JavaScript utility libraries are collections of functions and methods that help developers perform common tasks more efficiently and effectively. These libraries abstract away complex operations, provide reusable code snippets, and enhance productivity by offering a set of tools that can be easily integrated into projects. The libraries mentioned here serve different purposes, from making HTTP requests to manipulating dates and simplifying data structures, each with its unique strengths and use cases.
NPM Package Downloads Trend
Github Stars Ranking
Stat Detail
Package
Downloads
Stars
Size
Issues
Publish
License
axios
51,883,704
105,358
2.14 MB
677
a month ago
MIT
lodash
51,138,333
59,686
-
108
4 years ago
MIT
moment
21,053,989
47,964
4.35 MB
254
9 months ago
MIT
underscore
12,185,625
27,317
906 kB
51
2 months ago
MIT
jquery
11,831,968
59,179
1.25 MB
89
a year ago
MIT
js
19,382
-
-
-
-
-
Feature Comparison: axios vs lodash vs moment vs underscore vs jquery vs js
HTTP Requests
axios: Axios is designed specifically for making HTTP requests. It supports promises, making it easy to handle asynchronous operations. It also allows for request and response interceptors, enabling developers to modify requests or responses before they are handled by then or catch.
lodash: Lodash does not handle HTTP requests but can be used in conjunction with Axios or Fetch to manipulate the data received from API calls, enhancing the overall data handling process.
moment: Moment.js does not handle HTTP requests but can be used to format and manipulate date data received from APIs, making it easier to display or process date-related information.
underscore: Underscore.js does not handle HTTP requests but can be used alongside other libraries to manipulate the data returned from API calls.
jquery: jQuery simplifies AJAX requests with its `$.ajax()` method, allowing for easy integration of asynchronous data fetching. However, it is not as modern or flexible as Axios in handling promises and interceptors.
js: Native JavaScript provides the Fetch API for making HTTP requests, which is a modern alternative to XMLHttpRequest. While it is powerful, it lacks some of the convenience features that Axios offers, such as automatic JSON parsing.
Data Manipulation
axios: Axios does not provide data manipulation functions, but it allows you to easily send and receive data in various formats, including JSON, which can then be manipulated using other libraries like Lodash or Underscore.
lodash: Lodash excels in data manipulation, providing a rich set of functions for working with arrays, objects, and functions. It simplifies complex operations like deep cloning, merging, and filtering data.
moment: Moment.js specializes in date manipulation, allowing you to easily add, subtract, and format dates. It provides a straightforward API for handling time zones and durations, making it invaluable for date-related tasks.
underscore: Underscore.js offers similar data manipulation capabilities to Lodash, providing functions for working with arrays and objects, but with a more functional programming approach.
jquery: jQuery provides basic data manipulation through its DOM manipulation capabilities, allowing you to easily modify HTML content and attributes based on data received from AJAX requests.
js: Native JavaScript offers built-in methods for data manipulation, such as `map()`, `filter()`, and `reduce()`, which can be used directly on arrays and objects without any additional libraries.
Browser Compatibility
axios: Axios is compatible with all modern browsers and supports older browsers like IE11, making it a reliable choice for a wide range of applications.
lodash: Lodash is compatible with all modern browsers and provides polyfills for older environments, ensuring consistent behavior across different platforms.
moment: Moment.js is compatible with all major browsers, including older versions, making it a safe choice for applications that require extensive date manipulation.
underscore: Underscore.js is compatible with all modern browsers and provides a lightweight solution for data manipulation, ensuring broad compatibility.
jquery: jQuery is known for its excellent browser compatibility, including support for older versions of Internet Explorer, which makes it suitable for legacy projects.
js: Native JavaScript methods are supported in all modern browsers, but some features may not be available in older browsers, requiring polyfills for full compatibility.
Learning Curve
axios: Axios has a relatively low learning curve, especially for developers familiar with promises and async/await syntax. Its straightforward API makes it easy to get started with making HTTP requests.
lodash: Lodash has a gentle learning curve, especially for those familiar with JavaScript. Its functional programming style may require some adjustment for developers new to functional concepts, but its documentation is comprehensive.
moment: Moment.js is straightforward to learn, with a clear API for date manipulation. However, understanding time zones and formatting options may require additional study.
underscore: Underscore.js has a moderate learning curve, particularly for developers unfamiliar with functional programming. Its documentation provides helpful examples to ease the learning process.
jquery: jQuery is easy to learn for beginners, especially those new to JavaScript. Its syntax simplifies common tasks, making it accessible for quick DOM manipulation and event handling.
js: Native JavaScript has a moderate learning curve, as developers need to understand the underlying concepts of the language. However, mastering native methods can lead to more efficient and performant code.
Performance
axios: Axios is optimized for performance when making HTTP requests, with features like request cancellation and automatic JSON transformation that enhance efficiency.
lodash: Lodash is optimized for performance, especially with large datasets, providing efficient algorithms for data manipulation that can outperform native methods in certain scenarios.
moment: Moment.js can be slower than native date handling due to its extensive feature set and additional overhead. For performance-sensitive applications, consider alternatives like date-fns or day.js.
underscore: Underscore.js is lightweight and performs well for most data manipulation tasks, but it may not be as optimized as Lodash for larger datasets.
jquery: jQuery may introduce overhead due to its extensive feature set, which can impact performance in applications that require heavy DOM manipulation or frequent AJAX requests.
js: Native JavaScript methods are generally faster than libraries due to their direct implementation in the browser, making them ideal for performance-critical applications.
