qrcode vs react-qr-code vs qrious vs vue-qr vs corcojs-qrcode
JavaScript QR Code Libraries Comparison
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qrcodereact-qr-codeqriousvue-qrcorcojs-qrcodeSimilar Packages:
What's JavaScript QR Code Libraries?

These libraries provide functionality for generating QR codes in web applications. They allow developers to easily create QR codes from strings, URLs, or other data types, enabling quick access to information via mobile devices. Each library has its unique features, usage scenarios, and design principles, catering to different frameworks and development needs.

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qrcode3,057,7847,694135 kB1087 months agoMIT
react-qr-code630,61275313.6 kB158 months agoMIT
qrious49,7971,567-428 years agoGPL-3.0
vue-qr9,5018535.28 MB39-MIT
corcojs-qrcode1730117 kB0a year agoMIT
Feature Comparison: qrcode vs react-qr-code vs qrious vs vue-qr vs corcojs-qrcode

Integration

  • qrcode:

    The qrcode library can be integrated into various JavaScript environments and frameworks. It provides flexibility in usage, allowing developers to customize QR code generation based on specific project requirements.

  • react-qr-code:

    React-qr-code is specifically built for React applications, allowing developers to use it as a React component. This integration provides a seamless experience for managing QR codes within the React ecosystem.

  • qrious:

    Qrious is also easy to integrate, focusing on performance and providing an API that is simple to use. It can be embedded into any web application with minimal setup, making it suitable for dynamic applications.

  • vue-qr:

    Vue-qr is tailored for Vue.js applications, allowing developers to easily create QR codes as Vue components. This integration leverages Vue's reactivity, making it ideal for applications that require dynamic updates.

  • corcojs-qrcode:

    Corcojs-qrcode is designed for easy integration into any JavaScript project, requiring no additional dependencies. This makes it a good choice for developers looking for a quick and straightforward solution without the overhead of a framework.

Customization Options

  • qrcode:

    The qrcode library provides extensive customization options, including size, margin, and error correction levels. This makes it suitable for projects that require specific QR code designs and configurations.

  • react-qr-code:

    React-qr-code allows developers to customize QR code properties directly through props, making it easy to adjust size and other parameters dynamically based on application state.

  • qrious:

    Qrious allows for some customization, including size and background color, but it focuses more on performance than extensive styling options. It is ideal for applications that prioritize speed and efficiency over design.

  • vue-qr:

    Vue-qr provides customization options through Vue's reactive properties, allowing developers to easily adjust QR code settings in response to user interactions or application state.

  • corcojs-qrcode:

    Corcojs-qrcode offers basic customization options such as size and error correction level, but it is limited compared to other libraries. It is best for straightforward QR code generation without extensive customization needs.

Performance

  • qrcode:

    The qrcode library is optimized for performance and can handle various QR code generation tasks efficiently, even with larger datasets. It is suitable for applications that require high-performance QR code generation.

  • react-qr-code:

    React-qr-code is efficient in rendering QR codes as React components, ensuring that performance remains high even with frequent updates. It leverages React's rendering optimizations for smooth user experiences.

  • qrious:

    Qrious is designed for high performance, allowing for real-time QR code generation without significant lag. It is particularly effective in applications that require frequent updates to QR codes based on user input.

  • vue-qr:

    Vue-qr is optimized for performance within the Vue.js framework, ensuring that QR codes are generated quickly and efficiently, especially in applications that require real-time updates.

  • corcojs-qrcode:

    Corcojs-qrcode is lightweight and performs well for basic QR code generation tasks. However, it may not handle large-scale or complex QR code generation as efficiently as other libraries.

Ease of Use

  • qrcode:

    The qrcode library is user-friendly, with clear documentation and examples that make it easy to implement. Developers can quickly get started with QR code generation without extensive prior knowledge.

  • react-qr-code:

    React-qr-code is easy to use for React developers, providing a familiar component-based approach. Its integration with React's state management makes it intuitive for those already familiar with the framework.

  • qrious:

    Qrious is designed to be easy to use, with a simple API that allows for quick implementation of QR code generation in web applications. Its focus on performance also contributes to a smooth user experience.

