import os import subprocess import tempfile import six import numpy as np import soundfile as sf import sys if getattr(sys, 'frozen', False): BASE_PATH_RUB = sys._MEIPASS else: BASE_PATH_RUB = os.path.dirname(os.path.abspath(__file__)) __all__ = ['time_stretch', 'pitch_shift'] __RUBBERBAND_UTIL = os.path.join(BASE_PATH_RUB, 'rubberband') if six.PY2: DEVNULL = open(os.devnull, 'w') else: DEVNULL = subprocess.DEVNULL def __rubberband(y, sr, **kwargs): assert sr > 0 # Get the input and output tempfile fd, infile = tempfile.mkstemp(suffix='.wav') os.close(fd) fd, outfile = tempfile.mkstemp(suffix='.wav') os.close(fd) # dump the audio sf.write(infile, y, sr) try: # Execute rubberband arguments = [__RUBBERBAND_UTIL, '-q'] for key, value in six.iteritems(kwargs): arguments.append(str(key)) arguments.append(str(value)) arguments.extend([infile, outfile]) subprocess.check_call(arguments, stdout=DEVNULL, stderr=DEVNULL) # Load the processed audio. y_out, _ = sf.read(outfile, always_2d=True) # make sure that output dimensions matches input if y.ndim == 1: y_out = np.squeeze(y_out) except OSError as exc: six.raise_from(RuntimeError('Failed to execute rubberband. ' 'Please verify that rubberband-cli ' 'is installed.'), exc) finally: # Remove temp files os.unlink(infile) os.unlink(outfile) return y_out def time_stretch(y, sr, rate, rbargs=None): if rate <= 0: raise ValueError('rate must be strictly positive') if rate == 1.0: return y if rbargs is None: rbargs = dict() rbargs.setdefault('--tempo', rate) return __rubberband(y, sr, **rbargs) def pitch_shift(y, sr, n_steps, rbargs=None): if n_steps == 0: return y if rbargs is None: rbargs = dict() rbargs.setdefault('--pitch', n_steps) return __rubberband(y, sr, **rbargs)