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.

NOTE: Enqueued commands that specify user events in the event_wait_list argument of clEnqueue*** commands must ensure that the status of these user events being waited on are set using clSetUserEventStatus before any OpenCL APIs that release OpenCL objects except for event objects are called; otherwise the behavior is undefined.

So if I have a user event being waited on in queue, I can't call release on any OpenCL object?

This seems like a strange requirement? What is the purpose of it? Or, why is it so?

The example they give is:

ev1 = clCreateUserEvent(ctx, NULL);
clEnqueueWriteBuffer(cq, buf1, CL_FALSE, ..., 1, &ev1, NULL);
clEnqueueWriteBuffer(cq, buf2, CL_FALSE,...);
clReleaseMemObject(buf2); // <--- UNDEFINED
clSetUserEventStatus(ev1, CL_COMPLETE);

Which causes undefined behaviour?

share|improve this question

1 Answer 1

Consider the example that they give.

We have an in-order queue and we create a user event:

ev1 = clCreateUserEvent(ctx, NULL); // (1)

We then want to enqueue a write to a buffer, but we want it to wait for our event:

clEnqueueWriteBuffer(cq, buf1, CL_FALSE, ..., 1, &ev1, NULL); // (2)

We want to write another buffer after the buffer in the previous one (which is waiting on our event):

clEnqueueWriteBuffer(cq, buf2, CL_FALSE,...); // (3)

We release the buffer from the second clEnqueueWriteBuffer which hasn't gone through yet because we are still waiting for the user event. In this case (4) happens before (3), so we don't know what will happen as the memory object is freed.

clReleaseMemObject(buf2); // <--- UNDEFINED // (4)

We finally complete our user event which causes (2) and (3) to occur after (4) has already completed.

clSetUserEventStatus(ev1, CL_COMPLETE); // (5)

Basically, performing computation this way can cause problems because clReleaseMemObject doesn't get inserted into the clCommandQueue and can break the dependencies we expect.

share|improve this answer
    
How is the situation you described any different for non-user events? (ie if ev1 was a system event) If your answer is that it isn't different, than why is the requirement specific to user events? I believe (correct me if I am wrong) but when you queue up an operation (such as a write buffer) it holds a reference to the buffer while it is in the queue, so even if you release it (decrement its reference count), it will stay alive until it isnt referenced in the queue anymore. –  Andrew Tomazos Jan 31 '13 at 20:57

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.