2

One of my favorite aspects of unique_ptr is the automatic memory management it provides. I would like to use unique_ptr with something like a GSL vector.

However, gsl_vector has its own mechanism for freeing memory (gsl_vector_free). Is there a way to force the unique pointer to use GSL's vector freeing method? Valgrind (correctly) reports a mismatched use of malloc/delete when creating a unique_ptr<gsl_vector> below:

#include <memory>
#include <gsl/gsl_vector.h>

void mem_gsl() {
  gsl_vector *vec;
  vec = gsl_vector_calloc(2);
  gsl_vector_set(vec, 0, 2.0);
  printf("%f\n", gsl_vector_get(vec, 0));
  gsl_vector_free(vec);  // Without this, there is a memory leak.
}

void mem_unique_ptr() {
  std::unique_ptr<gsl_vector> vec;
  vec.reset(gsl_vector_calloc(2));
  // Using .get() each time I want to use the gsl_vector seems like overhead.
  gsl_vector_set(vec.get(), 0, 2.0);
  printf("%f\n", gsl_vector_get(vec.get(), 0));
  // Valgrind correctly reports a mismatched use of delete and free.
}

int main(int argc, char *argv[]) {
  mem_gsl();
  mem_unique_ptr();
  return 0;
}

Additionally, having to call get() each time I want to access a vector element seems rather tedious. Is there a way around this?

1
  • why not just using a local variable ? Jan 2, 2014 at 18:16

3 Answers 3

4

You can do it by providing std::unique_ptr with a custom deleter. Something like this would probably do:

auto del = [](gsl_vector* p) { gsl_vector_free(p); };
std::unique_ptr<gsl_vector, decltype(del)> vec(gsl_vector_calloc(2), del);
1
  • Actually there is no need to generate that trivial lambda for that. std::unique_ptr<gsl_vector, decltype(&gsl_vector_free)> vec(gsl_vector_calloc(2), &gsl_vector_free); or more explicitly ``std::unique_ptr<gsl_vector, void()(gsl_vector)> vec(gsl_vector_calloc(2), &gsl_vector_free);`
    – alfC
    Feb 13, 2014 at 21:41
2

Having a make_unique_gsl_vector amd a custom deleter:

#include <memory>

// Fake gsl
typedef int gsl_vector;
gsl_vector* gsl_vector_calloc(std::size_t) { return 0; }
void gsl_vector_free(gsl_vector*) {}

// Deleter
struct gsl_vector_deleter {
    void operator () (gsl_vector* p) {
        gsl_vector_free(p);
    }
};

// Unique Pointer
typedef std::unique_ptr<gsl_vector, gsl_vector_deleter> unique_gsl_vector;
unique_gsl_vector make_unique_gsl_vector() {
    return unique_gsl_vector(gsl_vector_calloc(2));
}

int main() {
    make_unique_gsl_vector();
    return 0;
}
2

To avoid the .get() calls and other boilerplate associated with wrapping a gsl_vector in a unique_ptr, you could create a small RAII wrapper.

namespace gsl {

class vector
{
    std::unique_ptr<gsl_vector, decltype(&gsl_vector_free)> v_;
public:

    explicit vector(std::size_t num)
    : v_(gsl_vector_calloc(num), gsl_vector_free)
    {}

    double operator[](std::size_t idx) const
    {
        return gsl_vector_get(v_.get(), idx);
    }

    void set(std::size_t idx, double value)
    {
        gsl_vector_set(v_.get(), idx, value);
    }
};

}

This not only avoids boilerplate, but also allows you to easily extend functionality, say for instance, adding a constructor that takes a std::initializer_list<double> so you can construct and initialize the vector in a single expression.

Live example

1
  • Thanks, I wish I could accept two answers! I really like this wrapper.
    – Felix
    Jan 8, 2014 at 1:26

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