Guseyn/generate-magenta-sound-font.rb

## generate-magenta-sound-font.rb
#!/usr/bin/env ruby
#
# JavaScript Soundfont Builder for MIDI.js
# Author: 0xFE <mohit@muthanna.com>
# edited by Valentijn Nieman <valentijnnieman@gmail.com>
#
# Requires:
#
#   FluidSynth
#   Lame
#   Ruby Gems: midilib parallel
#
#   $ brew install fluidsynth lame (on OSX)
#   $ gem install midilib parallel
#
# You'll need to download a GM soundbank to generate audio.
#
# Usage:
#
# 1) Install the above dependencies.
# 2) Edit BUILD_DIR, SOUNDFONT, and INSTRUMENTS as required.
# 3) Run without any argument.

require 'base64'
require 'digest/sha1'
require 'etc'
require 'fileutils'
require 'midilib'
require 'parallel'
require 'zlib'
require 'json'

include FileUtils

BUILD_DIR = "./web-app/magenta-soundfonts/SGM" # Output path
SOUNDFONT = "./soundfonts/SGM.sf2" # Soundfont file path

# This script will generate MIDI.js-compatible instrument JS files for
# all instruments in the below array. Add or remove as necessary.
INSTRUMENTS = [
  0,
  1,
  2,
  3,
  4,
  5,
  6,
  7,
  8,
  9,
  10,
  11,
  12,
  13,
  14,
  15,
  16,
  17,
  18,
  19,
  20,
  21,
  22,
  23,
  24,
  25,
  26,
  27,
  28,
  29,
  30,
  31,
  32,
  33,
  34,
  35,
  36,
  37,
  38,
  39,
  40,
  41,
  42,
  43,
  44,
  45,
  46,
  47,
  48,
  49,
  50,
  51,
  52,
  53,
  54,
  55,
  56,
  57,
  58,
  59,
  60,
  61,
  62,
  63,
  64,
  65,
  66,
  67,
  68,
  69,
  70,
  71,
  72,
  73,
  74,
  75,
  76,
  77,
  78,
  79,
  80,
  81,
  82,
  83,
  84,
  85,
  86,
  87,
  88,
  89,
  90,
  91,
  92,
  93,
  94,
  95,
  96,
  97,
  98,
  99,
  100,
  101,
  102,
  103,
  104,
  105,
  106,
  107,
  108,
  109,
  110,
  111,
  112,
  113,
  114,
  115,
  116,
  117,
  118,
  119,
  120,
  121,
  122,
  123,
  124,
  125,
  126,
  127
]