  • vue-qr:

    Vue-qr is easy to implement within Vue.js applications, allowing developers to quickly generate QR codes as components. Its reactive nature makes it simple to manage QR code updates.

  • corcojs-qrcode:

    Corcojs-qrcode is straightforward and easy to use, making it suitable for developers who need a simple solution without a steep learning curve. It requires minimal setup and configuration.

Community and Support

  • qrcode:

    The qrcode library has a larger community and more extensive documentation, making it easier to find support and resources. This can be beneficial for developers who may encounter issues during implementation.

  • react-qr-code:

    React-qr-code benefits from the large React community, providing ample resources, tutorials, and support for developers. This can be advantageous for troubleshooting and learning best practices.

  • qrious:

    Qrious has a moderate community presence, with some resources available for support. Its performance-focused design is well-documented, but community contributions may be limited compared to larger libraries.

  • vue-qr:

    Vue-qr is supported by the Vue.js community, which is growing rapidly. Developers can find resources and support, making it easier to implement and troubleshoot QR code generation in Vue applications.

  • corcojs-qrcode:

    Corcojs-qrcode has a smaller community, which may result in less support and fewer resources available for troubleshooting. However, it is straightforward enough that many developers may not require extensive support.

How to Choose: qrcode vs react-qr-code vs qrious vs vue-qr vs corcojs-qrcode
  • qrcode:

    Opt for qrcode if you require a versatile library that supports various QR code options and configurations, including error correction levels and size adjustments. It is ideal for projects needing more control over QR code generation.

  • react-qr-code:

    Use react-qr-code if you are developing a React application and want a component-based approach to QR code generation. This library integrates seamlessly with React's state management and lifecycle methods, making it a great choice for React developers.

  • qrious:

    Select qrious if you prefer a library that allows for dynamic QR code generation with a focus on performance and ease of use. It is particularly useful for applications that require real-time QR code updates based on user input.

  • vue-qr:

    Choose vue-qr if you are building a Vue.js application and need a simple way to generate QR codes as Vue components. This library leverages Vue's reactivity for dynamic QR code updates.

  • corcojs-qrcode:

    Choose corcojs-qrcode if you need a lightweight and straightforward solution that is easy to integrate into any JavaScript project without dependencies. It is suitable for basic QR code generation needs.

Similar Npm Packages to qrcode

qrcode is a popular npm package that allows developers to generate QR codes easily in their applications. It provides a simple API for creating QR codes in various formats, including SVG, PNG, and even as a data URL. This flexibility makes it a great choice for web applications, mobile apps, and any project that requires quick and easy QR code generation. The package supports customization options such as error correction levels and size, allowing developers to tailor the QR codes to their specific needs.

While qrcode is a robust solution for generating QR codes, there are alternatives available in the npm ecosystem. One notable alternative is qr-image. This package also focuses on generating QR codes but offers a different approach. qr-image allows for the creation of QR codes in various formats, including PNG and SVG, and is known for its simplicity and ease of use. It provides a straightforward API for generating QR codes with minimal configuration, making it an excellent choice for developers looking for a lightweight solution.

To see how qrcode compares with qr-image, check out the comparison: Comparing qrcode vs qr-image.

Similar Npm Packages to react-qr-code

react-qr-code is a React component that allows developers to easily generate QR codes in their applications. This library is lightweight and straightforward to use, making it ideal for projects that require QR code generation without the need for complex configurations. With react-qr-code, you can customize the size, style, and data encoded in the QR code, providing flexibility for various use cases, such as creating QR codes for URLs, contact information, or any other text data.

While react-qr-code is a great option for generating QR codes, there are alternatives available for different functionalities. One notable alternative is:

  • react-qr-reader. This library focuses on reading QR codes rather than generating them. It provides a React component that utilizes the device's camera to scan QR codes in real-time. react-qr-reader is perfect for applications that need to read QR codes, such as mobile apps for ticketing, payment processing, or inventory management. With its easy-to-use interface, developers can quickly integrate QR code scanning capabilities into their applications.

For a comprehensive comparison of these two packages, you can visit: Comparing react-qr-code vs react-qr-reader.

