Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a class inheriting from two classes, one which is my own base class, and a template class:

typedef typename cusp::csr_matrix< int,
                                   cusp::host_memory > csr_matrix;

class CuspMatrix
  public csr_matrix,
  public Matrix

At some point, I have to do an assignment, which will copy the base class object from the host to the device like so:

cusp::csr_matrix<int,float,cusp::host_memory> A(4,3,6);
cusp::csr_matrix<int,float,cusp::device_memory> A = B;

but before I can do that, I have to upcast my this to its base class csr_matrix

I've tried with static_cast and a custom cast operator:

operator csr_matrix()
  return *( cusp::csr_matrix< int,float,cusp::device_memory> *)this;

However, when I try to do the actual thing, I get tons of errors from the compiler

cusp::csr_matrix<int,float,cusp::device_memory> mtx = *(csr_matrix *)this;

In fact, static casting also is beyond me at this point:

auto me = static_cast<csr_matrix>( *this );
cusp::csr_matrix<int,float,cusp::device_memory> mtx = me;

yet, a C-style shotgun cast without the typedef, seems to work:

auto me = *( cusp::csr_matrix< int,
                               cusp::host_memory> *)this;

but fails with the typedef:

auto me = *( csr_matrix *)this;
  • So, How can I safely up-cast using my own custom operator, preferably by using a static cast?

  • Why does casting with the full namespace::type work, yet fail with the typedef?

share|improve this question
Your class is derived from csr_matrix<int,float,cusp::host_memory>, yet you try to cast it to csr_matrix<int,float,cusp::device_memory>. That's not really upcasting -- it's casting to an unrelated type (as far as I understand). – jogojapan Jul 12 '13 at 3:55
No, the typedef is csr_matrix<int,float,cusp::host_memory>, but you're right the code above is wrong. The assignment from cusp::host_memory to cusp::device_memory is a different story, and can be done from one to another. – Ælex Jul 12 '13 at 4:06
Regarding the typedef-based cast, i.e. auto me = *(csr_matrix*)this;: The problem may be caused by the fact that at this point in the code csr_matrix refers not only to the typedef-name, but also the original template name cusp::csr_matrix. This may be the result of class-name injection, combined with inheritance. Have you tried using a different name for the typedef? – jogojapan Jul 12 '13 at 4:11
No, I'll give it a try right away – Ælex Jul 12 '13 at 4:13
No I'm still getting errors, albeit the reason may be different – Ælex Jul 12 '13 at 4:18
up vote 1 down vote accepted
cusp::csr_matrix<int,float,cusp::device_memory> mtx = *(csr_matrix *)this;

This cast can never call a conversion function because the type of the operand this of the cast expression is CuspMatrix*. A conversion function will only be considered when the type of the operand is a class type:

cusp::csr_matrix<int,float,cusp::device_memory> mtx = (csr_matrix)*this;

In this scenario, csr_matrix is already a public base class of CuspMatrix - so the conversion function CuspMatrix::operator csr_matrix(), can never be called.

This upward-conversion does not require a cast - when this is of type CuspMatrix* and cusp::csr_matrix<int,float,cusp::device_memory> supports assignment from cusp::csr_matrix<int,float,cusp::host_memory>, you should be able to do this:

cusp::csr_matrix<int,float,cusp::device_memory> mtx = *this;

Without seeing the actual error messages and a compilable example, it's difficult to answer the second question.

share|improve this answer
So an implicit cast should work just fine? Bear in mind, the base class is cusp::csr_matrix<int,float,cusp::host_memory> the assignment you are doing above is copying from one type to another, but I'm guessing you meant the host_memory template param. – Ælex Jul 12 '13 at 22:00

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.