Encode GIFs With Node
(Source/Credits: https://dev.to/benjaminadk/encode-gifs-with-node-4c75)
When you want to convey as message, but an image is too simplistic and a video is too complex, a GIF...
When you want to convey as message, but an image is too simplistic and a video is too complex, a GIF can be the perfect middle ground. As a JavaScript developer, I recently wondered:
- Could I write a program to create a GIF?
- Could JavaScript even do this?
After a little research and a lot of trial and error, I found the answer to both question is yes
. This article sums up what I found out.
The GIF Format
A good starting point is to research some of the history and structure of a GIF. It turns out the Graphics Interchange Format has was originally created by CompuServe back in the 1980s and was one of the first image formats used on the web. While the PNG format has pretty much replaced GIF for single images, GIF's ability to animate a series of images keeps the format relevant and supported today. In GIFs as we know them today, each image is allowed a maximum palette size of 256 colors. This limitation is why GIFs are more suited to illustrations rather than photography, even though they are used for both. GIF images are also compressed using the LZW algorithm, which provides lossless data compression. For more general information, Wikipedia is a great source, and for an in-depth breakdown of the entire specification, check out What's In a GIF.
My Use Case
I have been playing around with Electron a lot lately and I decided to attempt a desktop application that could record the user's screen and then turn the captured images into a GIF. The Electron environment combines the features of the browser, the the features of Node, and Electron's own APIs. Electron's desktopCapturer
API makes capturing the user's screen a frame at a time and then saving those images to disk possible. Having these sequencial images is essential to this approach to GIF encoding. My project article GifIt goes into more detail on that subject, and the GifIt Source Code is available if you want to check out how I went about recording the desktop. At this point, my goal became to write my own library for GIF encoding.
Existing Libraries
The next step I took was to look into existing libraries on NPM and Github. There are a few options, and which one you use depends a lot of your use case and the available documentation. It looks like the original implementation in JavaScript was gif.js. I poked around the files and was happy to find that the LZWEncoder
and NeuQuant
algorithms had already been ported. I used these as building blocks for my library.
My Library
One thing I noticed about existing libraries was that GIFs took a long time to process and the size of the output files seemed really large. GIF Encoder 2 adds new features to help mitigate these downsides. The first thing I did was add an optional optimizer. I discoved that a lot of time was being spent reducing an image into its 256 color palette. This process involves looking at the color of every pixel in an image and was being done by the NeuQuant algoritm. I added the ability to reuse the palette from the previous image if the current and previous image were similar. Checking this adds overhead, but not nearly as much overhead as calculating a new color palette. I also added a second algorithm called Octree that uses a totally different method to calculate the color palette. This ended up resulting in smaller smaller file sizes.
Using Gif Encoder 2
bash
npm install gif-encoder-2
Constructor
GIFEncoder(width, height, algorithm, useOptimizer, totalFrames)
| Parameter | Type | Description | Required | Default |
| :------------: | :-----: | :----------------------------: | :------: | :--------: |
| width
| number | the width of images in pixels | yes | n/a |
| height
| number | the height of images in pixels | yes | n/a |
| algorithm
| string | neuquant
or octree
| no | neuquant
|
| useOptimizer
| boolean | enables/disables optimizer | no | false |
| totalFrames
| number | total number of images | no | 0 |
js
const encoder = new GIFEncoder(500, 500)
const encoder = new GIFEncoder(1200, 800, 'octree', false)
const encoder = new GIFEncoder(720, 480, 'neuquant', true, 20)
Methods
| Method | Parameter | Description |
| :------------------: | :--------------: | :-------------------------------------: |
| start
| n/a | Starts the encoder |
| addFrame
| Canvas Context
| Adds a frame to the GIF |
| setDelay
| number
| Number of milliseconds to display frame |
| setFramesPerSecond
| number
| Number of frames per second to display |
| setQuality
| number 1-30
| Neuquant quality |
| setThreshold
| number 0-100
| Optimizer threshold percentage |
| setRepeat
| number >= 0
| Number of loops GIF does |
| finish
| n/a | Stops the encoder |
Basic Example
This example creates a simple GIF and shows the basic way Gif Encoder 2 works.
- Create an instance of
GIFEncoder
- Call any needed
set
methods - Start the encoder
- Add frames as Canvas
context
- Get the output data and do something with it
```javascript const GIFEncoder = require('gif-encoder-2') const { createCanvas } = require('canvas') const { writeFile } = require('fs') const path = require('path')
const size = 200 const half = size / 2
const canvas = createCanvas(size, size) const ctx = canvas.getContext('2d')
function drawBackground() { ctx.fillStyle = '#ffffff' ctx.fillRect(0, 0, size, size) }
const encoder = new GIFEncoder(size, size) encoder.setDelay(500) encoder.start()
drawBackground() ctx.fillStyle = '#ff0000' ctx.fillRect(0, 0, half, half) encoder.addFrame(ctx)
drawBackground() ctx.fillStyle = '#00ff00' ctx.fillRect(half, 0, half, half) encoder.addFrame(ctx)
drawBackground() ctx.fillStyle = '#0000ff' ctx.fillRect(half, half, half, half) encoder.addFrame(ctx)
drawBackground() ctx.fillStyle = '#ffff00' ctx.fillRect(0, half, half, half) encoder.addFrame(ctx)
encoder.finish()
const buffer = encoder.out.getData()
writeFile(path.join(__dirname, 'output', 'beginner.gif'), buffer, error => { // gif drawn or error }) ```
- beginner.gif
Advanced Example
This example creates a reusable function that reads a directory of image files and turns them into a GIF. The encoder itself isn't as complicated as the surrounding code.
