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Important Note

This package is pretty much obsolete. I recommend you to switch to face-api.js, which covers the same functionality as face-recognition.js in a nodejs as well as browser environment.

Build Status Build Status Slack

Simple Node.js API for robust face detection and face recognition. This a Node.js wrapper library for the face detection and face recognition tools implemented in dlib.

rec

Examples

Face Detection

face-got faces

Face Recognition

rec

Face Landmarks

landmark5 landmark68

Install

Requirements

MacOS / OSX

  • cmake brew install cmake
  • XQuartz for the dlib GUI (brew cask install xquartz)
  • libpng for reading images (brew install libpng)

Linux

  • cmake
  • libx11 for the dlib GUI (sudo apt-get install libx11-dev)
  • libpng for reading images (sudo apt-get install libpng-dev)

Windows

Auto build

Installing the package will build dlib for you and download the models. Note, this might take some time.

npm install face-recognition

Manual build

If you want to use an own build of dlib:

  • set DLIB_INCLUDE_DIR to the source directory of dlib
  • set DLIB_LIB_DIR to the file path to dlib.lib | dlib.so | dlib.dylib

If you set these environment variables, the package will use your own build instead of compiling dlib:

npm install face-recognition

Boosting Performance

Building the package with openblas support can hugely boost CPU performance for face detection and face recognition.

Linux and OSX

Simply install openblas (sudo apt-get install libopenblas-dev) before building dlib / installing the package.

Windows

Unfortunately on windows we have to compile openblas manually (this will require you to have perl installed). Compiling openblas will leave you with libopenblas.lib and libopenblas.dll. In order to compile face-recognition.js with openblas support, provide an environment variable OPENBLAS_LIB_DIR with the path to libopenblas.lib and add the path to libopenblas.dll to your system path, before installing the package. In case you are using a manual build of dlib, you have to compile it with openblas as well.

How to use

const fr = require('face-recognition')

Loading images from disk

const image1 = fr.loadImage('path/to/image1.png')
const image2 = fr.loadImage('path/to/image2.jpg')

Displaying Images

const win = new fr.ImageWindow()

// display image
win.setImage(image)

// drawing the rectangle into the displayed image
win.addOverlay(rectangle)

// pause program until key pressed
fr.hitEnterToContinue()

Face Detection

const detector = fr.FaceDetector()

Detect all faces in the image and return the bounding rectangles:

const faceRectangles = detector.locateFaces(image)

Detect all faces and return them as separate images:

const faceImages = detector.detectFaces(image)

You can also specify the output size of the face images (default is 150 e.g. 150x150):

const targetSize = 200
const faceImages = detector.detectFaces(image, targetSize)

Face Recognition

const recognizer = fr.FaceRecognizer()

Train the recognizer with face images of atleast two different persons:

// arrays of face images, (use FaceDetector to detect and extract faces)
const sheldonFaces = [ ... ]
const rajFaces = [ ... ]
const howardFaces = [ ... ]

recognizer.addFaces(sheldonFaces, 'sheldon')
recognizer.addFaces(rajFaces, 'raj')
recognizer.addFaces(howardFaces, 'howard')

You can also jitter the training data, which will apply transformations such as rotation, scaling and mirroring to create different versions of each input face. Increasing the number of jittered version may increase prediction accuracy but also increases training time:

const numJitters = 15
recognizer.addFaces(sheldonFaces, 'sheldon', numJitters)
recognizer.addFaces(rajFaces, 'raj', numJitters)
recognizer.addFaces(howardFaces, 'howard', numJitters)

Get the distances to each class:

const predictions = recognizer.predict(sheldonFaceImage)
console.log(predictions)

example output (the lower the distance, the higher the similarity):

[
  {
    className: 'sheldon',
    distance: 0.5
  },
  {
    className: 'raj',
    distance: 0.8
  },
  {
    className: 'howard',
    distance: 0.7
  }
]

Or immediately get the best result:

const bestPrediction = recognizer.predictBest(sheldonFaceImage)
console.log(bestPrediction)

example output:

{
  className: 'sheldon',
  distance: 0.5
}

Save a trained model to json file:

const fs = require('fs')
const modelState = recognizer.serialize()
fs.writeFileSync('model.json', JSON.stringify(modelState))

Load a trained model from json file:

const modelState = require('model.json')
recognizer.load(modelState)

Face Landmarks

This time using the FrontalFaceDetector (you can also use FaceDetector):

const detector = new fr.FrontalFaceDetector()

Use 5 point landmarks predictor:

const predictor = fr.FaceLandmark5Predictor()

Or 68 point landmarks predictor:

const predictor = fr.FaceLandmark68Predictor()

First get the bounding rectangles of the faces:

const img = fr.loadImage('image.png')
const faceRects = detector.detect(img)

Find the face landmarks:

const shapes = faceRects.map(rect => predictor.predict(img, rect))

Display the face landmarks:

const win = new fr.ImageWindow()
win.setImage(img)
win.renderFaceDetections(shapes)
fr.hitEnterToContinue()

Async API

Async Face Detection

const detector = fr.AsyncFaceDetector()

detector.locateFaces(image)
  .then((faceRectangles) => {
    ...
  })
  .catch((error) => {
    ...
  })

detector.detectFaces(image)
  .then((faceImages) => {
    ...
  })
  .catch((error) => {
    ...
  })

Async Face Recognition

const recognizer = fr.AsyncFaceRecognizer()

Promise.all([
  recognizer.addFaces(sheldonFaces, 'sheldon')
  recognizer.addFaces(rajFaces, 'raj')
  recognizer.addFaces(howardFaces, 'howard')
])
  .then(() => {
    ...
  })
  .catch((error) => {
    ...
  })

recognizer.predict(faceImage)
  .then((predictions) => {
    ...
  })
  .catch((error) => {
    ...
  })

recognizer.predictBest(faceImage)
  .then((bestPrediction) => {
    ...
  })
  .catch((error) => {
    ...
  })

Async Face Landmarks

const predictor = fr.FaceLandmark5Predictor()
const predictor = fr.FaceLandmark68Predictor()
Promise.all(faceRects.map(rect => predictor.predictAsync(img, rect)))
  .then((shapes) => {
    ...
  })
  .catch((error) => {
    ...
  })

With TypeScript

import * as fr from 'face-recognition'

Check out the TypeScript examples.

With opencv4nodejs

In case you need to do some image processing, you can also use this package with opencv4nodejs. Also see examples for using face-recognition.js with opencv4nodejs.

const cv = require('opencv4nodejs')
const fr = require('face-recognition').withCv(cv)

Now you can simple convert a cv.Mat to fr.CvImage:

const cvMat = cv.imread('image.png')
const cvImg = fr.CvImage(cvMat)

Display it:

const win = new fr.ImageWindow()
win.setImage(cvImg)
fr.hitEnterToContinue()

Resizing:

const resized1 = fr.resizeImage(cvImg, 0.5)
const resized2 = fr.pyramidUp(cvImg)

Detecting faces and retrieving them as cv.Mats:

const faceRects =  detector.locateFaces(cvImg)
const faceMats = faceRects
  .map(mmodRect => fr.toCvRect(mmodRect.rect))
  .map(cvRect => mat.getRegion(cvRect).copy())