python3-pyo 0.8.8-1 / usr / lib / python3 / dist-packages / pyolib / pattern.py

"""
Set of objects that call Python functions from triggers or number counts.
Useful for event sequencing.

"""

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/>.
"""
from ._core import *
from ._maps import *

class Pattern(PyoObject):
    """
    Periodically calls a Python function.

    The play() method starts the pattern timer and is not called
    at the object creation time.

    :Parent: :py:class:`PyoObject`

    :Args:

        function: Python function
            Python function to be called periodically.
        time: float or PyoObject, optional
            Time, in seconds, between each call. Default to 1.
        arg: anything, optional
            Argument sent to the function's call. If None, the function
            will be called without argument. Defaults to None.

    .. note::

        The out() method is bypassed. Pattern doesn't return signal.

        Pattern has no `mul` and `add` attributes.

        If `arg` is None, the function must be defined without argument:

        >>> def tocall():
        >>>     # function's body

        If `arg` is not None, the function must be defined with one argument:

        >>> def tocall(arg):
        >>>     print(arg)

    >>> s = Server().boot()
    >>> s.start()
    >>> t = HarmTable([1,0,.33,0,.2,0,.143,0,.111])
    >>> a = Osc(table=t, freq=[250,251], mul=.2).out()
    >>> def pat():
    ...     f = random.randrange(200, 401, 25)
    ...     a.freq = [f, f+1]
    >>> p = Pattern(pat, .125)
    >>> p.play()

    """
    def __init__(self, function, time=1, arg=None):
        pyoArgsAssert(self, "cO", function, time)
        PyoObject.__init__(self)
        self._function = getWeakMethodRef(function)
        self._time = time
        self._arg = arg
        function, time, arg, lmax = convertArgsToLists(function, time, arg)
        self._base_objs = [Pattern_base(WeakMethod(wrap(function,i)), wrap(time,i), wrap(arg,i)) for i in range(lmax)]

    def setFunction(self, x):
        """
        Replace the `function` attribute.

        :Args:

            x: Python function
                new `function` attribute.

        """
        pyoArgsAssert(self, "c", x)
        self._function = getWeakMethodRef(x)
        x, lmax = convertArgsToLists(x)
        [obj.setFunction(WeakMethod(wrap(x,i))) for i, obj in enumerate(self._base_objs)]

    def setTime(self, x):
        """
        Replace the `time` attribute.

        :Args:

            x: float or PyoObject
                New `time` attribute.

        """
        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 setArg(self, x):
        """
        Replace the `arg` attribute.

        :Args:

            x: Anything
                new `arg` attribute.

        """
        self._arg = x
        x, lmax = convertArgsToLists(x)
        [obj.setArg(wrap(x,i)) for i, obj in enumerate(self._base_objs)]

    def out(self, x=0, inc=1, dur=0, delay=0):
        return self.play(dur, delay)

    def setMul(self, x):
        pass

    def setAdd(self, x):
        pass

    def setSub(self, x):
        pass

    def setDiv(self, x):
        pass

    def ctrl(self, map_list=None, title=None, wxnoserver=False):
        self._map_list = [SLMap(0.125, 4., 'lin', 'time', self._time)]
        PyoObject.ctrl(self, map_list, title, wxnoserver)

    @property
    def function(self):
        """Python function. Function to be called."""
        return self._function
    @function.setter
    def function(self, x):
        self.setFunction(x)
    @property
    def time(self):
        """float or PyoObject. Time, in seconds, between each call."""
        return self._time
    @time.setter
    def time(self, x): self.setTime(x)
    @property
    def arg(self):
        """Anything. Callable's argument."""
        return self._arg
    @arg.setter
    def arg(self, x):
        self.setArg(x)

class Score(PyoObject):
    """
    Calls functions by incrementation of a preformatted name.

    Score takes audio stream containning integers in input and calls
    a function whose name is the concatenation of `fname` and the changing
    integer.

    Can be used to sequence events, first by creating functions p0, p1,
    p2, etc. and then, by passing a counter to a Score object with "p"
    as `fname` argument. Functions are called without parameters.

