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Stuff working well with a single 3-pin range finder.

FossilOrigin-Name: 483d8caaef350827c026d7c234b026e9e720d26a7e27e54b0436f60b099a0ab9
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Mahlon E. Smith 2023-05-09 03:32:09 +00:00
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20
README.md Normal file
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# RPi Theremin
This is a quick-n-dirty Theremin daemon for use on the RaspberryPi.
It is designed to be used with a couple of these distance sensors:
https://www.adafruit.com/product/4007
Use 'raspi-config' to configure your default sound output (HDMI, 3.5", etc).
This is intended to be run from daemontools or runit. Quick setup:
# apt install ruby fluidsynth runit
# gem install -Ng
# ln -s /path/to/here/theremin /etc/service
# ln -s /path/to/here/fluidsynth /etc/service

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fluidsynth/run Executable file
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#!/bin/sh
#
# Run fluidsynth as a server, with some more dedicated CPU "oomph".
#
exec 2>&1
exec fluidsynth -v -n -i -s \
-a alsa -c2 -z1024 \
-o synth.cpu-cores=4 \
-o audio.realtime-prio=95 \
-o audio.alsa.device=hw:0

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gem.deps.rb Normal file
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source 'https://rubygems.org/'
gem 'configurability', '~> 4.2'

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theremin/Theremin.sf2 Normal file
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theremin/config.yml Normal file
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# -*- ruby -*-
# vim: set et sta sw=2 :
---
logging:
__default__: info (color)
theremin: debug (color)
theremin:
pitch_trigger: 16
font: /usr/share/sounds/sf2/FluidR3_GM.sf2
glide: 1
slew: 0
sample_interval: 0.1
reverb: false
chorus: false
instrument_index: 29

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theremin/lib/fluidsynth.rb Normal file
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# -*- ruby -*-
# vim: set noet sta sw=4 ts=4 :
require 'socket'
require 'configurability'
require 'loggability'
# Communicate with a running FluidSynth daemon via it's TCP socket API.
#
class FluidSynth
extend Configurability,
Loggability
# The default host for the fluidsynth server.
DEFAULT_HOST = 'localhost'
# The default port for the fluidsynth server.
DEFAULT_PORT = 9800
# Loggability API
log_as :fluidsynth
# Configuration API
#
configurability( :fluidsynth ) do
##
# How many simultaneous notes can play. Keep low for better CPU.
setting :polyphony, default: 6
##
# Reverb amount.
setting :reverb_size, default: 0.9
##
# Reverb gain level.
setting :reverb_gain, default: 0.7
##
# Chorus depth.
setting :chorus_depth, default: 64.0
##
# Chorus gain level.
setting :chorus_gain, default: 1.5
end
def initialize( host=DEFAULT_HOST, port=DEFAULT_PORT )
@host = host
@port = port
@lastnote = nil
@velocity = 80
end
# The TCP socket to fluidsynth.
attr_reader :socket
# The previous note played, to enable glides.
attr_reader :lastnote
# The current velocity to play new notes at.
attr_accessor :velocity
### Open the TCP socket to the synth and perform initial setups.
###
def connect
@socket = TCPSocket.new( @host, @port )
self.setup_effects
self.polyphony( self.class.polyphony )
end
### Setup polyphony amount.
###
def polyphony( val )
self.send "synth.polyphony #{val}"
end
### Stop all notes and reset effects.
###
def panic
self.send "reset"
end
### Alter the default volume.
###
def gain( level )
self.send "gain #{level}"
end
### Turn glide (portamento) on or off. Val is an integer that
### represents 128ms. 4 == 512ms.
###
def glide( val )
if val.zero?
self.send "cc 0 68 0"
self.send "cc 0 65 0"
self.send "cc 0 5 0"
else
self.send "setlegatomode 0 1"
self.send "cc 0 68 127" # legato
self.send "cc 0 65 127" # portamento
self.send "cc 0 5 #{val}"
end
end
### Play a midi +note+ at +velocity+, then silence the previous note.
### (This allows portamento to function if enabled.)
###
def playnote( note, velocity=self.velocity )
return if @lastnote == note
self.send "noteon 0 #{note} #{velocity}"
self.stopnote
@lastnote = note
end
### Silences the previous note played.
###
def stopnote
return unless @lastnote
self.send "noteoff 0 #{@lastnote}"
end
### Selects an instrument +index+ within the currently loaded sf2 for channel 0.
###
def instrument( index )
self.send "select 0 1 0 #{index}"
end
### Loads a resource (sf2, etc) from +path+.
###
def load( path )
self.send "load #{path}"
end
### Enable/disable reverb.
###
def reverb( toggle=true )
toggle = toggle ? 1 : 0
self.send "set synth.reverb.active #{toggle}"
end
### Enable/disable chorus.
###
def chorus( toggle=true )
toggle = toggle ? 1 : 0
self.send "set synth.chorus.active #{toggle}"
end
#########
protected
#########
### Initial effect setup.
###
def setup_effects
self.send "set synth.reverb.room-size 0.9"
self.send "set synth.reverb.level 0.7"
self.send "set synth.chorus.level 1.5"
self.send "set synth.chorus.depth 64.0"
end
### Issue a command to the synth, after possible logging.
###
def send( cmd )
self.log.debug( cmd )
self.socket.puts( cmd )
end
end

