/usr/lib/python2.7/dist-packages/pyolib/controls.py is in python-pyo 0.8.8-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Objects designed to create parameter's control at audio rate.
These objects can be used to create envelopes, line segments
and conversion from python number to audio signal.
The audio streams of these objects can't be sent to the output
soundcard.
"""
from __future__ import absolute_import
"""
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 <http://www.gnu.org/licenses/>.
"""
import sys
from ._core import *
from ._maps import *
from ._widgets import createGraphWindow
######################################################################
### Controls
######################################################################
class Fader(PyoObject):
"""
Fadein - fadeout envelope generator.
Generate an amplitude envelope between 0 and 1 with control on fade
times and total duration of the envelope.
The play() method starts the envelope and is not called at the
object creation time.
:Parent: :py:class:`PyoObject`
:Args:
fadein: float, optional
Rising time of the envelope in seconds. Defaults to 0.01.
fadeout: float, optional
Falling time of the envelope in seconds. Defaults to 0.1.
dur: float, optional
Total duration of the envelope. Defaults to 0, which means wait
for the stop() method to start the fadeout.
.. note::
The out() method is bypassed. Fader's signal can not be sent to audio outs.
The play() method starts the envelope.
The stop() method calls the envelope's release phase if `dur` = 0.
As of version 0.8.0, exponential or logarithmic envelopes can be created
with the exponent factor (see setExp() method).
>>> s = Server().boot()
>>> s.start()
>>> f = Fader(fadein=0.5, fadeout=0.5, dur=2, mul=.5)
>>> a = BrownNoise(mul=f).mix(2).out()
>>> def repeat():
... f.play()
>>> pat = Pattern(function=repeat, time=2).play()
"""
def __init__(self, fadein=0.01, fadeout=0.1, dur=0, mul=1, add=0):
pyoArgsAssert(self, "nnnOO", fadein, fadeout, dur, mul, add)
PyoObject.__init__(self, mul, add)
self._fadein = fadein
self._fadeout = fadeout
self._dur = dur
self._exp = 1.0
fadein, fadeout, dur, mul, add, lmax = convertArgsToLists(fadein, fadeout, dur, mul, add)
self._base_objs = [Fader_base(wrap(fadein,i), wrap(fadeout,i), wrap(dur,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
def setFadein(self, x):
"""
Replace the `fadein` attribute.
:Args:
x: float
new `fadein` attribute.
"""
pyoArgsAssert(self, "n", x)
self._fadein = x
x, lmax = convertArgsToLists(x)
[obj.setFadein(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setFadeout(self, x):
"""
Replace the `fadeout` attribute.
:Args:
x: float
new `fadeout` attribute.
"""
pyoArgsAssert(self, "n", x)
self._fadeout = x
x, lmax = convertArgsToLists(x)
[obj.setFadeout(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setDur(self, x):
"""
Replace the `dur` attribute.
:Args:
x: float
new `dur` attribute.
"""
pyoArgsAssert(self, "n", x)
self._dur = x
x, lmax = convertArgsToLists(x)
[obj.setDur(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setExp(self, x):
"""
Sets an exponent factor to create exponential or logarithmic envelope.
The default value is 1.0, which means linear segments. A value
higher than 1.0 will produce exponential segments while a value
between 0 and 1 will produce logarithmic segments. Must be > 0.0.
:Args:
x: float
new `exp` attribute.
"""
pyoArgsAssert(self, "n", x)
self._exp = x
x, lmax = convertArgsToLists(x)
[obj.setExp(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def ctrl(self, map_list=None, title=None, wxnoserver=False):
self._map_list = [SLMap(0, 10., 'lin', 'fadein', self._fadein, dataOnly=True),
SLMap(0, 10., 'lin', 'fadeout', self._fadeout, dataOnly=True),
SLMap(0, 20., 'lin', 'dur', self._dur, dataOnly=True)]
PyoObject.ctrl(self, map_list, title, wxnoserver)
@property
def fadein(self):
"""float. Rising time of the envelope in seconds."""
return self._fadein
@fadein.setter
def fadein(self, x): self.setFadein(x)
@property
def fadeout(self):
"""float. Falling time of the envelope in seconds."""
return self._fadeout
@fadeout.setter
def fadeout(self, x): self.setFadeout(x)
@property
def dur(self):
"""float. Total duration of the envelope."""
return self._dur
@dur.setter
def dur(self, x): self.setDur(x)
@property
def exp(self):
"""float. Exponent factor of the envelope."""
return self._exp
@exp.setter
def exp(self, x): self.setExp(x)
class Adsr(PyoObject):
"""
Attack - Decay - Sustain - Release envelope generator.