How to Choose: axios vs lodash vs moment vs underscore vs jquery vs js
axios: Choose Axios if you need a promise-based HTTP client for making requests to APIs. It provides a simple and intuitive API, supports request and response interceptors, and can handle JSON data seamlessly.
lodash: Choose Lodash if you need a powerful utility library for working with arrays, objects, and functions. It offers a wide range of functions for data manipulation, making it easier to work with complex data structures and perform operations like deep cloning and debouncing.
moment: Choose Moment.js if you need to work extensively with dates and times. It provides a comprehensive API for parsing, validating, manipulating, and formatting dates, making it ideal for applications that require date handling.
underscore: Choose Underscore.js if you want a lightweight utility library that provides functional programming helpers for working with arrays and objects. It offers similar functionality to Lodash but with a smaller footprint.
jquery: Choose jQuery if you are working on a project that requires DOM manipulation, event handling, and AJAX requests with a simplified syntax. It is especially useful for legacy projects or when you need to support older browsers.
js: Choose the native JavaScript methods if you want to avoid additional dependencies and prefer a lightweight solution. Native methods are often faster and provide the most control over your code without the overhead of a library.
Similar Npm Packages to axios
axios is a popular promise-based HTTP client for both the browser and Node.js. It simplifies making HTTP requests and handling responses, providing a clean and intuitive API. Axios supports features such as request and response interception, automatic JSON data transformation, and the ability to cancel requests. It is widely used in web applications for interacting with RESTful APIs and is known for its ease of use and flexibility. However, there are several alternatives to axios that developers may consider based on their specific needs:
node-fetch is a lightweight module that brings window.fetch to Node.js. It is a simple and minimalistic implementation of the Fetch API, allowing developers to make HTTP requests using a familiar API. Node-fetch is particularly useful for server-side applications or when working with APIs in a Node.js environment. It supports promises and is a great choice for those who prefer the Fetch API's syntax and behavior over traditional XMLHttpRequest or other libraries.
request was once one of the most popular HTTP request libraries for Node.js. It provided a simple and flexible API for making HTTP requests and handling responses. However, it has been deprecated and is no longer actively maintained. While it may still be found in legacy projects, developers are encouraged to use more modern alternatives like axios or node-fetch for new applications.
superagent is another powerful HTTP request library for Node.js and browsers. It offers a flexible and expressive API for making HTTP requests, supporting features like chaining, automatic content type handling, and file uploads. Superagent is particularly useful for developers who need a more feature-rich alternative to axios or want to work with a library that provides a more expressive syntax.
lodash is a widely-used utility library in JavaScript that provides a plethora of functions for common programming tasks, such as manipulating arrays, objects, and strings. It simplifies complex tasks and enhances productivity by offering a consistent and performant API. While lodash is a powerful tool for developers, there are several alternatives that also provide utility functions and functional programming capabilities. Here are a few notable alternatives:
immutable is a library that provides immutable data structures for JavaScript. It allows developers to work with data in a way that prevents unintended mutations, making it easier to manage state in applications, especially in React. Immutable.js offers persistent data structures that are efficient and can help improve performance in applications that require frequent updates to state. If you are looking for a way to ensure immutability in your data handling, immutable is a strong choice.
ramda is a functional programming library for JavaScript that emphasizes a functional programming style. Unlike lodash, which is more focused on utility functions, ramda provides a suite of functions designed to work with functional programming paradigms, such as currying and composition. Ramda's approach allows for more declarative code and can lead to cleaner and more maintainable applications. If you prefer a functional programming style and want to leverage powerful functional utilities, ramda is an excellent alternative.
underscore is another utility library that provides a similar set of functions to lodash. It was one of the first utility libraries in JavaScript and laid the groundwork for many of the features that lodash later adopted. While lodash has since become more popular due to its performance optimizations and additional features, underscore remains a solid choice for developers who need basic utility functions without the overhead of a larger library. If you are looking for a lightweight alternative that covers the essentials, underscore may be suitable.
moment is a widely used JavaScript library for parsing, validating, manipulating, and formatting dates and times. It provides a simple and intuitive API for handling date-related operations, making it a popular choice among developers. However, as the JavaScript ecosystem evolves, several alternatives have emerged that offer similar functionality with different approaches. Here are a few notable alternatives:
date-fns is a modern JavaScript date utility library that provides a comprehensive set of functions for manipulating dates. Unlike moment, which is a monolithic library, date-fns is modular, allowing developers to import only the functions they need. This results in smaller bundle sizes and improved performance. If you prefer a functional programming style and want to keep your application lightweight, date-fns is an excellent choice.
date-fns-tz is an extension of date-fns that adds support for time zone manipulation. It allows developers to work with dates in different time zones, making it a great option for applications that require internationalization or need to handle users from various regions. If you are already using date-fns and need time zone support, date-fns-tz seamlessly integrates with it.
dayjs is a lightweight alternative to moment that offers a similar API but with a much smaller footprint. It is designed to be fast and efficient, making it a good choice for projects where performance is a concern. dayjs is also modular, allowing developers to extend its functionality with plugins as needed. If you are looking for a moment-like experience without the overhead, dayjs is worth considering.
