- MUSTEMI - MUSic ThEory for MIdi applications
- Installation
- Basic Examples
- Chord Examples
- Nashville Number System
- MIDI examples
- Simple MIDI chord arpeggiator
This package provides the means to produce Midi note numbers from either numeric degrees relative to a given scale, note names (eg 'C', 'Eb'), chord names (eg 'Cm7b5'), or Nashville numbers. There are examples for each of these given below, as well as a couple of examples of using this package with a midi controller and a DAW. This package can be used both in a node application and in the browser.
npm install mustemi
These demonstrate how to use the package to produce MIDI note numbers from scale degrees.
import { core } from '../index.js' // you should use: from 'mustemi'
let result
// Set middle C octave. By default this is 4, but your setup
// might require it to be 3
//core.setOrigin(3)
// Chromatic numbers of the major scale
result = core.scaleChromatics['Ionian']
console.log('ex 1:', result)
// <= [ 0, 2, 4, 5, 7, 9, 11 ]
// Chromatic numbers of the 3rd mode mode
result = core.scaleChromatics['Phrygian']
console.log('ex 2:', result)
// <= [ 0, 1, 3, 5, 7, 8, 10 ]
// Chromatics for a dominant 7th chord (relative to major scale),
// shifted (again by default) so that middle C is 60
result = core.chromatics([1, 3, 5, 'b7']) // relative scale is Ionian
console.log('ex 3:', result)
// <= [ 60, 64, 67, 70 ]
// Result is all 12 notes of the western scale, starting at middle C
let degrees = ['1', '#1', '2', 'b3', '3', '4', '#4', '5', 'b6', '6', 'b7', '7']
result = core.chromatics(degrees, {scale: 'Ionian'})
console.log('ex 4:', result)
// <= [ 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71 ]
In these examples, you'll see how to do the same for named chords.
import { chords } from '../index.js' // you should use: from 'mustemi'
let result
// This produces all 12 chromatics using note names rather than scale degrees
let notes = ['C', 'C#', 'D', 'D#', 'E', 'F', 'F#', 'G', 'G#', 'A', 'A#', 'B']
result = chords.notesToMidi(notes)
console.log('ex 1:', result)
// <= [ 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71 ]
// The default octave is 4, but you can specify other octaves for
// for individual notes, as in this example
result = chords.notesToMidi(['C:3', 'D#:2', 'E'])
console.log('ex 2:', result)
// <= [ 48, 39, 64 ]
// In addition, you can change the default octave
result = chords.notesToMidi(['C', 'D#:2', 'E:4'], {defaultOctave: 3})
console.log('ex 3:', result)
// <= [ 48, 39, 64 ]
// Here, we produce the midi notes for a C major 7th chord.
result = chords.chordToMidi({name: 'CM7'})
console.log('ex 4:', result)
// <= [ 60, 64, 67, 71 ]
// And here, an Db major chord, in the 5th octave
result = chords.chordToMidi({name: 'Db:5'})
console.log('ex 5:', result)
// <= [ 73, 77, 80 ]
// Most common chord types are supported.
result = Object.keys(chords.chordDegrees)
console.log('ex 6:', result)
// <= [ '7', '', 'M', 'Dom', 'm', '+', 'b5', 'dim', 'aug', 'sus4', 'sus2',
// 'M6', 'm6', 'Dom7', 'M7', 'm7', 'mM7', '+7', '+M7', 'dim7', '7b5',
// 'm7b5', 'add9' ]
// If you don't find the one you want, or just want to introduce a
// shorthand for a particular type of chord, just add it
// to the 'chordDegrees' object at runtime
chords.chordDegrees['M7/3rd'] = [-4, 1, 3, 5, 7]
result = chords.chordToMidi({name: 'CM7/3rd'})
console.log('ex 7:', result)
// <= [ 52, 60, 64, 67, 71 ]
These examples show how to produce MIDI note numbers from Nashville notation.
import { chords } from '../index.js' // you should use: from 'mustemi'
let result
// You can use the Nashville Number system to specify
// chords. The defaults produce 7th chords in the key of C.
// This gets the midi notes for a CM7 chord in the 3rd octave
result = chords.nashvilleToMidi({name: 1})
console.log('ex 1:', result)
// <= [ 60, 64, 67, 71 ]
// Here's an example producing a C major triad in the 3rd octave
result = chords.nashvilleToMidi({name: '1:3', scale:'M'})
console.log('ex 2:', result)
// <= [ 48, 52, 55 ]
// This produces the notes for the 3 chord of the minor scale.
