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there is my Integrator_Cauchy class:

template <typename T_out,typename T_contour ,typename T_in> class C_Integrator_Cauchy: public C_Integrator{
T_out (C_Integrator_Cauchy::*Integrator_ref)(T_contour * Contour,T_in * Point);

C_Integrator_Cauchy(int _NumPoints, double _LimDown, double _LimUp, int _NumAps, Integrator_ID id):C_Integrator(_NumPoints, _LimDown, _LimUp, _NumAps, id){}

static C_Integrator_Cauchy * createIntegrator(int _NumPoints, double _LimDown, double _LimUp, int _NumAps, Integrator_ID id ){
    C_Integrator_Cauchy * p = 0; 
    switch (id)
        case qcauchyleg_lin_ID:
            p = new C_Integrator_Cauchy(_NumPoints, _LimDown, _LimUp, _NumAps, id); 
        cout << "Integrator_ID Error" << endl;
            assert( false);
    return p;

T_out getResult(T_contour * Contour,T_in * Point){
    return (this->*Integrator_ref)(Contour,Point);

T_out qcauchyleg_lin(T_contour * Contour,T_in * Point)
    T_out result(NumAps);
    T_out F(NumAps),resF(NumAps),sumF(NumAps);
    T_in N,temp,sumN,resN;
    T_in z_i,dz_i,coordin;
    for (int i = 0; i < NumAps ; i++){sumF[i] = T_in(0.0,0.0);}
    sumN = T_in(0.0,0.0);

    for (int j=1;j<=NumPoints;j++) 
        temp = w[j];
        for (int i = 0; i < NumAps ; i++){F[i]=conj(z_i-coordin)/norm(z_i-coordin)*dz_i*(*Contour)[i+2][j-1];}
        for (int i = 0; i < NumAps ; i++){sumF[i] += temp*F[i];}
        sumN += temp*N;
    for (int i = 0; i < NumAps ; i++){  result[i]=(sumF[i]/sumN); }
    return result;
} };

And the easiest main.cpp

typedef complex<double> dcx;

typedef vector<vector<vector<double> > > dArray3D; 
typedef vector<vector<double> > dArray2D; 
typedef vector<double> dArray1D; 

typedef vector<vector<vector<dcx> > > dcxArray3D;
typedef vector<vector<dcx> > dcxArray2D;
typedef vector<dcx> dcxArray1D;

int main(int __argc,char *__argv[]){
    C_Integrator_Cauchy<dcxArray1D,dcxArray2D,dcx> * integ_cauchy=C_Integrator_Cauchy<dcxArray1D,dcxArray2D,dcx>::createIntegrator(2000, 0.0, 6.2831, 1, qcauchyleg_lin_ID);

    cout << "Start allocate something" << endl;
    dcxArray2D temp;
    for (int i = 0; i < 8000; i++){
        cout << i << endl;

 return 0;

The issue is - after creation of the Integrator_Cauchy in main.cpp, it is impossible to allocate big vector (say i > 4000). It throws:

*** glibc detected *** ./main_test: free(): invalid next size (normal): 0x0a01acc8 ***
======= Backtrace: =========

although i have more than enough memory space in RAM, and the Integrator_Cauchy itself doesn't take a lot of memory.

I`m compiling on Ubuntu 12.10; g++ 4.7.2;

Any ideas?

share|improve this question
My psychic debugging skills tell me that your C_Integrator_Cauchy class does dynamic memory allocation and your code contains either a buffer underrun or a buffer overrun somewhere. As a result of the underrun or overrun, you corrupt critical structures that the runtime uses to track heap memory. And once you do... well... can you blame the runtime for failing? –  Nik Bougalis Mar 12 '13 at 22:01
something like Address Sanitizer might help you find if you have a buffer overrun/underrun. <clang.llvm.org/docs/AddressSanitizer.html>; –  EHuhtala Mar 12 '13 at 22:06
Wow that is hard to read; are you freeing pointers allocated with new? Run it through valgrind. –  Alex Chamberlain Mar 12 '13 at 22:07

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