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I'm trying to find the fundamental frequency of a recorded sound using FFT in C. Would anyone know a open source implementation in C that I can modify and use?


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have you tried typing "C FFT" in google and clicking the first link? – Mat Apr 26 '11 at 17:48
up vote 4 down vote accepted

FFTW is probably what you are looking for.

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Indeed, thanks a lot! – Valentin Radu Apr 26 '11 at 18:11
I'm concerned in that the page calls this a discrete fourier transform with arbitrary input size. The fast fourier transform algorithm only supports inputs of size 2^n. The name "fastest fourier transform" may be confusing, and not imply the FFT algorithm (except perhaps as an optimisation when applicable). – Steve314 Apr 26 '11 at 18:11
@Steve314 FFT's of arbitrary dimensions can be computed. The power-of-two case happens to be the fastest and the easiest to implement, but fast algorithms exist to compute Fourier Transforms for any input size. – Thomas Oct 7 '13 at 23:30
@Thomas - I had a long-standing belief that "fast fourier transform" was the name of a specific algorithm. Thanks for prompting me to check - I now see that what I called the FFT was actually the Cooley-Tukey algorithm and as you say, there are more FFT algorithms than that. – Steve314 Oct 8 '13 at 2:22
FFTW is GPL'd, and a source license for commercial products is expensive. Consider that carefully before using it. – johnwbyrd Sep 17 '15 at 22:08

You will find here a C/C++ implementation, with a description of the source code (tutorial):

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The question was for a C implementation - this is a C++ implementation using template metaprogramming. That said, listing one does give an FFT, taken from Numerical Recipes in C++, which is pretty close to being C (the "swap" calls don't exist in the C library IIRC, but that's easily fixed). – Steve314 Apr 26 '11 at 18:08

Another worth considering is D.J. Bernstein's. It's somewhat on the complex side (as is FFTW) but faster than most (including FFTW) in most tests.

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This lib you can find an implementation ImLib3D

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An implementation using optimized bit-shifts can be found at XFT library of algorithms. It is worth a look for more than just Fourier transforms.

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I've found Ooura's C fft packages to be superior to FFTW's for practical purposes. Unlike FFTW, Ooura's code has a very permissive license; additionally, Ooura's work doesn't depend on a complex build environment. Using FFTW optimally takes time and patience to get wisdom working correctly, especially when cross-compiling.

Also, if you're trying to find fundamental frequencies, don't forget about good old fashioned autocorrelation. If it works well enough for you it may be significantly faster than running an FFT. Check out the classic Rabiner paper for an overview.

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