# It was found that midilib uses names that are incompatible with MIDI.js
# For example, midilib uses "SynthBrass 1" -> https://github.com/jimm/midilib/blob/6c8e481ae72cd9f00a38eb3700ddfca6b549f153/lib/midilib/consts.rb#L280
# and the MIDI association uses "SynthBrass 1" -> https://www.midi.org/specifications-old/item/gm-level-1-sound-set
# but the MIDI.js calls this "Synth Brass 1" -> https://github.com/mudcube/MIDI.js/blob/a8a84257afa70721ae462448048a87301fc1554a/js/midi/gm.js#L44
# there are others like "Bag pipe" vs "Bagpipe", etc.
# here, we use the MIDI.js definitions because that is how most users will interact with the generated soundfonts.
MIDIJS_PATCH_NAMES = [
  "Acoustic Grand Piano",
  "Bright Acoustic Piano",
  "Electric Grand Piano",
  "Honky-tonk Piano",
  "Electric Piano 1",
  "Electric Piano 2",
  "Harpsichord",
  "Clavinet",
  "Celesta",
  "Glockenspiel",
  "Music Box",
  "Vibraphone",
  "Marimba",
  "Xylophone",
  "Tubular Bells",
  "Dulcimer",
  "Drawbar Organ",
  "Percussive Organ",
  "Rock Organ",
  "Church Organ",
  "Reed Organ",
  "Accordion",
  "Harmonica",
  "Tango Accordion",
  "Acoustic Guitar (nylon)",
  "Acoustic Guitar (steel)",
  "Electric Guitar (jazz)",
  "Electric Guitar (clean)",
  "Electric Guitar (muted)",
  "Overdriven Guitar",
  "Distortion Guitar",
  "Guitar Harmonics",
  "Acoustic Bass",
  "Electric Bass (finger)",
  "Electric Bass (pick)",
  "Fretless Bass",
  "Slap Bass 1",
  "Slap Bass 2",
  "Synth Bass 1",
  "Synth Bass 2",
  "Violin",
  "Viola",
  "Cello",
  "Contrabass",
  "Tremolo Strings",
  "Pizzicato Strings",
  "Orchestral Harp",
  "Timpani",
  "String Ensemble 1",
  "String Ensemble 2",
  "Synth Strings 1",
  "Synth Strings 2",
  "Choir Aahs",
  "Voice Oohs",
  "Synth Choir",
  "Orchestra Hit",
  "Trumpet",
  "Trombone",
  "Tuba",
  "Muted Trumpet",
  "French Horn",
  "Brass Section",
  "Synth Brass 1",
  "Synth Brass 2",
  "Soprano Sax",
  "Alto Sax",
  "Tenor Sax",
  "Baritone Sax",
  "Oboe",
  "English Horn",
  "Bassoon",
  "Clarinet",
  "Piccolo",
  "Flute",
  "Recorder",
  "Pan Flute",
  "Blown Bottle",
  "Shakuhachi",
  "Whistle",
  "Ocarina",
  "Lead 1 (square)",
  "Lead 2 (sawtooth)",
  "Lead 3 (calliope)",
  "Lead 4 (chiff)",
  "Lead 5 (charang)",
  "Lead 6 (voice)",
  "Lead 7 (fifths)",
  "Lead 8 (bass + lead)",
  "Pad 1 (new age)",
  "Pad 2 (warm)",
  "Pad 3 (polysynth)",
  "Pad 4 (choir)",
  "Pad 5 (bowed)",
  "Pad 6 (metallic)",
  "Pad 7 (halo)",
  "Pad 8 (sweep)",
  "FX 1 (rain)",
  "FX 2 (soundtrack)",
  "FX 3 (crystal)",
  "FX 4 (atmosphere)",
  "FX 5 (brightness)",
  "FX 6 (goblins)",
  "FX 7 (echoes)",
  "FX 8 (sci-fi)",
  "Sitar",
  "Banjo",
  "Shamisen",
  "Koto",
  "Kalimba",
  "Bagpipe",
  "Fiddle",
  "Shanai",
  "Tinkle Bell",
  "Agogo",
  "Steel Drums",
  "Woodblock",
  "Taiko Drum",
  "Melodic Tom",
  "Synth Drum",
  "Reverse Cymbal",
  "Guitar Fret Noise",
  "Breath Noise",
  "Seashore",
  "Bird Tweet",
  "Telephone Ring",
  "Helicopter",
  "Applause",
  "Gunshot"
]

# The encoders and tools are expected in your PATH. You can supply alternate
# paths by changing the constants below.
LAME = `which lame`.chomp
FLUIDSYNTH = `which fluidsynth`.chomp

puts "Building the following instruments using font: " + SOUNDFONT

# Display instrument names.
INSTRUMENTS.each do |i|
  puts "    #{i}: " + MIDIJS_PATCH_NAMES[i]
end

puts
puts "Using MP3 encoder: " + LAME
puts "Using FluidSynth encoder: " + FLUIDSYNTH
puts
puts "Sending output to: " + BUILD_DIR
puts

raise "Can't find soundfont: #{SOUNDFONT}" unless File.exists? SOUNDFONT
raise "Can't find 'lame' command" if LAME.empty?
raise "Can't find 'fluidsynth' command" if FLUIDSYNTH.empty?
raise "Output directory does not exist: #{BUILD_DIR}" unless File.exists?(BUILD_DIR)

puts "Hit return to begin."
$stdin.readline

NOTES = {
  "C"  => 0,
  "Db" => 1,
  "D"  => 2,
  "Eb" => 3,
  "E"  => 4,
  "F"  => 5,
  "Gb" => 6,
  "G"  => 7,
  "Ab" => 8,
  "A"  => 9,
  "Bb" => 10,
  "B"  => 11
}

