# -*- coding: utf-8 -*- """ Copyright 2009-2015 Olivier Belanger This file is part of pyo, a python module to help digital signal processing script creation. pyo is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. pyo is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with pyo. If not, see . """ import os, sys, time from ._core import * from ._widgets import createServerGUI ###################################################################### ### Proxy of Server object ###################################################################### class Server(object): """ Main processing audio loop callback handler. The Server object handles all communications with Portaudio and Portmidi. It keeps track of all audio streams created as well as connections between them. An instance of the Server must be booted before defining any signal processing chain. :Args: sr: int, optional Sampling rate used by Portaudio and the Server to compute samples. Defaults to 44100. nchnls: int, optional Number of output channels. The number of input channels will be the same if `ichnls` argument is not defined. Defaults to 2. buffersize: int, optional Number of samples that Portaudio will request from the callback loop. Defaults to 256. This value has an impact on CPU use (a small buffer size is harder to compute) and on the latency of the system. Latency is `buffer size / sampling rate` in seconds. duplex: int {0, 1}, optional Input - output mode. 0 is output only and 1 is both ways. Defaults to 1. audio: string {'portaudio', 'pa', 'jack', 'coreaudio', 'offline', 'offline_nb', 'embedded', 'manual'}, optional Audio backend to use. 'pa' is equivalent to 'portaudio'. Default is 'portaudio'. 'offline' save the audio output in a soundfile as fast as possible in blocking mode, ie. the main program doesn't respond until the end of the computation. 'offline_nb' save the audio output in a soundfile as fast as possible in non-blocking mode, ie. the computation is executed in a separated thread, allowing the program to respond while the computation goes on. It is the responsibility of the user to make sure that the program doesn't exit before the computation is done. 'embedded' should be used when pyo is embedded inside an host environment via its C api. If 'jack' is selected but jackd is not already started when the program is executed, pyo will ask jack to start in the background. Note that pyo never ask jack to close. It is the user's responsability to manage the audio configuration of its system. If 'manual' is selected, the server waits for a call to its `process` method to compute a single buffer size of audio samples. Successive calls to `process` can simulate a real computation (probably only useful in the context of internal testing). User can set an environment variable named PYO_SERVER_AUDIO to set this value globally. jackname: string, optional Name of jack client. Defaults to 'pyo' ichnls: int, optional Number of input channels if different of output channels. If None (default), ichnls = nchnls. winhost: string, optional Under Windows, pyo's Server will try to use the default devices of the given host. This behaviour can be changed with the SetXXXDevice methods. Defaults to "directsound". User can set an environment variable named PYO_SERVER_WINHOST to set this value globally. midi: string {'portmidi', 'pm', 'jack'}, optional Midi backend to use. 'pm' is equivalent to 'portmidi'. Default is 'portmidi'. If 'jack' is selected but jackd is not already started when the program is executed, pyo will ask jack to start in the background. Note that pyo never ask jack to close. It is the user's responsability to manage the audio/midi configuration of its system. User can set an environment variable named PYO_SERVER_MIDI to set this value globally. verbosity: int, optional Set the server's verbosity. .. note:: The following methods must be called **before** booting the server - setInOutDevice(x): Set both input and output devices. See `pa_list_devices()`. - setInputDevice(x): Set the audio input device number. See `pa_list_devices()`. - setOutputDevice(x): Set the audio output device number. See `pa_list_devices()`. - setInputOffset(x): Set the first physical input channel. - setOutputOffset(x): Set the first physical output channel. - setInOutOffset(x): Set the first physical input and output channels. - setMidiInputDevice(x): Set the MIDI input device number. See `pm_list_devices()`. - setMidiOutputDevice(x): Set the MIDI output device number. See `pm_list_devices()`. - setSamplingRate(x): Set the sampling rate used by the server. - setBufferSize(x): Set the buffer size used by the server. - setNchnls(x): Set the number of output (and input if `ichnls` = None) channels used by the server. - setIchnls(x): Set the number