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theremin/lib/gpio.rb Executable file
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# -*- ruby -*-
# vim: set noet sta sw=4 ts=4 :
require 'socket'
require 'configurability'
require 'loggability'
require 'pathname'
# A representation of a GPIO pin.
# Manages basic reads/writes (HIGH/LOW).
#
class GPIO
extend Configurability,
Loggability
# Default read timeout.
TIMEOUT = 0.5
# The sysfs path.
BASE = Pathname( "/sys/class/gpio" )
# Loggability API
log_as :gpio
### Instance a new GPIO at +pin+. It will be automatically exported.
###
def initialize( pin )
@pin = pin
@paths = {
export: BASE + "export",
unexport: BASE + "unexport",
edge: BASE + "gpio#{pin}" + "edge",
direction: BASE + "gpio#{pin}" + "direction",
value: BASE + "gpio#{pin}" + "value"
}
self.export rescue Errno::EBUSY nil
end
# The GPIO PIN number.
attr_reader :pin
### Mark this pin as either input or output.
###
def mode( dir )
case dir.to_sym
when :in, :out
self.set( :direction ) { dir.to_s }
else
raise "Mode must be :in or :out."
end
end
### Hint at voltage measurement capture.
###
def edge( mode )
case mode.to_sym
when :none, :rising, :falling, :both
self.set( :edge ) { mode.to_s }
else
raise "Edge must be one of: :none, :rising, :falling, or :both"
end
end
### Tell the operating system to make this gpio available to sysfs.
###
def export
self.set( :export ) { self.pin }
end
### Remove this gpio from sysfs.
###
def unexport
self.set( :unexport ) { self.pin }
end
### Write a single +val+ to the GPIO.
###
def write( val )
self.set( :value ) { val }
end
### Read a single value from the GPIO, with an optional timeout.
###
def read( timeout=TIMEOUT )
io = @paths[ :value ].open
ready = IO.select( [io], nil, nil, timeout )
return unless ready # timeout
rv = io.read( 1 ).to_i
self.log.debug "Read %p from GPIO %d" % [ rv, self.pin ]
return rv
ensure
io.close
end
#########
protected
#########
### Generic write helper.
###
def set( path, &block )
@paths[ path ].open( 'w' ) do |f|
self.log.debug "Writing %p to %p of GPIO %d" % [ block.yield, path, self.pin ]
f.puts( block.yield )
end
end
end

