maia-markov
Version:
Markov analysis and generation functions supporting various applications by Music Artificial Intelligence Algorithms, Inc.
139 lines (130 loc) • 4.38 kB
JavaScript
// Copyright Tom Collins, 3.3.2020
// Analysing MIDI files to create state-transition matrix and initial
// distribution for bassline representations for AI Eurovision 2020 project.
// Individual user paths.
const mainPaths = {
"tom": {
"midi": "/Users/tomthecollins/Shizz/York/Projects/AI\ Eurovision/AI\ SONG\ CONTEST\ DATASET/",
"midiDirs": [ "MIDI" ],
"outputDir": __dirname + "/stm/",
"outputFileName": "aiev2020_data_bass"
},
"anotherUser": {
// ...
}
}
// Requires.
const fs = require("fs")
const uu = require("uuid/v4")
const { Midi } = require('@tonejs/midi')
const mu = require("maia-util")
const an = require("./analyze")
// Parameters
const targetChannel = 2 // Should be where the basslines are encoded.
const param = {
"stateType": "beat_rel_MNN_state",
"onAndOff": false,
"nosConsecutives": 4
}
// Grab user name from command line to set path to data.
let nextU = false
let mainPath;
process.argv.forEach(function(arg, ind){
if (arg === "-u"){
nextU = true
}
else if (nextU){
mainPath = mainPaths[arg]
nextU = false
}
})
// fs.mkdir(outdir);
// Import and analyse the MIDI files.
let midiDirs = fs.readdirSync(mainPath["midi"]);
midiDirs = midiDirs.filter(function(midiDir){
return mainPath["midiDirs"].indexOf(midiDir) >= 0;
})
console.log("midiDirs:", midiDirs)
midiDirs.forEach(function(midiDir, jDir){
console.log("Working on midiDir:", midiDir, "jDir:", jDir);
let pComps = [];
let pFiles = fs.readdirSync(mainPath["midi"] + midiDir);
pFiles = pFiles.filter(function(pFile){
return pFile.split(".")[1] == "midi"
})
console.log("pFiles.length:", pFiles.length);
pFiles.forEach(function(pFile, iFile){
console.log("pFile:", pFile)
if (iFile % 10 == 0){
console.log("!!! PFILE " + (iFile + 1) + " OF " + pFiles.length + " !!!")
}
try {
const midiData = fs.readFileSync(mainPath["midi"] + midiDir + "/" + pFile);
const midi = new Midi(midiData)
const timeSigs = [midi.header.timeSignatures.map(function(ts){
return {
"barNo": ts.measures + 1,
"topNo": ts.timeSignature[0],
"bottomNo": ts.timeSignature[1],
"ontime": ts.ticks/midi.header.ppq
}
})[0]] // SUPER HACKY. REVISE LATER!
console.log("timeSigs:", timeSigs)
let points = []
midi.tracks.map(function(track){
if (track.channel == targetChannel){
track.notes.map(function(n){
points.push([
n.ticks/midi.header.ppq,
n.midi,
n.durationTicks/midi.header.ppq,
track.channel,
Math.round(1000*n.velocity)/1000
])
})
}
})
console.log("points.slice(0, 5):", points.slice(0, 5));
const fsm = mu.fifth_steps_mode(points, mu.krumhansl_and_kessler_key_profiles)
console.log("fsm:", fsm)
points.map(function(p){
p.splice(2, 0, mu.guess_morphetic(p[1], fsm[2], fsm[3]))
})
let comp = an.note_point_set2comp_obj(
points, timeSigs, false, [0, 1/4, 1/2, 3/4, 1]//, [0, 1/6, 1/4, 1/3, 1/2, 2/3, 3/4, 5/6, 1]
);
// console.log("comp:", comp);
// Strip off file extension.
pFile = pFile.split(".")[0];
comp["id"] = pFile
// comp["id"] = uu();
// comp["idGmd"] = pFile
comp["name"] = pFile;
// comp["name"] = midi.header.name || mFile.split(".")[0] // "_new"
comp["composers"] = [{"id": "default_composer", "name": "none", "displayName": "None"}]
pComps.push(comp);
}
catch (e) {
console.log(e)
}
});
let pStm = an.construct_stm(pComps, param)
// console.log("pStm.length:", pStm.length);
pStm = an.prune_stm(pStm, param)
// console.log("pStm[0].beat_mnn_state:", pStm[0].beat_mnn_state);
// console.log("pStm.slice(0, 1):", pStm.slice(0, 1));
fs.writeFileSync(
mainPath["outputDir"] + mainPath["outputFileName"] + ".js",
// "var perc_" + midiDir + " = " +
JSON.stringify(pStm)//, null, 2)
// + ";"
)
let pInitialDistbn = an.construct_initial(pComps, param)
pInitialDistbn = an.prune_initial(pInitialDistbn, pStm, param)
fs.writeFileSync(
mainPath["outputDir"] + mainPath["outputFileName"] + "_initial.js",
// "var perc_" + midiDir + " = " +
JSON.stringify(pInitialDistbn)//, null, 2)
// + ";"
)
})