of input channels (if different of output channels) used by the server. - setDuplex(x): Set the duplex mode used by the server. - setVerbosity(x): Set the server's verbosity. - reinit(sr, nchnls, buffersize, duplex, audio, jackname): Reinit the server's settings. - deactivateMidi(): Deactivate Midi callback. - setIsJackTransportSlave(x): Set if pyo's server is slave to jack transport or not. - allowMicrosoftMidiDevices(): Allows the Microsoft Midi Mapper or GS Wavetable Synth devices. >>> # For an 8 channels server in duplex mode with >>> # a sampling rate of 48000 Hz and buffer size of 512 >>> s = Server(sr=48000, nchnls=8, buffersize=512, duplex=1).boot() >>> s.start() """ def __init__( self, sr=44100, nchnls=2, buffersize=256, duplex=1, audio="portaudio", jackname="pyo", ichnls=None, winhost="directsound", midi="portmidi", verbosity=7, ): if "PYO_SERVER_AUDIO" in os.environ and audio not in ["offline", "offline_nb", "embedded", "manual"]: audio = os.environ["PYO_SERVER_AUDIO"] if "PYO_SERVER_MIDI" in os.environ: midi = os.environ["PYO_SERVER_MIDI"] if "PYO_SERVER_WINHOST" in os.environ: winhost = os.environ["PYO_SERVER_WINHOST"] self._time = time self._nchnls = nchnls if ichnls is None: self._ichnls = nchnls else: self._ichnls = ichnls self._audio = audio self._winhost = winhost self._amp = 1.0 self._verbosity = verbosity self._startoffset = 0 self._dur = -1 self._filename = None self._fileformat = 0 self._sampletype = 0 self._globalseed = 0 self._resampling = 1 self._isJackTransportSlave = False self._server = Server_base(sr, nchnls, buffersize, duplex, audio, jackname, self._ichnls, midi, self._verbosity) self._server._setDefaultRecPath(os.path.join(os.path.expanduser("~"), "pyo_rec.wav")) if sys.platform.startswith("win"): host_default_in, host_default_out = pa_get_default_devices_from_host(winhost) self._server.setInputDevice(host_default_in) self._server.setOutputDevice(host_default_out) def __del__(self): self.setTime = None self.setRms = None if self.getIsBooted(): if self.getIsStarted(): self.stop() if self._audio not in ["offline", "offline_nb", "embedded", "manual"]: self._time.sleep(0.25) self.shutdown() if self._audio not in ["offline", "offline_nb", "embedded", "manual"]: self._time.sleep(0.25) def reinit( self, sr=44100, nchnls=2, buffersize=256, duplex=1, audio="portaudio", jackname="pyo", ichnls=None, winhost="directsound", midi="portmidi", ): """ Reinit the server'settings. Useful to alternate between real-time and offline server. :Args: Same as in the __init__ method. """ if "PYO_SERVER_AUDIO" in os.environ and audio not in ["offline", "offline_nb", "embedded", "manual"]: audio = os.environ["PYO_SERVER_AUDIO"] if "PYO_SERVER_MIDI" in os.environ: midi = os.environ["PYO_SERVER_MIDI"] if "PYO_SERVER_WINHOST" in os.environ: winhost = os.environ["PYO_SERVER_WINHOST"] self._gui_frame = None self._nchnls = nchnls if ichnls is None: self._ichnls = nchnls else: self._ichnls = ichnls self._audio = audio self._winhost = winhost self._amp = 1.0 self._verbosity = 7 self._startoffset = 0 self._dur = -1 self._filename = None self._fileformat = 0 self._sampletype = 0 self._globalseed = 0 self._resampling = 1 self._isJackTransportSlave = False self._server.__init__(sr, nchnls, buffersize, duplex, audio, jackname, self._ichnls, midi) if sys.platform.startswith("win"): host_default_in, host_default_out = pa_get_default_devices_from_host(winhost) self._server.setInputDevice(host_default_in) self._server.setOutputDevice(host_default_out) def setCallback(self, callback): """ Register a custom process callback. The function given as argument will be called every computation block, just before the computation of the audio object tree. Inside the callback, one can process the data of a table with numpy calls for example. """ if callable(callback): self._server.setCallback(callback) def gui(self, locals=None, meter=True, timer=True, exit=True, title=None): """ Show the server's user interface. :Args: locals: locals namespace {locals(), None}, optional If locals() is given, the interface will show an interpreter extension, giving a way to interact with the running script. Defaults to None. meter: boolean, optinal If True, the interface will show a vumeter of the global output signal. Defaults to True. timer: boolean, optional If True, the interface will show a clock of the current time. Defaults to True. exit: boolean, optional If True, the python interpreter will exit when the 'Quit' button is pressed, Otherwise, the GUI will be closed leaving the interpreter alive. Defaults to True. title: str, optional Alternate title for the server window. If None (default), generic title, "Pyo Server" is used. """ self._gui_frame, win, withWX = createServerGUI( self._nchnls, self.start, self.stop, self.recstart, self.recstop, self.setAmp, self.getIsStarted(), locals, self.shutdown, meter, timer, self._amp, exit, title, self.getIsBooted, self.getIsStarted, ) if meter: self._server.setAmpCallable(self._gui_frame) if timer: self._server.setTimeCallable(self._gui_frame) if withWX: win.MainLoop() else: win.mainloop() def closeGui(self): """ Programmatically close the server's GUI. """ if self._gui_frame is not None: self._gui_frame.quit_from_code() self._gui_frame = None def setTimeCallable(self, func): """ Set a function callback that will receive the current time as argument. The function will receive four integers in this format: hours, minutes, seconds, milliseconds :Args: func: python callable Python function or method to call with current time as argument. """ self.setTime = func self._server.setTimeCallable(self) def setMeterCallable(self, func): """ Set a function callback that will receive the current rms values as argument. The function will receive a list containing the rms value for each audio channel. :Args: func: python callable Python function or method to call with current rms values as argument. """ self.setRms = func self._server.setAmpCallable(self) def setMeter(self, meter): """ Registers a meter object to the server. The object must have a method named `setRms`. This method will be called with the rms values of each audio channel as argument. :Args: meter: python object Python object with a `setRms` method. """ self._server.setAmpCallable(meter) def setInOutDevice(self, x): """ Set both input and output audio devices. See `pa_list_devices()`. :Args: x: int Number of the audio input and output devices. """ self._server.setInOutDevice(x) def setInputDevice(self, x): """ Set the audio input device number. See `pa_list_devices()`. :Args: x: int Number of the audio device listed by Portaudio. """ self._server.setInputDevice(x) def setOutputDevice(self, x): """ Set the audio output device number. See `pa_list_devices()`. :Args: x: int Number of the audio device listed by Portaudio. """ self._server.setOutputDevice(x) def setInputOffset(self, x): """ Set the first physical input channel. Channel number `x` from the soundcard will be assigned to server's channel one, channel number `x` + 1 to server's channel two and so on. :Args: x: int Channel number. """ self._server.setInputOffset(x) def setOutputOffset(self, x): """ Set the first physical output channel. Server's channel one will be assigned to soundcard's channel number `x`, server's channel two will be assigned to soundcard's channel number `x` + 1 and so on. :Args: x: int Channel number. """ self._server.setOutputOffset(x) def setInOutOffset(self, x): """ Set the first physical input and output channels. Set both offsets to the same value. See `setInputOffset` and `setOutputOffset` documentation for more details. :Args: x: int Channel number. """ self._server.setInputOffset(x) self._server.setOutputOffset(x) def setMidiInputDevice(self, x): """ Set the Midi input device number. See `pm_list_devices()`. A number greater than the highest portmidi device index will opened all available input devices. :Args: x: int Number of the Midi device listed by Portmidi. """ self._server.setMidiInputDevice(x) def setMidiOutputDevice(self, x): """ Set the Midi output device number. See `pm_list_devices()`. :Args: x: int Number of the Midi device listed by Portmidi. """ self._server.setMidiOutputDevice(x) def allowMicrosoftMidiDevices(self): """ Allows the Microsoft Midi Mapper or GS Wavetable Synth device. These are off by default because they crash on some systems. """ self._server.allowMicrosoftMidiDevices() def setSamplingRate(self, x): """ Set the sampling rate used by the server. :Args: x: int New sampling rate, must be supported by the soundcard. """ self._server.setSamplingRate(x) def setBufferSize(self, x): """ Set the buffer size used by the server. :Args: x: int New buffer size. """ self._server.setBufferSize(x) def setNchnls(self, x): """ Set the number of output (and input if `ichnls` = None) channels used by the server. :Args: x: int New number of channels. """ self._nchnls = x self._server.setNchnls(x) def setIchnls(self, x): """ Set the number of input channels (if different of output channels) used by the server. :Args: x: int New number of input channels. """ self._ichnls = x self._server.setIchnls(x) def setDuplex(self, x): """ Set the duplex mode used by the server. :Args: x: int {0 or 1} New mode. 0 is output only, 1 is both ways. """ self._server.setDuplex(x) def setVerbosity(self, x): """ Set the server's verbosity. :Args: x: int A sum of values to display different levels: - 1 = error - 2 = message - 4 = warning - 8 = debug """ self._verbosity = x self._server.setVerbosity(x) def setGlobalDur(self, x): """ Set the global object