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247 lines
12 KiB
247 lines
12 KiB
#! /usr/bin/env python3
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# -*- coding: utf-8 -*-
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"""
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Copyright 2020, Nils Hilbricht, Germany ( https://www.hilbricht.net )
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This file is part of the Laborejo Software Suite ( https://www.laborejo.org ),
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This is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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"""
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import logging; logger = logging.getLogger(__name__); logger.info("import")
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#Python Standard Library
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#Third Party Modules
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from calfbox import cbox
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#Template Modules
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from . import pitch
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class MidiInput(object):
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"""MidiIn provides a port from calfboxes realtime midi in parsing to python data and functions.
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Please note that it is not directly related to a track and is not responsible for actual midi
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recording. This is the base class if you want to have midi control your program, like controlling
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a GUI, step entry like in Laborejo or visualizers with multiple tracks.
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You can therefore choose how you interpret the incoming data. It is possible to only have one
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midi in port for the whole program and decide where to route the incoming events based on e.g.
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GUI status (which track is selected).
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Or you could mirror your internal tracks one by one with a midi input.
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MidiIn is also the base class for instruments. However, these are subclasses.
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It is recommended that you add a MidiIn object to your Python structures.
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Don't subclass it because you might want to have MidiOut and audios as well, this
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will produce a messy multiple inheritance situation.
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One usecase is Laborejo: A single global step midi input that calls api functions.
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In this case MidiInput is an alternative to the GUI. It does not belong in the engine but at
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lowest in the api.
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"""
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def __init__(self, session, portName):
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"""The processor adds itself to the event loop.
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You need to call prepareDelete before removing a midi output again"""
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self.session = session
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self.portName = portName
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self.scene = cbox.Document.get_engine().new_scene()
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self.scene.clear()
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self.scene.set_enable_default_song_input(False)
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self.cboxMidiPortUid = cbox.JackIO.create_midi_input(portName)
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self.realtimeMidiThroughLayer = self.scene.add_new_midi_layer(self.cboxMidiPortUid) #Create a midi layer for our input port. That layer support manipulation like transpose or channel routing.
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cbox.JackIO.set_appsink_for_midi_input(self.cboxMidiPortUid, True) #This sounds like a program wide sink, but it is needed for every port.
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cbox.JackIO.route_midi_input(self.cboxMidiPortUid, self.scene.uuid) #Route midi input to the scene.
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self._currentMidiThruOutputMidiPortUid = None #RT midi thru
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self.setMidiThruChannel(1)
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self.midiProcessor = MidiProcessor(parentInput = self)
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self.session.eventLoop.fastConnect(self.midiProcessor.processEvents)
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self.readyToDelete = False
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def prepareDelete(self):
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self.session.eventLoop.fastDisconnect(self.midiProcessor.processEvents)
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self.readyToDelete = True
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def setMidiThru(self, cboxMidiOutUuid):
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"""
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This is the output portion of the program. Everything in init is only for input.
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Instruct the RT part to echo midi in directly to the connect output ports
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so we hear the current track with the tracks instrument.
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e.g. if you have a single global midi input but multiple track based outputs you can use
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this to route the input RT to a track output while still getting the python data to process.
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If you use such a configuration for data entry the user will hear his inputs echoed by
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the actual target instrument and not e.g. a generic piano or sine wave sound.
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"""
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if not self._currentMidiThruOutputMidiPortUid == cboxMidiOutUuid: #most of the time this stays the same e.g. cursor left/right. we only care about up and down
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self._currentMidiThruOutputMidiPortUid = cboxMidiOutUuid
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self.realtimeMidiThroughLayer.set_external_output(cboxMidiOutUuid)
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def setMidiThruChannel(self, channel):
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if channel < 1 or channel > 16:
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raise ValueError("Channels are from 1 to 16 (inclusive). You sent " + str(channel))
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self.realtimeMidiThroughLayer.set_out_channel(channel)
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class MidiProcessor(object):
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"""
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There are two principal modes: Step Entry and Live Recording.
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Add your function to callbacks3 for notes and CC or callbacks2 for program change and Channel Pressure.
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.NOTE_ON)] = lambda: print(channel, note, velocity)"""
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SIMPLE_EVENT = "/io/midi/simple_event"
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TRANSPORT_PLAY = "/io/midi/event_time_ppqn"
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TRANSPORT_STOPPED = "/io/midi/event_time_samples"
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M_NOTE_ON = 0x90
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M_NOTE_OFF = 0x80
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M_ACTIVE_SENSE = 0xFE #254
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M_AFTERTOUCH = 0xA0 #160
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M_CONTROL_CHANGE = 0xB0 #176
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M_PROGRAMCHANGE = 0xC0 #192
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M_CHANNELPRESSURE = 0xD0 #208
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M_PITCHBEND = 0xE0 #224
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CC_BANKCHANGE_COARSE = 32
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CC_BANKCHANGE_FINE = 0
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def __init__(self, parentInput):
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self.parentInput = parentInput
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self.callbacks3 = {} #keys are tuples
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self.callbacks2 = {} #keys are tuples
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self.active = True
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self.ccState = {}
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self.lastTimestamp = None #None for Transport not rolling, Value while rolling
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#for cc in range(128): #0-127 inclusive
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# self.ccState[cc] = None #start with undefined.
