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in the following code I want to store an input vector<double> in the derived class. I do so by applying a copy assignment of std::vector as a vector is passed to the setIT function. I need it to use compute, which is implemented in derived. A memory leak arises during this copy assignment.

This leak can be avoided by using: vector<double> * input instead of vector<double> input, but I do not understand why.

Can anyone clarify this? Thanks in advance.

#include "utilities.h"
#include <fstream>

using namespace std;
using namespace astro;

class base
    base () { cout<<" in base default constructor "<<endl; }
    virtual void setIT (void *v) = 0;
    virtual double compute () = 0;

class derived : public base
    vector<double> input;

    derived ();
    virtual void setIT (void *v);
    virtual double compute () { /* using input vector to return something */ return 0; }

derived::derived () : base()
    cout<<" in derived default constructor "<<endl;

void derived::setIT (void *v)
  cout<<" in derived setIT "<<endl;
  vector<double> * a = reinterpret_cast<vector<double>* >(v);
  input = *a;
  for (uint i = 0; i<input.size(); i++)
    cout<<i<<" "<<input[i]<<endl;

int main ()
  vector<double> test;
  fill_linear(test,5,1.,6.); // linear filling of test vector by '5' values between 1 and 6

  base * t = new derived;
  t->setIT (&test);

  delete t;
  t = NULL;
  return 0;


 in base default constructor 
 in derived default constructor 
 in derived setIT 
0 1
1 2.25
2 3.5
3 4.75
4 6
share|improve this question
What evidence of the "memory leak" do you have? –  Angew Mar 5 '13 at 14:34
Hmmm very smelly code... Why do you think there is a leak during assignment? There is a leak when you delete the base pointer. PS You probably don't want to be using reinterpret_cast yet. –  Alex Chamberlain Mar 5 '13 at 14:36
@Angew using valgrind i found definetly lost bytes. –  Alex Mar 5 '13 at 15:10

2 Answers 2

up vote 10 down vote accepted

Actually your program invokes undefined-behavior.

The destructor of the base class must be virtual in order to be well-defined.

Just define the destructor as:

virtual ~base() {}  

Do this even if it is empty!

For detail, read this:

share|improve this answer
@CaptainMurphy: Thanks for the link. Added that to my answer. –  Nawaz Mar 5 '13 at 14:39
Thank you very much. Of course the clean up only worked for the base, not for the derived class. –  Alex Mar 5 '13 at 15:09
Any Idea why it worked with vector<double> * input ? –  Alex Mar 5 '13 at 15:17
@Alex: What does "worked" mean? –  Nawaz Mar 5 '13 at 15:23

Avoid using void pointers in C++. If you want to handle different types, use templates instead.

class Base
  virtual ~Base(){}
  virtual double compute() const=0;

template<typename T>
class Derived : public Base
  std::vector<T> m_input;
  void set_it(const T& in)
    m_input = in;
  double compute() const{/*Do the computation and return*/;}
share|improve this answer
I actually use void pointers, to deal with arbitrary kind of input, as further derived class will need different kinds of input (maybe a struct or strings) –  Alex Mar 5 '13 at 15:13
I still fail to see how templates does not solve this. Maybe you have a special use case that really motivates void-pointers. It looks like your derived class has to know what types it expects since you cast to a specific type in the method. This will be handled with the templated class. And the compiler can check what you are doing. –  AxelOmega Mar 5 '13 at 15:16

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