/* Each VM has a dummy CPU action on the PM layer. This CPU action works as the constraint (capacity) of the VM in the
* PM layer. If the VM does not have any active task, the dummy CPU action must be deactivated, so that the VM does not
* get any CPU share in the PM layer. */
-void HostModel::ignoreEmptyVmInPmLMM()
+void HostModel::ignore_empty_vm_in_pm_LMM()
{
/* iterate for all virtual machines */
for (s4u::VirtualMachine* const& ws_vm : vm::VirtualMachineImpl::allVms_) {
Cpu* cpu = ws_vm->pimpl_cpu;
- int active_tasks = cpu->constraint()->get_variable_amount();
+ int active_tasks = cpu->get_constraint()->get_variable_amount();
/* The impact of the VM over its PM is the min between its vCPU amount and the amount of tasks it contains */
int impact = std::min(active_tasks, ws_vm->getImpl()->coreAmount());
return -1.0;
}
-kernel::resource::Action* HostModel::executeParallelTask(int host_nb, s4u::Host** host_list, double* flops_amount,
- double* bytes_amount, double rate)
+kernel::resource::Action* HostModel::execute_parallel(int host_nb, s4u::Host** host_list, double* flops_amount,
+ double* bytes_amount, double rate)
{
kernel::resource::Action* action = nullptr;
if ((host_nb == 1) && (has_cost(bytes_amount, 0) <= 0)) {
piface_->pimpl_ = this;
}
-void HostImpl::getAttachedStorageList(std::vector<const char*>* storages)
+std::vector<const char*> HostImpl::get_attached_storages()
{
+ std::vector<const char*> storages;
for (auto const& s : storage_)
- if (s.second->getHost() == piface_->getCname())
- storages->push_back(s.second->piface_.getCname());
+ if (s.second->getHost() == piface_->get_cname())
+ storages.push_back(s.second->piface_.get_cname());
+ return storages;
}
}