With Craig McQueen's help, I have created a proof-of-concept program.
This program plays a mono wav file called "music.wav" (located in the same folder as the program) and displays a short and wide window. The pitch of the music changes when you click and drag in the window. The left side of the window is two octaves lower, and the right side is two octaves higher.
There is some strange behavior here that I'm not sure how to fix. If the pitch is currently low, then there's about a 2 second delay before the pitch changes. However, the pitch changes in real-time for high pitches. (The delay increases smoothly as the pitch gets lower). I only add more sound to the buffer if
soundOutput.getLeft() < 0.2. That is to say, if the amount of sound left on the buffer is less than 0.2 seconds. Therefore there should be no delay. For troubleshooting, I included code that writes
soundOutput.getLeft() to a file. It tends to stay at or very near 0 all the time.
Decreasing the frames read to
waveRead.readframes(100) decreases the delay, but also makes the sound choppy. Increasing the frames read significantly increases the delay.
import os, sys, wave, pygame, numpy, pymedia.audio.sound, scikits.samplerate
def __init__(self, width, height, minOctave, maxOctave):
width, height: the width and height of the screen.
minOctave, maxOctave: the highest and lowest pitch changes. 0 is no change.
self.minOctave = minOctave
self.maxOctave = maxOctave
self.width = width
self.mouseDown = False
self.ratio = 1.0 # The resampling ratio
waveRead = wave.open(os.path.join(sys.path, "music.wav"), 'rb')
sampleRate = waveRead.getframerate()
channels = waveRead.getnchannels()
soundFormat = pymedia.audio.sound.AFMT_S16_LE
soundOutput = pymedia.audio.sound.Output(sampleRate, channels, soundFormat)
screen = pygame.display.set_mode((width, height), 0)
screen.fill((255, 255, 255))
fout = open(os.path.join(sys.path, "musicdata.txt"), 'w') # For troubleshooting
byteString = waveRead.readframes(1000) # Read at most 1000 samples from the file.
while len(byteString) != 0:
self.handleEvent(pygame.event.poll()) # This does not wait for an event.
fout.write(str(soundOutput.getLeft()) + "\n") # For troubleshooting
if soundOutput.getLeft() < 0.2: # If there is less than 0.2 seconds left in the sound buffer.
array = numpy.fromstring(byteString, dtype=numpy.int16)
byteString = scikits.samplerate.resample(array, self.ratio, "sinc_fastest").astype(numpy.int16).tostring()
byteString = waveRead.readframes(500) # Read at most 500 samples from the file.
def handleEvent(self, event):
if event.type == pygame.QUIT or (event.type == pygame.KEYUP and event.key == pygame.K_ESCAPE):
if event.type == pygame.MOUSEBUTTONDOWN and event.button == 1:
self.mouseDown = True
if event.type == pygame.MOUSEBUTTONUP and event.button == 1:
self.mouseDown = False
if event.type == pygame.MOUSEMOTION and self.mouseDown:
def setRatio(self, point):
self.ratio = 2 ** -(self.minOctave + point * (self.maxOctave - self.minOctave) / float(self.width))
Window(768, 100, -2.0, 2.0)
if __name__ == '__main__':
It's a pain to try to get all the packages I use to work well together. I'm using Python 2.6.6, PyGame 1.9.1 for python 2.6, NumPy 1.3.0 for python 2.6, PyMedia 220.127.116.11 for python 2.6, and scikits.samplerate 0.3.1 for python 2.6. Note that scikits.samplerate conflicts with NumPy 1.4 or greater, and one of the packages (I forget which one) requires setuptools