# Code segfaulting when I move a set of commands into a seperate function

I'm working with the CLHEP library and I have run into some difficulties. Before these changes I had been generating a set of particle momenta as a vector of CLHEP objects (std::vector) and then converting these into vectors of normal arrays - still containing the same momenta - for another program (MadGraph) to use. I wanted to put this conversion routine into a new function and so I made this:

``````std::vector<double*> MadGraphConvert(vector<CLHEP::HepLorentzVector> p) {

double ptemp[6][4];

for (int i = 0; i < 6; i++) {
ptemp[i][0] = p.at(i).e();
ptemp[i][1] = p.at(i).x();
ptemp[i][2] = p.at(i).y();
ptemp[i][3] = p.at(i).z();
}

// Give particles to MG in a 'vector of arrays' format
std::vector<double*> p_MG;

p_MG.push_back(ptemp[0]);
p_MG.push_back(ptemp[1]);
p_MG.push_back(ptemp[2]);
p_MG.push_back(ptemp[3]);
p_MG.push_back(ptemp[4]);
p_MG.push_back(ptemp[5]);

return p_MG;
}
``````

Now when I run my code something in this other code throws a segfault but I think I am passing what I had before? My old set of conversions looked like this:

``````    p[0][0] = pa.e();
p[0][1] = pa.x();
p[0][2] = pa.y();
p[0][3] = pa.z();

p[1][0] = pb.e();
p[1][1] = pb.x();
p[1][2] = pb.y();
p[1][3] = pb.z();
.
'
'
std::vector<double*> p_MG;

p_MG.push_back(p[0]);
p_MG.push_back(p[1]);
p_MG.push_back(p[2]);
p_MG.push_back(p[3]);
p_MG.push_back(p[4]);
p_MG.push_back(p[5]);
``````

If anyone can spot where the difference in these two approaches is I would be very grateful! Cheers Jack

-

The `vector` contains dangling pointers as it being populating with addresses from a local variable, the array `ptemp`, which is out of scope when the function `MadGraphConvert()` returns. Dereferencing a dangling pointer is undefined behaviour, in this case it causes a segmentation fault.

Use a `std::vector<std::vector<double>>` instead:

``````std::vector<std::vector<double>> ptemp(6, std::vector<double>(4));
``````

The `for` loop will work as is (as this constructor creates the `vector` with six elements with each element being another `vector` of four `double`s ) and just return `ptemp` (remembering to change the return value of `MadGraphConvert()`).

If, as commented to this answer, the type change is forbidden then dynamically allocate the `double[4]` array using `new`. The `vector` now owns the arrays and must `delete[]` them when no longer required:

``````// In function.
std::vector<double*> ptemp(6); // By default, created with six null pointers.
try
{
for (size_t i(0), count(ptemp.size()); i < count; i++)
{
ptemp[i] = new double[4];
// Remainder of loop as before.
}
}
catch (std::exception const&) // std::out_of_range, std::bad_alloc
{
// Exception safety.
// delete[] whatever was allocated, remember that
// delete[] on a null pointer is a no-op so no
// prior check required.
for (auto i : ptemp) delete[] i;
throw;
}
``````

and just return `ptemp`. Later, when `vector` is no longer required:

``````// c++11
for (auto i : ptemp) delete[] i;

// c++03
for (std::vector<double*>::iterator i(ptemp.begin());
i != ptemp.end();
i++)
{
delete[] (*i);
}
``````
-
Hi thanks for helping, That was my original approach but Madgraph wants the momenta passed as a vector of arrays, its declared like this: void setMomenta(vector < double * > & momenta){p = momenta;} Is there a way to dodge the hanging pointers while keeping it in this format? – JMzance Mar 4 '13 at 12:45
@JackMedley, yes there is. I will update the answer. – hmjd Mar 4 '13 at 12:50
Ok with that in my loop it still compiles ok but the segfault at the same position is still there. I might try creating the ptemp array in main, passing it over to function, filling it and the accessing it from main, that should work right? Cheers – JMzance Mar 4 '13 at 13:22
@JackMedley, I am unsure why this does not work (I just double-checked). Suggest using `valgrind` if you have it. What you suggest will work but is dangerous due to the lifetime arrangement between the `vector` and the `array`. – hmjd Mar 4 '13 at 13:29