buffer

What is buffer?

The 'buffer' npm package provides a way to handle binary data in Node.js. It implements the Buffer class, which is a global type for dealing with binary data directly. Buffers are similar to arrays of integers but correspond to fixed-sized, raw memory allocations outside the V8 heap. They are useful when working with TCP streams, file system operations, and other contexts where it's necessary to handle raw binary data.

What are buffer's main functionalities?

Creating Buffers

This code sample demonstrates how to create a new Buffer instance from a given string and encoding. The 'from' method is a static method on the Buffer class used to allocate a new Buffer that contains the given string.

const buffer = Buffer.from('Hello World', 'utf8');

Writing to Buffers

This code sample shows how to write to a buffer. The 'alloc' method creates a new Buffer of a specified size, and the 'write' method writes a string to the buffer at a specified offset using a given encoding.

const buffer = Buffer.alloc(10); buffer.write('Hello', 0, 'utf8');

Reading from Buffers

This code sample illustrates how to read data from a buffer. The 'toString' method converts the buffer's contents to a string using the specified encoding.

const buffer = Buffer.from('Hello World'); const string = buffer.toString('utf8');

Manipulating Buffers

This code sample demonstrates how to concatenate two buffers into a new buffer using the 'concat' method.

const buffer1 = Buffer.from('Hello'); const buffer2 = Buffer.from('World'); const concatenated = Buffer.concat([buffer1, buffer2]);

Buffer Slicing

This code sample shows how to create a new buffer that references the same memory as the original buffer but with the specified start and end indices, effectively creating a slice of the original buffer.

const buffer = Buffer.from('Hello World'); const slice = buffer.slice(0, 5);

Other packages similar to buffer

typedarray

The 'typedarray' package provides an implementation of Typed Arrays, which are array-like views of binary data buffers. While similar to Node.js Buffers, Typed Arrays are part of the ECMAScript standard and are available in browsers as well as Node.js.

bl

The 'bl' (Buffer List) package is a storage object for collections of Node.js Buffers. Unlike the Buffer class, which deals with single Buffer instances, 'bl' provides a way to join multiple buffers into one continuous buffer and still maintain access to the individual buffers.

concat-stream

The 'concat-stream' package is a writable stream that concatenates all the data from a stream and calls a callback with the result. It is similar to the Buffer.concat method but works with streams, collecting data chunks and concatenating them into a single buffer or string.

README

buffer

The buffer module from node.js, for the browser.

When you require('buffer') or use the Buffer global in browserify, this module will automatically load.

The goal is to provide a Buffer API that is 100% identical to node's Buffer API. Read the official node.js docs for a full list of supported methods.

features

• Backed by Typed Arrays (Uint8Array and ArrayBuffer) (not Object, so it's fast)
• Extremely small bundle size (5.04KB minified + gzipped, 35.5KB with comments)
• Excellent browser support (IE 6+, Chrome 4+, Firefox 3+, Safari 5.1+, Opera 11+, iOS, etc.)
• Preserves Node API exactly, with one important difference (see below)
• Faster pretty much across the board (see perf results below)
• .slice() returns instances of the same type (Buffer)
• Square-bracket buf[4] notation works, even in old browsers like IE6!
• Does not modify any browser prototypes or put anything on window.
• Comprehensive test suite.

install

If you want to use this module directly without browserify, install it:

npm install buffer

This module was previously called native-buffer-browserify, but please use buffer from now on.

usage

As mentioned before, when you require('buffer') or use the Buffer global in browserify, this module will automatically be included in your bundle so you get a Buffer API that actually works in the browser.

If you're depending on this module explicitly, then require it like this:

var Buffer = require('buffer/').Buffer  // use the npm module, not the core module!

The module's API is 100% identical to node's Buffer API. Read the official docs for the full list of properties, instance methods, and class methods supported by Buffer.

how does it work?

The Buffer constructor returns instances of Uint8Array that are augmented with function properties for all the Buffer API functions. We use Uint8Array so that square bracket notation works as expected -- it returns a single octet. By augmenting the instances, we can avoid modifying the Uint8Array prototype.

differences

IMPORTANT: always use Buffer.isBuffer instead of instanceof Buffer

The Buffer constructor returns a Uint8Array (with all the Buffer methods added as properties on the instance) for performance reasons, so instanceof Buffer won't work. In node, you can use either Buffer.isBuffer or instanceof Buffer to check if an object is a Buffer. But, in the browser you must use Buffer.isBuffer to detect the special Uint8Array-based Buffers.

Minor: buf.slice() does not modify parent buffer's memory in all browsers

If you only support modern browsers (specifically, those with typed array support), then this issue does not affect you.

In node, the slice() method returns a new Buffer that shares underlying memory with the original Buffer. When you modify one buffer, you modify the other. Read more.

This works correctly in browsers with typed array support (* with the exception of Firefox older than version 30). Browsers that lack typed arrays get an alternate buffer implementation based on Object which has no mechanism to point separate Buffers to the same underlying slab of memory.

* Firefox older than version 30 gets the Object implementation -- not the typed arrays one -- because of this bug that made it impossible to add properties to a typed array.

performance

See perf tests in /perf.