MIDI_C0 = 12
VELOCITIES = [
  20, 25, 30, 35, 40, 45, 47, 50,
  55, 57, 60, 65, 70, 75, 80, 85,
  90, 95, 100, 105, 110, 112, 115,
  117, 120, 122, 125, 127
]
DURATION = Integer(4500)
TEMP_FILE = "#{BUILD_DIR}/%s%stemp.midi"
FLUIDSYNTH_RAW = "%s.wav"

def deflate(string, level)
  z = Zlib::Deflate.new(level)
  dst = z.deflate(string, Zlib::FINISH)
  z.close
  dst
end

def note_to_int(note, octave)
  value = NOTES[note]
  increment = MIDI_C0 * octave
  return value + increment
end

def int_to_note(value)
  raise "Bad Value" if value < MIDI_C0
  reverse_notes = NOTES.invert
  value -= MIDI_C0
  octave = value / 12
  note = value % 12
  return { key: reverse_notes[note],
           octave: octave }
end

# # Run a quick table validation
# MIDI_C0.upto(100) do |x|
#   note = int_to_note x
#   raise "Broken table" unless note_to_int(note[:key], note[:octave]) == x
# end

def generate_midi(program, note_value, velocity, file)
  include MIDI
  seq = Sequence.new()
  track = Track.new(seq)

  seq.tracks << track
  track.events << ProgramChange.new(0, Integer(program))
  track.events << NoteOn.new(0, note_value, velocity, 0) # channel, note, velocity, delta
  track.events << NoteOff.new(0, note_value, velocity, DURATION)

  File.open(file, 'wb') { | file | seq.write(file) }
end

def run_command(cmd)
  # puts "Running: " + cmd
  `#{cmd}`
end

def midi_to_audio(source, target)
  run_command "#{FLUIDSYNTH} -C no -R no -g 0.5 -q -F #{target} #{SOUNDFONT} #{source}"
  run_command "#{LAME} -v -b 8 -B 64 #{target} &>/dev/null"
  rm target
end

def open_js_file(instrument_key, type)
  js_file = File.open("#{BUILD_DIR}/#{instrument_key}-#{type}.js", "w")
  js_file.write(
"""
if (typeof(MIDI) === 'undefined') var MIDI = {};
if (typeof(MIDI.Soundfont) === 'undefined') MIDI.Soundfont = {};
MIDI.Soundfont.#{instrument_key} = {
""")
  return js_file
end

def close_js_file(file)
  file.write("\n}\n")
  file.close
end

def base64js(note, file, type)
  output = '"' + note + '": '
  output += '"' + "data:audio/#{type};base64,"
  output += Base64.strict_encode64(File.read(file)) + '"'
  return output
end

def generate_audio(program)
  instrument = MIDIJS_PATCH_NAMES[program]
  instrument_key = instrument.downcase.gsub(/[^a-z0-9 ]/, "").gsub(/[ ]/, "_")

  # puts "Generating audio for: " + instrument + "(#{instrument_key})"

  mkdir_p "#{BUILD_DIR}/#{instrument_key}"


  note_to_int("A", 0).upto(note_to_int("C", 8)) do |note_value|
    VELOCITIES.each do |velocity|
      output_name = "p#{note_value}_v#{velocity}"
      output_path_prefix = BUILD_DIR + "/#{instrument_key}" + output_name

      # puts "Generating: #{output_name}"
      temp_file_specific = TEMP_FILE % [output_name, instrument_key]
      generate_midi(program, note_value, velocity, temp_file_specific)
      midi_to_audio(temp_file_specific, output_path_prefix + ".wav")

      mv output_path_prefix + ".mp3", "#{BUILD_DIR}/#{instrument_key}/#{output_name}.mp3"
      rm temp_file_specific
      puts "instrument: #{instrument_key} finished for note #{note_value} for velocity #{velocity}"
    end
    puts "instrument: #{instrument_key} finished for note #{note_value} for all velocities"
  end

  tempHash = {
    "name" => instrument_key,
    "minPitch" => 0,
    "maxPitch" => 127,
    "durationSeconds" => 4.5,
    "releaseSeconds" => 1.0,
    "percussive": false,
    "velocities": VELOCITIES
  }

  File.open("#{BUILD_DIR}/#{instrument_key}/instrument.json", "w") do |f|
    f.write(tempHash.to_json)
  end
end

