Caution
You're reading an old version of this documentation. If you want up-to-date information, please have a look at 0.10.2.
librosa.effects.pitch_shift
- librosa.effects.pitch_shift(y, *, sr, n_steps, bins_per_octave=12, res_type='soxr_hq', scale=False, **kwargs)[source]
Shift the pitch of a waveform by
n_steps
steps.A step is equal to a semitone if
bins_per_octave
is set to 12.- Parameters:
- ynp.ndarray [shape=(…, n)]
audio time series. Multi-channel is supported.
- srnumber > 0 [scalar]
audio sampling rate of
y
- n_stepsfloat [scalar]
how many (fractional) steps to shift
y
- bins_per_octaveint > 0 [scalar]
how many steps per octave
- res_typestring
Resample type. By default, ‘soxr_hq’ is used.
See
librosa.resample
for more information.- scalebool
Scale the resampled signal so that
y
andy_hat
have approximately equal total energy.- **kwargsadditional keyword arguments.
See librosa.decompose.stft for details.
- Returns:
- y_shiftnp.ndarray [shape=(…, n)]
The pitch-shifted audio time-series
See also
time_stretch
time stretching
librosa.phase_vocoder
spectrogram phase vocoder
pyrubberband.pyrb.pitch_shift
high-quality pitch shifting using RubberBand
Examples
Shift up by a major third (four steps if
bins_per_octave
is 12)>>> y, sr = librosa.load(librosa.ex('choice')) >>> y_third = librosa.effects.pitch_shift(y, sr=sr, n_steps=4)
Shift down by a tritone (six steps if
bins_per_octave
is 12)>>> y_tritone = librosa.effects.pitch_shift(y, sr=sr, n_steps=-6)
Shift up by 3 quarter-tones
>>> y_three_qt = librosa.effects.pitch_shift(y, sr=sr, n_steps=3, ... bins_per_octave=24)