miredis/libs/midix.py

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2020-10-02 21:33:24 +00:00
#!/usr/bin/python3
# -*- coding: utf-8 -*-
"""
Midi3 light version for soundt/Jamidi/clapt
v0.7.0
Midi Handler :
- Hook to the MIDI host
- Enumerate connected midi devices and spawn a process/device to handle incoming events
by Sam Neurohack
from /team/laser
Midi conversions from https://github.com/craffel/pretty-midi
"""
import time
from threading import Thread
import rtmidi
from rtmidi.midiutil import open_midiinput
from rtmidi.midiconstants import (CHANNEL_PRESSURE, CONTROLLER_CHANGE, NOTE_ON, NOTE_OFF,
PITCH_BEND, POLY_PRESSURE, PROGRAM_CHANGE, TIMING_CLOCK, SONG_CONTINUE, SONG_START, SONG_STOP)
import mido
from mido import MidiFile
import traceback
import weakref
import sys
from sys import platform
import os
import re
from collections import deque
from libs import log
oscIP = "127.0.0.1"
oscPORT = 8000
is_py2 = sys.version[0] == '2'
if is_py2:
from queue import Queue
from OSC import OSCServer, OSCClient, OSCMessage
else:
from queue import Queue
from OSC3 import OSCServer, OSCClient, OSCMessage
print("")
midiname = ["Name"] * 16
midiport = [rtmidi.MidiOut() for i in range(16) ]
OutDevice = []
InDevice = []
midisync = True
debug = True
# max 16 midi port array
midinputsname = ["Name"] * 16
midinputsqueue = [Queue() for i in range(16) ]
midinputs = []
# False = server / True = Client
clientmode = False
#Mser = False
MidInsNumber = 0
clock = mido.Message(type="clock")
start = mido.Message(type ="start")
stop = mido.Message(type ="stop")
ccontinue = mido.Message(type ="continue")
reset = mido.Message(type ="reset")
songpos = mido.Message(type ="songpos")
#mode = "maxwell"
'''
print "clock",clock)
print "start",start)
print "continue", ccontinue)
print "reset",reset)
print "sonpos",songpos)
'''
try:
input = raw_input
except NameError:
# Python 3
Exception = Exception
STATUS_MAP = {
'noteon': NOTE_ON,
'noteoff': NOTE_OFF,
'programchange': PROGRAM_CHANGE,
'controllerchange': CONTROLLER_CHANGE,
'pitchbend': PITCH_BEND,
'polypressure': POLY_PRESSURE,
'channelpressure': CHANNEL_PRESSURE
}
def SendOSC(oscaddress,oscargs=''):
oscmsg = OSCMessage()
oscmsg.setAddress(oscaddress)
oscmsg.append(oscargs)
osclientlj = OSCClient()
osclientlj.connect((oscIP, oscPORT))
try:
osclientlj.sendto(oscmsg, (oscIP, oscPORT ))
oscmsg.clearData()
except:
log.err('Connection to OSC server refused : died ?')
pass
#time.sleep(0.001
def SendUI(oscaddress,oscargs=''):
oscmsg = OSCMessage()
oscmsg.setAddress(oscaddress)
oscmsg.append(oscargs)
osclientlj = OSCClient()
osclientlj.connect((TouchOSCIP, TouchOSCPort))
#print("MIDI Aurora sending UI :", oscmsg, "to",TouchOSCIP,":",TouchOSCPort)
try:
osclientlj.sendto(oscmsg, (TouchOSCIP, TouchOSCPort))
oscmsg.clearData()
except:
log.err('Connection to Aurora UI refused : died ?')
pass
#time.sleep(0.001
def GetTime():
return time.strftime("%a, %d %b %Y %H:%M:%S", time.localtime())
notes = ["C","C#","D","D#","E","F","F#","G","G#","A","A#","B"]
def midi2note(midinote):
print("midinote",midinote, "note", notes[midinote%12]+str(round(midinote/12)))
return notes[midinote%12]+str(round(midinote/12))
def note2midi(note_name):
"""Converts a note name in the format
``'(note)(accidental)(octave number)'`` (e.g. ``'C#4'``) to MIDI note
number.
``'(note)'`` is required, and is case-insensitive.
``'(accidental)'`` should be ``''`` for natural, ``'#'`` for sharp and
``'!'`` or ``'b'`` for flat.
If ``'(octave)'`` is ``''``, octave 0 is assumed.
Parameters
----------
note_name : str
A note name, as described above.
Returns
-------
note_number : int
MIDI note number corresponding to the provided note name.
Notes
-----
Thanks to Brian McFee.