duration (time to wait before stopping the object). This value, if not 0, will override the `dur` argument of object's play() and out() methods. :Args: x: float New global duration. """ self._server.setGlobalDur(x) def setGlobalDel(self, x): """ Set the global object delay time (time to wait before activating the object). This value, if not 0, will override the `del` argument of object's play() and out() methods. :Args: x: float New global delay time. """ self._server.setGlobalDel(x) def setJackAuto(self, xin=True, xout=True): """ Tells the server to auto-connect (or not) Jack ports to System ports. :Args: xin: boolean Input Auto-connection switch. True is enabled (default) and False is disabled. xout: boolean Output Auto-connection switch. True is enabled (default) and False is disabled. """ self._server.setJackAuto(xin, xout) def setJackAutoConnectInputPorts(self, ports): """ Tells the server to auto-connect Jack input ports to pre-defined Jack ports. :Args: ports: list of list of strings Name of the Jack ports to auto-connect to pyo input channels. There must be exactly one list of port(s) for each pyo input channel. [['ports', 'to', 'channel', '1'], ['ports', 'to', 'channel', '2'], ...] """ ports, lmax = convertArgsToLists(ports) self._server.setJackAutoConnectInputPorts(ports) def setJackAutoConnectOutputPorts(self, ports): """ Tells the server to auto-connect Jack output ports to pre-defined Jack ports. :Args: ports: list of list of strings Name of the Jack ports to auto-connect to pyo output channels. There must be exactly one list of port(s) for each pyo output channel. [['ports', 'to', 'channel', '1'], ['ports', 'to', 'channel', '2'], ...] """ ports, lmax = convertArgsToLists(ports) self._server.setJackAutoConnectOutputPorts(ports) def setJackInputPortNames(self, name): """ Change the short name of pyo's input ports for the jack server. This method must be called after the server is booted. :Args: name: string or list of strings New name of input ports for the jack server. If `name` is a string, '_xxx' (where xxx is the channel number) will be added to it for each input channel. If `name` is a list of strings, They will be used as is and there must be one for each input channel. """ self._server.setJackInputPortNames(name) def setJackOutputPortNames(self, name): """ Change the short name of pyo's output ports for the jack server. This method must be called after the server is booted. :Args: name: string or list of strings New name of output ports for the jack server. If `name` is a string, '_xxx' (where xxx is the channel number) will be added to it for each output channel. If `name` is a list of strings, They will be used as is and there must be one for each output channel. """ self._server.setJackOutputPortNames(name) def setJackAutoConnectMidiInputPort(self, ports): """ Tells the server to auto-connect Jack midi input port to pre-defined Jack ports. :Args: ports: string or list of strings Name of the Jack ports to auto-connect to pyo midi input channel. ['ports', 'to', 'midi', 'input', ...] """ ports, lmax = convertArgsToLists(ports) self._server.setJackAutoConnectMidiInputPort(ports) def setJackAutoConnectMidiOutputPort(self, ports): """ Tells the server to auto-connect Jack midi output port to pre-defined Jack ports. :Args: ports: string or list of strings Name of the Jack ports to auto-connect to pyo midi output channel. ['ports', 'to', 'midi', 'output', ...] """ ports, lmax = convertArgsToLists(ports) self._server.setJackAutoConnectMidiOutputPort(ports) def setJackMidiInputPortName(self, name): """ Change the short name of pyo's midi input port for the jack server. This method must be called after the server is booted. :Args: name: string New name of midi input port for the jack server. """ self._server.setJackMidiInputPortName(name) def setJackMidiOutputPortName(self, name): """ Change the short name of pyo's midi output port for the jack server. This method must be called after the server is booted. :Args: name: string New name of midi output port for the jack server. """ self._server.setJackMidiOutputPortName(name) def setIsJackTransportSlave(self, x): """ Set if pyo's server is slave to jack transport or not. This method must be called before booting the server. :Args: x: boolean If True, the server's start and stop command will be slave to Jack transport. If False (the default) jack transport is ignored. """ self._isJackTransportSlave = x self._server.setIsJackTransportSlave(x) def setGlobalSeed(self, x): """ Set the server's global seed used by random objects. :Args: x: int A positive integer that will be used as the seed by random objects. If zero, randoms will be seeded with the system clock current value. """ self._globalseed = x self._server.setGlobalSeed(x) def