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theremin/lib/theremin.rb Executable file
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# -*- ruby -*-
# vim: set noet sta sw=4 ts=4 :
require 'forwardable'
require 'configurability'
require 'loggability'
require 'gpio'
require 'fluidsynth'
# A class that coordinates GPIO events and translates
# them into commands for Fluidsynth.
#
class Theremin
extend Configurability,
Loggability,
Forwardable
# The speed of sound, in centmeters/sec.
SONICSPEED = 34300
# Loggability API
log_as :theremin
# Configuration API
#
configurability( :theremin ) do
##
# The host that fluidsynth lives at.
setting :host, default: 'localhost'
##
# The port that fluidsynth lives at.
setting :port, default: 9800
##
# The GPIO pin the pitch trigger is on.
setting :pitch_trigger do |val|
GPIO.new( val ) if val
end
##
# The GPIO pin the pitch echo measurement is on.
setting :pitch_echo do |val|
GPIO.new( val ) if val
end
##
# The GPIO pin the velocity trigger is on.
setting :velocity_trigger do |val|
GPIO.new( val ) if val
end
##
# The GPIO pin the velocity echo measurement is on.
setting :velocity_echo do |val|
GPIO.new( val ) if val
end
##
# The soundfont to use for the synth. Will look in the
# current working directory by default, but absolute paths
# can be used for system sounds.
setting :font, default: 'Theremin.sf2' do |val|
val = Pathname( val )
val = Pathname.pwd + val unless val.absolute?
val
end
##
# If a note is "stuck", turn if off after this many seconds.
setting :cancel_after, default: 5
##
# A reasonable distance in feet for the theremin to map notes.
setting :distance_max, default: 4
##
# Initial synth volume.
setting :gain, default: 1.0
##
# Enable reverb?
setting :reverb, default: true
##
# Enable chorus?
setting :chorus, default: true
##
# What instrument to use from the loaded SF2.
setting :instrument_index, default: 1
##
# Portamento. Value in milliseconds to glide between notes to
# emulate analog theremin. 0 disables completely. Values
# are in 128ms increments.
setting :glide, default: 768 do |val|
val = 128 if val < 128 && ! val.zero?
val = ( val.to_f / 128 ).round
val
end
##
# How frequently should the range finders measure distance?
# Value in seconds.
setting :sample_interval, default: 0.3
##
# Only change the note if the range finder value moves +/- this much
# between samples. This helps hold pitch, and avoids "warbles".
setting :slew, default: 5
end
### Instance a new Theremin daemon.
###
def initialize
# TODO: @pins = %i[ pitch_trigger pitch_echo velocity_trigger velocity_echo ]
@pins = %i[ pitch_trigger ]
self.setup_gpio
@timeout = 0
@synth = FluidSynth.new( self.class.host, self.class.port )
@running = false
@threads = []
rescue => err
self.log.warn( err.message )
self.stop rescue nil
end
# Delegate various methods directly to the underlying synth instance.
def_delegators :@synth, :gain, :glide, :load, :reverb, :chorus, :instrument
# The names of the GPIO pins.
attr_reader :pins
# The Fluidsynth instance.
attr_reader :synth
# Is this Theremin currently running?
attr_reader :running
### Start polling the GPIO for measurements.
###
def start
@running = true
self.synth.connect
self.gain( self.class.gain )
self.glide( self.class.glide )
self.load( self.class.font.to_s )
self.reverb( self.class.reverb )
self.chorus( self.class.chorus )
self.instrument( self.class.instrument_index )
@threads << self.note_thread
self.log.warn "Waiting for interaction, or ctrl-c to exit."
@threads.map( &:join )
end
### Cleanly shutdown GPIO and synth.
###
def stop
@running = false
self.pins.each {|pin| self.class.send( pin ).unexport rescue nil }
self.synth.socket.close
end
#########
protected
#########
### Measure pitch distance, and manage notes sent to the synth.
###
def note_thread
self.log.info "Starting note/pitch measurements (every %s/sec) within %d feet." % [
self.class.sample_interval,
self.class.distance_max
]
return self.running_thread do
distance = self.distance
note = self.distance_to_note( distance )
# Only play if within maximum distance.
#
if distance <= self.class.distance_max
self.log.debug "Pitch distance %0.2f (note %s)" % [ distance, note ]
# Hold the note if it is unchanged within slew amount.
#
if synth.lastnote
if note <= synth.lastnote - self.class.slew || note >= synth.lastnote + self.class.slew
synth.playnote( note )
end
else
synth.playnote( note )
end
# Cancel note if timeout is hit.
#
elsif @timeout >= self.class.cancel_after
@timeout = 0
synth.stopnote
end
sleep self.class.sample_interval
@timeout += self.class.sample_interval
end
end
### Create a new thread loop that returns when @running is false.
###
def running_thread( &block )
return Thread.new do
while @running
yield
end
end
end
### Validate GPIO config, and mark edge behavior for the echo measurement pins.
###
def setup_gpio
pincheck = self.pins.map{|p| self.class.send(p) }
if pincheck.any?( nil )
self.stop rescue nil
raise "GPIO pins are required configuration options: %p" % [ self.pins ]
end
self.class.pitch_trigger.edge( :both )
# self.class.pitch_echo.edge( :both )
# TODO: self.class.velocity_echo.edge( :both )
end
### For a given +distance+ in feet, convert into a valid MIDI note
### within the range.
###
def distance_to_note( distance )
midi_start = 107 # 127, but the theramin soundfont maxes out at 107.
midi_end = 0
distance_min = 0
slope = 1.0 * ( midi_end - midi_start ) / ( self.class.distance_max - distance_min )
return midi_start + ( slope * ( distance - distance_min ) ).round
end
### TODO: make generic for a trigger/echo pin pair
### Returns detected distance in feet.
###
def distance
self.class.pitch_trigger.mode( :out )
self.class.pitch_trigger.write( 1 )
sleep 0.00001
self.class.pitch_trigger.write( 0 )
self.class.pitch_trigger.mode( :in )
duration = Time.now
while self.class.pitch_trigger.read == 0
starttime = Time.now
break if starttime - duration > GPIO::TIMEOUT
end
while self.class.pitch_trigger.read == 1
stoptime = Time.now
break if stoptime - duration > GPIO::TIMEOUT
end
elapsed = stoptime - starttime
distance = ( elapsed * SONICSPEED ) / 2
distance = 0 if distance < 0
distance = distance / 30.48
return distance
rescue
return 0
end
end

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theremin/run Executable file
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#!/usr/bin/env ruby
# vim: set noet sta sw=4 ts=4 :
$LOAD_PATH << './lib'
require 'pathname'
require 'configurability'
require 'theremin'
Configurability::Config.load( 'config.yml' ).install
theremin = Theremin.new
Signal.trap( "INT" ) do
puts "\n\nShutting down..."
theremin.stop if theremin.running
end
theremin.start