# Chrome 33

NewBuffer#bracket-notation x 11,194,815 ops/sec ±1.73% (64 runs sampled)
OldBuffer#bracket-notation x 9,546,694 ops/sec ±0.76% (67 runs sampled)
Fastest is NewBuffer#bracket-notation

NewBuffer#concat x 949,714 ops/sec ±2.48% (63 runs sampled)
OldBuffer#concat x 634,906 ops/sec ±0.42% (68 runs sampled)
Fastest is NewBuffer#concat

NewBuffer#copy x 15,436,458 ops/sec ±1.74% (67 runs sampled)
OldBuffer#copy x 3,990,346 ops/sec ±0.42% (68 runs sampled)
Fastest is NewBuffer#copy

NewBuffer#readDoubleBE x 1,132,954 ops/sec ±2.36% (65 runs sampled)
OldBuffer#readDoubleBE x 846,337 ops/sec ±0.58% (68 runs sampled)
Fastest is NewBuffer#readDoubleBE

NewBuffer#new x 1,419,300 ops/sec ±3.50% (66 runs sampled)
Uint8Array#new x 3,898,573 ops/sec ±0.88% (67 runs sampled) (used internally by NewBuffer)
OldBuffer#new x 2,284,568 ops/sec ±0.57% (67 runs sampled)
Fastest is Uint8Array#new

NewBuffer#readFloatBE x 1,203,763 ops/sec ±1.81% (68 runs sampled)
OldBuffer#readFloatBE x 954,923 ops/sec ±0.66% (70 runs sampled)
Fastest is NewBuffer#readFloatBE

NewBuffer#readUInt32LE x 750,341 ops/sec ±1.70% (66 runs sampled)
OldBuffer#readUInt32LE x 1,408,478 ops/sec ±0.60% (68 runs sampled)
Fastest is OldBuffer#readUInt32LE

NewBuffer#slice x 1,802,870 ops/sec ±1.87% (64 runs sampled)
OldBuffer#slice x 1,725,928 ops/sec ±0.74% (68 runs sampled)
Fastest is NewBuffer#slice

NewBuffer#writeFloatBE x 830,407 ops/sec ±3.09% (66 runs sampled)
OldBuffer#writeFloatBE x 508,446 ops/sec ±0.49% (69 runs sampled)
Fastest is NewBuffer#writeFloatBE

# Node 0.11

NewBuffer#bracket-notation x 10,912,085 ops/sec ±0.89% (92 runs sampled)
OldBuffer#bracket-notation x 9,051,638 ops/sec ±0.84% (92 runs sampled)
Buffer#bracket-notation x 10,721,608 ops/sec ±0.63% (91 runs sampled)
Fastest is NewBuffer#bracket-notation

NewBuffer#concat x 1,438,825 ops/sec ±1.80% (91 runs sampled)
OldBuffer#concat x 888,614 ops/sec ±2.09% (93 runs sampled)
Buffer#concat x 1,832,307 ops/sec ±1.20% (90 runs sampled)
Fastest is Buffer#concat

NewBuffer#copy x 5,987,167 ops/sec ±0.85% (94 runs sampled)
OldBuffer#copy x 3,892,165 ops/sec ±1.28% (93 runs sampled)
Buffer#copy x 11,208,889 ops/sec ±0.76% (91 runs sampled)
Fastest is Buffer#copy

NewBuffer#readDoubleBE x 1,057,233 ops/sec ±1.28% (88 runs sampled)
OldBuffer#readDoubleBE x 4,094 ops/sec ±1.09% (86 runs sampled)
Buffer#readDoubleBE x 1,587,308 ops/sec ±0.87% (84 runs sampled)
Fastest is Buffer#readDoubleBE

NewBuffer#new x 739,791 ops/sec ±0.89% (89 runs sampled)
Uint8Array#new x 2,745,243 ops/sec ±0.95% (91 runs sampled)
OldBuffer#new x 2,604,537 ops/sec ±0.93% (88 runs sampled)
Buffer#new x 1,836,218 ops/sec ±0.74% (92 runs sampled)
Fastest is Uint8Array#new

NewBuffer#readFloatBE x 1,111,263 ops/sec ±0.41% (97 runs sampled)
OldBuffer#readFloatBE x 4,026 ops/sec ±1.24% (90 runs sampled)
Buffer#readFloatBE x 1,611,800 ops/sec ±0.58% (96 runs sampled)
Fastest is Buffer#readFloatBE

NewBuffer#readUInt32LE x 502,024 ops/sec ±0.59% (94 runs sampled)
OldBuffer#readUInt32LE x 1,259,028 ops/sec ±0.79% (87 runs sampled)
Buffer#readUInt32LE x 2,778,635 ops/sec ±0.46% (97 runs sampled)
Fastest is Buffer#readUInt32LE

NewBuffer#slice x 1,174,908 ops/sec ±1.47% (89 runs sampled)
OldBuffer#slice x 2,396,302 ops/sec ±4.36% (86 runs sampled)
Buffer#slice x 2,994,029 ops/sec ±0.79% (89 runs sampled)
Fastest is Buffer#slice

NewBuffer#writeFloatBE x 721,081 ops/sec ±1.10% (86 runs sampled)
OldBuffer#writeFloatBE x 4,020 ops/sec ±1.04% (92 runs sampled)
Buffer#writeFloatBE x 1,811,134 ops/sec ±0.67% (91 runs sampled)
Fastest is Buffer#writeFloatBE

credit

This was originally forked from buffer-browserify.

license

MIT. Copyright (C) Feross Aboukhadijeh, and other contributors. Originally forked from an MIT-licensed module by Romain Beauxis.