Similar Npm Packages to qrious

qrious is a JavaScript library that allows developers to generate QR codes easily and efficiently. It provides a simple API for creating QR codes in various formats, making it a popular choice for applications that require QR code generation. While qrious is a great tool for QR code generation, there are other libraries that offer similar functionalities or cater to different needs in the realm of graphics and data visualization. Here are some alternatives:

  • canvas is a powerful library that provides a Canvas API for Node.js, allowing developers to create and manipulate images and graphics programmatically. It is particularly useful for server-side rendering of graphics and can be used to generate complex images, including charts and other visual representations. If you need more control over graphics rendering or want to create custom images beyond QR codes, canvas is an excellent choice.
  • chart.js is a popular library for creating interactive and responsive charts in web applications. It provides a wide range of chart types and is highly customizable, making it suitable for visualizing data in various formats. While chart.js is focused on charting rather than QR code generation, it is a great alternative if your application requires data visualization alongside QR code functionality.
  • d3 is a powerful JavaScript library for producing dynamic, interactive data visualizations in web browsers. It uses HTML, SVG, and CSS to bring data to life, allowing developers to create complex visualizations and manipulate the DOM based on data. Like chart.js, d3 is not specifically for QR code generation, but it is an excellent choice for applications that require advanced data visualization capabilities.
  • html2canvas is a library that allows developers to take "screenshots" of web pages or specific DOM elements and convert them into canvas elements. This can be useful for capturing visual representations of web content, including QR codes generated by other libraries. If you need to create images of your web content, including QR codes, html2canvas can complement your existing tools.

To see how qrious compares with canvas, chart.js, d3, and html2canvas, check out the comparison: Comparing canvas vs chart.js vs d3 vs html2canvas vs qrious.

Similar Npm Packages to vue-qr

vue-qr is a Vue.js component that allows developers to easily generate QR codes within their applications. It provides a simple and straightforward way to create QR codes from text or URLs, making it a useful tool for applications that require quick and easy sharing of information. With its reactive nature, vue-qr seamlessly integrates with Vue's reactivity system, allowing for dynamic updates to the QR code as the underlying data changes.

While vue-qr is a great choice for generating QR codes in Vue applications, there are alternatives available that also provide QR code generation capabilities. One notable alternative is:

  • qrious, a standalone JavaScript library for generating QR codes. It is lightweight and easy to use, making it suitable for a variety of applications. qrious can be used in any JavaScript environment, including vanilla JavaScript, React, and Vue. It offers flexibility in terms of customization, allowing developers to specify the size, level of error correction, and other parameters for the generated QR codes. If you are looking for a more general-purpose QR code generator that can be used outside of Vue.js, qrious is a solid option.

To see how vue-qr compares with qrious, check out the comparison: Comparing vue-qr vs qrious.

Similar Npm Packages to corcojs-qrcode

corcojs-qrcode is a JavaScript library designed for generating QR codes easily and efficiently. It provides a simple API that allows developers to create QR codes for various types of data, such as URLs, text, or contact information. With its lightweight nature and straightforward usage, corcojs-qrcode is a great choice for projects that require QR code generation without the overhead of more complex libraries.

While corcojs-qrcode is a solid option, there are several alternatives available in the ecosystem that also facilitate QR code generation. Here are a few noteworthy alternatives:

  • qrcode is a versatile library for generating QR codes in both Node.js and the browser. It supports various output formats, including SVG and canvas, making it a flexible choice for different use cases. With its robust feature set and active community, qrcode is suitable for developers looking for a comprehensive solution for QR code generation.
  • qrious is another lightweight library that focuses on simplicity and ease of use. It allows developers to create QR codes using HTML5 canvas elements. qrious is particularly useful for projects that require quick and straightforward QR code generation without any additional dependencies. Its minimalistic approach makes it an excellent choice for small applications or prototypes.
  • react-qr-code is a React-specific library that simplifies the process of generating QR codes within React applications. It provides a set of components that make it easy to integrate QR code generation into React projects. If you are building a React application and need a seamless way to generate QR codes, react-qr-code is a great option.
  • vue-qr is a library tailored for Vue.js applications, allowing developers to generate QR codes using Vue components. It offers a simple API and is designed to work seamlessly with Vue's reactivity system. If you're developing a Vue application and need QR code functionality, vue-qr provides an efficient and straightforward solution.