js-joda is a date and time library that is inspired by the Java 8 Date and Time API. It provides an immutable date and time model, making it suitable for applications that require a more robust handling of dates and times. If you are familiar with Java's date and time API or need a library that emphasizes immutability and type safety, js-joda is a solid option.
luxon is a powerful library for working with dates and times in JavaScript. It is built on the modern Intl API and provides a rich set of features, including time zone support, localization, and formatting. luxon is ideal for applications that need to handle complex date and time operations while maintaining a clean and easy-to-use API.
underscore is a popular JavaScript utility library that provides a wide range of functions for common programming tasks, including manipulating arrays, objects, and functions. It serves as a foundation for many other libraries and frameworks, offering a functional programming approach to JavaScript development. While underscore is widely used, there are several alternatives that provide similar or enhanced functionality. Here are a few notable alternatives:
immutable is a library designed to create immutable data structures in JavaScript. It provides persistent data structures that enable developers to manage state without mutating the original data. This is particularly useful in functional programming and React applications, where immutability can lead to easier state management and improved performance. If your application requires a focus on immutability and you want to avoid side effects from data mutations, immutable is a strong choice.
lodash is a modern utility library that builds upon the concepts introduced by underscore, offering a more extensive set of functions and improved performance. It provides a rich set of methods for manipulating arrays, objects, strings, and more, while also supporting chaining and lazy evaluation. If you are looking for a comprehensive utility library with a large community and extensive documentation, lodash is an excellent alternative to underscore.
ramda is a functional programming library for JavaScript that emphasizes a point-free style and immutability. It provides a wide range of utility functions that are designed to work seamlessly with functional programming paradigms. If you prefer a more functional approach to programming and want to leverage currying and composition, ramda is a great choice for enhancing your JavaScript code.
jquery is a fast, small, and feature-rich JavaScript library that simplifies HTML document traversal and manipulation, event handling, and animation. It provides an easy-to-use API that works across a multitude of browsers, making it a popular choice for web developers. While jQuery has been a staple in web development for many years, there are modern alternatives that offer similar functionalities with a more contemporary approach. Here are a couple of alternatives:
axios is a promise-based HTTP client for the browser and Node.js. While it doesn't directly replace jQuery's DOM manipulation capabilities, it serves as a modern alternative for handling AJAX requests, which is one of jQuery's core features. Axios provides a simple and intuitive API for making HTTP requests, handling responses, and managing errors. If your primary need is to interact with APIs and manage asynchronous requests, axios is a great choice that aligns well with modern JavaScript practices.
lodash is a utility library that provides a wide range of functions for common programming tasks, including array manipulation, object manipulation, and function composition. While lodash does not directly replace jQuery's DOM manipulation features, it offers powerful utility functions that can simplify JavaScript coding and enhance productivity. If you are looking for a library that helps with data manipulation and functional programming patterns, lodash is an excellent alternative.
js is a versatile JavaScript library that provides a wide range of utility functions for common programming tasks. It aims to simplify the development process by offering a collection of tools that can help with data manipulation, DOM manipulation, and other everyday tasks in JavaScript. While js offers a broad set of functionalities, there are several alternatives in the JavaScript ecosystem that cater to specific needs. Here are a few notable alternatives:
axios is a promise-based HTTP client for the browser and Node.js. It simplifies making HTTP requests and handling responses, making it a popular choice for developers working with APIs. Axios provides a clean and intuitive API, supports request and response interception, and allows for easy configuration of defaults. If your primary focus is on making HTTP requests, axios is a robust option that integrates well with modern JavaScript applications.
jquery is a fast, small, and feature-rich JavaScript library that simplifies HTML document traversal and manipulation, event handling, and animation. While it has been a staple in web development for many years, its usage has declined with the rise of modern frameworks like React and Vue. However, jQuery remains a powerful tool for projects that require DOM manipulation and cross-browser compatibility. If your project involves a lot of DOM manipulation and you prefer a straightforward approach, jQuery is still a viable option.
lodash is a modern JavaScript utility library that provides a wide range of functions for common programming tasks, such as manipulating arrays, objects, and strings. It is known for its performance and modularity, allowing developers to include only the functions they need. If you require a comprehensive set of utility functions for data manipulation and want to enhance your JavaScript code's readability and maintainability, lodash is an excellent choice.
moment is a popular library for parsing, validating, manipulating, and formatting dates in JavaScript. It provides a simple API for handling dates and times, making it easier to work with complex date-related tasks. However, it's worth noting that moment has been considered heavy for modern applications, and alternatives like date-fns and day.js are gaining popularity. If your project requires extensive date manipulation, moment can still be useful, but consider lighter alternatives for better performance.
underscore is a utility library that provides functional programming helpers for JavaScript. It offers a range of functions for working with arrays, objects, and functions, similar to lodash but with a smaller footprint. While lodash has largely overshadowed underscore in popularity, underscore remains a solid choice for projects that require functional programming utilities without the additional features provided by lodash.