Calculates the classical ADSR envelope using linear segments.
Duration can be set to 0 to give an infinite sustain. In this
case, the stop() method calls the envelope release part.
The play() method starts the envelope and is not called at the
object creation time.
:Parent: :py:class:`PyoObject`
:Args:
attack: float, optional
Duration of the attack phase in seconds. Defaults to 0.01.
decay: float, optional
Duration of the decay in seconds. Defaults to 0.05.
sustain: float, optional
Amplitude of the sustain phase. Defaults to 0.707.
release: float, optional
Duration of the release in seconds. Defaults to 0.1.
dur: float, optional
Total duration of the envelope. Defaults to 0, which means wait
for the stop() method to start the release phase.
.. note::
The out() method is bypassed. Adsr's signal can not be sent to audio outs.
The play() method starts the envelope.
The stop() method calls the envelope's release phase if `dur` = 0.
As of version 0.8.0, exponential or logarithmic envelopes can be created
with the exponent factor (see setExp() method).
>>> s = Server().boot()
>>> s.start()
>>> f = Adsr(attack=.01, decay=.2, sustain=.5, release=.1, dur=2, mul=.5)
>>> a = BrownNoise(mul=f).mix(2).out()
>>> def repeat():
... f.play()
>>> pat = Pattern(function=repeat, time=2).play()
"""
def __init__(self, attack=0.01, decay=0.05, sustain=0.707, release=0.1, dur=0, mul=1, add=0):
pyoArgsAssert(self, "nnnnnOO", attack, decay, sustain, release, dur, mul, add)
PyoObject.__init__(self, mul, add)
self._attack = attack
self._decay = decay
self._sustain = sustain
self._release = release
self._dur = dur
self._exp = 1.0
attack, decay, sustain, release, dur, mul, add, lmax = convertArgsToLists(attack, decay, sustain, release, dur, mul, add)
self._base_objs = [Adsr_base(wrap(attack,i), wrap(decay,i), wrap(sustain,i), wrap(release,i), wrap(dur,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
def setAttack(self, x):
"""
Replace the `attack` attribute.
:Args:
x: float
new `attack` attribute.
"""
pyoArgsAssert(self, "n", x)
self._attack = x
x, lmax = convertArgsToLists(x)
[obj.setAttack(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setDecay(self, x):
"""
Replace the `decay` attribute.
:Args:
x: float
new `decay` attribute.
"""
pyoArgsAssert(self, "n", x)
self._decay = x
x, lmax = convertArgsToLists(x)
[obj.setDecay(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setSustain(self, x):
"""
Replace the `sustain` attribute.
:Args:
x: float
new `sustain` attribute.
"""
pyoArgsAssert(self, "n", x)
self._sustain = x
x, lmax = convertArgsToLists(x)
[obj.setSustain(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setRelease(self, x):
"""
Replace the `sustain` attribute.
:Args:
x: float
new `sustain` attribute.
"""
pyoArgsAssert(self, "n", x)
self._release = x
x, lmax = convertArgsToLists(x)
[obj.setRelease(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setDur(self, x):
"""
Replace the `dur` attribute.
:Args:
x: float
new `dur` attribute.
"""
pyoArgsAssert(self, "n", x)
self._dur = x
x, lmax = convertArgsToLists(x)
[obj.setDur(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setExp(self, x):
"""
Sets an exponent factor to create exponential or logarithmic envelope.
The default value is 1.0, which means linear segments. A value
higher than 1.0 will produce exponential segments while a value
between 0 and 1 will produce logarithmic segments. Must be > 0.0.
:Args:
x: float
new `exp` attribute.
