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I am working on defining an iterator_adaptor based on a base iterator. The whole thing works when working on host_vectors, but when I apply it to device_vectors, the compiler throws an error: initial value of reference to non-const must be an lvalue.

#include <thrust/iterator/iterator_adaptor.h>
#include <thrust/host_vector.h>
#include <thrust/device_vector.h>

struct BoxIterator{

  unsigned int m_loc;
 typedef int difference_type;
  typedef double* pointer;
  typedef double& reference;
  typedef double value_type;
  typedef thrust::random_access_device_iterator_tag iterator_category;
  __host__ __device__
  BoxIterator() : m_loc(0){}

  __host__ __device__
  void operator++()
  {
    ++m_loc;
  }
  __host__ __device__
  void advance(int n)
  {
    m_loc += n;
  }
  __host__ __device__
  void operator--()
  {
    advance(-1);
  }

  __host__ __device__
  void operator+=(int n)
  {
    advance(n);
  }
  __host__ __device__
  void begin()
  {
    m_loc = 0;
  }

  __host__ __device__ 
  bool operator==(const BoxIterator & other) const
  {return  m_loc==other.m_loc;}

  __host__ __device__
  bool equal(const BoxIterator & other) const
  {
    return m_loc==other.m_loc;
  }

  __host__ __device__
   difference_type distance_to(const BoxIterator & other) const
   {
     return other.m_loc - this->m_loc;
   }
   __host__ __device__
   BoxIterator operator+(int n)
   {
     BoxIterator tmp = *this;
     tmp.m_loc += n;
     return tmp;
   }
  __host__ __device__
  BoxIterator(const BoxIterator & other)
  {
    m_loc = other.m_loc;
  }
__host__ __device__
  BoxIterator & operator=(const BoxIterator & other)
  {
    m_loc = other.m_loc;
    return *this;
  }

};


template <typename LatticeIt, typename Container>
class SubVolumeIterator : public thrust::iterator_adaptor<SubVolumeIterator<LatticeIt, Container>,
                                                          LatticeIt
                                                          >
{
  public:
    typedef thrust::iterator_adaptor<SubVolumeIterator<LatticeIt, Container>,
                                     LatticeIt
                                     >
        super_t;
    __host__
    SubVolumeIterator(const LatticeIt &It, Container &FAB, int N) : super_t(It),
                                                                    v(FAB.begin()),
                                                                    offset(N) {}
    friend class thrust::iterator_core_access;
  private:
    decltype(Container().begin()) v;
    int offset;
    __host__ __device__
        typename super_t::reference
       dereference() const
    {
      return *(v + offset); //+this->base().m_loc); // this gives an error: initial value of reference to non-const must be an lvalue
                                // when thrust::copy is used on a device_vector. Compiles fine with a host_vector.
    }
};

int main()
{
    thrust::host_vector<double> HV(100);
    thrust::device_vector<double> DV(100);
    thrust::device_vector<double> DV1(100);
    BoxIterator bit;

    SubVolumeIterator<decltype(bit), decltype(HV)> HIt(bit, HV, 1);

    SubVolumeIterator<decltype(bit), decltype(HV)> HIt_end(bit + 20, HV, 1);

    thrust::fill(HIt, HIt_end, 5.); // this compiles fine

    for (int i = 1; i < 21; ++i)
    {
      std::cout << HV[i] << std::endl;
    }
{
   SubVolumeIterator<decltype(DV.begin()), decltype(DV)> DIt(DV.begin(), DV, 5);

    SubVolumeIterator<decltype(DV.begin()), decltype(DV)> DIt_end(DV.begin() + 20, DV, 5);

    thrust::fill(DIt,DIt_end , -5.); // this compiles fine
}
{
    SubVolumeIterator<decltype(bit), decltype(DV)> DIt(bit, DV, 5);

    SubVolumeIterator<decltype(bit), decltype(DV)> DIt_end(bit + 20, DV, 5);

    thrust::fill(DIt,DIt_end , -5.); // this throws the error

    thrust::copy(DV.begin()+1,DV.begin()+21, HV.begin()+1); 

    for (int i = 1; i < 21; ++i)
    {
      std::cout << HV[i] << std::endl;
    }
}


return 0;
}

Please do not answer by pointing out ways to achieve the same effect using the fancy iterators that thrust provides. I need to develop an iterator that adapts a class that steps over a lattice in a predefined way. This is the barebone code that gives the error. The code compiles for a custom adapted iterator if in host, and for the standard iterator of device vectors for device vectors. When I use the custom iterator on device vectors the compiler throws the error "initial value of reference to non-const must be an lvalue" at the location indicated in the example above. I compile it with nvcc main.cu. nvcc version 9.0, gcc version 7.3.0, thrust version 1.9.0

  • What thrust, cuda and host compiler versions are you using? – talonmies Apr 8 '19 at 19:08
  • I tried CUDA 10.1 on Fedora 29 (gcc 8.3.1) and it threw the stated error. – Robert Crovella Apr 8 '19 at 19:22
  • I am using cuda 9.0 on an Ubuntu 18.04 Linux Box. The version of thrust is 1.9.0, host compiler is gcc 7.3.0 – user3646557 Apr 8 '19 at 19:26
  • 1
    remove the 3rd template parameter (double) in both locations (the example code basically suggests to use defaults for parameters after the 2nd), and remove the __device__ decorator from the class constructor (its not necessary for your usage), and the code compiles correctly and runs without error for me. Furthermore, the fill results appear correct between DV and HV at the end. – Robert Crovella Apr 9 '19 at 1:11
  • 1
    I presume the compilation command included in the edit is incorrect and the code is in a .cu file and not a .cpp file – talonmies Apr 9 '19 at 5:34
1