"""
# Map note name to the semitone
pitch_map = {'C': 0, 'D': 2, 'E': 4, 'F': 5, 'G': 7, 'A': 9, 'B': 11}
# Relative change in semitone denoted by each accidental
acc_map = {'#': 1, '': 0, 'b': -1, '!': -1}
# Reg exp will raise an error when the note name is not valid
try:
# Extract pitch, octave, and accidental from the supplied note name
match = re.match(r'^(?P<n>[A-Ga-g])(?P<off>[#b!]?)(?P<oct>[+-]?\d+)$',
note_name)
pitch = match.group('n').upper()
offset = acc_map[match.group('off')]
octave = int(match.group('oct'))
except:
raise ValueError('Improper note format: {}'.format(note_name))
# Convert from the extrated ints to a full note number
return 12*(octave + 1) + pitch_map[pitch] + offset
def hz2midi(frequency):
"""Convert a frequency in Hz to a (fractional) note number.
Parameters
----------
frequency : float
Frequency of the note in Hz.
Returns
-------
note_number : float
MIDI note number, can be fractional.
"""
# MIDI note numbers are defined as the number of semitones relative to C0
# in a 440 Hz tuning
return 12*(np.log2(frequency) - np.log2(440.0)) + 69
def midi2hz(note_number):
"""Convert a (fractional) MIDI note number to its frequency in Hz.
Parameters
----------
note_number : float
MIDI note number, can be fractional.
Returns
-------
note_frequency : float
Frequency of the note in Hz.
"""
# MIDI note numbers are defined as the number of semitones relative to C0
# in a 440 Hz tuning
return 440.0*(2.0**((note_number - 69)/12.0))
# /cc cc number value
def cc(midichannel, ccnumber, value, mididest):
if debug == True:
print("Midix sending Midi channel", midichannel, "cc", ccnumber, "value", value, "to", mididest)
MidiMsg([CONTROLLER_CHANGE+midichannel-1, ccnumber, value], mididest)
#
# MIDI Startup and handling
#
mqueue = Queue()
inqueue = Queue()
bpm = 0
running = True
samples = deque()
last_clock = None
#
# Events from Generic MIDI Handling
#
def MidinProcess(inqueue, portname):
inqueue_get = inqueue.get
bpm = 0
samples = deque()
last_clock = None
while True:
time.sleep(0.001)
msg = inqueue_get()
#print("")
#print("Generic from", portname,"msg : ", msg)
# NOTE ON message on all midi channels
if NOTE_ON -1 < msg[0] < 160 and msg[2] !=0 :
MidiChannel = msg[0]-144
MidiNote = msg[1]
MidiVel = msg[2]
print()
print("NOTE ON :", "Channel", MidiChannel, "note :", MidiNote, 'velocity :', MidiVel )
# redis key : "/midi/noteon/midichannel" value : "note/velocity"
if r.set("/midi/noteon/"+str(MidiChannel), str(MidiNote)+"/"+str(MidiVel))==True:
print("redis :", "/midi/noteon/"+str(MidiChannel)+" : "+ str(MidiNote)+"/"+str(MidiVel))
# OSC : /midi/noteon midichannel note velocity
SendOSC("/midi/noteon",[MidiChannel, msg[1], msg[2]])
print("osc :","/midi/noteon/",[MidiChannel, msg[1], msg[2]])
'''
# Sampler mode : note <63 launch snare.wav / note > 62 kick.wav
if MidiNote < 63 and MidiVel >0:
if platform == 'darwin':
os.system("afplay snare.wav")
else:
os.system("aplay snare.wav")
if MidiNote > 62 and MidiVel >0:
if platform == 'darwin':
os.system("afplay kick.wav")
else:
os.system("aplay kick.wav")
'''
# NOTE OFF or Note with 0 velocity on all midi channels
if NOTE_OFF -1 < msg[0] < 145 or (NOTE_OFF -1 < msg[0] < 160 and msg[2] == 0):
if msg[0] > 143:
MidiChannel = msg[0]-144
else:
MidiChannel = msg[0]-128
MidiNote = msg[1]
print("NOTE_off channel :", MidiChannel, "note :", MidiNote)
# redis key : "/midi/noteon/midichannel" value : "note"
if r.set("/midi/noteoff/"+str(MidiChannel), str(MidiNote)) ==True:
print("redis :", "/midi/noteoff/"+str(MidiChannel)+" : "+ str(MidiNote))
# OSC : /midi/noteoff midichannel note
SendOSC("/midi/noteoff",[MidiChannel, msg[1]])
print('osc :', "/midi/noteoff",[MidiChannel, msg[1]])