// It will be a 7th chord, and key is still C
result = chords.nashvilleToMidi({name: 3, scale:'m7'})
console.log('ex 3:', result)
// <= [ 64, 68, 71, 75 ]
// This produces the notes for the 3 chord of the harmonic minor scale.
// The Key is now D, and we're producing triads
result = chords.nashvilleToMidi({name: 3, scale:'hm', key: 'D'})
console.log('ex 4:', result)
// <= [ 66, 70, 74 ]
// You can also specify a chord type explicitly. This will override
// the default for the scale in use
result = chords.nashvilleToMidi({name: '2^M7:3', scale:'m7'})
console.log('ex 5:', result)
// <= [ 50, 54, 57, 61 ]
Here's a simple example of using the package to output MIDI for consumption by a DAW or some other MIDI-aware sound engine such as Kontakt Player. This uses a few basic midi utilities in the examples directory of this package. If you check out this repo so that you can run these MIDI examples, you'll need to install the 'midi' package. It's not listed as a devDependency in package.json, because travis-ci can't handle it (it requires a C code-build step). Also, your OS will need to have a way to open a virtual MIDI device. On the platform I'm using, Windows 10, this is made possible by using a 3rd-party tool such as the one I use: LoopMIDI
import midi from 'midi'
import * as mu from './midiutils.js'
import { core, chords } from '../index.js' // you should use: from 'mustemi'
// use this to see what port number you need to open
mu.showDevices()
// open the output port
const port = new midi.Output()
port.openPort(1)
let opts = {
start: 0,
interval: 200,
duration: 150,
}
var nums, len = 0
nums = [60,62,64,65,67,69,71]
len = mu.play(port, nums, {...opts,
text: "Ascending C major scale, Raw MIDI"})
nums = core.chromatics([8,7,6,5,4,3,2,1])
len = mu.play(port, nums, {...opts, start: len,
text: "Descending Ionian (C major) scale, degrees"})
nums = core.chromatics([1,2,3,4,5,6,7,8,7,6,5,4,3,2,1], {scale: 'Dorian'})
len = mu.play(port, nums, {...opts, start: len + 200,
text: "Dorian scale, degrees"})
opts = {
start: 0,
interval: 50,
duration: 150
}
let names = ['CM7', 'Dm7', 'Em7', 'FM7', 'G7', 'Am7', 'Bm7b5', 'CM7:5']
for (const i in names) {
const name = names[i]
nums = chords.chordToMidi({name: name})
len = mu.play(port, nums, {...opts, start: len + 200,
text: name + ' chord'})
}
let root = 'D'
for (let i=1; i<=8; i++) {
const name = (i===8)? '1:5': i
nums = chords.nashvilleToMidi({name: name, root: root})
len = mu.play(port, nums, {...opts, start: len + 200,
text: 'Nashville ' + name + ' chord, ' + root + ' scale'})
}
In this example, we take input from a MIDI keyboard, and output arpeggios rooted at the notes received from the keyboard.
import midi from 'midi'
import * as mu from './midiutils.js'
import { core, chords } from '../index.js' // you should use: from 'mustemi'
// my daw is Ableton, so middle C is in octave 3
core.setOrigin(3)
// use this to see what port number you need to open
mu.showDevices()
/*
* Open the output port - on my windows box, this is a loopMIDI device.
* In my daw, I place a midi instrument on a track, and then set the
* track input to this loopMIDI device
*/
const port = new midi.Output()
port.openPort(1)
/*
* Set up to read midi note-on messages from the input device,
* and write the transformation (notes object) to the output device
*/
let degrees = [1, 3, 5, 7] // degrees for a Majur 7th chord
let opts = {
start: 0, //start playing when the message is received
interval: 100, // arpeggiate the notes (100 millisecs between them)
duration: 150 // duration of each note is 150 milliseconds
}
// create the midi input object
const input = new midi.Input()
// when a note is recieved, play an M7 arpeggio rooted at that note
input.on('message', (deltaTime, message) => {
if ((message[0]===144) && (message[2] > 0)) {
let midiNoteNumber = message[1]
/*
* the notes will take the input degrees, and shift them so that
* the root is the midiNoteNumber
*/
let notes = chords.degreesToMidi(degrees,
{shift: midiNoteNumber, defaultOctave: 0})
mu.play(port, notes, {...opts, velocity: message[2],
text: 'MIDI note ' + midiNoteNumber})
}
});
// open the port associated with the midi keyboard
input.openPort(4);