I am using 'fftw' integrated in a project with Visual Studio 2008 and ITK ( Insight Segmentation and Registration Toolkit) for medical image processing.

I have a loop for a specific number of iterations, and I want to perform the next process each time:

**f1 -->(FFT)--> F1 -->(SOME CALCULATIONS)-->U1-->(IFFT)-->u1**

All the calculations are done properly the first iteration, but in the second one, the values in 'f1' and 'f2' are correct, then I perform the FFT and 'F1' or 'F2' are wrong!

I can't not understand with the first time works perfect and the second time doesn't.

Any help will be really appreciated, the code is shown below:

```
fftw_complex *U1 =(fftw_complex*) fftw_malloc(sizeof(fftw_complex)*alto*((ancho/2)+1));
fftw_complex *U2 =(fftw_complex*) fftw_malloc(sizeof(fftw_complex)*alto*((ancho/2)+1));
fftw_complex *F1 =(fftw_complex*) fftw_malloc(sizeof(fftw_complex)*alto*((ancho/2)+1));
fftw_complex *F2 =(fftw_complex*) fftw_malloc(sizeof(fftw_complex)*alto*((ancho/2)+1));
double *u1 = (double*) malloc(sizeof(double)*N_fft);
double *u2 = (double*) malloc(sizeof(double)*N_fft);
for (int numIter = 1 ; numIter < maxiter ; numIter++ ){
// *** FFT CALCULATION ***
fftw_plan plan1;
fftw_plan plan2;
int N_fft= ancho*alto; //number of points of the image
plan1 = fftw_plan_dft_r2c_2d(alto,ancho, f1, F1, FFTW_ESTIMATE); // FFT planning
plan2 = fftw_plan_dft_r2c_2d(alto,ancho, f2, F2, FFTW_ESTIMATE); // FFT planning
fftw_execute(plan1); // FFT calculation
fftw_execute(plan2); // FFT calculation
fftw_destroy_plan(plan1);
fftw_destroy_plan(plan2);
// Further calculations with ‘F’ to get ‘U’
// ……
// Saving the input of the ifft because it modifies it and i will need it correctly in the next iterarion
for (int y = 0 ; y < alto ; y++){
for (int x = 0 ; x < (ancho/2)+1 ; x++){
U1_input_save[((ancho/2)+1)*y+x][0] = U1[((ancho/2)+1)*y+x][0];
U1_input_save[((ancho/2)+1)*y+x][1] = U1[((ancho/2)+1)*y+x][1];
U2_input_save[((ancho/2)+1)*y+x][0] = U2[((ancho/2)+1)*y+x][0];
U2_input_save[((ancho/2)+1)*y+x][1] = U2[((ancho/2)+1)*y+x][1];
}
}
// *** IFFT ( U1,U2 --> u1,u2) ***
fftw_plan plan3;// variable para almacenar la planificación de la IFFT
fftw_plan plan4;// variable para almacenar la planificación de la IFFT
plan3 = fftw_plan_dft_c2r_2d( alto , ancho , U1 , u1 , FFTW_ESTIMATE ) ;
plan4 = fftw_plan_dft_c2r_2d( alto , ancho , U2 , u2 , FFTW_ESTIMATE ) ;
fftw_execute(plan3); // IFFT
fftw_execute(plan4); // IFFT
fftw_destroy_plan(plan3);
fftw_destroy_plan(plan4);
// Coefficient normalization after IFFT
u1 = fftw_normalization( ancho , alto , N_fft , u1 ) ;
u2 = fftw_normalization( ancho , alto , N_fft , u2 ) ;
// Replacing ‘U1’ with the correct value for the calculations of the next iteration
for (int y = 0 ; y < alto ; y++ ) {
for (int x = 0 ; x < (ancho/2) + 1 ; x++ ) {
U1[((ancho/2) + 1 )*y + x ][0] = U1_input_save[( (ancho/2) + 1 )*y + x][0];
U1[((ancho/2) + 1 )*y + x ][1] = U1_input_save[( (ancho/2) + 1 )*y + x][1];
U2[((ancho/2) + 1 )*y + x ][0] = U2_input_save[( (ancho/2) + 1 )*y + x][0];
U2[((ancho/2) + 1 )*y + x ][1] = U2_input_save[( (ancho/2) + 1 )*y + x][1]; }
}
// *** END CALCULATION FFT ***
} // END for numIter
```

Thanks a lot

Antonio