# # CC on all Midi Channels
if CONTROLLER_CHANGE -1 < msg[0] < 192:
MidiChannel = msg[0]-175
#print("channel", MidiChannel, "CC :", msg[1], msg[2])
print("CC channel : "+str(msg[0]-175-1)+" CC :"+str(msg[1])+" value : "+str(msg[2]))
# redis key : "/midi/cc/midichannel/ccnumber" value : "ccvalue"
if r.set("/midi/cc/"+str(MidiChannel)+"/"+str(msg[1]),str(msg[2]))==True:
print("redis :", "/midi/cc/"+str(MidiChannel)+"/"+str(msg[1]), ":", str(msg[2]))
# OSC : /midi/cc midichannel ccnumber value
SendOSC("/midi/cc",[msg[0]-175-1, msg[1], msg[2]])
print("osc :","/midi/cc",[msg[0]-175-1, msg[1], msg[2]] )
if msg[0] == TIMING_CLOCK:
now = time.time()
if last_clock is not None:
samples.append(now - last_clock)
last_clock = now
if len(samples) > 24:
samples.popleft()
if len(samples) >= 2:
#bpm = 2.5 / (sum(samples) / len(samples))
#print("%.2f bpm" % bpm)
bpm = round(2.5 / (sum(samples) / len(samples))) # Against BPM lot very tiny change :
sync = True
# print("MIDI BPM", bpm)
#print("Midi clock : BPM", bpm)
# OSC : "/midi/clock"
SendOSC("/midi/clock",[])
print("osc : /midi/clock")
# SendAU("/aurora/bpm",[bpm])
if msg[0] in (SONG_CONTINUE, SONG_START):
running = True
#print("START/CONTINUE received.")
#print("Midi in process send /aurora/start")
# OSC : /midi/start
SendOSC("/midi/start",[])
print("osc : /midi/start")
if msg[0] == SONG_STOP:
running = False
#print("STOP received.")
#print("Midi in process send /aurora/stop")
# OSC : /midi/start
SendOSC("/midi/stop",[])
print("osc : /midi/stop")
print()
'''
# other midi message
if msg[0] != NOTE_OFF and msg[0] != NOTE_ON and msg[0] != CONTROLLER_CHANGE:
pass
print("from", portname,"other midi message")
MidiMsg(msg[0],msg[1],msg[2],mididest)
'''
#def NoteOn(note, color, mididest):
#https://pypi.org/project/python-rtmidi/0.3a/
# NOTE_ON=#90 et NOTE_OFF=#80 on ajoute le channel (0 le premier) pour envoyer effectivement sur le channel
def NoteOn(note, color, mididest, midichannel=0):
global MidInsNumber
if debug == True:
print("Sending", note, color, "to", mididest, "on channel", midichannel)
for port in range(MidInsNumber):
# To mididest
if midiname[port].find(mididest) == 0:
midiport[port].send_message([NOTE_ON+midichannel, note, color])
# To All
elif mididest == "all" and midiname[port].find(mididest) != 0:
midiport[port].send_message([NOTE_ON+midichannel, note, color])
def NoteOff(note, mididest):
global MidInsNumber
for port in range(MidInsNumber):
# To mididest
if midiname[port].find(mididest) != -1:
midiport[port].send_message([NOTE_OFF, note, 0])
# To All
elif mididest == "all" and midiname[port].find(mididest) == -1:
midiport[port].send_message([NOTE_OFF, note, 0])
# Generic call back : new msg forwarded to queue
class AddQueue(object):
def __init__(self, portname, port):
self.portname = portname
self.port = port
#print "AddQueue", port)
self._wallclock = time.time()
def __call__(self, event, data=None):
message, deltatime = event
self._wallclock += deltatime
#print "inqueue : [%s] @%0.6f %r" % ( self.portname, self._wallclock, message))
message.append(deltatime)
midinputsqueue[self.port].put(message)
#
# MIDI OUT Handling
#
class OutObject():
_instances = set()
counter = 0
def __init__(self, name, kind, port):
self.name = name
self.kind = kind
self.port = port
self._instances.add(weakref.ref(self))
OutObject.counter += 1
print("Adding OutDevice name", self.name, "kind", self.kind, "port", self.port)
@classmethod
def getinstances(cls):
dead = set()
for ref in cls._instances:
obj = ref()
if obj is not None:
yield obj
else:
dead.add(ref)
cls._instances -= dead
def __del__(self):
OutObject.counter -= 1
def OutConfig():
global midiout, MidInsNumber
#
if len(OutDevice) == 0:
print("")
log.info("MIDIout...")
