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In OpenCL what will be the consequences and differences between the following struct declarations. And if they are illegal, why?

struct gr_array
    int ndims;
    __global m_integer* dim_size;
    __global m_real* data;
typedef struct gr_array g_real_array;

struct lr_array
    int ndims;
    __local m_integer* dim_size;
    __local m_real* data;
typedef struct lr_array l_real_array;

__ kernel temp(...){

        __local g_real_array A;
        g_real_array B;

        __local l_real_array C;
        l_real_array D;


My question is where will the structures be allocated (and the members)? who can access them? And is this a good practice or not?


how about this

struct r_array
       __local int ndims;

typedef struct r_array real_array;

__ kernel temp(...){

        __local real_array A;
        real_array B;


if a work-item modifies ndims in struct B, is the change visible to other work-items in the work-group?

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2 Answers 2

up vote 2 down vote accepted

I've rewritten your code as valid CL, or at least CL that will compile. Here:

typedef struct gr_array {
    int ndims;
    global int* dim_size;
    global float* data;
} g_float_array;

typedef struct lr_array {
    int ndims;
    local int* dim_size;
    local float* data;
} l_float_array;

kernel void temp() {
    local g_float_array A;
    g_float_array B;

    local l_float_array C;
    l_float_array D;

One by one, here's how this breaks down:

  • A is in local space. It's a struct that is composed of one int and two pointers. These pointers point to data in global space, but are themselves allocated in local space.

  • B is in private space; it's an automatic variable. It is composed of an int and two pointers that point to stuff in global memory.

  • C is in local space. It contains an int and two pointers to stuff in local space.

  • D, you can probably guess at this point. It's in private space, and contains an int and two pointers that point to stuff in local space.

I cannot say if either is preferable for your problem, since you haven't described what your are trying to accomplish.

EDIT: I realized I didn't address the second part of your question -- who can access the structure fields.

Well, you can access the fields anywhere the variable is in scope. I'm guessing that you were thinking that the fields you had marked as global in g_float_array were in global space (an local space for l_float_array). But they're just pointing to stuff in global (or local) space.

So, you'd use them like this:

kernel void temp(
            global float* data, global int* global_size,
            local float* data_local, local int* local_size,
            int num) 
    local g_float_array A;
    g_float_array B;

    local l_float_array C;
    l_float_array D;

    A.ndims = B.ndims = C.ndims = D.ndims = num;

    A.data = B.data = data;
    A.dim_size = B.dim_size = global_size;

    C.data = D.data = data_local;
    C.dim_size = D.dim_size = local_size;

By the way -- if you're hacking CL on a Mac running Lion, you can compile .cl files using the "offline" CL compiler, which makes experimenting with this kind of stuff a bit easier. It's located here:


There is some sample code here.

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thank you for the response. So if I understand correctly in struct C if variable ndims is modified by one thread then the change will be visible to all threads in the work-group. right? and I have added one question. Can you take a look at it? –  user995502 Nov 6 '11 at 15:22
About the compiler, actually I have written a small "compiler" that can test compile OpenCL source and read back and build the binary to check if everything is OK. My problem was with what the code actually means. –  user995502 Nov 6 '11 at 15:26
Yes - since C is in local memory space it is shared by all work items in the work group. Any change to C will be visible to all these items, but the usual rules about synchronizing within a work group apply. –  James Nov 7 '11 at 2:02
Sorry for the delay but I have given you the "accepted answer" you earned. –  user995502 Nov 7 '11 at 21:57

It probably won't work, because the current GPU-s have different memory spaces for OpenCL kernels and for the ordinary program. You have to make explicit calls to transmit data between both spaces, and it is often the bottleneck of the program (because the bandwidth of PCI-X graphics card is quite low).

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I think you misunderstood me, the structs are all in OpenCL code (.cl files or kernel files). for example B works fine. I can attach an array (and the array info) from the Host (allocated in global) to the kernel and reconstruct it in the kernel. Then I can use it as i want. I am just curious about A, C and D. –  user995502 Nov 5 '11 at 17:13

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