For cases where something went wrong when trying to import a module into a custom or legacy environment,
you can try importing the module package directly:
Note: CommonJS usage
In order to gain the TypeScript typings (for intellisense / autocomplete) while using CommonJS imports with require(), use the following approach:
import axios from 'axios';
//const axios = require('axios'); // legacy way
// Make a request for a user with a given ID
axios.get('/user?ID=12345')
.then(function (response) {
// handle success
console.log(response);
})
.catch(function (error) {
// handle error
console.log(error);
})
.finally(function () {
// always executed
});
// Optionally the request above could also be done as
axios.get('/user', {
params: {
ID: 12345
}
})
.then(function (response) {
console.log(response);
})
.catch(function (error) {
console.log(error);
})
.finally(function () {
// always executed
});
// Want to use async/await? Add the `async` keyword to your outer function/method.
async function getUser() {
try {
const response = await axios.get('/user?ID=12345');
console.log(response);
} catch (error) {
console.error(error);
}
}
Note: async/await is part of ECMAScript 2017 and is not supported in Internet
Explorer and older browsers, so use with caution.
The available instance methods are listed below. The specified config will be merged with the instance config.
axios#request(config)
axios#get(url[, config])
axios#delete(url[, config])
axios#head(url[, config])
axios#options(url[, config])
axios#post(url[, data[, config]])
axios#put(url[, data[, config]])
axios#patch(url[, data[, config]])
axios#getUri([config])
Request Config
These are the available config options for making requests. Only the url is required. Requests will default to GET if method is not specified.
{
// `url` is the server URL that will be used for the request
url: '/user',
// `method` is the request method to be used when making the request
method: 'get', // default
// `baseURL` will be prepended to `url` unless `url` is absolute.
// It can be convenient to set `baseURL` for an instance of axios to pass relative URLs
// to methods of that instance.
baseURL: 'https://some-domain.com/api/',
// `transformRequest` allows changes to the request data before it is sent to the server
// This is only applicable for request methods 'PUT', 'POST', 'PATCH' and 'DELETE'
// The last function in the array must return a string or an instance of Buffer, ArrayBuffer,
// FormData or Stream
// You may modify the headers object.
transformRequest: [function (data, headers) {
// Do whatever you want to transform the data
return data;
}],
// `transformResponse` allows changes to the response data to be made before
// it is passed to then/catch
transformResponse: [function (data) {
// Do whatever you want to transform the data
return data;
}],
// `headers` are custom headers to be sent
headers: {'X-Requested-With': 'XMLHttpRequest'},
// `params` are the URL parameters to be sent with the request
// Must be a plain object or a URLSearchParams object
params: {
ID: 12345
},
// `paramsSerializer` is an optional config that allows you to customize serializing `params`.
paramsSerializer: {
//Custom encoder function which sends key/value pairs in an iterative fashion.
encode?: (param: string): string => { /* Do custom operations here and return transformed string */ },
// Custom serializer function for the entire parameter. Allows user to mimic pre 1.x behaviour.
serialize?: (params: Record<string, any>, options?: ParamsSerializerOptions ),
//Configuration for formatting array indexes in the params.
indexes: false // Three available options: (1) indexes: null (leads to no brackets), (2) (default) indexes: false (leads to empty brackets), (3) indexes: true (leads to brackets with indexes).
},
// `data` is the data to be sent as the request body
// Only applicable for request methods 'PUT', 'POST', 'DELETE , and 'PATCH'
// When no `transformRequest` is set, must be of one of the following types:
// - string, plain object, ArrayBuffer, ArrayBufferView, URLSearchParams
// - Browser only: FormData, File, Blob
// - Node only: Stream, Buffer, FormData (form-data package)
data: {
firstName: 'Fred'
},
// syntax alternative to send data into the body
// method post
// only the value is sent, not the key
data: 'Country=Brasil&City=Belo Horizonte',
// `timeout` specifies the number of milliseconds before the request times out.
// If the request takes longer than `timeout`, the request will be aborted.
timeout: 1000, // default is `0` (no timeout)
// `withCredentials` indicates whether or not cross-site Access-Control requests
// should be made using credentials
withCredentials: false, // default
// `adapter` allows custom handling of requests which makes testing easier.
// Return a promise and supply a valid response (see lib/adapters/README.md)
adapter: function (config) {
/* ... */
},
// Also, you can set the name of the built-in adapter, or provide an array with their names
// to choose the first available in the environment
adapter: 'xhr' // 'fetch' | 'http' | ['xhr', 'http', 'fetch']
// `auth` indicates that HTTP Basic auth should be used, and supplies credentials.
// This will set an `Authorization` header, overwriting any existing
// `Authorization` custom headers you have set using `headers`.
// Please note that only HTTP Basic auth is configurable through this parameter.
