I have a CUDA application I'm working on with an array of Objects; each object has a pointer to an array of std::pair<int, double>. I'm trying to cudaMemcpy the array of objects over, then cudaMemcpy the array of pairs to each of the objects, however this is giving me all kinds of grief. It crashes attempting to copy to the inner array; I don't understand how to move this over...

#include <cuda.h>

#include <cuda_runtime.h>

#include <iostream>

using namespace std;

class Object
    int id;
    float something;
    std::pair<int, float> *somePairs;

Object *objects;

void initObjects()
    objects = new Object[10];

    for( int idx = 0; idx < 10; idx++ )
        objects[idx].id = idx;
        objects[idx].something = (float) idx;
    objects[idx].somePairs = new std::pair<int, float>[10];

        for ( int jdx = 10; jdx < 10; jdx++ )
           objects[idx].somePairs[jdx] = std::pair<int, float>( jdx, (float) jdx );


void cudaMemcpyObjects()
     Object *devObjects;

     cudaMalloc( &devObjects, sizeof(Object) * 10 );
     cudaMemcpy( devObjects, objects, sizeof(Object) * 10, cudaMemcpyHostToDevice );

     for ( int idx = 0; idx < 10; idx++ )
         size_t pairSetSize = sizeof(std::pair<int, float>) * 10;

         // CRASH HERE ... v
         cudaMalloc( &(devObjects[idx].somePairs), pairSetSize );
         cudaMemcpy( devObjects[idx].somePairs, objects[idx].somePairs,
                     sizeof( std::pair<int, float> ) * 10, cudaMemcpyHostToDevice );



int main()
    return 0;
  • It begs the question: Why? C++ standard library container classes aren't supported in CUDA code. – talonmies Aug 3 '11 at 16:31
  • Well, for one, you can read STD containers in CUDA code. You can reference .first and .second easily. Though you can substitute this for any array-within-array and the same problem arises. – trycatch Aug 3 '11 at 16:51
  • The CUDA standard library does not contain definitions for any c++ containers, and host versions won't compile without considerable modification. I would very much like to see a self contained repro kernel demonstrating this, if you care to post one. – talonmies Aug 3 '11 at 17:14
  • @talonmies - this: pastebin.com/62L0a13J - A particularly useless example, but compiles and runs. Again, my counter to your comment was that one could read std containers in CUDA. You cannot call host code from CUDA, so things like vector.at(i) or the like will not work. – trycatch Aug 3 '11 at 21:04

My CUDA experience is only in its infancy, but I believe the error is like this:

cudaMalloc is a host function that wants to write the pointer into host memory. However, you are passing to it a pointer in device memory!

To fix this, you should first create the device pointers and fill them into your host object structure, and only then copy the whole thing over to the device, and also copy the individual pairs over to the device as well.


struct Bar;

struct Foo
  int tag;
  Bar * bp;

void setup()
  Foo * hFoo = new Foo[10];

  Foo * dFoo;
  cudaMalloc(dFoo, sizeof(Foo) * 10);

  for (size_t i = 0; i != 10; ++i)
    Bar * dBar;
    cudaMalloc(&dbar, sizeof(Bar));

    Bar b;  // automatic temporary -- we never keep a host copy of this
    cudaMemcpy(dBar, &b, sizeof(Bar));

    hFoo[i].bp = dBar;    // this is already a device pointer!

  cudaMemcpy(dFoo, hFoo, sizeof(Foo) * 10);

On the return, don't forget that the Foo::bp are device pointers that you still need to copy back one by one!

It would probably be easier to just have one self-contained class that you can move in one go, but that may not be practical, or desirable for reasons of memory locality. You have to thing carefully about this. If the member is just a pair, why not put the two items in the main class directly?

  • cudaMalloc does take a device pointer. Are you confused with cudaMallocHost? – Bart Aug 3 '11 at 17:38
  • But the device pointer is itself stored on the host! – Kerrek SB Aug 3 '11 at 17:42
  • I wasn't expecting this to be nearly so painful. I was hoping there was just something obvious that I was missing. (The actual constructs in my code are much more than just a struct with a pair, this was simply an example to show the problem.) Kerrek, your solution might work if I keep two pointers per object, one for host and one for dev... – trycatch Aug 3 '11 at 18:17
  • Come to think of it, why didn't I think of that before...? class foo { // some variables float *data; float *deviceData; }; – trycatch Aug 3 '11 at 18:27
  • Something like that... you'll have to create everything on the host, one way or another, and then get everything onto the device, and then back. Any manual allocation will have to be aware of this. Alternatively, you could try mapped memory though, that might be easier (that's where your cudaMallocHost comes in). – Kerrek SB Aug 3 '11 at 18:27

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