"""
PyoObjects to perform operations on PyoMatrixObjects.
PyoMatrixObjects are 2 dimensions table containers. They can be used
to store audio samples or algorithmic sequences. Writing and reading
are done by giving row and column positions.
"""
"""
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/>.
"""
from ._core import *
from ._maps import *
[docs]class MatrixRec(PyoObject):
"""
MatrixRec records samples into a previously created NewMatrix.
See :py:class:`NewMatrix` to create an empty matrix.
The play method is not called at the object creation time. It starts
the recording into the matrix, row after row, until the matrix is full.
Calling the play method again restarts the recording and overwrites
previously recorded samples. The stop method stops the recording.
Otherwise, the default behaviour is to record through the end of the matrix.
:Parent: :py:class:`PyoObject`
:Args:
input: PyoObject
Audio signal to write in the matrix.
matrix: PyoMatrixObject
The matrix where to write samples.
fadetime: float, optional
Fade time at the beginning and the end of the recording
in seconds. Defaults to 0.
delay: int, optional
Delay time, in samples, before the recording begins.
Available at initialization time only. Defaults to 0.
.. note::
The out() method is bypassed. MatrixRec returns no signal.
MatrixRec has no `mul` and `add` attributes.
MatrixRec will send a trigger signal at the end of the recording.
User can retreive the trigger streams by calling obj['trig']. See
`TableRec` documentation for an example.
.. seealso::
:py:class:`NewMatrix`
>>> s = Server().boot()
>>> s.start()
>>> SIZE = 256
>>> mm = NewMatrix(SIZE, SIZE)
>>> fmind = Sine(.2, 0, 2, 2.5)
>>> fmrat = Sine(.33, 0, .05, .5)
>>> aa = FM(carrier=10, ratio=fmrat, index=fmind)
>>> rec = MatrixRec(aa, mm, 0).play()
>>> lfx = Sine(.1, 0, .24, .25)
>>> lfy = Sine(.15, 0, .124, .25)
>>> x = Sine([500,501], 0, lfx, .5)
>>> y = Sine([10.5,10], 0, lfy, .5)
>>> c = MatrixPointer(mm, x, y, .2).out()
"""
def __init__(self, input, matrix, fadetime=0, delay=0):
pyoArgsAssert(self, "omni", input, matrix, fadetime, delay)
PyoObject.__init__(self)
self._input = input
self._matrix = matrix
self._in_fader = InputFader(input).stop()
in_fader, matrix, fadetime, delay, lmax = convertArgsToLists(self._in_fader, matrix, fadetime, delay)
self._base_objs = [
MatrixRec_base(wrap(in_fader, i), wrap(matrix, i), wrap(fadetime, i), wrap(delay, i))
for i in range(len(matrix))
]
self._trig_objs = Dummy([TriggerDummy_base(obj) for obj in self._base_objs])
[docs] def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
[docs] def setMul(self, x):
pass
[docs] def setAdd(self, x):
pass
[docs] def setMatrix(self, x):
"""
Replace the `matrix` attribute.
:Args:
x: NewMatrix
new `matrix` attribute.
"""
pyoArgsAssert(self, "m", x)
self._matrix = x
x, lmax = convertArgsToLists(x)
[obj.setMatrix(wrap(x, i)) for i, obj in enumerate(self._base_objs)]
@property
def input(self):
"""PyoObject. Audio signal to record in the matrix."""
return self._input
@input.setter
def input(self, x):
self.setInput(x)
@property
def matrix(self):
"""PyoMatrixObject. The matrix where to write samples."""
return self._matrix
@matrix.setter
def matrix(self, x):
self.setMatrix(x)
[docs]class MatrixRecLoop(PyoObject):
"""
MatrixRecLoop records samples in loop into a previously created NewMatrix.
See :py:class:`NewMatrix` to create an empty matrix.
MatrixRecLoop records samples into the matrix, row after row, until
the matrix is full and then loop back to the beginning.
:Parent: :py:class:`PyoObject`
:Args:
input: PyoObject
Audio signal to write in the matrix.
matrix: PyoMatrixObject
The matrix where to write samples.
.. note::
The out() method is bypassed. MatrixRecLoop returns no signal.
MatrixRecLoop has no `mul` and `add` attributes.
MatrixRecLoop will send a trigger signal when reaching the end
of the matrix. User can retreive the trigger streams by calling
obj['trig']. See `TableRec` documentation for an example.
