This commit is contained in:
Josia Pietsch 2022-03-31 15:20:59 +02:00
parent c4fbcf86bd
commit 7c305709c4
3 changed files with 108 additions and 3 deletions

82
code/akkorde.py Normal file
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import numpy as np
from matplotlib import pyplot as plt
from scipy.fft import fft, ifft
from IPython.display import Audio, display
from scipy.io import wavfile
from ipywidgets import widgets
from functools import partial
import pandas as pd
from fractions import Fraction
def create_signal(frequency, amplitude, delay, phase=0, sampling=44100, seconds=1.0):
timesteps = np.linspace(0,seconds, int(seconds * sampling))
# return np.sum(amplitude * np.sin(frequency * 2*np.pi * (timesteps[:, np.newaxis]-delay)*(timesteps[:, np.newaxis]-delay > 0)), axis=1), timesteps
return np.sum(amplitude * triangle(frequency, (timesteps[:, np.newaxis]-delay)*(timesteps[:, np.newaxis]-delay > 0)), axis=1), timesteps
def create_waves(frequency, amplitude, phase=0, sampling=44100, seconds=1.0):
timesteps = np.linspace(0,seconds, int(seconds * sampling))
# return amplitude * np.sin(frequency * 2*np.pi * timesteps[:, np.newaxis]), timesteps
return amplitude * triangle(frequency, timesteps[:, np.newaxis]), timesteps
def triangle(frequency, t):
phase = (t * frequency + 0.25) % 1 - 0.25
return (phase <= 0.25) * phase + (phase > 0.25) * (0.5 - phase)
def nonlinearity(x, param=1.0): # param for scaling of argument; higher values = more nonlinearity
#return np.exp(x*param)
return np.sign(x)*np.log(1+np.abs(x*param))
def myAudio(signal, rate=44100, autoplay=False, time_fade=0.2):
length = signal.shape[0]
print(length)
fade = np.minimum(np.ones(length),np.arange(length)/(time_fade * rate))
return Audio(signal * fade * fade[::-1],rate=rate,autoplay=autoplay)
#frequency = np.array([100., 200., 300, 400])
#frequency_edo12 = 220 * 2**(np.array([5,8,12,14])/12)
#frequency_edo53 = 220 * 2**(np.array([22,36,53,62])/53)
#frequency_edo53 = 220 * 2**(np.array([22,34,53,61])/53)
#frequency_rein1 = 220 * 4/3 * np.array([1, 7/6, 9/6, 10/6])
#frequency_rein2 = 220 * 4/3 * np.array([1, 12/10, 15/10, 17/10])
dursept_edo12 = 220 * 2**(np.array([5,9,12,15])/12) # Durseptakkord in EDO12
dursept_edo53 = 220 * 2**(np.array([22,39,53,65])/53) # Dursept in EDO53
dursept_rein = 220 * 4/3 * np.array([1, 5/4, 6/4, 7/4]) # Dursept rein
mollsept_edo12 = 220 * 2**(np.array([5,8,12,14])/12) # Mollseptakkord in EDO12
mollsept_edo53 = 220 * 2**(np.array([22,36,53,63])/53) # Mollseptakkord in EDO53
mollsept_rein = 220 * 4/3 * np.array([1, 12/10, 15/10, 17/10]) # Mollsept rein
doppeltritone_rein = 220 * 4/3 * np.array([1, 12/10, 14/10, 17/10]) # doppeltritone rein
doppeltritone_edo53 = 220 * 2**(np.array([22,36,48,63])/53) # doppeltritone in EDO53
amplitude = np.array([1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0])
delay = np.array([0.0,0.2,0.4,0.6,0.8,1.0,1.2])
# list of chords to display.
# chords = [dursept_edo12, dursept_edo53, dursept_rein, ]
# chords = [mollsept_edo12, mollsept_edo53, mollsept_rein, ]
chords = [doppeltritone_rein, doppeltritone_edo53, ]
to_display = []
for chord in chords:
notes = len(chord)
signal, timesteps = create_signal(frequency=chord, amplitude=amplitude[:notes], delay=delay[:notes], phase=0, sampling=44100, seconds=5.0)
to_display.append(signal)
max_play_time = 2.0
for signal in to_display:
display(myAudio(signal[timesteps < max_play_time],rate=44100, autoplay=False))
plot_time = 1.0
plt.figure(1, figsize=(20,6))
plt.xlabel("time [s]")
for signal in to_display:
plt.plot(timesteps[timesteps < plot_time], (1*signal[timesteps < plot_time]))
plt.figure(2, figsize=(40,6))
plt.subplot(111, xscale='log', yscale='log')
plt.xlabel("Frequenz [Hz]")
plt.xlim(200,5000)
plt.ylim(bottom=1e-1, top=1e4)
for signal in to_display:
plt.plot(np.abs(fft(nonlinearity(signal[timesteps > 1.0], 0.1))))

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\begin{listing}
TODO: Code einfügen
\end{listing}
\lstinputlisting[language=Python]{code/akkorde.py}

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\RequirePackage{listing}
\RequirePackage{wasysym}
\RequirePackage{cancel}
\RequirePackage{listings}
\definecolor{KeywordColor}{cmyk}{0.64,0,0.95,0.40} %TODO
\definecolor{mGray}{rgb}{0.5,0.5,0.5}
\definecolor{mOrange}{rgb}{0.9,0.53,0.35}
\lstset{
language=Python, % Code langugage
basicstyle=\ttfamily, % Code font, Examples: \footnotesize, \ttfamily
keywordstyle=\color{KeywordColor}, % Keywords font ('*' = uppercase)
commentstyle=\color{mGray}, % Comments font
numberstyle=\tiny\color{mGray},
stepnumber=1, % Step between two line-numbers
numbersep=5pt, % How far are line-numbers from code
frame=none, % A frame around the code
tabsize=2, % Default tab size
captionpos=b, % Caption-position = bottom
breaklines=true, % Automatic line breaking?
breakatwhitespace=false, % Automatic breaks only at whitespace?
showspaces=false, % Dont make spaces visible
showtabs=false, % Dont make tabls visible
columns=flexible, % Column format
stringstyle=\color{mOrange},
escapeinside={/*!}{!*/},
}