I'm using KissFFT's real function to transform some real audio signals. I'm confused, since I input a real signal with nfft samples, but the result is nfft/2+1 *complex* frequency bins.

**From KissFFT's README:**

The real (i.e. not complex) optimization code only works for even length ffts. It does two half-length FFTs in parallel (packed into real&imag), and then combines them via twiddling. The result is nfft/2+1 complex frequency bins from DC to Nyquist.

So I have no concrete knowledge of how to interpret the result. My assumption is the data is packed like `r[0]i[0]r[1]i[1]...r[nfft/2]i[nfft/2]`

, where r[0] would be DC, i[0] is the first frequency bin, r[1] the second, and so on. Is this the case?

`r[nfft/2]`

and`i[fftn/2]`

(i.e. Nyquist). – Paul R Nov 1 '11 at 21:51`r[0]`

and`i[nfft/2+1]`

. Would these be the DC and Nyquist offsets? – Steve Barna Nov 1 '11 at 21:58`nfft/2`

), even though the imaginary part of these is not needed. – Paul R Nov 1 '11 at 22:01