.. seealso::
:py:class:`NewMatrix`
>>> s = Server().boot()
>>> s.start()
>>> env = CosTable([(0,0), (300,1), (1000,.4), (8191,0)])
>>> matrix = NewMatrix(8192, 8)
>>> src = SfPlayer(SNDS_PATH+'/transparent.aif', loop=True, mul=.3)
>>> m_rec = MatrixRecLoop(src, matrix)
>>> period = 8192 / s.getSamplingRate()
>>> metro = Metro(time=period/2, poly=2).play()
>>> x = TrigLinseg(metro, [(0,0), (period,1)])
>>> y = TrigRandInt(metro, max=2, mul=0.125)
>>> amp = TrigEnv(metro, table=env, dur=period)
>>> out = MatrixPointer(matrix, x, y, amp).out()
"""
def __init__(self, input, matrix):
pyoArgsAssert(self, "om", input, matrix)
PyoObject.__init__(self)
self._input = input
self._matrix = matrix
self._in_fader = InputFader(input)
in_fader, matrix, lmax = convertArgsToLists(self._in_fader, matrix)
self._base_objs = [MatrixRecLoop_base(wrap(in_fader, i), wrap(matrix, i)) for i in range(len(matrix))]
self._trig_objs = Dummy([TriggerDummy_base(obj) for obj in self._base_objs])
self._init_play()
[docs] def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
[docs] def setMul(self, x):
pass
[docs] def setAdd(self, x):
pass
[docs] def setMatrix(self, x):
"""
Replace the `matrix` attribute.
:Args:
x: NewMatrix
new `matrix` attribute.
"""
pyoArgsAssert(self, "m", x)
self._matrix = x
x, lmax = convertArgsToLists(x)
[obj.setMatrix(wrap(x, i)) for i, obj in enumerate(self._base_objs)]
@property
def input(self):
"""PyoObject. Audio signal to record in the matrix."""
return self._input
@input.setter
def input(self, x):
self.setInput(x)
@property
def matrix(self):
"""PyoMatrixObject. The matrix where to write samples."""
return self._matrix
@matrix.setter
def matrix(self, x):
self.setMatrix(x)
[docs]class MatrixPointer(PyoObject):
"""
Matrix reader with control on the 2D pointer position.
:Parent: :py:class:`PyoObject`
:Args:
matrix: PyoMatrixObject
Matrix containing the waveform samples.
x: PyoObject
Normalized X position in the matrix between 0 and 1.
y: PyoObject
Normalized Y position in the matrix between 0 and 1.
>>> s = Server().boot()
>>> s.start()
>>> SIZE = 256
>>> mm = NewMatrix(SIZE, SIZE)
>>> fmind = Sine(.2, 0, 2, 2.5)
>>> fmrat = Sine(.33, 0, .05, .5)
>>> aa = FM(carrier=10, ratio=fmrat, index=fmind)
>>> rec = MatrixRec(aa, mm, 0).play()
>>> lfx = Sine(.1, 0, .24, .25)
>>> lfy = Sine(.15, 0, .124, .25)
>>> x = Sine([500,501], 0, lfx, .5)
>>> y = Sine([10.5,10], 0, lfy, .5)
>>> c = MatrixPointer(mm, x, y, .2).out()
"""
def __init__(self, matrix, x, y, mul=1, add=0):
pyoArgsAssert(self, "mooOO", matrix, x, y, mul, add)
PyoObject.__init__(self, mul, add)
self._matrix = matrix
self._x = x
self._y = y
matrix, x, y, mul, add, lmax = convertArgsToLists(matrix, x, y, mul, add)
self._base_objs = [
MatrixPointer_base(wrap(matrix, i), wrap(x, i), wrap(y, i), wrap(mul, i), wrap(add, i)) for i in range(lmax)
]
self._init_play()
[docs] def setMatrix(self, x):
"""
Replace the `matrix` attribute.
:Args:
x: PyoTableObject
new `matrix` attribute.
"""
pyoArgsAssert(self, "m", x)
self._matrix = x
x, lmax = convertArgsToLists(x)
[obj.setMatrix(wrap(x, i)) for i, obj in enumerate(self._base_objs)]
[docs] def setX(self, x):
"""
Replace the `x` attribute.
:Args:
x: PyoObject
new `x` attribute.