// For Bearer tokens and such, use `Authorization` custom headers instead.
auth: {
username: 'janedoe',
password: 's00pers3cret'
},
// `responseType` indicates the type of data that the server will respond with
// options are: 'arraybuffer', 'document', 'json', 'text', 'stream'
// browser only: 'blob'
responseType: 'json', // default
// `responseEncoding` indicates encoding to use for decoding responses (Node.js only)
// Note: Ignored for `responseType` of 'stream' or client-side requests
// options are: 'ascii', 'ASCII', 'ansi', 'ANSI', 'binary', 'BINARY', 'base64', 'BASE64', 'base64url',
// 'BASE64URL', 'hex', 'HEX', 'latin1', 'LATIN1', 'ucs-2', 'UCS-2', 'ucs2', 'UCS2', 'utf-8', 'UTF-8',
// 'utf8', 'UTF8', 'utf16le', 'UTF16LE'
responseEncoding: 'utf8', // default
// `xsrfCookieName` is the name of the cookie to use as a value for xsrf token
xsrfCookieName: 'XSRF-TOKEN', // default
// `xsrfHeaderName` is the name of the http header that carries the xsrf token value
xsrfHeaderName: 'X-XSRF-TOKEN', // default
// `undefined` (default) - set XSRF header only for the same origin requests
withXSRFToken: boolean | undefined | ((config: InternalAxiosRequestConfig) => boolean | undefined),
// `onUploadProgress` allows handling of progress events for uploads
// browser & node.js
onUploadProgress: function ({loaded, total, progress, bytes, estimated, rate, upload = true}) {
// Do whatever you want with the Axios progress event
},
// `onDownloadProgress` allows handling of progress events for downloads
// browser & node.js
onDownloadProgress: function ({loaded, total, progress, bytes, estimated, rate, download = true}) {
// Do whatever you want with the Axios progress event
},
// `maxContentLength` defines the max size of the http response content in bytes allowed in node.js
maxContentLength: 2000,
// `maxBodyLength` (Node only option) defines the max size of the http request content in bytes allowed
maxBodyLength: 2000,
// `validateStatus` defines whether to resolve or reject the promise for a given
// HTTP response status code. If `validateStatus` returns `true` (or is set to `null`
// or `undefined`), the promise will be resolved; otherwise, the promise will be
// rejected.
validateStatus: function (status) {
return status >= 200 && status < 300; // default
},
// `maxRedirects` defines the maximum number of redirects to follow in node.js.
// If set to 0, no redirects will be followed.
maxRedirects: 21, // default
// `beforeRedirect` defines a function that will be called before redirect.
// Use this to adjust the request options upon redirecting,
// to inspect the latest response headers,
// or to cancel the request by throwing an error
// If maxRedirects is set to 0, `beforeRedirect` is not used.
beforeRedirect: (options, { headers }) => {
if (options.hostname === "example.com") {
options.auth = "user:password";
}
},
// `socketPath` defines a UNIX Socket to be used in node.js.
// e.g. '/var/run/docker.sock' to send requests to the docker daemon.
// Only either `socketPath` or `proxy` can be specified.
// If both are specified, `socketPath` is used.
socketPath: null, // default
// `transport` determines the transport method that will be used to make the request. If defined, it will be used. Otherwise, if `maxRedirects` is 0, the default `http` or `https` library will be used, depending on the protocol specified in `protocol`. Otherwise, the `httpFollow` or `httpsFollow` library will be used, again depending on the protocol, which can handle redirects.
transport: undefined, // default
// `httpAgent` and `httpsAgent` define a custom agent to be used when performing http
// and https requests, respectively, in node.js. This allows options to be added like
// `keepAlive` that are not enabled by default.
httpAgent: new http.Agent({ keepAlive: true }),
httpsAgent: new https.Agent({ keepAlive: true }),
// `proxy` defines the hostname, port, and protocol of the proxy server.
// You can also define your proxy using the conventional `http_proxy` and
// `https_proxy` environment variables. If you are using environment variables
// for your proxy configuration, you can also define a `no_proxy` environment
// variable as a comma-separated list of domains that should not be proxied.
// Use `false` to disable proxies, ignoring environment variables.
// `auth` indicates that HTTP Basic auth should be used to connect to the proxy, and
// supplies credentials.
// This will set an `Proxy-Authorization` header, overwriting any existing
// `Proxy-Authorization` custom headers you have set using `headers`.
// If the proxy server uses HTTPS, then you must set the protocol to `https`.
proxy: {
protocol: 'https',
host: '127.0.0.1',
// hostname: '127.0.0.1' // Takes precedence over 'host' if both are defined
port: 9000,
auth: {
username: 'mikeymike',
password: 'rapunz3l'
}
},
// `cancelToken` specifies a cancel token that can be used to cancel the request
// (see Cancellation section below for details)
cancelToken: new CancelToken(function (cancel) {
}),
// an alternative way to cancel Axios requests using AbortController
signal: new AbortController().signal,
// `decompress` indicates whether or not the response body should be decompressed
// automatically. If set to `true` will also remove the 'content-encoding' header
// from the responses objects of all decompressed responses
// - Node only (XHR cannot turn off decompression)
decompress: true, // default
// `insecureHTTPParser` boolean.
// Indicates where to use an insecure HTTP parser that accepts invalid HTTP headers.
// This may allow interoperability with non-conformant HTTP implementations.
// Using the insecure parser should be avoided.