Note that setDelay
can be called once (sets all frames to value) or once per frame (sets delay value for that frame).
Obviously, you can use any directory and filenames you want if you recreate the following example.
- Read a directory of images (gets the path to each image)
- Create an
Image
to find the dimensions - Create a write
stream
to an outputgif
file - Create an instance of the
GIFEncoder
- Pipe the encoder's read
stream
to the writestream
- Call any needed
set
methods - Start the encoder
- Draw each image to a Canvas
- Add each
context
to encoder withaddFrame
- When GIF is done processing
resolve1()
is called and function is done - Use this function to compare the output of both NeuQuant and Octree algorithms
```javascript const GIFEncoder = require('gif-encoder-2') const { createCanvas, Image } = require('canvas') const { createWriteStream, readdir } = require('fs') const { promisify } = require('util') const path = require('path')
const readdirAsync = promisify(readdir) const imagesFolder = path.join(__dirname, 'input')
async function createGif(algorithm) { return new Promise(async resolve1 => { const files = await readdirAsync(imagesFolder)
const [width, height] = await new Promise(resolve2 => {
const image = new Image()
image.onload = () => resolve2([image.width, image.height])
image.src = path.join(imagesFolder, files[0])
})
const dstPath = path.join(__dirname, 'output', `${algorithm}.gif`)
const writeStream = createWriteStream(dstPath)
writeStream.on('close', () => {
resolve1()
})
const encoder = new GIFEncoder(width, height, algorithm)
encoder.createReadStream().pipe(writeStream)
encoder.start()
encoder.setDelay(200)
const canvas = createCanvas(width, height)
const ctx = canvas.getContext('2d')
for (const file of files) {
await new Promise(resolve3 => {
const image = new Image()
image.onload = () => {
ctx.drawImage(image, 0, 0)
encoder.addFrame(ctx)
resolve3()
}
image.src = path.join(imagesFolder, file)
})
}
}) } ```
javascript
createGif('neuquant')
createGif('octree')
- NeuQuant
- Octree
Alternative Encoding Method
While Gif Encoder 2 is reliable and can encode GIFs faster than other existing libraries, I did find one alternative that works better but requires the FFmpeg stream processing library to be installed on the host machine. FFmpeg is a command line tool, but can be executed by Node using the child_process
API. When I was creating GifIt I added the ability to adjust the duration of each frame in the GIF. Imagine a user wants to display a title page for 5 seconds before running through the rest of the frames or wants to cut the duration of certain frames by half. In order to accomadate these variable durations FFmpeg requires a text file describing the path and duration of each image. The duration is in seconds and the paths are relative.
- example from FFmpeg Docs
txt
file '/path/to/dog.png'
duration 5
file '/path/to/cat.png'
duration 1
file '/path/to/rat.png'
duration 3
file '/path/to/tapeworm.png'
duration 2
file '/path/to/tapeworm.png'
This is a simplifed version of the function I used in GifIt.
images
is an object that contains the absolute path and duration of the framedstPath
is the destination to save the output GIF filecwd
is the absolute path of the current working directory (image files must be here as well)ffmpegPath
is the absolute path to the FFmpeg executable on the host machine- the path to the last image is added twice to ensure thhe GIF loops correctly
```javascript import { execFile } from 'child_process' import fs from 'fs' import path from 'path' import { promisify } from 'util'
const writeFile = promisify(fs.writeFile)
export const createGif = async (images, dstPath, cwd, ffmpegPath) => {
return new Promise(resolve => {
let str = ''
images.forEach((image, i) => {
str += file ${path.basename(image.path)}\n
str += duration ${image.duration}\n
})
str += file ${path.basename(images[images.length - 1].path)}
const txtPath = path.join(cwd, 'template.txt')
writeFile(txtPath, str).then(() => {
execFile(
ffmpegPath,
[
'-f',
'concat',
'-i',
'template.txt',
'-lavfi',
'palettegen=stats_mode=diff[pal],[0:v][pal]paletteuse=new=1:diff_mode=rectangle',
dstPath
],
{ cwd },
(error, stdout, stderr) => {
if (error) {
throw error
} else {
resolve()
}
}
)
})
})
}
```
Best of luck creating your GIFs!!! Hit me up if you have any questions.
Comments section
saar62097
•May 1, 2024
thnx for this!
I am having issues with gif-encoder-2.
First of all, it is extremely slow: i use 2 PNGs only to create a 2-frame gif. Even though, it takes about 8-10 seconds to finish the encoding. Is that expected?
Secondly, nothing I change (except for the algorithm) seems to make any effect: not the quality, not the optimizer, etc...
BTW, i also see no difference in quality when selecting 1 or selecting 30...
do you have any insights on this?
thnx!
max2408
•May 1, 2024
Same lol
Speed is extremely slow