Parallel.each(INSTRUMENTS, :in_processes=>Etc.nprocessors){|i| generate_audio(i)}
	#!/usr/bin/env ruby
	#
	# JavaScript Soundfont Builder for MIDI.js
	# Author: 0xFE <mohit@muthanna.com>
	# edited by Valentijn Nieman <valentijnnieman@gmail.com>
	#
	# Requires:
	#
	# FluidSynth
	# Lame
	# Ruby Gems: midilib parallel
	#
	# $ brew install fluidsynth lame (on OSX)
	# $ gem install midilib parallel
	#
	# You'll need to download a GM soundbank to generate audio.
	#
	# Usage:
	#
	# 1) Install the above dependencies.
	# 2) Edit BUILD_DIR, SOUNDFONT, and INSTRUMENTS as required.
	# 3) Run without any argument.

	require 'base64'
	require 'digest/sha1'
	require 'etc'
	require 'fileutils'
	require 'midilib'
	require 'parallel'
	require 'zlib'
	require 'json'

	include FileUtils

	BUILD_DIR = "./web-app/magenta-soundfonts/SGM" # Output path
	SOUNDFONT = "./soundfonts/SGM.sf2" # Soundfont file path

	# This script will generate MIDI.js-compatible instrument JS files for
	# all instruments in the below array. Add or remove as necessary.
	INSTRUMENTS = [
	0,
	1,
	2,
	3,
	4,
	5,
	6,
	7,
	8,
	9,
	10,
	11,
	12,
	13,
	14,
	15,
	16,
	17,
	18,
	19,
	20,
	21,
	22,
	23,
	24,
	25,
	26,
	27,
	28,
	29,
	30,
	31,
	32,
	33,
	34,
	35,
	36,
	37,
	38,
	39,
	40,
	41,
	42,
	43,
	44,
	45,
	46,
	47,
	48,
	49,
	50,
	51,
	52,
	53,
	54,
	55,
	56,
	57,
	58,
	59,
	60,
	61,
	62,
	63,
	64,
	65,
	66,
	67,
	68,
	69,
	70,
	71,
	72,
	73,
	74,
	75,
	76,
	77,
	78,
	79,
	80,
	81,
	82,
	83,
	84,
	85,
	86,
	87,
	88,
	89,
	90,
	91,
	92,
	93,
	94,
	95,
	96,
	97,
	98,
	99,
	100,
	101,
	102,
	103,
	104,
	105,
	106,
	107,
	108,
	109,
	110,
	111,
	112,
	113,
	114,
	115,
	116,
	117,
	118,
	119,
	120,
	121,
	122,
	123,
	124,
	125,
	126,
	127
	]

