#ifndef ALCOMPLEX_H #define ALCOMPLEX_H #include "AL/al.h" #ifdef __cplusplus extern "C" { #endif typedef struct ALcomplex { ALdouble Real; ALdouble Imag; } ALcomplex; /** Addition of two complex numbers. */ inline ALcomplex complex_add(ALcomplex a, ALcomplex b) { ALcomplex result; result.Real = a.Real + b.Real; result.Imag = a.Imag + b.Imag; return result; } /** Subtraction of two complex numbers. */ inline ALcomplex complex_sub(ALcomplex a, ALcomplex b) { ALcomplex result; result.Real = a.Real - b.Real; result.Imag = a.Imag - b.Imag; return result; } /** Multiplication of two complex numbers. */ inline ALcomplex complex_mult(ALcomplex a, ALcomplex b) { ALcomplex result; result.Real = a.Real*b.Real - a.Imag*b.Imag; result.Imag = a.Imag*b.Real + a.Real*b.Imag; return result; } /** * Iterative implementation of 2-radix FFT (In-place algorithm). Sign = -1 is * FFT and 1 is iFFT (inverse). Fills FFTBuffer[0...FFTSize-1] with the * Discrete Fourier Transform (DFT) of the time domain data stored in * FFTBuffer[0...FFTSize-1]. FFTBuffer is an array of complex numbers, FFTSize * MUST BE power of two. */ void complex_fft(ALcomplex *FFTBuffer, ALsizei FFTSize, ALdouble Sign); #ifdef __cplusplus } // extern "C" #endif #endif /* ALCOMPLEX_H */