This article will take you through the typed array in JavaScript to see its composition, how it is different from ordinary arrays, and its use in web development.
In JavaScript, all of us must be familiar enough with arrays to know that arrays are dynamic in nature and can hold any JavaScript object. However, if you have ever used another language like C, you should know that arrays are not dynamic in nature. And you can only store specific data types in that array, after all, this ensures that the array is more efficient from a performance perspective. However, the dynamism of arrays and the diversification of stored information types do not actually make JavaScript arrays inefficient. With the help of JavaScript engine optimization, the execution speed of arrays in JavaScript is actually very fast.
As web applications become more and more powerful, we begin to need to let web applications process and manipulate raw binary data. JavaScript arrays cannot handle these raw binary data, so we introduced JavaScript's typed arrays.
A typed array is an object very similar to an array, but it provides a mechanism for writing raw binary data to a memory buffer. This feature is well supported by all major browsers, and ES6 has integrated it into the JavaScript core framework. Array methods such as map()
, filter()
etc. are also accessible . I highly recommend you explore the resources mentioned at the end of this article to learn more about typed arrays.
Typed arrays are composed of two main parts, Buffer
and View
.
Buffer
Buffer
is an object of type ArrayBuffer
, representing a data block. This raw binary data block cannot be individually accessed or modified. You may be wondering what use can be made of data objects that cannot be accessed or modified. In fact, the view is the read and write interface of the buffer.
View
View
is an object that allows you to access and modify the raw binary content stored in an ArrayBuffer
. Generally there are two views.
TypedArray
Instances of objects
These types of objects are very similar to ordinary arrays, but store only a single type of numeric data. For example, Int8
, Uint8
, Int16
, Float32
are the data types of typed arrays. The number in the type represents the number of bits allocated for the data type. For example, Int8
represents an 8-bit integer.
You can read Reference documentation to learn more about the data types of typed arrays.
DataView
An instance of the object
DataView
is a low-level interface that provides a getter
/ setter
API to read and write arbitrary data to a buffer. This greatly facilitates our development, especially when we need to handle multiple data types in a single typed array.
Another benefit of using DataView
is that it allows you to control the endianness of the data - typed arrays use the platform's endianness. Of course if your program is running locally this won't be a problem since your device will use the same endianness as the input array. In most cases, your typed array will be little-endian because Intel uses little-endian. Since Intel is so common in computer processors, most of the time it won't be a problem. However, if little-endian encoded data is transmitted to a device using big-endian encoding, it will cause errors during reading, which may ultimately lead to data loss. Since DataView
gives you control over the direction of endianness, you can use it when necessary.
As mentioned before, ordinary JavaScript arrays have been optimized by the JavaScript engine, and you don’t need to Use typed arrays as this won't give you much of an upgrade. But there are some features that make typed arrays different from ordinary arrays, which may be why you choose them.
You can use # based on your response type ##ArrayBuffer Receive data response in the form.
const xhr = new XMLHttpRequest(); xhr.open('GET', exampleUrl); xhr.responseType = 'arraybuffer'; xhr.onload = function () { const arrayBuffer = xhr.response; // 处理数据 }; xhr.send();
ArrayBuffer. All you need to do is use the
arrayBuffer() method in the fetch API response and you will receive a
Promise resolved using
ArrayBuffer.
fetch(url) .then(response => response.arrayBuffer()) .then(arrayBuffer => { // 处理数据 });
Uint8ClampedArray. Let's take a look at the sample code provided by Dr. Axel:
const canvas = document.getElementById('my_canvas'); const context = canvas.getContext('2d'); const imageData = context.getImageData(0, 0, canvas.width, canvas.height); const uint8ClampedArray = imageData.data;
This article.
const socket = new WebSocket("ws://localhost:8080"); socket.binaryType = "arraybuffer"; // 监听 message socket.addEventListener("message", function (event) { const view = new DataView(event.data); // 处理接收数据 }); // 发送二进制数据 socket.addEventListener('open', function (event) { const typedArray = new Uint16Array(7); socket.send(typedArray.buffer); });
Original address: https://blog.bitsrc.io/javascript-typed-arrays-ccfa5ae8838dFor more programming-related knowledge, please visit:Original author: Mahdhi Rezvi
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