I think I found a solution. The issue has to do with the definition of the member types for the base iterator. Replacing the code above with this one

#include <thrust/iterator/iterator_adaptor.h>
#include <thrust/host_vector.h>
#include <thrust/device_vector.h>
template <typename T>
struct BoxIterator
{

  unsigned int m_loc;
  typedef typename decltype(T().begin())::difference_type difference_type;
  typedef typename decltype(T().begin())::pointer pointer;
  typedef typename decltype(T().begin())::reference reference;
  typedef typename decltype(T().begin())::value_type value_type;
  typedef typename decltype(T().begin())::iterator_category iterator_category;

  __host__ __device__
  BoxIterator() : m_loc(0) {}

  __host__ __device__ void operator++()
  {
    ++m_loc;
  }
  __host__ __device__ void advance(int n)
  {
    m_loc += n;
  }
  __host__ __device__ void operator--()
  {
    advance(-1);
  }

  __host__ __device__ void operator+=(int n)
  {
    advance(n);
  }
  __host__ __device__ void begin()
  {
    m_loc = 0;
  }

  __host__ __device__ bool operator==(const BoxIterator<T> &other) const
  {
    return m_loc == other.m_loc;
  }

  __host__ __device__ bool equal(const BoxIterator<T> &other) const
  {
    return m_loc == other.m_loc;
  }

  __host__ __device__
      difference_type
      distance_to(const BoxIterator<T> &other) const
  {
    return other.m_loc - this->m_loc;
  }
  __host__ __device__
      BoxIterator<T>
      operator+(int n) const
  {
    BoxIterator<T> tmp = *this;
    tmp.m_loc += n;
    return tmp;
  }
  __host__ __device__
      BoxIterator<T>
      operator-(int n) const
  {
    BoxIterator<T> tmp = *this;
    tmp.m_loc -= n;
    return tmp;
  }
  __host__ __device__
      BoxIterator
      operator-(const BoxIterator<T> other) const
  {
    BoxIterator<T> tmp = *this;
    tmp.m_loc -= other.m_loc;
    return tmp;
  }
  __host__ __device__
  BoxIterator(const BoxIterator<T> &other)
  {
    m_loc = other.m_loc;
  }
  __host__ __device__
      BoxIterator &
      operator=(const BoxIterator<T> &other)
  {
    m_loc = other.m_loc;
    return *this;
  }


};

template <typename LatticeIt, typename Container>
class SubVolumeIterator : public thrust::iterator_adaptor<SubVolumeIterator<LatticeIt, Container>,
                                                          LatticeIt>
{
public:
  typedef thrust::iterator_adaptor<SubVolumeIterator<LatticeIt, Container>,
                                   LatticeIt>
      super_t;
  __host__
  SubVolumeIterator(const LatticeIt &It, Container &FAB, int N) : super_t(It),
                                                                  v(FAB.begin()),
                                                                  offset(N) {}
  friend class thrust::iterator_core_access;

private:
  decltype(Container().begin()) v;
  int offset;

  __host__ __device__
      typename super_t::reference
      dereference() const
  {
    return *(v + offset + this->base().m_loc); // this gives an error: initial value of reference to non-const must be an lvalue
                                               // when thrust::copy is used on a device_vector. Compiles fine with a host_vector.
  }

  __host__ __device__
      typename super_t::difference_type
      distance_to(const SubVolumeIterator<LatticeIt, Container> &other) const
  {
    return (other.base().m_loc - this->base().m_loc); //+this->base().m_loc); // this gives an error: initial value of reference to non-const must be an lvalue
                                                      // when thrust::copy is used on a device_vector. Compiles fine with a host_vector.
  }
};

int main()
{
  thrust::host_vector<double> HV(100);
  thrust::device_vector<double> DV(100);
  thrust::device_vector<double> DV1(100);
  {
    BoxIterator<thrust::host_vector<double>> bit;

    SubVolumeIterator<decltype(bit), decltype(HV)> HIt(bit, HV, 1);

    SubVolumeIterator<decltype(bit), decltype(HV)> HIt_end(bit + 20, HV, 1);

    thrust::fill(HIt, HIt_end, 5.); // this compiles fine

    for (int i = 1; i < 21; ++i)
    {
      std::cout << HV[i] << std::endl;
    }
  }

  {
    BoxIterator<thrust::device_vector<double>> bit;
    SubVolumeIterator<decltype(bit), decltype(DV)> DIt(bit, DV, 5);

    SubVolumeIterator<decltype(bit), decltype(DV)> DIt_end(bit + 20, DV, 5);

    thrust::fill(DIt, DIt_end, -5.); // this throws the error

    thrust::copy(DV.begin() + 1, DV.begin() + 21, HV.begin() + 1);

    for (int i = 1; i < 21; ++i)
    {
      std::cout << HV[i] << std::endl;
    }
  }

  return 0;
}

results in a code that compiles and runs correctly. The main difference is in how the member types are defined in the base BoxIterator. Originally, I had them defined as

typedef double value_type; 
typedef double& reference;
...

whereas in the code now I added a template argument to the base iterator, which takes the Container. So now I have

typedef typename decltype(T().begin())::value_type value_type;
...

This fixes the compilation issue. Why the original code did not compile is still a mystery to me, but this offers a solution.

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