	# It was found that midilib uses names that are incompatible with MIDI.js
	# For example, midilib uses "SynthBrass 1" -> https://github.com/jimm/midilib/blob/6c8e481ae72cd9f00a38eb3700ddfca6b549f153/lib/midilib/consts.rb#L280
	# and the MIDI association uses "SynthBrass 1" -> https://www.midi.org/specifications-old/item/gm-level-1-sound-set
	# but the MIDI.js calls this "Synth Brass 1" -> https://github.com/mudcube/MIDI.js/blob/a8a84257afa70721ae462448048a87301fc1554a/js/midi/gm.js#L44
	# there are others like "Bag pipe" vs "Bagpipe", etc.
	# here, we use the MIDI.js definitions because that is how most users will interact with the generated soundfonts.
	MIDIJS_PATCH_NAMES = [
	"Acoustic Grand Piano",
	"Bright Acoustic Piano",
	"Electric Grand Piano",
	"Honky-tonk Piano",
	"Electric Piano 1",
	"Electric Piano 2",
	"Harpsichord",
	"Clavinet",
	"Celesta",
	"Glockenspiel",
	"Music Box",
	"Vibraphone",
	"Marimba",
	"Xylophone",
	"Tubular Bells",
	"Dulcimer",
	"Drawbar Organ",
	"Percussive Organ",
	"Rock Organ",
	"Church Organ",
	"Reed Organ",
	"Accordion",
	"Harmonica",
	"Tango Accordion",
	"Acoustic Guitar (nylon)",
	"Acoustic Guitar (steel)",
	"Electric Guitar (jazz)",
	"Electric Guitar (clean)",
	"Electric Guitar (muted)",
	"Overdriven Guitar",
	"Distortion Guitar",
	"Guitar Harmonics",
	"Acoustic Bass",
	"Electric Bass (finger)",
	"Electric Bass (pick)",
	"Fretless Bass",
	"Slap Bass 1",
	"Slap Bass 2",
	"Synth Bass 1",
	"Synth Bass 2",
	"Violin",
	"Viola",
	"Cello",
	"Contrabass",
	"Tremolo Strings",
	"Pizzicato Strings",
	"Orchestral Harp",
	"Timpani",
	"String Ensemble 1",
	"String Ensemble 2",
	"Synth Strings 1",
	"Synth Strings 2",
	"Choir Aahs",
	"Voice Oohs",
	"Synth Choir",
	"Orchestra Hit",
	"Trumpet",
	"Trombone",
	"Tuba",
	"Muted Trumpet",
	"French Horn",
	"Brass Section",
	"Synth Brass 1",
	"Synth Brass 2",
	"Soprano Sax",
	"Alto Sax",
	"Tenor Sax",
	"Baritone Sax",
	"Oboe",
	"English Horn",
	"Bassoon",
	"Clarinet",
	"Piccolo",
	"Flute",
	"Recorder",
	"Pan Flute",
	"Blown Bottle",
	"Shakuhachi",
	"Whistle",
	"Ocarina",
	"Lead 1 (square)",
	"Lead 2 (sawtooth)",
	"Lead 3 (calliope)",
	"Lead 4 (chiff)",
	"Lead 5 (charang)",
	"Lead 6 (voice)",
	"Lead 7 (fifths)",
	"Lead 8 (bass + lead)",
	"Pad 1 (new age)",
	"Pad 2 (warm)",
	"Pad 3 (polysynth)",
	"Pad 4 (choir)",
	"Pad 5 (bowed)",
	"Pad 6 (metallic)",
	"Pad 7 (halo)",
	"Pad 8 (sweep)",
	"FX 1 (rain)",
	"FX 2 (soundtrack)",
	"FX 3 (crystal)",
	"FX 4 (atmosphere)",
	"FX 5 (brightness)",
	"FX 6 (goblins)",
	"FX 7 (echoes)",
	"FX 8 (sci-fi)",
	"Sitar",
	"Banjo",
	"Shamisen",
	"Koto",
	"Kalimba",
	"Bagpipe",
	"Fiddle",
	"Shanai",
	"Tinkle Bell",
	"Agogo",
	"Steel Drums",
	"Woodblock",
	"Taiko Drum",
	"Melodic Tom",
	"Synth Drum",
	"Reverse Cymbal",
	"Guitar Fret Noise",
	"Breath Noise",
	"Seashore",
	"Bird Tweet",
	"Telephone Ring",
	"Helicopter",
	"Applause",
	"Gunshot"
	]

	# The encoders and tools are expected in your PATH. You can supply alternate
	# paths by changing the constants below.
	LAME = `which lame`.chomp
	FLUIDSYNTH = `which fluidsynth`.chomp

	puts "Building the following instruments using font: " + SOUNDFONT

	# Display instrument names.
	INSTRUMENTS.each do \|i\|
	puts " #{i}: " + MIDIJS_PATCH_NAMES[i]
	end

	puts
	puts "Using MP3 encoder: " + LAME
	puts "Using FluidSynth encoder: " + FLUIDSYNTH
	puts
	puts "Sending output to: " + BUILD_DIR
	puts

	raise "Can't find soundfont: #{SOUNDFONT}" unless File.exists? SOUNDFONT
	raise "Can't find 'lame' command" if LAME.empty?
	raise "Can't find 'fluidsynth' command" if FLUIDSYNTH.empty?
	raise "Output directory does not exist: #{BUILD_DIR}" unless File.exists?(BUILD_DIR)

	puts "Hit return to begin."
	$stdin.readline

	NOTES = {
	"C" => 0,
	"Db" => 1,
	"D" => 2,
	"Eb" => 3,
	"E" => 4,
	"F" => 5,
	"Gb" => 6,
	"G" => 7,
	"Ab" => 8,
	"A" => 9,
	"Bb" => 10,
	"B" => 11
	}

