I'm trying to use fftw (3.3.4) on split arrays. I took an example from a C/MEX guide (PDF: http://www.researchgate.net/publictopics.PublicPostFileLoader.html?id=551a2e59cf57d7620c8b463b&key=3a91499f-ec8f-41f4-8e87-fff8bf00e54a).
When the program is run it crashes (segfault). Running valgrind shows memory violations.
What am I doing wrong here?
#include <vector>
#include <fftw3.h>
void DivideArray(double *Data, int NumEl, double Divisor)
{
int n;
for(n = 0; n < NumEl; n++)
Data[n] /= Divisor;
}
void FFTNDSplit(int NumDims, const int N[], double *XReal, double *XImag, double *YReal, double *YImag, int Sign)
{
fftw_plan Plan;
fftw_iodim Dim[NumDims];
int k, NumEl;
for(k = 0, NumEl = 1; k < NumDims; k++)
{
Dim[NumDims-k-1].n = N[k];
Dim[NumDims-k-1].is = Dim[NumDims-k-1].os = (k == 0) ? 1 : (N[k-1] * Dim[NumDims-k].is);
NumEl *= N[k];
}
if(!(Plan = fftw_plan_guru_split_dft(NumDims, Dim, 0, NULL,
XReal, XImag, YReal, YImag, FFTW_ESTIMATE))) {
printf("Failed creating FFTW plan.\n");
return;
}
if(Sign == -1)
fftw_execute_split_dft(Plan, XReal, XImag, YReal, YImag);
else
{
fftw_execute_split_dft(Plan, XImag, XReal, YImag, YReal);
DivideArray(YReal, NumEl, NumEl);
DivideArray(YImag, NumEl, NumEl);
}
fftw_destroy_plan(Plan);
return;
}
int main()
{
int W = 201, H = 201;
std::vector<double> xr(W*H);
std::vector<double> xi(W*H);
std::vector<double> yr(W*H);
std::vector<double> yi(W*H);
for (int i = 0; i < W*H; i++) {
xr[i] = xi[i] = yr[i] = yi[i] = 5.0;
}
int dims[2] = { W, H };
FFTNDSplit(2, dims, &xr[0], &xi[0], &yr[0], &yi[0], 1);
return 0;
}
valgrind's first error output:
==20663== Invalid write of size 8
==20663== at 0x4E4A0EB: fftw_cpy2d (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E4A36C: dotile_buf (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E4F4CA: fftw_tile2d (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E4F4CA: fftw_tile2d (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E4A51F: fftw_cpy2d_tiledbuf (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E8E651: copy (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E877C6: apply (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E518F8: apply (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x400CDF: FFTNDSplit(int, int const*, double*, double*, double*, double*, int) (in /.../fftw3_split_test)
==20663== by 0x400FDA: main (in /.../fftw3_split_test)
==20663== Address 0x5e56b80 is 0 bytes inside a block of size 32 free'd
==20663== at 0x4C2BCD7: free (vg_replace_malloc.c:473)
==20663== by 0x4E4F368: fftw_tensor_destroy2 (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4E562BB: fftw_mkproblem_dft_d (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x4F1B4CB: fftw_plan_guru_split_dft (in /usr/local/lib/libfftw3.so.3.4.4)
==20663== by 0x400C7D: FFTNDSplit(int, int const*, double*, double*, double*, double*, int) (in /.../fftw3_split_test)
==20663== by 0x400FDA: main (in /.../fftw3_split_test)
The problem is that you are planning on array (Real, Imag) but you are executing with (Imag, Real), in an attempt to use the same plan for the forward and inverse transforms. This is not allowed, as per manual Section 4.6:
Creating a separate plan for the inverse will solve the problem.