setStartOffset(self, x): """ Set the server's starting time offset. First `x` seconds will be rendered offline as fast as possible. :Args: x: float Starting time of the real-time processing. """ self._startoffset = x self._server.setStartOffset(x) def setAmp(self, x): """ Set the overall amplitude. :Args: x: float New amplitude. """ self._amp = x self._server.setAmp(x) def beginResamplingBlock(self, x): """ Starts a resampling block. This factor must be a power-of-two. A positive value means upsampling and a negative value means downsampling. After this call, every PyoObject will be created with an internal sampling rate and buffer size relative to the resampling factor. The method `endResamplingBlock()` should be called at the end of the code block using the resampling factor. The `Resample` object can be used inside the resampling block to perform up or down resampling of audio signal created before the block. :Args: x: int, power-of-two Resampling factor. Must be a power-of-two. A positive value starts an upsampling block while a negative value starts a downsampling block. """ realx = x x = abs(x) if ((x & (x - 1)) == 0) and x != 0: self._resampling = realx self._server.beginResamplingBlock(realx) else: print("Resampling factor must be a power-of-two (positive or negative).") def endResamplingBlock(self): """ Ends a resampling block. This call ends a code block using a sample rate different from the current sampling rate of the system. The `Resample` object can be used after the resampling blick to perform up or down resampling of audio signal created inside the block. """ self._resampling = 1 self._server.endResamplingBlock() def shutdown(self): """ Shut down and clear the server. This method will erase all objects from the callback loop. This method need to be called before changing server's parameters like `samplingrate`, `buffersize`, `nchnls`, ... """ self._server.shutdown() def boot(self, newBuffer=True): """ Boot the server. Must be called before defining any signal processing chain. Server's parameters like `samplingrate`, `buffersize` or `nchnls` will be effective after a call to this method. :Args: newBuffer: bool Specify if the buffers need to be allocated or not. Useful to limit the allocation of new buffers when the buffer size hasn't change. Therefore, this is useful to limit calls to the Python interpreter to get the buffers addresses when using Pyo inside a C/C++ application with the embedded server. Defaults to True. """ self._server.boot(newBuffer) return self def start(self): """ Start the audio callback loop and begin processing. """ self._server.start() return self def stop(self): """ Stop the audio callback loop. """ self._server.stop() def recordOptions(self, dur=-1, filename=None, fileformat=0, sampletype=0, quality=0.4): """ Sets options for soundfile created by offline rendering or global recording. :Args: dur: float Duration, in seconds, of the recorded file. Only used by offline rendering. Must be positive. Defaults to -1. filename: string Full path of the file to create. If None, a file called `pyo_rec.wav` will be created in the user's home directory. Defaults to None. fileformat: int, optional Format type of the audio file. This function will first try to set the format from the filename extension. If it's not possible, it uses the fileformat parameter. Supported formats are: 0. WAV - Microsoft WAV format (little endian) {.wav, .wave} (default) 1. AIFF - Apple/SGI AIFF format (big endian) {.aif, .aiff} 2. AU - Sun/NeXT AU format (big endian) {.au} 3. RAW - RAW PCM data {no extension} 4. SD2 - Sound Designer 2 {.sd2} 5. FLAC - FLAC lossless file format {.flac} 6. CAF - Core Audio File format {.caf} 7. OGG - Xiph OGG container {.ogg} sampletype: int, optional Bit depth encoding of the audio file. SD2 and FLAC only support 16 or 24 bit int. Supported types are: 0. 16 bits int (default) 1. 24 bits int 2. 32 bits int 3. 32 bits float 4. 64 bits float 5. U-Law encoded 6. A-Law encoded quality: float, optional The encoding quality value, between 0.0 (lowest quality) and 1.0 (highest quality). This argument has an effect only with FLAC and OGG compressed formats. Defaults to 0.4. """ self._dur = dur if filename is None: filename = os.path.join(os.path.expanduser("~"), "pyo_rec.wav") self._filename = filename ext = filename.rsplit(".") if len(ext) >= 2: ext = ext[-1].lower() if ext in FILE_FORMATS: fileformat = FILE_FORMATS[ext] else: print("Warning: Unknown file extension. Using fileformat value.") else: print("Warning: Filename has no extension. Using fileformat value.") self._fileformat = fileformat self._sampletype = sampletype self._server.recordOptions(dur, filename, fileformat, sampletype, quality) def recstart(self, filename=None): """ Begins a default recording of