"""
pyoArgsAssert(self, "n", x)
self._exp = x
x, lmax = convertArgsToLists(x)
[obj.setExp(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def ctrl(self, map_list=None, title=None, wxnoserver=False):
self._map_list = [SLMap(0, 5, 'lin', 'attack', self._attack, dataOnly=True),
SLMap(0, 5, 'lin', 'decay', self._decay, dataOnly=True),
SLMap(0, 1, 'lin', 'sustain', self._sustain, dataOnly=True),
SLMap(0, 10, 'lin', 'release', self._release, dataOnly=True),
SLMap(0, 20., 'lin', 'dur', self._dur, dataOnly=True)]
PyoObject.ctrl(self, map_list, title, wxnoserver)
@property
def attack(self):
"""float. Duration of the attack phase in seconds."""
return self._attack
@attack.setter
def attack(self, x): self.setAttack(x)
@property
def decay(self):
"""float. Duration of the decay phase in seconds."""
return self._decay
@decay.setter
def decay(self, x): self.setDecay(x)
@property
def sustain(self):
"""float. Amplitude of the sustain phase."""
return self._sustain
@sustain.setter
def sustain(self, x): self.setSustain(x)
@property
def release(self):
"""float. Duration of the release phase in seconds."""
return self._release
@release.setter
def release(self, x): self.setRelease(x)
@property
def dur(self):
"""float. Total duration of the envelope."""
return self._dur
@dur.setter
def dur(self, x): self.setDur(x)
@property
def exp(self):
"""float. Exponent factor of the envelope."""
return self._exp
@exp.setter
def exp(self, x): self.setExp(x)
class Linseg(PyoObject):
"""
Draw a series of line segments between specified break-points.
The play() method starts the envelope and is not called at the
object creation time.
:Parent: :py:class:`PyoObject`
:Args:
list: list of tuples
Points used to construct the line segments. Each tuple is a
new point in the form (time, value).
Times are given in seconds and must be in increasing order.
loop: boolean, optional
Looping mode. Defaults to False.
initToFirstVal: boolean, optional
If True, audio buffer will be filled at initialization with the
first value of the line. Defaults to False.
.. note::
The out() method is bypassed. Linseg's signal can not be sent to audio outs.
>>> s = Server().boot()
>>> s.start()
>>> l = Linseg([(0,500),(.03,1000),(.1,700),(1,500),(2,500)], loop=True)
>>> a = Sine(freq=l, mul=.3).mix(2).out()
>>> # then call:
>>> l.play()
"""
def __init__(self, list, loop=False, initToFirstVal=False, mul=1, add=0):
pyoArgsAssert(self, "lbbOO", list, loop, initToFirstVal, mul, add)
PyoObject.__init__(self, mul, add)
self._list = list
self._loop = loop
initToFirstVal, loop, mul, add, lmax = convertArgsToLists(initToFirstVal, loop, mul, add)
if type(list[0]) != list:
self._base_objs = [Linseg_base(list, wrap(loop,i), wrap(initToFirstVal,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
else:
listlen = len(list)
lmax = max(listlen, lmax)
self._base_objs = [Linseg_base(wrap(list,i), wrap(loop,i), wrap(initToFirstVal,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
def setList(self, x):
"""
Replace the `list` attribute.
:Args:
x: list of tuples
new `list` attribute.
"""
pyoArgsAssert(self, "l", x)
self._list = x
if type(x[0]) != list:
[obj.setList(x) for i, obj in enumerate(self._base_objs)]
else:
[obj.setList(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def replace(self, x):
"""
Alias for `setList` method.
:Args:
x: list of tuples
new `list` attribute.
"""
self.setList(x)
def getPoints(self):
return self._list
def setLoop(self, x):
"""
Replace the `loop` attribute.
:Args:
x: boolean
new `loop` attribute.
"""
pyoArgsAssert(self, "b", x)
self._loop = x
x, lmax = convertArgsToLists(x)
[obj.setLoop(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def pause(self):
"""
Toggles between play and stop mode without reset.
"""
[obj.pause() for obj in self._base_objs]
def graph(self, xlen=None, yrange=None, title=None, wxnoserver=False):
"""
Opens a grapher window to control the shape of the envelope.
When editing the grapher with the mouse, the new set of points
will be send to the object on mouse up.
Ctrl+C with focus on the grapher will copy the list of points to the
clipboard, giving an easy way to insert the new shape in a script.
:Args:
xlen: float, optional
Set the maximum value of the X axis of the graph. If None, the
maximum value is retrieve from the current list of points.
yrange: tuple, optional
Set the min and max values of the Y axis of the graph. If
None, min and max are retrieve from the current list of points.
title: string, optional
Title of the window. If none is provided, the name of the
class is used.
wxnoserver: boolean, optional
With wxPython graphical toolkit, if True, tells the
interpreter that there will be no server window.
