I hesitate to ask this question because there is probably something wrong with my C++ template program but this problem has been bugging me for the past couple of hours. I am running the exact same program on Visual C++ and Mingw-g++ compilers but only VC2010 is giving me the expected results. I am not proficient C++ programmer by any means so not getting any error messages from either compilers is even more frustrating.

Edit : I did mingw-get upgrade after failing to resolve the error. I was running g++ 4.5.2 and now I have version 4.7.2 but the problem persists.

Late Update - I did a complete uninstall of MinGW platform, manually removed every folder and then installed TDM-GCC but the problem persists. Maybe there is some conflict with my Windows Installation. I have installed Cygwin and g++ 4.5.3 for the time being (It is working) as OS reinstallation isn't really an option right now. Thanks for all the help.

Here is my code. (Header File itertest.h)

```
#ifndef ITERTEST_H
#define ITERTEST_H
#include <iostream>
#include <cmath>
#include <vector>
#include <string>
#include <algorithm>
using namespace std;
template <typename T>
class fft_data{
public:
vector<T> re;
vector<T> im;
};
template <typename T>
void inline twiddle(fft_data<T> &vec,int N,int radix){
// Calculates twiddle factors for radix-2
T PI2 = (T) 6.28318530717958647692528676655900577;
T theta = (T) PI2/N;
vec.re.resize(N/radix,(T) 0.0);
vec.im.resize(N/radix,(T) 0.0);
vec.re[0] = (T) 1.0;
for (int K = 1; K < N/radix; K++) {
vec.re[K] = (T) cos(theta * K);
vec.im[K] = (T) sin(theta * K);
}
}
template <typename T>
void inline sh_radix5_dif(fft_data<T> &x,fft_data<T> &wl, int q, int sgn) {
int n = x.re.size();
int L = (int) pow(5.0, (double)q);
int Ls = L / 5;
int r = n / L;
T c1 = 0.30901699437;
T c2 = -0.80901699437;
T s1 = 0.95105651629;
T s2 = 0.58778525229;
T tau0r,tau0i,tau1r,tau1i,tau2r,tau2i,tau3r,tau3i;
T tau4r,tau4i,tau5r,tau5i;
T br,bi,cr,ci,dr,di,er,ei;
fft_data<T> y = x;
T wlr,wli,wl2r,wl2i,wl3r,wl3i,wl4r,wl4i;
int lsr = Ls*r;
for (int j = 0; j < Ls; j++) {
int ind = j*r;
wlr = wl.re[ind];
wli = wl.im[ind];
wl2r = wlr*wlr - wli*wli;
wl2i = 2.0*wlr*wli;
wl3r = wl2r*wlr - wli*wl2i;
wl3i= wl2r*wli + wl2i*wlr;
wl4r = wl2r*wl2r - wl2i*wl2i;
wl4i = 2.0*wl2r*wl2i;
for (int k =0; k < r; k++) {
int index = k*L+j;
int index1 = index+Ls;
int index2 = index1+Ls;
int index3 = index2+Ls;
int index4 = index3+Ls;
tau0r = y.re[index1] + y.re[index4];
tau0i = y.im[index1] + y.im[index4];
tau1r = y.re[index2] + y.re[index3];
tau1i = y.im[index2] + y.im[index3];
tau2r = y.re[index1] - y.re[index4];
tau2i = y.im[index1] - y.im[index4];
tau3r = y.re[index2] - y.re[index3];
tau3i = y.im[index2] - y.im[index3];
tau4r = c1 * tau0r + c2 * tau1r;
tau4i = c1 * tau0i + c2 * tau1i;
tau5r = sgn * ( s1 * tau2r + s2 * tau3r);
tau5i = sgn * ( s1 * tau2i + s2 * tau3i);
br = y.re[index] + tau4r + tau5i;
bi = y.im[index] + tau4i - tau5r;
er = y.re[index] + tau4r - tau5i;
ei = y.im[index] + tau4i + tau5r;
tau4r = c2 * tau0r + c1 * tau1r;
tau4i = c2 * tau0i + c1 * tau1i;
tau5r = sgn * ( s2 * tau2r - s1 * tau3r);
tau5i = sgn * ( s2 * tau2i - s1 * tau3i);
cr = y.re[index] + tau4r + tau5i;
ci = y.im[index] + tau4i - tau5r;
dr = y.re[index] + tau4r - tau5i;
di = y.im[index] + tau4i + tau5r;
int indexo = k*Ls+j;
int indexo1 = indexo+lsr;
int indexo2 = indexo1+lsr;
int indexo3 = indexo2+lsr;
int indexo4 = indexo3+lsr;
x.re[indexo]= y.re[index] + tau0r + tau1r;
x.im[indexo]= y.im[index] + tau0i + tau1i;
x.re[indexo1] = wlr*br - wli*bi;
x.im[indexo1] = wlr*bi + wli*br;
x.re[indexo2] = wl2r*cr - wl2i*ci;
x.im[indexo2] = wl2r*ci + wl2i*cr;
x.re[indexo3] = wl3r*dr - wl3i*di;
x.im[indexo3] = wl3r*di + wl3i*dr;
x.re[indexo4] = wl4r*er - wl4i*ei;
x.im[indexo4] = wl4r*ei + wl4i*er;
}
}
}
template <typename T>
void inline fftsh_radix5_dif(fft_data<T> &data,int sgn, unsigned int N) {
//unsigned int len = data.re.size();
int num = (int) ceil(log10(static_cast<double>(N))/log10(5.0));
//indrev(data,index);
fft_data<T> twi;
twiddle(twi,N,5);
if (sgn == 1) {
transform(twi.im.begin(), twi.im.end(),twi.im.begin(),bind1st(multiplies<T>(),(T) -1.0));
}
for (int i=num; i > 0; i--) {
sh_radix5_dif(data,twi,i,sgn);
}
}
#endif
```