To see how corcojs-qrcode compares with qrcode, qrious, react-qr-code, and vue-qr, check out the comparison: Comparing corcojs-qrcode vs qrcode vs qrious vs react-qr-code vs vue-qr.

README for qrcode

node-qrcode

QR code/2d barcode generator.

Travis npm npm npm

Highlights

  • Works on server and client (and react native with svg)
  • CLI utility
  • Save QR code as image
  • Support for Numeric, Alphanumeric, Kanji and Byte mode
  • Support for mixed modes
  • Support for chinese, cyrillic, greek and japanese characters
  • Support for multibyte characters (like emojis :smile:)
  • Auto generates optimized segments for best data compression and smallest QR Code size
  • App agnostic readability, QR Codes by definition are app agnostic

Installation

Inside your project folder do:

npm install --save qrcode

or, install it globally to use qrcode from the command line to save qrcode images or generate ones you can view in your terminal.

npm install -g qrcode

Usage

CLI

Usage: qrcode [options] <input string>

QR Code options:
  -v, --qversion  QR Code symbol version (1 - 40)                       [number]
  -e, --error     Error correction level           [choices: "L", "M", "Q", "H"]
  -m, --mask      Mask pattern (0 - 7)                                  [number]

Renderer options:
  -t, --type        Output type                  [choices: "png", "svg", "utf8"]
  -w, --width       Image width (px)                                    [number]
  -s, --scale       Scale factor                                        [number]
  -q, --qzone       Quiet zone size                                     [number]
  -l, --lightcolor  Light RGBA hex color
  -d, --darkcolor   Dark RGBA hex color
  --small  Output smaller QR code to terminal                          [boolean]

Options:
  -o, --output  Output file
  -h, --help    Show help                                              [boolean]
  --version     Show version number                                    [boolean]

Examples:
  qrcode "some text"                    Draw in terminal window
  qrcode -o out.png "some text"         Save as png image
  qrcode -d F00 -o out.png "some text"  Use red as foreground color

If not specified, output type is guessed from file extension.
Recognized extensions are png, svg and txt.

Browser

node-qrcode can be used in browser through module bundlers like Browserify and Webpack or by including the precompiled bundle present in build/ folder.

Module bundlers

<!-- index.html -->
<html>
  <body>
    <canvas id="canvas"></canvas>
    <script src="bundle.js"></script>
  </body>
</html>

// index.js -> bundle.js
var QRCode = require('qrcode')
var canvas = document.getElementById('canvas')

QRCode.toCanvas(canvas, 'sample text', function (error) {
  if (error) console.error(error)
  console.log('success!');
})

Precompiled bundle

<canvas id="canvas"></canvas>

<script src="/build/qrcode.js"></script>
<script>
  QRCode.toCanvas(document.getElementById('canvas'), 'sample text', function (error) {
    if (error) console.error(error)
    console.log('success!');
  })
</script>

If you install through npm, precompiled files will be available in node_modules/qrcode/build/ folder.

The precompiled bundle have support for Internet Explorer 10+, Safari 5.1+, and all evergreen browsers.

NodeJS

Require the module qrcode

var QRCode = require('qrcode')

QRCode.toDataURL('I am a pony!', function (err, url) {
  console.log(url)
})

render a qrcode for the terminal

var QRCode = require('qrcode')

QRCode.toString('I am a pony!',{type:'terminal'}, function (err, url) {
  console.log(url)
})

ES6/ES7

Promises and Async/Await can be used in place of callback function.

import QRCode from 'qrcode'

// With promises
QRCode.toDataURL('I am a pony!')
  .then(url => {
    console.log(url)
  })
  .catch(err => {
    console.error(err)
  })

// With async/await
const generateQR = async text => {
  try {
    console.log(await QRCode.toDataURL(text))
  } catch (err) {
    console.error(err)
  }
}

Error correction level

Error correction capability allows to successfully scan a QR Code even if the symbol is dirty or damaged. Four levels are available to choose according to the operating environment.

Higher levels offer a better error resistance but reduce the symbol's capacity.
If the chances that the QR Code symbol may be corrupted are low (for example if it is showed through a monitor) is possible to safely use a low error level such as Low or Medium.