the sound that is sent to the soundcard. This will create a file called `pyo_rec.wav` in the user's home directory if no path is supplied or defined with recordOptions method. Uses file format and sample type defined with recordOptions method. :Args: filename: string, optional Name of the file to be created. Defaults to None. """ if filename is None: if self._filename is not None: filename = self._filename else: filename = os.path.join(os.path.expanduser("~"), "pyo_rec.wav") ext = filename.rsplit(".") if len(ext) >= 2: ext = ext[-1].lower() if ext in FILE_FORMATS: fileformat = FILE_FORMATS[ext] if fileformat != self._fileformat: self._fileformat = fileformat self._server.recordOptions(self._dur, filename, self._fileformat, self._sampletype) self._server.recstart(stringencode(filename)) def recstop(self): """ Stop the previously started recording. """ self._server.recstop() def noteout(self, pitch, velocity, channel=0, timestamp=0): """ Send a MIDI note message to the selected midi output device. Arguments can be list of values to generate multiple events in one call. :Args: pitch: int Midi pitch, between 0 and 127. velocity: int Amplitude of the note, between 0 and 127. A note with a velocity of 0 is equivalent to a note off. channel: int, optional The Midi channel, between 1 and 16, on which the note is sent. A channel of 0 means all channels. Defaults to 0. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the note now. Defaults to 0. """ pitch, velocity, channel, timestamp, lmax = convertArgsToLists(pitch, velocity, channel, timestamp) [ self._server.noteout(wrap(pitch, i), wrap(velocity, i), wrap(channel, i), wrap(timestamp, i)) for i in range(lmax) ] def afterout(self, pitch, velocity, channel=0, timestamp=0): """ Send an aftertouch message to the selected midi output device. Arguments can be list of values to generate multiple events in one call. :Args: pitch: int Midi key pressed down, between 0 and 127. velocity: int Velocity of the pressure, between 0 and 127. channel: int, optional The Midi channel, between 1 and 16, on which the note is sent. A channel of 0 means all channels. Defaults to 0. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the note now. Defaults to 0. """ pitch, velocity, channel, timestamp, lmax = convertArgsToLists(pitch, velocity, channel, timestamp) [ self._server.afterout(wrap(pitch, i), wrap(velocity, i), wrap(channel, i), wrap(timestamp, i)) for i in range(lmax) ] def ctlout(self, ctlnum, value, channel=0, timestamp=0): """ Send a control change message to the selected midi output device. Arguments can be list of values to generate multiple events in one call. :Args: ctlnum: int Controller number, between 0 and 127. value: int Value of the controller, between 0 and 127. channel: int, optional The Midi channel, between 1 and 16, on which the message is sent. A channel of 0 means all channels. Defaults to 0. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the note now. Defaults to 0. """ ctlnum, value, channel, timestamp, lmax = convertArgsToLists(ctlnum, value, channel, timestamp) [ self._server.ctlout(wrap(ctlnum, i), wrap(value, i), wrap(channel, i), wrap(timestamp, i)) for i in range(lmax) ] def programout(self, value, channel=0, timestamp=0): """ Send a program change message to the selected midi output device. Arguments can be list of values to generate multiple events in one call. :Args: value: int New program number, between 0 and 127. channel: int, optional The Midi channel, between 1 and 16, on which the message is sent. A channel of 0 means all channels. Defaults to 0. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the note now. Defaults to 0. """ value, channel, timestamp, lmax = convertArgsToLists(value, channel, timestamp) [self._server.programout(wrap(value, i), wrap(channel, i), wrap(timestamp, i)) for i in range(lmax)] def pressout(self, value, channel=0, timestamp=0): """ Send a channel pressure message to the selected midi output device. Arguments can be list of values to generate multiple events in one call. :Args: value: int Single greatest pressure value, between 0 and 127. channel: int, optional The Midi channel, between 1 and 16, on which the message is sent. A channel of 0 means all channels. Defaults to 0. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the note now. Defaults to 0. """ value, channel, timestamp, lmax = convertArgsToLists(value, channel, timestamp) [self._server.pressout(wrap(value, i), wrap(channel, i), wrap(timestamp, i)) for i in range(lmax)] def bendout(self, value, channel=0, timestamp=0): """ Send a pitch bend message to the selected midi output device. Arguments can be list of values to generate multiple events in one call. :Args: value: int 14 bits pitch bend value. 