main.cpp

```
#include "itertest.h"
using namespace std;
int main(int argc, char **argv)
{
int N = 25;
//vector<complex<double> > sig1;
fft_data<double> sig1;
for (int i =0; i < N; i++){
//sig1.push_back(complex<double>((double)1.0, 0.0));
//sig2.re.push_back((double) i);
//sig2.im.push_back((double) i+2);
sig1.re.push_back((double) 1);
sig1.im.push_back((double) 0);
}
fftsh_radix5_dif(sig1,1,N);
for (int i =0; i < N; i++){
cout << sig1.re[i] << " " << sig1.im[i] << endl;
}
cin.get();
return 0;
}
```

The expected Output (which I am getting from VC2010)

```
25 0
4.56267e-016 -2.50835e-016
2.27501e-016 -3.58484e-016
1.80101e-017 -2.86262e-016
... rest 21 rows same as the last three rows ( < 1e-015)
```

The Output from Mingw-g++

```
20 0
4.94068e-016 -2.10581e-016
2.65385e-016 -3.91346e-016
-5.76751e-017 -2.93654e-016
5 0
-1.54508 -4.75528
-3.23032e-017 1.85061e-017
-4.68253e-017 -1.18421e-016
-6.32003e-017 -2.05833e-016
1.11022e-016 0
4.04508 -2.93893
8.17138e-017 6.82799e-018
3.5246e-017 9.06767e-017
-6.59101e-017 -1.62762e-016
1.11022e-016 0
4.04508 2.93893
-6.28467e-017 6.40636e-017
1.79807e-016 3.34411e-017
-6.94919e-017 -1.05831e-016
1.11022e-016 0
-1.54508 4.75528
5.70402e-017 -1.68674e-017
-1.36169e-016 -8.30473e-017
-9.75639e-017 3.40359e-016
1.11022e-016 0
```

`using namespace std;`

in a header – dsi Feb 10 '13 at 21:38