Possible levels are shown below:

| Level | Error resistance | |------------------|:----------------:| | L (Low) | ~7% | | M (Medium) | ~15% | | Q (Quartile) | ~25% | | H (High) | ~30% |

The percentage indicates the maximum amount of damaged surface after which the symbol becomes unreadable.

Error level can be set through options.errorCorrectionLevel property.
If not specified, the default value is M.

QRCode.toDataURL('some text', { errorCorrectionLevel: 'H' }, function (err, url) {
  console.log(url)
})

QR Code capacity

Capacity depends on symbol version and error correction level. Also encoding modes may influence the amount of storable data.

The QR Code versions range from version 1 to version 40.
Each version has a different number of modules (black and white dots), which define the symbol's size. For version 1 they are 21x21, for version 2 25x25 e so on. Higher is the version, more are the storable data, and of course bigger will be the QR Code symbol.

The table below shows the maximum number of storable characters in each encoding mode and for each error correction level.

| Mode | L | M | Q | H | |--------------|------|------|------|------| | Numeric | 7089 | 5596 | 3993 | 3057 | | Alphanumeric | 4296 | 3391 | 2420 | 1852 | | Byte | 2953 | 2331 | 1663 | 1273 | | Kanji | 1817 | 1435 | 1024 | 784 |

Note: Maximum characters number can be different when using Mixed modes.

QR Code version can be set through options.version property.
If no version is specified, the more suitable value will be used. Unless a specific version is required, this option is not needed.

QRCode.toDataURL('some text', { version: 2 }, function (err, url) {
  console.log(url)
})

Encoding modes

Modes can be used to encode a string in a more efficient way.
A mode may be more suitable than others depending on the string content. A list of supported modes are shown in the table below:

| Mode | Characters | Compression | |--------------|-----------------------------------------------------------|-------------------------------------------| | Numeric | 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 | 3 characters are represented by 10 bits | | Alphanumeric | 0–9, A–Z (upper-case only), space, $, %, *, +, -, ., /, : | 2 characters are represented by 11 bits | | Kanji | Characters from the Shift JIS system based on JIS X 0208 | 2 kanji are represented by 13 bits | | Byte | Characters from the ISO/IEC 8859-1 character set | Each characters are represented by 8 bits |

Choose the right mode may be tricky if the input text is unknown.
In these cases Byte mode is the best choice since all characters can be encoded with it. (See Multibyte characters)
However, if the QR Code reader supports mixed modes, using Auto mode may produce better results.

Mixed modes

Mixed modes are also possible. A QR code can be generated from a series of segments having different encoding modes to optimize the data compression.
However, switching from a mode to another has a cost which may lead to a worst result if it's not taken into account. See Manual mode for an example of how to specify segments with different encoding modes.

Auto mode

By default, automatic mode selection is used.
The input string is automatically splitted in various segments optimized to produce the shortest possible bitstream using mixed modes.
This is the preferred way to generate the QR Code.

For example, the string ABCDE12345678?A1A will be splitted in 3 segments with the following modes:

| Segment | Mode | |----------|--------------| | ABCDE | Alphanumeric | | 12345678 | Numeric | | ?A1A | Byte |

Any other combinations of segments and modes will result in a longer bitstream.
If you need to keep the QR Code size small, this mode will produce the best results.

Manual mode

If auto mode doesn't work for you or you have specific needs, is also possible to manually specify each segment with the relative mode. In this way no segment optimizations will be applied under the hood.
Segments list can be passed as an array of object:

  var QRCode = require('qrcode')

  var segs = [
    { data: 'ABCDEFG', mode: 'alphanumeric' },
    { data: '0123456', mode: 'numeric' }
  ]

  QRCode.toDataURL(segs, function (err, url) {
    console.log(url)
  })

Kanji mode

With kanji mode is possible to encode characters from the Shift JIS system in an optimized way.
Unfortunately, there isn't a way to calculate a Shifted JIS values from, for example, a character encoded in UTF-8, for this reason a conversion table from the input characters to the SJIS values is needed.
This table is not included by default in the bundle to keep the size as small as possible.

If your application requires kanji support, you will need to pass a function that will take care of converting the input characters to appropriate values.

An helper method is provided by the lib through an optional file that you can include as shown in the example below.