"""
pyoArgsAssert(self, "o", x)
self._x = x
x, lmax = convertArgsToLists(x)
[obj.setX(wrap(x, i)) for i, obj in enumerate(self._base_objs)]
[docs] def setY(self, x):
"""
Replace the `y` attribute.
:Args:
y: PyoObject
new `y` attribute.
"""
pyoArgsAssert(self, "o", x)
self._y = x
x, lmax = convertArgsToLists(x)
[obj.setY(wrap(x, i)) for i, obj in enumerate(self._base_objs)]
[docs] def ctrl(self, map_list=None, title=None, wxnoserver=False):
self._map_list = [SLMapMul(self._mul)]
PyoObject.ctrl(self, map_list, title, wxnoserver)
@property
def matrix(self):
"""PyoMatrixObject. Matrix containing the samples."""
return self._matrix
@matrix.setter
def matrix(self, x):
self.setMatrix(x)
@property
def x(self):
"""PyoObject. Normalized X position in the matrix."""
return self._x
@x.setter
def x(self, x):
self.setX(x)
@property
def y(self):
"""PyoObject. Normalized Y position in the matrix."""
return self._y
@y.setter
def y(self, x):
self.setY(x)
[docs]class MatrixMorph(PyoObject):
"""
Morphs between multiple PyoMatrixObjects.
Uses an index into a list of PyoMatrixObjects to morph between adjacent
matrices in the list. The resulting morphed function is written into the
`matrix` object at the beginning of each buffer size. The matrices in the
list and the resulting matrix must be equal in size.
:Parent: :py:class:`PyoObject`
:Args:
input: PyoObject
Morphing index between 0 and 1. 0 is the first matrix in the list
and 1 is the last.
matrix: NewMatrix
The matrix where to write morphed function.
sources: list of PyoMatrixObject
List of matrices to interpolate from.
.. note::
The out() method is bypassed. MatrixMorph returns no signal.
MatrixMorph has no `mul` and `add` attributes.
>>> s = Server().boot()
>>> s.start()
>>> m1 = NewMatrix(256, 256)
>>> m1.genSineTerrain(1, 4)
>>> m2 = NewMatrix(256, 256)
>>> m2.genSineTerrain(2, 8)
>>> mm = NewMatrix(256, 256)
>>> inter = Sine(.2, 0, .5, .5)
>>> morph = MatrixMorph(inter, mm, [m1,m2])
>>> x = Sine([49,50], 0, .45, .5)
>>> y = Sine([49.49,50.5], 0, .45, .5)
>>> c = MatrixPointer(mm, x, y, .2).out()
"""
def __init__(self, input, matrix, sources):
pyoArgsAssert(self, "oml", input, matrix, sources)
PyoObject.__init__(self)
self._input = input
self._matrix = matrix
self._sources = sources
self._in_fader = InputFader(input)
in_fader, matrix, lmax = convertArgsToLists(self._in_fader, matrix)
self._base_sources = [source[0] for source in sources]
self._base_objs = [
MatrixMorph_base(wrap(in_fader, i), wrap(matrix, i), self._base_sources) for i in range(len(matrix))
]
self._init_play()
[docs] def out(self, chnl=0, inc=1, dur=0, delay=0):
return self.play(dur, delay)
[docs] def setMul(self, x):
pass
[docs] def setAdd(self, x):
pass
[docs] def setMatrix(self, x):
"""
Replace the `matrix` attribute.
:Args:
x: NewMatrix
new `matrix` attribute.
"""
pyoArgsAssert(self, "m", x)
self._matrix = x
x, lmax = convertArgsToLists(x)
[obj.setMatrix(wrap(x, i)) for i, obj in enumerate(self._base_objs)]
[docs] def setSources(self, x):
"""
Replace the `sources` attribute.
:Args:
x: list of PyoMatrixObject
new `sources` attribute.
"""
pyoArgsAssert(self, "l", x)
self._sources = x
self._base_sources = [source[0] for source in x]
[obj.setSources(self._base_sources) for i, obj in enumerate(self._base_objs)]
@property
def input(self):
"""PyoObject. Morphing index between 0 and 1."""
return self._input
@input.setter
def input(self, x):
self.setInput(x)
@property
def matrix(self):
"""NewMatrix. The matrix where to write samples."""
return self._matrix
@matrix.setter
def matrix(self, x):
self.setMatrix(x)
@property
def sources(self):
"""list of PyoMatrixObject. List of matrices to interpolate from."""
return self._sources
@sources.setter
def sources(self, x):
self.setSources(x)