// see options https://nodejs.org/dist/latest-v12.x/docs/api/http.html#http_http_request_url_options_callback
// see also https://nodejs.org/en/blog/vulnerability/february-2020-security-releases/#strict-http-header-parsing-none
insecureHTTPParser: undefined, // default
// transitional options for backward compatibility that may be removed in the newer versions
transitional: {
// silent JSON parsing mode
// `true` - ignore JSON parsing errors and set response.data to null if parsing failed (old behaviour)
// `false` - throw SyntaxError if JSON parsing failed (Note: responseType must be set to 'json')
silentJSONParsing: true, // default value for the current Axios version
// try to parse the response string as JSON even if `responseType` is not 'json'
forcedJSONParsing: true,
// throw ETIMEDOUT error instead of generic ECONNABORTED on request timeouts
clarifyTimeoutError: false,
},
env: {
// The FormData class to be used to automatically serialize the payload into a FormData object
FormData: window?.FormData || global?.FormData
},
formSerializer: {
visitor: (value, key, path, helpers) => {}; // custom visitor function to serialize form values
dots: boolean; // use dots instead of brackets format
metaTokens: boolean; // keep special endings like {} in parameter key
indexes: boolean; // array indexes format null - no brackets, false - empty brackets, true - brackets with indexes
},
// http adapter only (node.js)
maxRate: [
100 * 1024, // 100KB/s upload limit,
100 * 1024 // 100KB/s download limit
]
}
Response Schema
The response for a request contains the following information.
{
// `data` is the response that was provided by the server
data: {},
// `status` is the HTTP status code from the server response
status: 200,
// `statusText` is the HTTP status message from the server response
statusText: 'OK',
// `headers` the HTTP headers that the server responded with
// All header names are lowercase and can be accessed using the bracket notation.
// Example: `response.headers['content-type']`
headers: {},
// `config` is the config that was provided to `axios` for the request
config: {},
// `request` is the request that generated this response
// It is the last ClientRequest instance in node.js (in redirects)
// and an XMLHttpRequest instance in the browser
request: {}
}
When using then, you will receive the response as follows:
When using catch, or passing a rejection callback as second parameter of then, the response will be available through the error object as explained in the Handling Errors section.
Config Defaults
You can specify config defaults that will be applied to every request.
Global axios defaults
axios.defaults.baseURL = 'https://api.example.com';
// Important: If axios is used with multiple domains, the AUTH_TOKEN will be sent to all of them.
// See below for an example using Custom instance defaults instead.
axios.defaults.headers.common['Authorization'] = AUTH_TOKEN;
axios.defaults.headers.post['Content-Type'] = 'application/x-www-form-urlencoded';
Custom instance defaults
// Set config defaults when creating the instance
const instance = axios.create({
baseURL: 'https://api.example.com'
});
// Alter defaults after instance has been created
instance.defaults.headers.common['Authorization'] = AUTH_TOKEN;
Config order of precedence
Config will be merged with an order of precedence. The order is library defaults found in lib/defaults.js, then defaults property of the instance, and finally config argument for the request. The latter will take precedence over the former. Here's an example.
// Create an instance using the config defaults provided by the library
// At this point the timeout config value is `0` as is the default for the library
const instance = axios.create();
// Override timeout default for the library
// Now all requests using this instance will wait 2.5 seconds before timing out
instance.defaults.timeout = 2500;
// Override timeout for this request as it's known to take a long time
instance.get('/longRequest', {
timeout: 5000
});
Interceptors
You can intercept requests or responses before they are handled by then or catch.
// Add a request interceptor
axios.interceptors.request.use(function (config) {
// Do something before request is sent
return config;
}, function (error) {
// Do something with request error
return Promise.reject(error);
});
// Add a response interceptor
axios.interceptors.response.use(function (response) {
// Any status code that lie within the range of 2xx cause this function to trigger
// Do something with response data
return response;
}, function (error) {
// Any status codes that falls outside the range of 2xx cause this function to trigger
// Do something with response error
return Promise.reject(error);
});
If you need to remove an interceptor later you can.
When you add request interceptors, they are presumed to be asynchronous by default. This can cause a delay
in the execution of your axios request when the main thread is blocked (a promise is created under the hood for
the interceptor and your request gets put on the bottom of the call stack). If your request interceptors are synchronous you can add a flag
to the options object that will tell axios to run the code synchronously and avoid any delays in request execution.
axios.interceptors.request.use(function (config) {
config.headers.test = 'I am only a header!';
return config;
}, null, { synchronous: true });
If you want to execute a particular interceptor based on a runtime check,
you can add a runWhen function to the options object. The interceptor will not be executed if and only if the return
of runWhen is false. The function will be called with the config
object (don't forget that you can bind your own arguments to it as well.) This can be handy when you have an
asynchronous request interceptor that only needs to run at certain times.
There are many different axios error messages that can appear that can provide basic information about the specifics of the error and where opportunities may lie in debugging.
The general structure of axios errors is as follows:
| Property | Definition |
| -------- | ---------- |
| message | A quick summary of the error message and the status it failed with. |
| name | This defines where the error originated from. For axios, it will always be an 'AxiosError'. |
| stack | Provides the stack trace of the error. |
| config | An axios config object with specific instance configurations defined by the user from when the request was made |
| code | Represents an axios identified error. The table below lists out specific definitions for internal axios error. |
| status | HTTP response status code. See here for common HTTP response status code meanings.
