pm or half past five
  • .durations().get() - return simple json for times
  • .times().json() - overloaded output with time metadata

Stats

npm install compromise-stats

• .tfidf({}) - rank words by frequency and uniqueness

• .ngrams({}) - list all repeating sub-phrases, by word-count

• .unigrams() - n-grams with one word

• .bigrams() - n-grams with two words

• .trigrams() - n-grams with three words

• .startgrams() - n-grams including the first term of a phrase

• .endgrams() - n-grams including the last term of a phrase

• .edgegrams() - n-grams including the first or last term of a phrase

Speech

npm install compromise-syllables

• .syllables() - split each term by its typical pronounciation
• .soundsLike() - produce a estimated pronounciation

Wikipedia

npm install compromise-wikipedia

• .wikipedia() - compressed article reconciliation

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Typescript

we're committed to typescript/deno support, both in main and in the official-plugins:

import nlp from 'compromise'
import stats from 'compromise-stats'

const nlpEx = nlp.extend(stats)

nlpEx('This is type safe!').ngrams({ min: 1 })

typescript docs

Limitations:

• slash-support: We currently split slashes up as different words, like we do for hyphens. so things like this don't work: nlp('the koala eats/shoots/leaves').has('koala leaves') //false

• inter-sentence match: By default, sentences are the top-level abstraction. Inter-sentence, or multi-sentence matches aren't supported without a plugin: nlp("that's it. Back to Winnipeg!").has('it back')//false

• nested match syntax: the danger beauty of regex is that you can recurse indefinitely. Our match syntax is much weaker. Things like this are not (yet) possible: doc.match('(modern (major|minor))? general') complex matches must be achieved with successive .match() statements.

• dependency parsing: Proper sentence transformation requires understanding the syntax tree of a sentence, which we don't currently do. We should! Help wanted with this.

FAQ

☂️ Isn't javascript too... yeah it is! it wasn't built to compete with NLTK, and may not fit every project. string processing is synchronous too, and parallelizing node processes is weird. See here for information about speed & performance, and here for project motivations
💃 Can it run on my arduino-watch? Only if it's water-proof! Read quick start for running compromise in workers, mobile apps, and all sorts of funny environments. 🌎 Compromise in other Languages? we've got work-in-progress forks for German, French, Spanish, and Italian in the same philosophy. and need some help. ✨ Partial builds? we do offer a tokenize-only build, which has the POS-tagger pulled-out. but otherwise, compromise isn't easily tree-shaken. the tagging methods are competitive, and greedy, so it's not recommended to pull things out. Note that without a full POS-tagging, the contraction-parser won't work perfectly. ((spencer's cool) vs. (spencer's house)) It's recommended to run the library fully.

See Also:

•   en-pos - very clever javascript pos-tagger by Alex Corvi
•   naturalNode - fancier statistical nlp in javascript
•   dariusk/pos-js - fastTag fork in javascript
•   compendium-js - POS and sentiment analysis in javascript
•   nodeBox linguistics - conjugation, inflection in javascript
•   reText - very impressive text utilities in javascript
•   superScript - conversation engine in js

•   jsPos - javascript build of the time-tested Brill-tagger

•   spaCy - speedy, multilingual tagger in C/python

•   Prose - quick tagger in Go by Joseph Kato

MIT