	MIDI_C0 = 12
	VELOCITIES = [
	20, 25, 30, 35, 40, 45, 47, 50,
	55, 57, 60, 65, 70, 75, 80, 85,
	90, 95, 100, 105, 110, 112, 115,
	117, 120, 122, 125, 127
	]
	DURATION = Integer(4500)
	TEMP_FILE = "#{BUILD_DIR}/%s%stemp.midi"
	FLUIDSYNTH_RAW = "%s.wav"

	def deflate(string, level)
	z = Zlib::Deflate.new(level)
	dst = z.deflate(string, Zlib::FINISH)
	z.close
	dst
	end

	def note_to_int(note, octave)
	value = NOTES[note]
	increment = MIDI_C0 * octave
	return value + increment
	end

	def int_to_note(value)
	raise "Bad Value" if value < MIDI_C0
	reverse_notes = NOTES.invert
	value -= MIDI_C0
	octave = value / 12
	note = value % 12
	return { key: reverse_notes[note],
	octave: octave }
	end

	# # Run a quick table validation
	# MIDI_C0.upto(100) do \|x\|
	# note = int_to_note x
	# raise "Broken table" unless note_to_int(note[:key], note[:octave]) == x
	# end

	def generate_midi(program, note_value, velocity, file)
	include MIDI
	seq = Sequence.new()
	track = Track.new(seq)

	seq.tracks << track
	track.events << ProgramChange.new(0, Integer(program))
	track.events << NoteOn.new(0, note_value, velocity, 0) # channel, note, velocity, delta
	track.events << NoteOff.new(0, note_value, velocity, DURATION)

	File.open(file, 'wb') { \| file \| seq.write(file) }
	end

	def run_command(cmd)
	# puts "Running: " + cmd
	`#{cmd}`
	end

	def midi_to_audio(source, target)
	run_command "#{FLUIDSYNTH} -C no -R no -g 0.5 -q -F #{target} #{SOUNDFONT} #{source}"
	run_command "#{LAME} -v -b 8 -B 64 #{target} &>/dev/null"
	rm target
	end

	def open_js_file(instrument_key, type)
	js_file = File.open("#{BUILD_DIR}/#{instrument_key}-#{type}.js", "w")
	js_file.write(
	"""
	if (typeof(MIDI) === 'undefined') var MIDI = {};
	if (typeof(MIDI.Soundfont) === 'undefined') MIDI.Soundfont = {};
	MIDI.Soundfont.#{instrument_key} = {
	""")
	return js_file
	end

	def close_js_file(file)
	file.write("\n}\n")
	file.close
	end

	def base64js(note, file, type)
	output = '"' + note + '": '
	output += '"' + "data:audio/#{type};base64,"
	output += Base64.strict_encode64(File.read(file)) + '"'
	return output
	end

	def generate_audio(program)
	instrument = MIDIJS_PATCH_NAMES[program]
	instrument_key = instrument.downcase.gsub(/[^a-z0-9 ]/, "").gsub(/[ ]/, "_")

	# puts "Generating audio for: " + instrument + "(#{instrument_key})"

	mkdir_p "#{BUILD_DIR}/#{instrument_key}"


	note_to_int("A", 0).upto(note_to_int("C", 8)) do \|note_value\|
	VELOCITIES.each do \|velocity\|
	output_name = "p#{note_value}_v#{velocity}"
	output_path_prefix = BUILD_DIR + "/#{instrument_key}" + output_name

	# puts "Generating: #{output_name}"
	temp_file_specific = TEMP_FILE % [output_name, instrument_key]
	generate_midi(program, note_value, velocity, temp_file_specific)
	midi_to_audio(temp_file_specific, output_path_prefix + ".wav")

	mv output_path_prefix + ".mp3", "#{BUILD_DIR}/#{instrument_key}/#{output_name}.mp3"
	rm temp_file_specific
	puts "instrument: #{instrument_key} finished for note #{note_value} for velocity #{velocity}"
	end
	puts "instrument: #{instrument_key} finished for note #{note_value} for all velocities"
	end

	tempHash = {
	"name" => instrument_key,
	"minPitch" => 0,
	"maxPitch" => 127,
	"durationSeconds" => 4.5,
	"releaseSeconds" => 1.0,
	"percussive": false,
	"velocities": VELOCITIES
	}

	File.open("#{BUILD_DIR}/#{instrument_key}/instrument.json", "w") do \|f\|
	f.write(tempHash.to_json)
	end
	end

	Parallel.each(INSTRUMENTS, :in_processes=>Etc.nprocessors){\|i\| generate_audio(i)}