A pure javascript port of the ZXing QR parsing library. This library takes in raw images and will locate, extract and parse any QR codes found within. It also exposes methods to do each step of the process individually. This allows piecemeal use and custom extension, for example you can use this library to parse pure QR codes (without extracting from an image), or to locate QR codes within an image without parsing them.
This library was written because there were no javascript QR code parsing libraries that were well maintained and capable of parsing any reasonably complex QR codes.
See how jsQR compares to other JS QR code decoders
ZXing is the best QR code library, and had been ported to many languages, but not to Javascript. jsQR is a fully featured port of the QR code portions of the zxing library, with the goal of growing into a maintainable and extendable QR parsing library in pure javascript.
npm install jsqr --save
jsQR = require("jsqr");
Include jsQR.js
.
<script src="jsQR.js"></script>
You can also use module loaders such as requireJS or browserify
qrJS exports methods for each step in the QR recognition, extraction and decoding process, as well as a convenience wrapper method.
Using the wrapper method
var decoded = jsQR.decodeQRFromImage(data, width, height);
Using the individual methods
var binarizedImage = binarizeImage(data, width, height);
var location = locateQRInBinaryImage(binarizedImage);
if (!location) {
return;
}
var rawQR = extractQRFromBinaryImage(binarizedImage, location);
if (!rawQR) {
return;
}
console.log(decodeQR(rawQR));
Working example of parsing a webcam feed
decodeQRFromImage
is a wrapper method for the different steps of the QR decoding process.
It takes in a RGBA image and returns a string representation of the data encoded within any detected QR codes.
data
- An 1d array of numbers representing an RGBA image in the formr1, g1, b1, a1, r2, g2, b2, a2,...
. This is the same form as theImageData
type returned by the.getImageData()
call when reading data from a canvas element.width
- The width of the image.height
The height of the image.
data.length
should always be equal to width * height * 4
.
Binarizing an image (converting it to an image where pixels are either back or white, not grey) is the first step of the process.
binarizeImage takes in a RGBA image and returns a BitMatrix
representing the binarized form of that image.
data
- An 1d array of numbers representing an RGBA image in the formr1, g1, b1, a1, r2, g2, b2, a2,...
. This is the same form as theImageData
type returned by the.getImageData()
call when reading data from a canvas element.width
- The width of the image.height
The height of the image.
data.length
should always be equal to width * height * 4
.
locateQRInBinaryImage
takes in a BitMatrix
representing a binary image (as output by binarizeImage
) and returns the location of a QR code if one is detected.
image
- aBitMatrix
representing a binary image (as output bybinarizeImage
)
locateQRInBinaryImage
returns null
if no QR is found, else it returns an object with the following structure
{
bottomLeft: {
x: number,
y: number
},
topLeft: {
x: number,
y: number
},
topRight: {
x: number,
y: number
}
}
The coordinates represent the pixel locations of the QR's corner points.
extractQRFromBinaryImage
takes in a BitMatrix
representing a binary image (as output by binarizeImage
) and the location of a QR code. It returns a BitMatrix
representing the raw QR code.
image
- aBitMatrix
representing a binary image (as output bybinarizeImage
)location
- The location of a QR code, as returned bylocateQRInBinaryImage
extractQRFromBinaryImage
a BitMatrix
representing the extracted QR code. The matrix is size N
by N
where N
is the number of "blocks" along the edge of the QR code.
decodeQR
takes in a BitMatrix
representing a raw QR code (as output by extractQRFromBinaryImage
) and returns a string of decoded data. It is the last step in the QR decoding process.
qrCode
- aBitMatrix
representing a raw QR code (as output byextractQRFromBinaryImage
)
Throughout the QR extraction and decoding process data is often represented as a BitMatrix
.
BitMatrices are a convenient way to represent and interact with a 2d array of booleans.
width
- The width of the matrix.height
- The height of the matrix.data
- The underlying data (represented as a 1d array)
get(x, y)
- Get the bit at specific coordinates.set(x, y, bit)
- Set the bit at specific coordinates.
createBitMatrix
is a convenience method for creating bit matrices.
data
- A 1d array of booleans representing the data represented by the bit matrix.width
- The width of the matrix (height is inferred bydata.length / width
).
jsQR was originally written by porting over the ZXing C# library directly to typescript. This lead to code that works extremely well, but may not follow best javascript practices.
The next steps (which are ongoing) are to port over any test cases (writing any that don't exist), and refactor each of the modules into more idomatic code. The end goal is a pure JS library QR library that is as fully featured as the ZXing library, but maintainable and extendable in it's own right.
jsQR is written using typescript.
You can view the development source in the src
directory.
Currently the library is very untested, but tests are being added as the library is refactored into more maintainable code. Tests can be run via
npm test
After testing any changes, you can compile the production version by running
npm run-script build
- Source hosted at GitHub
- Report issues, questions, feature requests on GitHub Issues
Pull requests are welcome! Please create seperate branches for seperate features/patches.