Below is a list of potential axios identified error
| Code | Definition |
| -------- | ---------- |
| ERR_BAD_OPTION_VALUE | Invalid or unsupported value provided in axios configuration. |
| ERR_BAD_OPTION | Invalid option provided in axios configuration. |
| ECONNABORTED | Request timed out due to exceeding timeout specified in axios configuration. |
| ETIMEDOUT | Request timed out due to exceeding default axios timelimit. |
| ERR_NETWORK | Network-related issue.
| ERR_FR_TOO_MANY_REDIRECTS | Request is redirected too many times; exceeds max redirects specified in axios configuration.
| ERR_DEPRECATED | Deprecated feature or method used in axios.
| ERR_BAD_RESPONSE | Response cannot be parsed properly or is in an unexpected format.
| ERR_BAD_REQUEST | Requested has unexpected format or missing required parameters. |
| ERR_CANCELED | Feature or method is canceled explicitly by the user.
| ERR_NOT_SUPPORT | Feature or method not supported in the current axios environment.
| ERR_INVALID_URL | Invalid URL provided for axios request.
Handling Errors
the default behavior is to reject every response that returns with a status code that falls out of the range of 2xx and treat it as an error.
axios.get('/user/12345')
.catch(function (error) {
if (error.response) {
// The request was made and the server responded with a status code
// that falls out of the range of 2xx
console.log(error.response.data);
console.log(error.response.status);
console.log(error.response.headers);
} else if (error.request) {
// The request was made but no response was received
// `error.request` is an instance of XMLHttpRequest in the browser and an instance of
// http.ClientRequest in node.js
console.log(error.request);
} else {
// Something happened in setting up the request that triggered an Error
console.log('Error', error.message);
}
console.log(error.config);
});
Using the validateStatus config option, you can override the default condition (status >= 200 && status < 300) and define HTTP code(s) that should throw an error.
axios.get('/user/12345', {
validateStatus: function (status) {
return status < 500; // Resolve only if the status code is less than 500
}
})
Using toJSON you get an object with more information about the HTTP error.
This API is deprecated since v0.22.0 and shouldn't be used in new projects
You can create a cancel token using the CancelToken.source factory as shown below:
const CancelToken = axios.CancelToken;
const source = CancelToken.source();
axios.get('/user/12345', {
cancelToken: source.token
}).catch(function (thrown) {
if (axios.isCancel(thrown)) {
console.log('Request canceled', thrown.message);
} else {
// handle error
}
});
axios.post('/user/12345', {
name: 'new name'
}, {
cancelToken: source.token
})
// cancel the request (the message parameter is optional)
source.cancel('Operation canceled by the user.');
You can also create a cancel token by passing an executor function to the CancelToken constructor:
const CancelToken = axios.CancelToken;
let cancel;
axios.get('/user/12345', {
cancelToken: new CancelToken(function executor(c) {
// An executor function receives a cancel function as a parameter
cancel = c;
})
});
// cancel the request
cancel();
Note: you can cancel several requests with the same cancel token/abort controller.
If a cancellation token is already cancelled at the moment of starting an Axios request, then the request is cancelled immediately, without any attempts to make a real request.
During the transition period, you can use both cancellation APIs, even for the same request:
If your backend body-parser (like body-parser of express.js) supports nested objects decoding, you will get the same object on the server-side automatically
var app = express();
app.use(bodyParser.urlencoded({ extended: true })); // support encoded bodies
app.post('/', function (req, res, next) {
// echo body as JSON
res.send(JSON.stringify(req.body));
});
server = app.listen(3000);
Using multipart/form-data format
FormData
To send the data as a multipart/formdata you need to pass a formData instance as a payload.
Setting the Content-Type header is not required as Axios guesses it based on the payload type.
const formData = new FormData();
formData.append('foo', 'bar');
axios.post('https://httpbin.org/post', formData);
In node.js, you can use the form-data library as follows:
const FormData = require('form-data');
const form = new FormData();
form.append('my_field', 'my value');
form.append('my_buffer', new Buffer(10));
form.append('my_file', fs.createReadStream('/foo/bar.jpg'));
axios.post('https://example.com', form)
🆕 Automatic serialization to FormData
Starting from v0.27.0, Axios supports automatic object serialization to a FormData object if the request Content-Type
header is set to multipart/form-data.
The following request will submit the data in a FormData format (Browser & Node.js):
Axios FormData serializer supports some special endings to perform the following operations:
{} - serialize the value with JSON.stringify
[] - unwrap the array-like object as separate fields with the same key
Note: unwrap/expand operation will be used by default on arrays and FileList objects
FormData serializer supports additional options via config.formSerializer: object property to handle rare cases:
visitor: Function - user-defined visitor function that will be called recursively to serialize the data object
to a FormData object by following custom rules.
dots: boolean = false - use dot notation instead of brackets to serialize arrays and objects;
metaTokens: boolean = true - add the special ending (e.g user{}: '{"name": "John"}') in the FormData key.
The back-end body-parser could potentially use this meta-information to automatically parse the value as JSON.
indexes: null|false|true = false - controls how indexes will be added to unwrapped keys of flat array-like objects
Axios supports the following shortcut methods: postForm, putForm, patchForm
which are just the corresponding http methods with the Content-Type header preset to multipart/form-data.
Sending Blobs/Files as JSON (base64) is not currently supported.
🆕 Progress capturing
Axios supports both browser and node environments to capture request upload/download progress.