8192 is where there is no bending, 0 is full down and 16383 is full up bending. channel: int, optional The Midi channel, between 1 and 16, on which the message is sent. A channel of 0 means all channels. Defaults to 0. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the note now. Defaults to 0. """ value, channel, timestamp, lmax = convertArgsToLists(value, channel, timestamp) [self._server.bendout(wrap(value, i), wrap(channel, i), wrap(timestamp, i)) for i in range(lmax)] def sysexout(self, msg, timestamp=0): """ Send a system exclusive message to the selected midi output device. Arguments can be list of values/messages to generate multiple events in one call. Implemented only for portmidi, this method is not available when using jack as the midi backend. :Args: msg: str A valid system exclusive message as a string. The first byte must be 0xf0 and the last one must be 0xf7. timestamp: int, optional The delay time, in milliseconds, before the message is sent to the output midi stream. A value of 0 means to play the message now. Defaults to 0. """ msg, timestamp, lmax = convertArgsToLists(msg, timestamp) [self._server.sysexout(wrap(msg, i), wrap(timestamp, i)) for i in range(lmax)] def makenote(self, pitch, velocity, duration, channel=0): """ Send MIDI noteon/noteoff messages to the selected midi output device. This method will send a noteon message to the selected midi output device and after a delay of `duration` milliseconds, it will send the corresponding noteoff message. Arguments can be list of values to generate multiple events in one call. :Args: pitch: int Midi pitch, between 0 and 127. velocity: int Amplitude of the note, between 0 and 127. A note with a velocity of 0 is equivalent to a note off. duration: int The delay time, in milliseconds, before the noteoff message is sent to the output midi stream. channel: int, optional The Midi channel, between 1 and 16, on which the note is sent. A channel of 0 means all channels. Defaults to 0. """ pitch, velocity, duration, channel, lmax = convertArgsToLists(pitch, velocity, duration, channel) [ self._server.makenote(wrap(pitch, i), wrap(velocity, i), wrap(duration, i), wrap(channel, i)) for i in range(lmax) ] def addMidiEvent(self, status, data1=0, data2=0): """ Add a MIDI event in the server processing loop. This method can be used to programmatically simulate incoming MIDI events. In an embedded framework (ie. pyo inside puredata, openframeworks, etc.), this is useful to control a MIDI-driven script from the host program. Arguments can be list of values to generate multiple events in one call. The MIDI event buffer is emptied at the end of each processing block. So, for events to be processed, addMidiEvent should be called at the beginning of the block. If you use audio objects to generate MIDI events, they should be created before the rest of the processing chain. :Args: status: int The status byte, indicating the type of event and the MIDI channel. Typical event type are: - 128 -> 143: Noteoff - 144 -> 159: Noteon - 176 -> 191: Control change - 192 -> 207: Program change - 208 -> 223: After touch - 224 -> 239: Pitch bend data1: int, optional The first data byte (pitch for a midi note, controller number for a control change). Defaults to 0. data2: int, optional The second data byte (velocity for a midi note, value for a control change). Defaults to 0. """ status, data1, data2, lmax = convertArgsToLists(status, data1, data2) [self._server.addMidiEvent(wrap(status, i), wrap(data1, i), wrap(data2, i)) for i in range(lmax)] def getStreams(self): """ Return the list of streams loaded in the server. """ return self._server.getStreams() def getSamplingRate(self): """ Return the current sampling rate. """ return self._server.getSamplingRate() def getNchnls(self): """ Return the current number of channels. """ return self._server.getNchnls() def getBufferSize(self): """ Return the current buffer size. """ return self._server.getBufferSize() def getGlobalDur(self): """ Return the current global duration. """ return self._server.getGlobalDur() def getGlobalDel(self): """ Return the current global delay time. """ return self._server.getGlobalDel() def getGlobalSeed(self): """ Return the current global seed. """ return self._server.getGlobalSeed() def getIsStarted(self): """ Returns 1 if the server is started, otherwise returns 0. """ return self._server.getIsStarted() def getIsBooted(self): """ Returns 1 if the server is booted, otherwise returns 0. """ return self._server.getIsBooted() def deactivateMidi(self): """ Deactivate Midi callback. Must be called before the boot() method. """ self._server.deactivateMidi() def getMidiActive(self): """ Returns 1 if Midi callback is active, otherwise returns 0. """ return self._server.getMidiActive() def getStreams(self): """ Returns the