Create a set of commands that can be send to any receipt printer that supports ESC/POS
First, install the package using npm:
npm install uecmma/EscPosEncoder --save
Then, require the package and use it like so:
let EscPosEncoder = require('esc-pos-encoder');
let encoder = new EscPosEncoder();
let result = encoder
.initialize()
.text('The quick brown fox jumps over the lazy dog')
.newline()
.qrcode('https://nielsleenheer.com')
.encode()
All commands can be chained, except for encode()
which will return the result as an Uint8Array which contains all the bytes that need to be send to the printer.
You can reuse the instantiated EscPosEncoder
class to generate multiple commands or sets of commands for the same printer. It will remember settings like code page, so you don't have to specify that on subsequent use. That does rely on that previous commands were actually send to the printer.
The following commands are available:
Properly initialize the printer, which means text mode is enabled and settings like code page are set to default.
let result = encoder
.initialize()
.encode()
Set the code page of the printer. Receipt printers don't support UTF-8 or any other unicode encoding, instead the rely on legacy code pages.
If you specify the code page, it will send a command to the printer to enable that particular code page and from then on it will automatically encode all text string to that code page.
If you don't specify a code page, it will assume you want to print only ASCII characters and strip out any others.
let result = encoder
.codepage('windows1251')
.text('Iñtërnâtiônàlizætiøn')
.codepage('cp936')
.text('简体中文')
.encode()
The following code pages are supported: cp437, cp737, cp850, cp775, cp852, cp855, cp857, cp858, cp860, cp861, cp862, cp863, cp864, cp865, cp866, cp869, cp936, cp949, cp950, cp1252, iso88596, shiftjis, windows1250, windows1251, windows1252, windows1253, windows1254, windows1255, windows1256, windows1257, windows1258.
Print a string of text. If the text is longer than the line width of the printer, it will automatially wrap to the next line when it reaches the maximum width. That means it could wrap right in the middle of a word.
let result = encoder
.text('The quick brown fox jumps over the lazy dog')
.encode()
An optional parameter turns on word wrapping. To enable this, specify the maximum length of the line.
let result = encoder
.text('The quick brown fox jumps over the lazy dog', 20)
.encode()
Print a string of japanese text.
let result = encoder
.initialize()
.charcode('jis') // select charcode. if japanese, `jis`.
.kanjiCodeSystem('sjis') // select japanese kanji code system. jis | sjis
.kanjiMode(true) // turn on kanji mode.
.jtext('ああ^こころがぴょんぴょんするんじゃぁ^') // write japanese text with selected kanji system code.
.kanjiMode(false) // turn off kanji mode
.newline()
.encode()
Move to the beginning of the next line.
let result = encoder
.newline()
.encode()
Print a line of text. This is similar to the text()
command, except it will automatically add a newline()
command.
let result = encoder
.line('The is the first line')
.line('And this is the second')
.encode()
This would be equal to:
let result = encoder
.text('The is the first line')
.newline()
.text('And this is the second')
.newline()
.encode()
An optional parameter turns on word wrapping. To enable this, specify the maximum length of the line.
let result = encoder
.line('The quick brown fox jumps over the lazy dog', 20)
.encode()
Change the text style to underline.
let result = encoder
.text('This is ')
.underline()
.text('underlined')
.underline()
.encode()
It will try to remember the current state of the text style. But you can also provide and additional parameter to force the text style to turn on and off.
let result = encoder
.text('This is ')
.underline(true)
.text('bold')
.underline(false)
.encode()
Change the text style to bold.
let result = encoder
.text('This is ')
.bold()
.text('bold')
.bold()
.encode()
It will try to remember the current state of the text style. But you can also provide and additional parameter to force the text style to turn on and off.
let result = encoder
.text('This is ')
.bold(true)
.text('bold')
.bold(false)
.encode()
Change the text style to italic.
let result = encoder
.text('This is ')
.italic()
.text('italic')
.italic()
.encode()
It will try to remember the current state of the text style. But you can also provide and additional parameter to force the text style to turn on and off.
let result = encoder
.text('This is ')
.italic(true)
.text('italic')
.italic(false)
.encode()
Note: this text style is not supported by most receipt printers.
Change the alignment of the text. You can specify the alignment using a parameter which can be either "left", "center" or "right".
let result = encoder
.align('right')
.line('This line is aligned to the right')
.align('center')
.line('This line is centered')
.align('left')
.line('This line is aligned to the left')
.encode()
Change the text size. You can specify the size using a parameter which can be either "small" or "normal".
let result = encoder
.size('small')
.line('A line of small text)
.size('normal')
.line('A line of normal text)
.encode()
Print a barcode of a certain symbology. The first parameter is the value of the barcode, the second is the symbology and finally the height of the barcode.
The following symbologies can be used: 'upca', 'ean13', 'ean8', 'code39', 'itf', 'codabar'.
let result = encoder
.barcode('3130630574613', 'ean13', 60)
.encode()
Print a QR code. The first parameter is the data of the QR code.
let result = encoder
.qrcode('https://nielsleenheer.com')
.encode()
The qrcode function accepts the following additional parameters:
- model - a number that can be 1 for Model 1 and 2 for Model 2
- size - a number that can be between 1 and 8 for determining the size of the QR code
- errorlevel - a string that can be either 'l', 'm', 'q' or 'h'.
For example:
let result = encoder
.qrcode('https://nielsleenheer.com', 1, 8, 'h')
.encode()
Print an image. The image is automatically converted to black and white and can optionally be dithered using different algorithms.
The first parameter is the Canvas
class object.When running in the browser it can be window.Canvas
. When on Node it can be a Canvas
provided by the canvas
package.
The second parameter is the image itself. When running in the browser it can be any element that can be drawn onto a canvas, like an img, svg, canvas and video elements. When on Node it can be a Canvas
provided by the canvas
package.
The third parameter is the width of the image on the paper receipt in pixels. It must be a multiple of 8.
The fourth parameter is the height of the image on the paper receipt in pixels. It must be a multiple of 8.
The fifth parameter is the dithering algorithm that is used to turn colour and grayscale images into black and white. The follow algorithms are supported: threshold, bayer, floydsteinberg, atkinson. If not supplied, it will default to a simple threshold.
The sixth paramter is the threshold that will be used by the threshold and bayer dithering algorithm. It is ignored by the other algorithms. It is set to a default of 128.
let img = new Image();
img.src = 'https://...';
img.onload = function() {```js
let result = encoder
.image(Canvas, img, 300, 300, 'atkinson')
.encode()
```}
Cut the paper. Optionally first parameter feed
can be specified whether to feed paper before cut or not, second parameter partial
can be specified how to cut, partially or fully. If not specified, paper will feed and a full cut will be used.
let result = encoder
.cut({feed:true, partial:false})
.encode()
Note: Not all printer models support cutting paper. And even if they do, they might not support both types of cuts.
Add raw printer commands, in case you want to send a command that this library does not support natively. For example the following command is to turn of Hanzi character mode.
let result = encoder
.raw([ 0x1c, 0x2e ])
.encode()
MIT