Note: Support for Kanji mode is only needed if you want to benefit of the data compression, otherwise is still possible to encode kanji using Byte mode (See Multibyte characters).

  var QRCode = require('qrcode')
  var toSJIS = require('qrcode/helper/to-sjis')

  QRCode.toDataURL(kanjiString, { toSJISFunc: toSJIS }, function (err, url) {
    console.log(url)
  })

With precompiled bundle:

<canvas id="canvas"></canvas>

<script src="/build/qrcode.min.js"></script>
<script src="/build/qrcode.tosjis.min.js"></script>
<script>
  QRCode.toCanvas(document.getElementById('canvas'),
    'sample text', { toSJISFunc: QRCode.toSJIS }, function (error) {
    if (error) console.error(error)
    console.log('success!')
  })
</script>

Binary data

QR Codes can hold arbitrary byte-based binary data. If you attempt to create a binary QR Code by first converting the data to a JavaScript string, it will fail to encode propery because string encoding adds additional bytes. Instead, you must pass a Uint8ClampedArray or compatible array, or a Node Buffer, as follows:

// Regular array example
// WARNING: Element values will be clamped to 0-255 even if your data contains higher values.
const QRCode = require('qrcode')
QRCode.toFile(
  'foo.png',
  [{ data: [253,254,255], mode: 'byte' }],
  ...options...,
  ...callback...
)

// Uint8ClampedArray example
const QRCode = require('qrcode')

QRCode.toFile(
  'foo.png',
  [{ data: new Uint8ClampedArray([253,254,255]), mode: 'byte' }],
  ...options...,
  ...callback...
)

// Node Buffer example
// WARNING: Element values will be clamped to 0-255 even if your data contains higher values.
const QRCode = require('qrcode')

QRCode.toFile(
  'foo.png',
  [{ data: Buffer.from([253,254,255]), mode: 'byte' }],
  ...options...,
  ...callback...
)

TypeScript users: if you are using @types/qrcode, you will need to add a // @ts-ignore above the data segment because it expects data: string.

Multibyte characters

Support for multibyte characters isn't present in the initial QR Code standard, but is possible to encode UTF-8 characters in Byte mode.

QR Codes provide a way to specify a different type of character set through ECI (Extended Channel Interpretation), but it's not fully implemented in this lib yet.

Most QR Code readers, however, are able to recognize multibyte characters even without ECI.

Note that a single Kanji/Kana or Emoji can take up to 4 bytes.

API

Browser:

Server:

Browser API

create(text, [options])

Creates QR Code symbol and returns a qrcode object.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options

See QR Code options.

returns

Type: Object

// QRCode object
{
  modules,              // Bitmatrix class with modules data
  version,              // Calculated QR Code version
  errorCorrectionLevel, // Error Correction Level
  maskPattern,          // Calculated Mask pattern
  segments              // Generated segments
}

toCanvas(canvasElement, text, [options], [cb(error)])

toCanvas(text, [options], [cb(error, canvas)])

Draws qr code symbol to canvas.
If canvasElement is omitted a new canvas is returned.

canvasElement

Type: DOMElement

Canvas where to draw QR Code.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options

See Options.

cb

Type: Function

Callback function called on finish.

Example
QRCode.toCanvas('text', { errorCorrectionLevel: 'H' }, function (err, canvas) {
  if (err) throw err

  var container = document.getElementById('container')
  container.appendChild(canvas)
})

toDataURL(text, [options], [cb(error, url)])

toDataURL(canvasElement, text, [options], [cb(error, url)])

Returns a Data URI containing a representation of the QR Code image.
If provided, canvasElement will be used as canvas to generate the data URI.

canvasElement

Type: DOMElement

Canvas where to draw QR Code.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options
  • type

    Type: String
    Default: image/png

    Data URI format.
    Possible values are: image/png, image/jpeg, image/webp.

  • rendererOpts.quality

    Type: Number
    Default: 0.92

    A Number between 0 and 1 indicating image quality if the requested type is image/jpeg or image/webp.

See Options for other settings.

cb

Type: Function

Callback function called on finish.

