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I almost choked on searching similar topics but didn't find the answer I was looking for.

Here my problem:

Given a base class T, there are several derived classes A, B, C, etc.

I have a set of vectors:

std::vector<A*> a;
std::vector<B*> b;
std::vector<C*> c;

(...) and also

std::vector<T*> t;

During the run of my code, a,b,c... are filled out. Then I need to make an analysis that only depends on the base class members, but the user must choose which of a,b,c will be used. So, I implemented it over the std::vector t and the first thing I do is just copy the user-selected vector to the vector of the base class.

i.e. outHit = std::vector<CbmPixelHit*>(tofHit.begin(),tofHit.end());

It works, but the vectors are quite large so becomes an expensive process.

What I am looking for is how to make: std::vector<T*> *t_ptr to point to the selected vector;

Here what I tried :

std::vector<CbmStsHit*> stsHit;
std::vector<CbmTofHit*> tofHit;
std::vector<CbmPixelHit*> *outHit;

(...)

TString outDet = "ToF";
if (outDet.Contains("Tof")){
    outHit = &tofHit;
}

The base class is CbmPixelHit. CbmStsHit and CbmTofHit are derived class But I got

error: assigning to 'std::vector<CbmPixelHit *> *' from incompatible type 'std::vector<CbmTofHit *> *' outHit = &tofHit;

What is the proper way to solve this?

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    You can't do that; it isn't type safe. It would allow you to outHit = &tofHit; (*outHit)[0] = new CbmStsHit;, which nobody wants.
    – molbdnilo
    Nov 25, 2021 at 15:25
  • The assignment operator does not exist, because two vectors never manage the same storage. A move assignment operator (outHit = std::move(tofHit); assuming you don't need tofHit afterwards) would be possible, but does not exist either. I would suggest making the part of your code that deals with outHit a template or auto lambda that can deal with the vectors of pointers to derived types as well.
    – eike
    Nov 25, 2021 at 15:44
  • How big are the vectors that converting a bunch of pointers and copying them becomes too expensive?
    – eike
    Nov 25, 2021 at 15:47
  • the size of the vectors is in the order of 1e+9. But in principle could be larger: up to 1e+12.
    – Googol
    Nov 25, 2021 at 17:03
  • Are you sure about these magnitudes? A vector of size 1e12 would consume eight contiguous terabytes just for the pointers, and then you have the objects on top of that. Do you really have that much memory? (Even with 1e9 elements, multiple blocks of eight contiguous gigabytes each is optimistic on a regular desktop machine.) Also, at one nanosecond per allocation, which is very optimistic, just the dynamic allocation of 1e12 objects would take over fifteen minutes.
    – molbdnilo
    Nov 25, 2021 at 20:24

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