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.

say I have a kernel

foo(int a, int b)
    __shared__ int array[a];

it seems a has to be a constant value, I added const in front of int. It sill didn't work out, any idea?

foo(const int a, const int b)
    __shared__ int array[a];
share|improve this question

5 Answers 5

up vote 5 down vote accepted

While you can't have a dynamically-sized array because of the constraints of the C language (as mentioned in other answers), what you can do in CUDA is something like this:

extern __shared__ float fshared[];

__global__ void testShmem( float * result, unsigned int shmemSize ) {
    // use fshared - shmemSize tells you how many bytes
    // Note that the following is not a sensible use of shared memory!
    for( int i = 0; i < shmemSize/sizeof(float); ++i ) {
       fshared[i] = 0;

providing you tell CUDA how much shared memory you want during kernel invocation, like so:

testShmem<<<grid, block, 1024>>>( pdata, 1024 );
share|improve this answer

I don't think CUDA or OpenCL let you dynamically allocate shared memory. Use #define macro instead.

If you need a dynamic sized array on a per program basis, you can supply it using -D MYMACRO (with OpenCL, I don't know for CUDA). See Bahbar's answer.

share|improve this answer

In ISO C++ the size of an array needs to be a so-called constant expression. This is stronger than a const-qualified variable. It basically means compile-time constant. So, the value has to be known at compile-time.

In ISO C90 this was also the case. C99 added VLAs, variable-length-arrays, that allow the size to be determined at runtime. The sizeof operator for these VLAs becomes a runtime operator.

I'm not familiar with CUDA or the __shared__ syntax. It's not clear to me why/how you use the term kernel. But I guess the rules are similar w.r.t. constant expressions and arrays.

share|improve this answer

Here's how you can statically allocate a __shared__ array of n values in CUDA using C++ templates

template <int n>
    __shared__ int array[n];

const int n = 128;

Note that n must be a known constant at compile time for this to work. If n is not known at compile time then you must use the approach Edric suggests.

share|improve this answer

I suspect this is a C language question.

If it were C++, you could simply use std::vector.

void foo( int a, int b )
    std::vector<int> array( a );
    // ...

It if really is C++, then what C++ features you can use safely may depend on the environment. It's not clear what you mean by "kernel".

share|improve this answer

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.