VkFence _fence,
bool is_signal)
{
- int syncobj_idx = 0, sem_idx = 0;
+ int syncobj_idx = 0, non_reset_idx = 0, sem_idx = 0;
if (num_sems == 0 && _fence == VK_NULL_HANDLE)
return VK_SUCCESS;
switch(sems[i]->kind) {
case RADV_SEMAPHORE_SYNCOBJ:
counts->syncobj_count++;
+ counts->syncobj_reset_count++;
break;
case RADV_SEMAPHORE_WINSYS:
counts->sem_count++;
}
}
+ non_reset_idx = counts->syncobj_reset_count;
+
for (uint32_t i = 0; i < num_sems; i++) {
switch(sems[i]->kind) {
case RADV_SEMAPHORE_NONE:
pthread_mutex_unlock(&sems[i]->timeline.mutex);
if (point) {
- counts->syncobj[syncobj_idx++] = point->syncobj;
+ counts->syncobj[non_reset_idx++] = point->syncobj;
} else {
/* Explicitly remove the semaphore so we might not find
* a point later post-submit. */
fence->temporary.kind != RADV_FENCE_NONE ?
&fence->temporary : &fence->permanent;
if (part->kind == RADV_FENCE_SYNCOBJ)
- counts->syncobj[syncobj_idx++] = part->syncobj;
+ counts->syncobj[non_reset_idx++] = part->syncobj;
}
- assert(syncobj_idx <= counts->syncobj_count);
- counts->syncobj_count = syncobj_idx;
+ assert(MAX2(syncobj_idx, non_reset_idx) <= counts->syncobj_count);
+ counts->syncobj_count = MAX2(syncobj_idx, non_reset_idx);
return VK_SUCCESS;
}