2.1.22.2.1.13 fft_2d_complex
Description
Perform 2d complex FFT
Syntax
int fft_2d_complex( int nFFTRow, int nFFTCol, matrix<complex> & mSig, FFT_SIGN iSign = FFT_FORWARD )
Parameters
- nFFTRow
- [input] the number of rows of the bivariate data sequence.
- nFFTCol
- [input] the number of columns of the bivariate data sequence.
- mSig
- [modify] the original signal to be transformed, and the result of the transform
- Input: for forward transform, it contains real signal to be transformed. For backward transform, it contains complex signal.
- Output: for forward transform, it contains the complex signal of 2D DFT.for backward transform, it contains the real signal of 2D IDFT.
- iSign
- [input] the transformation to carry out
- = FFT_FORWARD: FFT (by default)
- = FFT_BACKWARD: IFFT.
Return
Returns 0 for success or error codes for failure.
Examples
Prior to compilation, load fftEx_utils.c to the workspace by executing the following LabTalk command:
Run.LoadOC("Originlab\fftEx_utils.c", 16);
To retain fftEx_utils.c in the workspace for successive sessions, drag and drop the file from the Temporary folder to the System folder.
EX1
#include <fftex_utils.h>
void fft_2d_complex_ex1()
{
matrix<complex> sig(2, 2);
for (int ii=0; ii<2; ++ii)
for (int jj=0; jj<2; ++jj)
{
sig[ii][jj].m_im = (ii+jj)%2;
sig[ii][jj].m_re = !sig[ii][jj].m_im;
}
for (ii=0; ii<2; ++ii)
{
for (int jj=0; jj<2; ++jj)
printf ("%lf+%lfi\t", sig[ii][jj].m_re, sig[ii][jj].m_im);
printf ("\n");
}
printf ("\n");
fft_2d_complex(2, 2, sig);
printf ("\n");
for (ii=0; ii<2; ++ii)
{
for (int jj=0; jj<2; ++jj)
printf ("%lf+%lfi\t", sig[ii][jj].m_re, sig[ii][jj].m_im);
printf ("\n");
}
}
Remark
See Also
fft_fft_real, fft_fft_complex
Header to Include
fftEx_utils.h
Reference
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