Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to implement ODEs solver routines running on GPUs using CUDA::Thurst iterators to solve a bunch of equations in the GPU, going to the details, here is a small piece of code:

    #include <thrust/device_vector.h>
    #include <thrust/transform.h> 
    #include <thrust/sequence.h>
    #include <thrust/copy.h> 
    #include <thrust/fill.h>
    #include <thrust/replace.h>
    #include <thrust/functional.h>

    #include <thrust/for_each.h>
    #include <thrust/device_vector.h>
    #include <thrust/iterator/zip_iterator.h>


   #include <iostream>
   #include <math.h>


   __host__ __device__ float f(float x, float y)
   {
     return cos(y)*sin(x);
   }



   struct euler_functor
   {
   const float h;

   euler_functor(float _h) : h(_h) {};

   __host__ __device__
   float operator()( float(*f)(double,double),const float& x, const float& y) const {
   y +=  h * (*f)( x, y );
   x += h;
   }
   };


   int main(void)
   {
   // allocate three device_vectors with 10 elements
   thrust::device_vector<int> X(10);
   // initilaize to random vaues
   thrust::generate(X.begin(), X.end(), rand);
   // apply euler for each element of X
   thrust::for_each(X.begin(),X.end(),euler_functor(f,0.0,X));
   // print the values
   for(int i = 0; i < 10; i++) std::cout<< X[i]<< std::endl;

   }

But when I compile

nvcc euler.cu -o euler.x -lm the following errors occurs:

    lala.cu(29): error: explicit type is missing ("int" assumed)

lala.cu(29): error: expected a ";"

lala.cu(33): error: expression must be a modifiable lvalue

lala.cu(34): error: expression must be a modifiable lvalue

lala.cu(35): warning: missing return statement at end of non-void function "euler_functor::operator()"

lala.cu(46): error: no suitable constructor exists to convert from "float (float, float)" to "euler_functor"

lala.cu(46): error: expected a ")"

it seems like it is not possible use pointers to functions in the way I am trying?

sugestions for better ways to implement the Euler procedure and run it using iterators will be very appreciated.

is the former approach a good compromise between partability and performance?

At the end hopefully the ideal solution for me is be able to define an array of pointer to functions like:

typedef int (*foo_ptr_t)( int );
foo_ptr_t foo_ptr_array[2];

int f1( int );
int f2( int );
foo_ptr_array[0] = f1;
foo_ptr_array[1] = f2;
foo_ptr_array[0]( 1 );

To pass foo_ptr_array as argument to the euler functor. Is it possible?

Thanks for Answer.

Posible improvement:

Is posible define the a set coupled differential equations as fucntors over tuples as I try in following approach? Can I get some error information from the numerical approach to the soution?

It would be

share|improve this question

1 Answer 1

up vote 1 down vote accepted

Ultimately, you are asking to take a __device__ function argument in host code, and then pass it as a (function) pointer, in what is ultimately (under the hood) a kernel argument, generated by thrust.

It is illegal to take the address of a __device__ function argument in host code, so passing a __device__ function pointer as an argument this way won't work.

It might be possible to work around this by creating additional __device__ variables (pointers) to store function pointers on the device. Then use cudaGetSymbolAddress to build a table of pointers-to-pointers to functions. This would necessitate running a precursor kernel to set up the function pointers on the device. It seems rather messy.

It might be simpler to parameterize the functor to select a device function based on the parameter. Lke this:

   #include <thrust/device_vector.h>
   #include <thrust/transform.h>
   #include <thrust/sequence.h>
   #include <thrust/copy.h>
   #include <thrust/fill.h>
   #include <thrust/replace.h>
   #include <thrust/functional.h>
   #include <thrust/for_each.h>
   #include <thrust/iterator/zip_iterator.h>

   #include <iostream>
   #include <math.h>


   __host__ __device__ float f1(float x)
   {
     return sinf(x);
   }

   __host__ __device__ float f2(float x)
   {
     return cosf(x);
   }




   struct euler_functor
   {
     unsigned h;

     euler_functor(unsigned _h) : h(_h) {};

     __host__ __device__
     void operator()(float &y) const  {
       if (h == 1) y = f1(y);
       else if (h == 2) y = f2(y);
     }
   };


   int main(void)
   {
     const unsigned N = 8;
     // allocate three device_vectors with 10 elements
     thrust::device_vector<float> X(N);
     // initilaize to random vaues
     thrust::sequence(X.begin(), X.end(),  0.0f, (float)(6.283/(float)N));
     // apply euler for each element of X
     thrust::for_each(X.begin(),X.end(),euler_functor(1));
     // print the values
     for(int i = 0; i < N; i++) std::cout<< X[i]<< std::endl;

     std::cout << "******************" << std::endl;

     thrust::sequence(X.begin(), X.end(),  0.0f, (float)(6.283/(float)N));
     // apply euler for each element of X
     thrust::for_each(X.begin(),X.end(),euler_functor(2));
     // print the values
     for(int i = 0; i < N; i++) std::cout<< X[i]<< std::endl;

   }
share|improve this answer
    
Thanks for answer. –  user3116936 Jan 20 at 21:27
    
I saw that you attempted to edit my answer with follow-up questions, and the edit got rejected. That's not the way it's done on SO. I'd suggest either editing your original question with lengthy updates, or posting a comment if it's short. For new questions though, it's best if you just post a new SO question. That way more folks will look at it, most likely. –  Robert Crovella Jan 20 at 23:36

Your Answer

 
discard

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.