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mlib_signalifftw_2_s16_s16_mod(3mlib) [sunos man page]

mlib_SignalIFFTW_2(3MLIB)				    mediaLib Library Functions					 mlib_SignalIFFTW_2(3MLIB)

NAME
mlib_SignalIFFTW_2, mlib_SignalIFFTW_2_S16_S16_Mod, mlib_SignalIFFTW_2_S16C_S16C_Mod, mlib_SignalIFFTW_2_S16_S16C_Mod, mlib_Sig- nalIFFTW_2_S16_Mod, mlib_SignalIFFTW_2_S16C_Mod, mlib_SignalIFFTW_2_F32_F32, mlib_SignalIFFTW_2_F32C_F32C, mlib_SignalIFFTW_2_F32_F32C, mlib_SignalIFFTW_2_F32, mlib_SignalIFFTW_2_F32C - signal Inverse Fast Fourier Transform with windowing (IFFTW) SYNOPSIS
cc [ flag... ] file... -lmlib [ library... ] #include <mlib.h> mlib_status mlib_SignalIFFTW_2_S16_S16_Mod(mlib_s16 *dstr, mlib_s16 *dsti, const mlib_s16 *srcr, const mlib_s16 *srci, const mlib_s16 *win- dow, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_S16C_S16C_Mod(mlib_s16 *dstc, const mlib_s16 *srcc, const mlib_s16 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_S16_S16C_Mod(mlib_s16 *dstr, const mlib_s16 *srcc, const mlib_s16 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_S16_Mod(mlib_s16 *srcdstr, mlib_s16 *srcdsti, const mlib_s16 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_S16C_Mod(mlib_s16 *srcdstc, const mlib_s16 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_F32_F32(mlib_f32 *dstr, mlib_f32 *dsti, const mlib_f32 *srcr, const mlib_f32 *srci, const mlib_f32 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_F32C_F32C(mlib_f32 *dstc, const mlib_f32 *srcc, const mlib_f32 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_F32_F32C(mlib_f32 *dstr, const mlib_f32 *srcc, const mlib_f32 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_F32(mlib_f32 *srcdstr, mlib_f32 *srcdsti, const mlib_f32 *window, mlib_s32 order); mlib_status mlib_SignalIFFTW_2_F32C(mlib_f32 *srcdstc, const mlib_f32 *window, mlib_s32 order); DESCRIPTION
Each of the functions in this group performs Inverse Fast Fourier Transform with windowing (IFFTW). The FFTW functions use the following equation: 1 N-1 dst[k] = ---- SUM {src[n] * window[n] * exp(-j2*PI*n*k/N)} C1 n=0 and the IFFTW functions use the following equation: 1 N-1 dst[n] = ---- SUM {src[k] * window[k] * exp(j2*PI*n*k/N)} C2 k=0 where k = 0, 1, ..., (N - 1) n = 0, 1, ..., (N - 1) N = 2**order The signal FFTW/IFFTW functions can be categorized into four groups according to the ScaleMode in the function names in the following form: mlib_Signal[FFTW|IFFTW]_ScaleMode_OutType_InType_OpMode() mlib_Signal[FFTW|IFFTW]_ScaleMode_DataType_OpMode() The scaling factors C1 and C2 used in the equations are defined as follows: o For ScaleMode = 1, C1 = 1 and C2 = 2**order. o For ScaleMode = 2, C1 = 2**order and C2 = 1. o For ScaleMode = 3, C1 = C2 = 2**(order/2) when order is even, or C1 = 2**((order+1)/2) and C2 = 2**((order-1)/2) when order is odd. o For ScaleMode = 4, C1 = 2**P and C2 = 2**Q, where P and Q are adaptive scaling factors and are generated by the functions. For functions with only real parts for the source signal, the imaginary parts are assumed to be all zero. For functions with only real parts for the destination signal, the imaginary parts are discarded. The functions with only one data type in their names perform the operation in place. PARAMETERS
Each function takes some of the following arguments: dstr Destination signal array that contains the real parts. dsti Destination signal array that contains the imaginary parts. srcr Source signal array that contains the real parts. srci Source signal array that contains the imaginary parts. dstc Complex destination signal array. dstc[2*i] contains the real parts, and dstc[2*i+1] contains the imaginary parts. srcc Complex source signal array. srcc[2*i] contains the real parts, and srcc[2*i+1] contains the imaginary parts. srcdstr Source and destination signal array that contains the real parts. srcdsti Source and destination signal array that contains the imaginary parts. srcdstc Complex source and destination signal array. srcdstc[2*i] contains the real parts, and srcdstc[2*i+1] contains the imagi- nary parts. window Window coefficient array with 2**order real elements. The window coefficients are in Q15 format for the S16 data type, or in float format for the F32 data type. order Order of the transformation. The base-2 logarithm of the number of data samples. RETURN VALUES
Each function returns MLIB_SUCCESS if successful. Otherwise it returns MLIB_FAILURE. ATTRIBUTES
See attributes(5) for descriptions of the following attributes: +-----------------------------+-----------------------------+ | ATTRIBUTE TYPE | ATTRIBUTE VALUE | +-----------------------------+-----------------------------+ |Interface Stability |Evolving | +-----------------------------+-----------------------------+ |MT-Level |MT-Safe | +-----------------------------+-----------------------------+ SEE ALSO
mlib_SignalFFTW_1(3MLIB), mlib_SignalFFTW_2(3MLIB), mlib_SignalFFTW_3(3MLIB), mlib_SignalFFTW_4(3MLIB), mlib_SignalIFFTW_1(3MLIB), mlib_SignalIFFTW_3(3MLIB), mlib_SignalIFFTW_4(3MLIB), attributes(5) SunOS 5.10 10 Nov 2004 mlib_SignalIFFTW_2(3MLIB)
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