If `wxnoserver` is set to True, the interpreter will not wait for the
server GUI before showing the controller window.
"""
if xlen is None:
xlen = float(self._list[-1][0])
else:
xlen = float(xlen)
if yrange is None:
ymin = float(min([x[1] for x in self._list]))
ymax = float(max([x[1] for x in self._list]))
if ymin == ymax:
yrange = (0, ymax)
else:
yrange = (ymin, ymax)
createGraphWindow(self, 0, xlen, yrange, title, wxnoserver)
@property
def list(self):
"""float. List of points (time, value)."""
return self._list
@list.setter
def list(self, x): self.setList(x)
@property
def loop(self):
"""boolean. Looping mode."""
return self._loop
@loop.setter
def loop(self, x): self.setLoop(x)
class Expseg(PyoObject):
"""
Draw a series of exponential segments between specified break-points.
The play() method starts the envelope and is not called at the
object creation time.
:Parent: :py:class:`PyoObject`
:Args:
list: list of tuples
Points used to construct the line segments. Each tuple is a
new point in the form (time, value).
Times are given in seconds and must be in increasing order.
loop: boolean, optional
Looping mode. Defaults to False.
exp: float, optional
Exponent factor. Used to control the slope of the curves.
Defaults to 10.
inverse: boolean, optional
If True, downward slope will be inversed. Useful to create
biexponential curves. Defaults to True.
initToFirstVal: boolean, optional
If True, audio buffer will be filled at initialization with the
first value of the line. Defaults to False.
.. note::
The out() method is bypassed. Expseg's signal can not be sent to audio outs.
>>> s = Server().boot()
>>> s.start()
>>> l = Expseg([(0,500),(.03,1000),(.1,700),(1,500),(2,500)], loop=True)
>>> a = Sine(freq=l, mul=.3).mix(2).out()
>>> # then call:
>>> l.play()
"""
def __init__(self, list, loop=False, exp=10, inverse=True, initToFirstVal=False, mul=1, add=0):
pyoArgsAssert(self, "lbnbbOO", list, loop, exp, inverse, initToFirstVal, mul, add)
PyoObject.__init__(self, mul, add)
self._list = list
self._loop = loop
self._exp = exp
self._inverse = inverse
loop, exp, inverse, initToFirstVal, mul, add, lmax = convertArgsToLists(loop, exp, inverse, initToFirstVal, mul, add)
if type(list[0]) != list:
self._base_objs = [Expseg_base(list, wrap(loop,i), wrap(exp,i), wrap(inverse,i), wrap(initToFirstVal,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
else:
listlen = len(list)
lmax = max(listlen, lmax)
self._base_objs = [Expseg_base(wrap(list,i), wrap(loop,i), wrap(exp,i), wrap(inverse,i), wrap(initToFirstVal,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
def setList(self, x):
"""
Replace the `list` attribute.
:Args:
x: list of tuples
new `list` attribute.
"""
pyoArgsAssert(self, "l", x)
self._list = x
if type(x[0]) != list:
[obj.setList(x) for i, obj in enumerate(self._base_objs)]
else:
[obj.setList(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setLoop(self, x):
"""
Replace the `loop` attribute.
:Args:
x: boolean
new `loop` attribute.
"""
pyoArgsAssert(self, "b", x)
self._loop = x
x, lmax = convertArgsToLists(x)
[obj.setLoop(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setExp(self, x):
"""
Replace the `exp` attribute.
:Args:
x: float
new `exp` attribute.
"""
pyoArgsAssert(self, "n", x)
self._exp = x
x, lmax = convertArgsToLists(x)
[obj.setExp(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setInverse(self, x):
"""
Replace the `inverse` attribute.
:Args:
x: boolean
new `inverse` attribute.
"""
pyoArgsAssert(self, "b", x)
self._inverse = x
x, lmax = convertArgsToLists(x)
[obj.setInverse(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def replace(self, x):
"""
Alias for `setList` method.
:Args:
x: list of tuples
new `list` attribute.
"""
self.setList(x)
def pause(self):
"""
Toggles between play and stop mode without reset.
"""
[obj.pause() for obj in self._base_objs]
def getPoints(self):
return self._list
def graph(self, xlen=None, yrange=None, title=None, wxnoserver=False):
"""
Opens a grapher window to control the shape of the envelope.
When editing the grapher with the mouse, the new set of points
will be send to the object on mouse up.