list of Stream objects currently in the Server memory. """ return self._server.getStreams() def getNumberOfStreams(self): """ Returns the number of streams currently in the Server memory. """ return len(self._server.getStreams()) def setServer(self): """ Sets this server as the one to use for new objects when using the embedded device. """ return self._server.setServer() def getInputAddr(self): """ Return the address of the input buffer. """ return self._server.getInputAddr() def getOutputAddr(self): """ Return the address of the output buffer. """ return self._server.getOutputAddr() def getServerID(self): """ Return the server ID. """ return self._server.getServerID() def getServerAddr(self): """ Return the address of the server. """ return self._server.getServerAddr() def getEmbedICallbackAddr(self): """ Return the address of the interleaved embedded callback function. """ return self._server.getEmbedICallbackAddr() def getCurrentTime(self): """ Return the current time as a formatted string. """ return self._server.getCurrentTime() def getCurrentTimeInSamples(self): """ Return the current time in number of elapsed samples since the server was started. """ return self._server.getCurrentTimeInSamples() def getCurrentAmp(self): """ Return the current amplitudes as a tuple of `nchnls` length. """ return self._server.getCurrentAmp() def setAutoStartChildren(self, state): """ Giving True to this method tells pyo that a call to the `play`, `out` or `stop` method of audio objects should propagate to the other audio objects given as arguments. This can be used to control an entire dsp chain just by calling methods on the very last object. With setAutoStartChildren(True), a call to the `out` method will automatically triggers the `play` method of the Fader object given as `mul` argument. >>> a = RCOsc(freq=150, mul=Fader(1, 1, mul=.3)).out() With setAutoStartChildren(True), a call to the `stop` method will also propagate to audio objects given as arguments. The `stop` method has an argument `wait`, useful to postpone the moment when to really stop the process. The `waiting value is also propagated to the other audio objects, but not for the objects assigned to a `mul` argument. This property allows to do things like the next snippet. On a call `a.stop(1)` , while the Linseg assigned to the frequency waits for 1 second before actually stopping its process, the Fader assigned to the `mul` argument starts its fadeout immediately. >>> freq = Linseg([(0,500),(1, 750),(2, 500)], loop=True) >>> a = Sine(freq=freq, mul=Fader(1, 1, mul=.2)).out() Sometime, we still want the process assigned to a `mul` attribute to wait before stopping its process. See the next case. The amplitude envelope is itself modulated in amplitude by another envelope. We still want the fadeout to start immediately, but its own envelope has to wait, otherwise, the amplitude will cut off before having the time to complete the fadeout. To do this, we call `useWaitTimeOnStop()` on the object we want to force to wait. >>> lf = Linseg([(0,0),(0.2,0.1),(0.4,0)], loop=True) >>> lf.useWaitTimeOnStop() >>> freq = Linseg([(0,500),(1, 750),(2, 500)], loop=True) >>> a = Sine(freq=freq, mul=Fader(1, 1, mul=lf)).out() .. Note:: The waiting time doesn't propagate to objects used in audio arithmetic. Code like this (for which you want to call out.stop()): >>> a = Sine(500) >>> a.setStopDelay(1) >>> b = Sine(750) >>> b.setStopDelay(2) >>> out = Freeverb(a+b, size=0.8, mul=0.3).out() >>> out.setStopDelay(4) Should be written as: >>> a = Sine(500) >>> a.setStopDelay(1) >>> b = Sine(750) >>> b.setStopDelay(2) >>> c = Mix([a, b], voices=1) >>> c.setStopDelay(2) >>> out = Freeverb(c, size=0.8, mul=0.3).out() >>> out.setStopDelay(4) """ self._server.setAutoStartChildren(state) def process(self): """ Tell the server to compute a single buffer size of audio samples. The audio backend of the server must be set to `manual` to use this method. It's probably only useful in the context of internal testing. """ self._server.process() @property def amp(self): """float. Overall amplitude.""" return self._amp @amp.setter def amp(self, x): self.setAmp(x) @property def startoffset(self): """float. Starting time of the real-time processing.""" return self._startoffset @startoffset.setter def startoffset(self, x): self.setStartOffset(x) @property def verbosity(self): """int. Server verbosity.""" return self._verbosity @verbosity.setter def verbosity(self, x): if type(x) == int: self.setVerbosity(x) else: raise Exception("verbosity must be an integer") @property def globalseed(self): """int. Server global seed.""" return self._globalseed @globalseed.setter def globalseed(self, x): if type(x) == int: self.setGlobalSeed(x) else: raise Exception("global seed must be an integer")