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I'm trying to code a FFT/IFFT function with FFTW 3.3 and OpenCV 2.1 using the C++ interface. I've seen a lot of examples using the old OpenCV formats and I did a direct conversion, but something doesn't work.

The objective of my function is to return a Mat object with the real part and the imaginary part of the FFT, like dft default OpenCV function does. Here is the code of the function. Program gets blocked with memory problem in the lines that copy im_data to data_in.

Does somebody know what am I doing wrong? Thank you

Mat fft_sr(Mat& I)
{

double          *im_data;
double          *realP_data;
double          *imP_data;

fftw_complex    *data_in;
fftw_complex    *fft;      

fftw_plan       plan_f;

int width     = I.cols;
int height    = I.rows;
int step      = I.step;

int             i, j, k;

Mat realP=Mat::zeros(height,width,CV_64F); // Real Part FFT
Mat imP=Mat::zeros(height,width,CV_64F); // Imaginary Part FFT


im_data = ( double* ) I.data;
realP_data = ( double* ) realP.data;
imP_data = ( double* ) imP.data;


data_in = ( fftw_complex* )fftw_malloc( sizeof( fftw_complex ) * width * height );
fft     = ( fftw_complex* )fftw_malloc( sizeof( fftw_complex ) * width * height );

// Problem Here
for( i = 0, k = 0 ; i < height ; i++ ) {
    for( j = 0 ; j < width ; j++ ) {
        data_in[k][0] = ( double )im_data[i * step + j];
        data_in[k][1] = ( double )0.0;
        k++;
    }
}


plan_f = fftw_plan_dft_2d( height, width, data_in, fft,  FFTW_FORWARD,  FFTW_ESTIMATE );


fftw_execute( plan_f );

// Copy real and imaginary data
for( i = 0, k = 0 ; i < height ; i++ ) {
    for( j = 0 ; j < width ; j++ ) {
        realP_data[i * step + j] = ( double )fft[k][0];
        imP_data[i * step + j] = ( double )fft[k][1];
        k++;

    }
}



Mat fft_I(I.size(),CV_64FC2);
Mat fftplanes[] = {Mat_<double>(realP), Mat_<double>(imP)};
merge(fftplanes, 2, fft_I);

fftw_destroy_plan(plan_f);
fftw_free(data_in);
fftw_free(fft);
return fft_I;   
}
share|improve this question
    
What is step set to? What exactly means "Problem Here"? What happens when you add the line std:cout << i << "/" << j << std::endl; to the body of the inner loop of the nested loop struct producing the problem? – Abbondanza Nov 26 '12 at 11:31
    
step is fixed to 4096 (8 bytes (CV_64F, 64 bit float) * 512 (row size)), they are 512x512 images. Adding this line, it throws a 'access violation reading location 0x04331000 at i=64, j=506 – gui Nov 26 '12 at 12:52
up vote 3 down vote accepted

You are using step wrong. It is meant to index into Mat::data. Since you already casted Mat::data to double* when assigning it to im_data, you can index into im_data "normally":

data_in[k][0] = im_data[i * width + j];

When using step the correct way to index is:

data_in[k][0] = ( double )I.data[i * step + j];

Update:

Try to access your images row-wise. That way you avoid running into problems with stride/step, while still exploiting fast access:

for (int i = 0; i < I.rows; i++)
{
    double* row = I.ptr<double>(i);

    for (int j = 0; j < I.cols; j++)
    {
        // Do something with the current pixel.
        double someValue = row[j];
    }
}
share|improve this answer
    
It works! thank you – gui Nov 26 '12 at 13:14
    
Unfortunately, after testing it several times, it doesn't work. Yesterday, I changed the lines that you suggested (in the two ways) and I didn't get memory errors and I supposed that the result was OK. After testing in different scenarios, it doesn't work properly (getting the same error in the same line or in similar memory access lines in fft/ifft function). When no memory errors, the function doesn't return the FFT of the image properly. – gui Nov 27 '12 at 17:08
    
@aristos I guess you are still doing some indexing wrong elsewhere. Is there a reason why you are accessing Mat::data directly? Why not use Mat::at() first for safer memory access and improve performance later? Anyway, before I can give anymore help, you have to update the code in your question and describe where exactly what error is happening. – Abbondanza Nov 28 '12 at 8:18
    
Mat::at() is slower than accessing Mat::data directly, isn't it? Well, I tried that and it's so much time cost, that's why I'm looking for alternatives – gui Nov 28 '12 at 8:24
    
@aristos I updated my answer with a new suggestion. Please re-work your question to a minimal, yet complete example in case this doesn't help. – Abbondanza Nov 29 '12 at 7:51

I know this is old but when you are using fftw you need to initialize fftw_complex *data_in only after creating the plan for the fft, if i recall correctly when you create the plan it sets all the *data_in values to 0. so allocate before the plan and initialize after!

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