Ctrl+C with focus on the grapher will copy the list of points to the
clipboard, giving an easy way to insert the new shape in a script.
:Args:
xlen: float, optional
Set the maximum value of the X axis of the graph. If None, the
maximum value is retrieve from the current list of points.
Defaults to None.
yrange: tuple, optional
Set the min and max values of the Y axis of the graph. If
None, min and max are retrieve from the current list of points.
Defaults to None.
title: string, optional
Title of the window. If none is provided, the name of the
class is used.
wxnoserver: boolean, optional
With wxPython graphical toolkit, if True, tells the
interpreter that there will be no server window.
If `wxnoserver` is set to True, the interpreter will not wait for the
server GUI before showing the controller window.
"""
if xlen is None:
xlen = float(self._list[-1][0])
else:
xlen = float(xlen)
if yrange is None:
ymin = float(min([x[1] for x in self._list]))
ymax = float(max([x[1] for x in self._list]))
if ymin == ymax:
yrange = (0, ymax)
else:
yrange = (ymin, ymax)
createGraphWindow(self, 2, xlen, yrange, title, wxnoserver)
@property
def list(self):
"""float. List of points (time, value)."""
return self._list
@list.setter
def list(self, x): self.setList(x)
@property
def loop(self):
"""boolean. Looping mode."""
return self._loop
@loop.setter
def loop(self, x): self.setLoop(x)
@property
def exp(self):
"""float. Exponent factor."""
return self._exp
@exp.setter
def exp(self, x): self.setExp(x)
@property
def inverse(self):
"""boolean. Inverse downward slope."""
return self._inverse
@inverse.setter
def inverse(self, x): self.setInverse(x)
class SigTo(PyoObject):
"""
Convert numeric value to PyoObject signal with portamento.
When `value` is changed, a ramp is applied from the current
value to the new value. Can be used with PyoObject to apply
a linear portamento on an audio signal.
:Parent: :py:class:`PyoObject`
:Args:
value: float or PyoObject
Numerical value to convert.
time: float or PyoObject, optional
Ramp time, in seconds, to reach the new value. Defaults to 0.025.
init: float, optional
Initial value of the internal memory. Defaults to 0.
.. note::
The out() method is bypassed. SigTo's signal can not be sent to audio outs.
>>> import random
>>> s = Server().boot()
>>> s.start()
>>> fr = SigTo(value=200, time=0.5, init=200)
>>> a = SineLoop(freq=fr, feedback=0.08, mul=.3).out()
>>> b = SineLoop(freq=fr*1.005, feedback=0.08, mul=.3).out(1)
>>> def pick_new_freq():
... fr.value = random.randrange(200,501,50)
>>> pat = Pattern(function=pick_new_freq, time=1).play()
"""
def __init__(self, value, time=0.025, init=0.0, mul=1, add=0):
pyoArgsAssert(self, "OOnOO", value, time, init, mul, add)
PyoObject.__init__(self, mul, add)
self._value = value
self._time = time
value, time, init, mul ,add, lmax = convertArgsToLists(value, time, init, mul, add)
self._base_objs = [SigTo_base(wrap(value,i), wrap(time,i), wrap(init,i), wrap(mul,i), wrap(add,i)) for i in range(lmax)]
self.play()
def setValue(self, x):
"""
Changes the value of the signal stream.
:Args:
x: float or PyoObject
Numerical value to convert.
"""
pyoArgsAssert(self, "O", x)
self._value = x
x, lmax = convertArgsToLists(x)
[obj.setValue(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def setTime(self, x):
"""
Changes the ramp time of the object.
:Args:
x: float or PyoObject
New ramp time in seconds.
"""
pyoArgsAssert(self, "O", x)
self._time = x
x, lmax = convertArgsToLists(x)
[obj.setTime(wrap(x,i)) for i, obj in enumerate(self._base_objs)]
def ctrl(self, map_list=None, title=None, wxnoserver=False):
self._map_list = [SLMap(0, 10, 'lin', 'time', self._time)]
PyoObject.ctrl(self, map_list, title, wxnoserver)
@property
def value(self):
"""float or PyoObject. Numerical value to convert."""
return self._value
@value.setter
def value(self, x): self.setValue(x)
@property
def time(self):
"""floator PyoObject. Ramp time in seconds."""
return self._time
@time.setter
def time(self, x): self.setTime(x)
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