torch.stft¶
-
torch.
stft
(input, n_fft, hop_length=None, win_length=None, window=None, center=True, pad_mode='reflect', normalized=False, onesided=None, return_complex=None)[source]¶ Short-time Fourier transform (STFT).
Warning
From version 1.8.0,
return_complex
must always be given explicitly for real inputs and return_complex=False has been deprecated. Strongly prefer return_complex=True as in a future pytorch release, this function will only return complex tensors.Note that
torch.view_as_real()
can be used to recover a real tensor with an extra last dimension for real and imaginary components.The STFT computes the Fourier transform of short overlapping windows of the input. This giving frequency components of the signal as they change over time. The interface of this function is modeled after the librosa stft function.
Ignoring the optional batch dimension, this method computes the following expression:
where is the index of the sliding window, and is the frequency that . When
onesided
is the default valueTrue
,input
must be either a 1-D time sequence or a 2-D batch of time sequences.If
hop_length
isNone
(default), it is treated as equal tofloor(n_fft / 4)
.If
win_length
isNone
(default), it is treated as equal ton_fft
.window
can be a 1-D tensor of sizewin_length
, e.g., fromtorch.hann_window()
. Ifwindow
isNone
(default), it is treated as if having everywhere in the window. If ,window
will be padded on both sides to lengthn_fft
before being applied.If
center
isTrue
(default),input
will be padded on both sides so that the -th frame is centered at time . Otherwise, the -th frame begins at time .pad_mode
determines the padding method used oninput
whencenter
isTrue
. Seetorch.nn.functional.pad()
for all available options. Default is"reflect"
.If
onesided
isTrue
(default for real input), only values for in are returned because the real-to-complex Fourier transform satisfies the conjugate symmetry, i.e., . Note if the input or window tensors are complex, thenonesided
output is not possible.If
normalized
isTrue
(default isFalse
), the function returns the normalized STFT results, i.e., multiplied by .If
return_complex
isTrue
(default if input is complex), the return is ainput.dim() + 1
dimensional complex tensor. IfFalse
, the output is ainput.dim() + 2
dimensional real tensor where the last dimension represents the real and imaginary components.
Returns either a complex tensor of size if
return_complex
is true, or a real tensor of size . Where is the optional batch size ofinput
, is the number of frequencies where STFT is applied and is the total number of frames used.Warning
This function changed signature at version 0.4.1. Calling with the previous signature may cause error or return incorrect result.
- Parameters
input (Tensor) – the input tensor
n_fft (int) – size of Fourier transform
hop_length (int, optional) – the distance between neighboring sliding window frames. Default:
None
(treated as equal tofloor(n_fft / 4)
)win_length (int, optional) – the size of window frame and STFT filter. Default:
None
(treated as equal ton_fft
)window (Tensor, optional) – the optional window function. Default:
None
(treated as window of all s)center (bool, optional) – whether to pad
input
on both sides so that the -th frame is centered at time . Default:True
pad_mode (string, optional) – controls the padding method used when
center
isTrue
. Default:"reflect"
normalized (bool, optional) – controls whether to return the normalized STFT results Default:
False
onesided (bool, optional) – controls whether to return half of results to avoid redundancy for real inputs. Default:
True
for realinput
andwindow
,False
otherwise.return_complex (bool, optional) – whether to return a complex tensor, or a real tensor with an extra last dimension for the real and imaginary components.
- Returns
A tensor containing the STFT result with shape described above
- Return type