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def processEvents(self):
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"""events come in packages.
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If you press just a key you'll get a list with length 2: timestamp, midi-message
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For each event received in the same timeslot you'll get two events more.
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A chord of four keys, played staccato simultaniously will yield 16 events.
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2 for each key (=8), times two for note on and note off each.(=16)
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We don't want the whole function too many indentation levels deep so we take a few shortcuts.
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This function gets called very often. So every optimisation is good.
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"""
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events = cbox.JackIO.get_new_events(self.parentInput.cboxMidiPortUid)
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if not self.active:
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return
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if not events:
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return
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for message, stuff, dataList in events:
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l = len(dataList)
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#Check recording mode. These message only get sent in front of another event, like a note.
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#That means this is not a playback state detector because it only works after receiving a midi event
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if message == MidiProcessor.TRANSPORT_PLAY:
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#if self.lastTimestamp is None:
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# print ("switching to live recording")
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self.lastTimestamp = dataList[0]
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#print (self.lastTimestamp)
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elif message == MidiProcessor.TRANSPORT_STOPPED :
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#if not self.lastTimestamp is None:
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# print ("switching to step recording")
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self.lastTimestamp = None
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#Process Data
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elif l == 3: #notes and CC
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if message == MidiProcessor.SIMPLE_EVENT:
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m_type, m_note, m_velocity = dataList #of course these can be different than a note, but this is easier to read then "byte 1", "byte 2"
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m_channel = m_type & 0x0F
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m_mode = m_type & 0xF0 #0x90 note on, 0x80 note off and so on.
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key = (message, m_mode)
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if m_mode == 0xB0:
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self.ccState[m_note] = m_velocity #note is CCn , like 7=Volume, velocity is value.
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if key in self.callbacks3:
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self.callbacks3[key](self.lastTimestamp, m_channel, m_note, m_velocity)
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elif l == 2: #program change, aftertouch,
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if message == MidiProcessor.SIMPLE_EVENT:
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m_type, m_value = dataList
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m_channel = m_type & 0x0F
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m_mode = m_type & 0xF0
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key = (message, m_mode)
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if key in self.callbacks2:
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self.callbacks2[key](self.lastTimestamp, m_channel, m_value)
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#Active Sense (Keep Alive Signal)
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#TOOD: this can be commented out for performance reasons if we don't need to print out messages for debug reasons.
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#TODO: Sadly there is no compile time. Use the compiledPrefix instead?
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#elif l == 1 and message == MidiProcessor.SIMPLE_EVENT and dataList == [MidiProcessor.M_ACTIVE_SENSE]:
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# pass
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#else:
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# print (message, stuff, dataList)
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#Convenience Functions
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def register_NoteOn(self, functionWithFourParametersTimestampChannelNoteVelocity):
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"""A printer would be:
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lambda timestamp, channel, note, velocity: print(timestamp, channel, note, velocity)
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"""
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_NOTE_ON)] = functionWithFourParametersTimestampChannelNoteVelocity
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def register_NoteOff(self, functionWithFourParametersTimestampChannelNoteVelocity):
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"""A printer would be:
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lambda timestamp, channel, note, velocity: print(timestamp, channel, note, velocity)
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"""
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_NOTE_OFF)] = functionWithFourParametersTimestampChannelNoteVelocity
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def register_PolyphonicAftertouch(self, functionWithFourParametersTimestampChannelTypeValue):
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_AFTERTOUCH)] = functionWithFourParametersTimestampChannelTypeValue
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def register_CC(self, functionWithFourParametersTimestampChannelTypeValue):
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_CONTROL_CHANGE)] = functionWithFourParametersTimestampChannelTypeValue
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def register_ProgramChange(self, functionWithThreeParametersTimestampChannelValue):
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self.callbacks2[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_PROGRAMCHANGE)] = functionWithThreeParametersTimestampChannelValue
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def register_ChannelPressure(self, functionWithThreeParametersTimestampChannelValue):
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self.callbacks2[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_CHANNELPRESSURE)] = functionWithThreeParametersTimestampChannelValue
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def register_PitchBend(self, functionWithFourParametersTimestampChannelTypeValue):
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_PITCHBEND)] = functionWithFourParametersTimestampChannelTypeValue
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#Hier weiter machen. After Touch, aber wie darstellen? Das ist ja per Taste. Wie CC Type? Oder unten im Velocity View?
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def notePrinter(self, state:bool):
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if state:
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def _printer(timestamp, channel, note, velocity):
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print(f"[{timestamp}] Chan: {channel} Note: {pitch.midi_notenames_english[note]}: Vel: {velocity}")
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self.callbacks3[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_NOTE_ON)] = _printer
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else:
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try:
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del self.callbacks[(MidiProcessor.SIMPLE_EVENT, MidiProcessor.M_NOTE_ON)]
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except KeyError:
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pass
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