    :Parent: :py:class:`PyoObject`

    :Args:

        input: PyoObject
            Audio signal. Must contains integer numbers. Integer must change
            before calling its function again.
        fname: string, optional
            Name of the functions to be called. Defaults to "event_", meaning
            that the object will call the function "event_0", "event_1", "event_2",
            and so on... Available at initialization time only.

    .. note::

        The out() method is bypassed. Score's signal can not be sent
        to audio outs.

        Score has no `mul` and `add` attributes.

    .. seealso:: :py:class:`Pattern`, :py:class:`TrigFunc`

    >>> s = Server().boot()
    >>> s.start()
    >>> a = SineLoop(freq=[200,300,400,500], feedback=0.05, mul=.1).out()
    >>> def event_0():
    ...     a.freq=[200,300,400,500]
    >>> def event_1():
    ...     a.freq=[300,400,450,600]
    >>> def event_2():
    ...     a.freq=[150,375,450,525]
    >>> m = Metro(1).play()
    >>> c = Counter(m, min=0, max=3)
    >>> sc = Score(c)

    """
    def __init__(self, input, fname="event_"):
        pyoArgsAssert(self, "os", input, fname)
        PyoObject.__init__(self)
        self._input = input
        self._fname = fname
        self._in_fader = InputFader(input)
        in_fader, fname, lmax = convertArgsToLists(self._in_fader, fname)
        self._base_objs = [Score_base(wrap(in_fader,i), wrap(fname,i)) for i in range(lmax)]
        self.play()

    def out(self, chnl=0, inc=1, dur=0, delay=0):
        return self.play(dur, delay)

    def setMul(self, x):
        pass

    def setAdd(self, x):
        pass

    def setInput(self, x, fadetime=0.05):
        """
        Replace the `input` attribute.

        :Args:

            x: PyoObject
                New signal to process.
            fadetime: float, optional
                Crossfade time between old and new input. Defaults to 0.05.

        """
        pyoArgsAssert(self, "oN", x, fadetime)
        self._input = x
        self._in_fader.setInput(x, fadetime)

    @property
    def input(self):
        """PyoObject. Audio signal sending integer numbers."""
        return self._input
    @input.setter
    def input(self, x):
        self.setInput(x)

class CallAfter(PyoObject):
    """
    Calls a Python function after a given time.

    :Parent: :py:class:`PyoObject`

    :Args:

        function: Python function
            Python callable execute after `time` seconds.
        time: float, optional
            Time, in seconds, before the call. Default to 1.
        arg: any Python object, optional
            Argument sent to the called function. Default to None.

    .. note::

        The out() method is bypassed. CallAfter doesn't return signal.

        CallAfter has no `mul` and `add` attributes.

        If `arg` is None, the function must be defined without argument:

        >>> def tocall():
        >>>     # function's body

        If `arg` is not None, the function must be defined with one argument:

        >>> def tocall(arg):
        >>>     print(arg)

        The object is not deleted after the call. The user must delete it himself.

    >>> s = Server().boot()
    >>> s.start()
    >>> # Start an oscillator with a frequency of 250 Hz
    >>> syn = SineLoop(freq=[250,251], feedback=.07, mul=.2).out()
    >>> def callback(arg):
    ...     # Change the oscillator's frequency to 300 Hz after 2 seconds
    ...     syn.freq = arg
    >>> a = CallAfter(callback, 2, [300,301])

    """
    def __init__(self, function, time=1, arg=None):
        pyoArgsAssert(self, "cn", function, time)
        PyoObject.__init__(self)
        self._function = getWeakMethodRef(function)
        function, time, arg, lmax = convertArgsToLists(function, time, arg)
        self._base_objs = [CallAfter_base(WeakMethod(wrap(function,i)), wrap(time,i), wrap(arg,i)) for i in range(lmax)]
        self.play()

    def out(self, x=0, inc=1, dur=0, delay=0):
        return self.play(dur, delay)

    def setMul(self, x):
        pass

    def setAdd(self, x):
        pass

    def setSub(self, x):
        pass

    def setDiv(self, x):
        pass