print("List and attach to available devices on host with IN port :")
# Display list of available midi IN devices on the host, create and start an OUT instance to talk to each of these Midi IN devices
midiout = rtmidi.MidiOut()
available_ports = midiout.get_ports()
for port, name in enumerate(available_ports):
midiname[port]=name
midiport[port].open_port(port)
#print )
#print "New OutDevice [%i] %s" % (port, name))
OutDevice.append(OutObject(name, "generic", port))
#print "")
print(len(OutDevice), "Out devices")
#ListOutDevice()
MidInsNumber = len(OutDevice)+1
def ListOutDevice():
for item in OutObject.getinstances():
print(item.name)
def FindOutDevice(name):
port = -1
for item in OutObject.getinstances():
#print "searching", name, "in", item.name)
if name == item.name:
#print 'found port',item.port)
port = item.port
return port
def DelOutDevice(name):
Outnumber = Findest(name)
print('deleting OutDevice', name)
if Outnumber != -1:
print('found OutDevice', Outnumber)
delattr(OutObject, str(name))
print("OutDevice", Outnumber,"was removed")
else:
print("OutDevice was not found")
#
# MIDI IN Handling
# Create processing thread and queue for each device
#
class InObject():
_instances = set()
counter = 0
def __init__(self, name, kind, port, rtmidi):
self.name = name
self.kind = kind
self.port = port
self.rtmidi = rtmidi
self.queue = Queue()
self._instances.add(weakref.ref(self))
InObject.counter += 1
print("Adding InDevice name", self.name, "kind", self.kind, "port", self.port)
@classmethod
def getinstances(cls):
dead = set()
for ref in cls._instances:
obj = ref()
if obj is not None:
yield obj
else:
dead.add(ref)
cls._instances -= dead
def __del__(self):
InObject.counter -= 1
def InConfig():
print("")
log.info("MIDIin...")
# client mode
if debug == True:
if clientmode == True:
print("midix in client mode")
else:
print("midix in server mode")
print("List and attach to available devices on host with OUT port :")
if platform == 'darwin':
mido.set_backend('mido.backends.rtmidi/MACOSX_CORE')
genericnumber = 0
for port, name in enumerate(mido.get_input_names()):
outport = FindOutDevice(name)
midinputsname[port]=name
#print "name",name, "Port",port, "Outport", outport)
# print "midinames", midiname)
#ListInDevice()
try:
#print name, name.find("RtMidi output"))
if name.find("RtMidi output") > -1:
print("No thread started for device", name)
else:
portin = object
port_name = ""
portin, port_name = open_midiinput(outport)
if midisync == True:
portin.ignore_types(timing=False)
#midinputs.append(portin)
InDevice.append(InObject(name, "generic", outport, portin))
thread = Thread(target=MidinProcess, args=(midinputsqueue[port],port_name))
thread.setDaemon(True)
thread.start()
#print "Thread launched for midi port", port, "portname", port_name, "Inname", midiname.index(port_name)
#print "counter", InObject.counter
#midinputs[port].set_callback(AddQueue(name),midinputsqueue[port])
#midinputs[port].set_callback(AddQueue(name))
#genericnumber += 1
InDevice[InObject.counter-1].rtmidi.set_callback(AddQueue(name,port))
except Exception:
traceback.print_exc()
#print "")
print(InObject.counter, "In devices")
#ListInDevice()
def ListInDevice():
#print "known IN devices :"
for item in InObject.getinstances():
print(item.name)
print("")
def FindInDevice(name):
port = -1
for item in InObject.getinstances():
#print "searching", name, "in", item.name)
if name in item.name:
#print 'found port',item.port)
port = item.port
return port
def DelInDevice(name):
Innumber = Findest(name)
print('deleting InDevice', name)
if Innumber != -1:
print('found InDevice', Innumber)
delattr(InObject, str(name))
print("InDevice", Innumber,"was removed")
else:
print("InDevice was not found")
def End():
global midiout
#midiin.close_port()
midiout.close_port()
#del virtual
if launchpad.Here != -1:
del launchpad.Here
if bhoreal.Here != -1:
del bhoreal.Here
if LPD8.Here != -1:
del LPD8.Here
# mididest : all or specifiname, won't be sent to launchpad or Bhoreal.
def MidiMsg(midimsg, mididest):
desterror = -1
print("jamidi3 got midimsg", midimsg, "for", mididest)
for port in range(len(OutDevice)):
# To mididest
if midiname[port].find(mididest) != -1:
if debug == True:
print("miredis sending to name", midiname[port], "port", port, ":", midimsg)
midiport[port].send_message(midimsg)
desterror = 0
if desterror == -1:
print("mididest",mididest, ": ** This midi destination doesn't exists **")
# send midi msg over ws.
#if clientmode == True:
# ws.send("/ocs2/cc/1 2")
'''
def NoteOn(note, velocity, mididest):
global MidInsNumber
for port in range(MidInsNumber):
# To mididest
if midiname[port].find(mididest) == 0:
midiport[port].send_message([NOTE_ON, note, velocity])
'''
def listdevice(number):
return midiname[number]
def check():
OutConfig()
InConfig()