Example
var opts = {
  errorCorrectionLevel: 'H',
  type: 'image/jpeg',
  quality: 0.3,
  margin: 1,
  color: {
    dark:"#010599FF",
    light:"#FFBF60FF"
  }
}

QRCode.toDataURL('text', opts, function (err, url) {
  if (err) throw err

  var img = document.getElementById('image')
  img.src = url
})

toString(text, [options], [cb(error, string)])

Returns a string representation of the QR Code.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options
  • type

    Type: String
    Default: utf8

    Output format.
    Possible values are: terminal,utf8, and svg.

See Options for other settings.

cb

Type: Function

Callback function called on finish.

Example
QRCode.toString('http://www.google.com', function (err, string) {
  if (err) throw err
  console.log(string)
})

Server API

create(text, [options])

See create.


toCanvas(canvas, text, [options], [cb(error)])

Draws qr code symbol to node canvas.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options

See Options.

cb

Type: Function

Callback function called on finish.


toDataURL(text, [options], [cb(error, url)])

Returns a Data URI containing a representation of the QR Code image.
Only works with image/png type for now.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options

See Options for other settings.

cb

Type: Function

Callback function called on finish.


toString(text, [options], [cb(error, string)])

Returns a string representation of the QR Code.
If choosen output format is svg it will returns a string containing xml code.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options
  • type

    Type: String
    Default: utf8

    Output format.
    Possible values are: utf8, svg, terminal.

See Options for other settings.

cb

Type: Function

Callback function called on finish.

Example
QRCode.toString('http://www.google.com', function (err, string) {
  if (err) throw err
  console.log(string)
})

toFile(path, text, [options], [cb(error)])

Saves QR Code to image file.
If options.type is not specified, the format will be guessed from file extension.
Recognized extensions are png, svg, txt.

path

Type: String

Path where to save the file.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options
  • type

    Type: String
    Default: png

    Output format.
    Possible values are: png, svg, utf8.

  • rendererOpts.deflateLevel (png only)

    Type: Number
    Default: 9

    Compression level for deflate.

  • rendererOpts.deflateStrategy (png only)

    Type: Number
    Default: 3

    Compression strategy for deflate.

See Options for other settings.

cb

Type: Function

Callback function called on finish.

Example
QRCode.toFile('path/to/filename.png', 'Some text', {
  color: {
    dark: '#00F',  // Blue dots
    light: '#0000' // Transparent background
  }
}, function (err) {
  if (err) throw err
  console.log('done')
})

toFileStream(stream, text, [options])

Writes QR Code image to stream. Only works with png format for now.

stream

Type: stream.Writable

Node stream.

text

Type: String|Array

Text to encode or a list of objects describing segments.

options

See Options.


Options

QR Code options

version

Type: Number

QR Code version. If not specified the more suitable value will be calculated.

errorCorrectionLevel

Type: String
Default: M

Error correction level.
Possible values are low, medium, quartile, high or L, M, Q, H.

maskPattern

Type: Number

Mask pattern used to mask the symbol.
Possible values are 0, 1, 2, 3, 4, 5, 6, 7.
If not specified the more suitable value will be calculated.

toSJISFunc

Type: Function

Helper function used internally to convert a kanji to its Shift JIS value.
Provide this function if you need support for Kanji mode.

Renderers options

margin

Type: Number
Default: 4

Define how much wide the quiet zone should be.

scale

Type: Number
Default: 4

Scale factor. A value of 1 means 1px per modules (black dots).

small

Type: Boolean
Default: false

Relevant only for terminal renderer. Outputs smaller QR code.

width

Type: Number

Forces a specific width for the output image.
If width is too small to contain the qr symbol, this option will be ignored.
Takes precedence over scale.

color.dark

Type: String
Default: #000000ff

Color of dark module. Value must be in hex format (RGBA).
Note: dark color should always be darker than color.light.

color.light

Type: String
Default: #ffffffff

Color of light module. Value must be in hex format (RGBA).


GS1 QR Codes

There was a real good discussion here about them. but in short any qrcode generator will make gs1 compatible qrcodes, but what defines a gs1 qrcode is a header with metadata that describes your gs1 information.

https://github.com/soldair/node-qrcode/issues/45

Credits

This lib is based on "QRCode for JavaScript" which Kazuhiko Arase thankfully MIT licensed.

License

MIT

The word "QR Code" is registered trademark of:
DENSO WAVE INCORPORATED

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