The frequency of progress events is forced to be limited to 3 times per second.
await axios.post(url, data, {
onUploadProgress: function (axiosProgressEvent) {
/*{
loaded: number;
total?: number;
progress?: number; // in range [0..1]
bytes: number; // how many bytes have been transferred since the last trigger (delta)
estimated?: number; // estimated time in seconds
rate?: number; // upload speed in bytes
upload: true; // upload sign
}*/
},
onDownloadProgress: function (axiosProgressEvent) {
/*{
loaded: number;
total?: number;
progress?: number;
bytes: number;
estimated?: number;
rate?: number; // download speed in bytes
download: true; // download sign
}*/
}
});
You can also track stream upload/download progress in node.js:
Note:
Capturing FormData upload progress is not currently supported in node.js environments.
⚠️ Warning
It is recommended to disable redirects by setting maxRedirects: 0 to upload the stream in the node.js environment,
as follow-redirects package will buffer the entire stream in RAM without following the "backpressure" algorithm.
🆕 Rate limiting
Download and upload rate limits can only be set for the http adapter (node.js):
Axios has its own AxiosHeaders class to manipulate headers using a Map-like API that guarantees caseless work.
Although HTTP is case-insensitive in headers, Axios will retain the case of the original header for stylistic reasons
and for a workaround when servers mistakenly consider the header's case.
The old approach of directly manipulating headers object is still available, but deprecated and not recommended for future usage.
Working with headers
An AxiosHeaders object instance can contain different types of internal values. that control setting and merging logic.
The final headers object with string values is obtained by Axios by calling the toJSON method.
Note: By JSON here we mean an object consisting only of string values intended to be sent over the network.
The header value can be one of the following types:
string - normal string value that will be sent to the server
null - skip header when rendering to JSON
false - skip header when rendering to JSON, additionally indicates that set method must be called with rewrite option set to true
to overwrite this value (Axios uses this internally to allow users to opt out of installing certain headers like User-Agent or Content-Type)
undefined - value is not set
Note: The header value is considered set if it is not equal to undefined.
The headers object is always initialized inside interceptors and transformers:
axios.interceptors.request.use((request: InternalAxiosRequestConfig) => {
request.headers.set('My-header', 'value');
request.headers.set({
"My-set-header1": "my-set-value1",
"My-set-header2": "my-set-value2"
});
request.headers.set('User-Agent', false); // disable subsequent setting the header by Axios
request.headers.setContentType('text/plain');
request.headers['My-set-header2'] = 'newValue' // direct access is deprecated
return request;
}
);
You can iterate over an AxiosHeaders instance using a for...of statement:
const headers = new AxiosHeaders({
foo: '1',
bar: '2',
baz: '3'
});
for(const [header, value] of headers) {
console.log(header, value);
}
// foo 1
// bar 2
// baz 3
Returns the internal value of the header. It can take an extra argument to parse the header's value with RegExp.exec,
matcher function or internal key-value parser.
Returns true if at least one header has been cleared.
AxiosHeaders#normalize(format);
If the headers object was changed directly, it can have duplicates with the same name but in different cases.
This method normalizes the headers object by combining duplicate keys into one.
Axios uses this method internally after calling each interceptor.
Set format to true for converting headers name to lowercase and capitalize the initial letters (cOntEnt-type => Content-Type)
Merges the instance with targets into a new AxiosHeaders instance. If the target is a string, it will be parsed as RAW HTTP headers.
Returns a new AxiosHeaders instance.
AxiosHeaders#toJSON(asStrings?)
toJSON(asStrings?: boolean): RawAxiosHeaders;
Resolve all internal headers values into a new null prototype object.
Set asStrings to true to resolve arrays as a string containing all elements, separated by commas.
Returns a new AxiosHeaders instance created from the raw headers passed in,
or simply returns the given headers object if it's an AxiosHeaders instance.
Fetch adapter was introduced in v1.7.0. By default, it will be used if xhr and http adapters are not available in the build,
or not supported by the environment.
To use it by default, it must be selected explicitly:
The adapter supports the same functionality as xhr adapter, including upload and download progress capturing.
Also, it supports additional response types such as stream and formdata (if supported by the environment).
Semver
Until axios reaches a 1.0 release, breaking changes will be released with a new minor version. For example 0.5.1, and 0.5.4 will have the same API, but 0.6.0 will have breaking changes.
Promises
axios depends on a native ES6 Promise implementation to be supported.
If your environment doesn't support ES6 Promises, you can polyfill.
TypeScript
axios includes TypeScript definitions and a type guard for axios errors.
let user: User = null;
try {
const { data } = await axios.get('/user?ID=12345');
user = data.userDetails;
} catch (error) {
if (axios.isAxiosError(error)) {
handleAxiosError(error);
} else {
handleUnexpectedError(error);
}
}
Because axios dual publishes with an ESM default export and a CJS module.exports, there are some caveats.
The recommended setting is to use "moduleResolution": "node16" (this is implied by "module": "node16"). Note that this requires TypeScript 4.7 or greater.
If use ESM, your settings should be fine.
If you compile TypeScript to CJS and you can’t use "moduleResolution": "node 16", you have to enable esModuleInterop.
If you use TypeScript to type check CJS JavaScript code, your only option is to use "moduleResolution": "node16".
Online one-click setup
You can use Gitpod, an online IDE(which is free for Open Source) for contributing or running the examples online.
axios is heavily inspired by the $http service provided in AngularJS. Ultimately axios is an effort to provide a standalone $http-like service for use outside of AngularJS.
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