xbt_assert(!surf_cpu_model_pm);
xbt_assert(!surf_cpu_model_vm);
- char *optim = xbt_cfg_get_string(_sg_cfg_set, "cpu/optim");
+ char *optim = xbt_cfg_get_string("cpu/optim");
if (!strcmp(optim, "TI")) {
surf_cpu_model_init_ti();
return;
}
surf_cpu_model_pm = new simgrid::surf::CpuCas01Model();
- xbt_dynar_push(all_existing_models, &surf_cpu_model_pm);
+ all_existing_models->push_back(surf_cpu_model_pm);
surf_cpu_model_vm = new simgrid::surf::CpuCas01Model();
- xbt_dynar_push(all_existing_models, &surf_cpu_model_vm);
+ all_existing_models->push_back(surf_cpu_model_vm);
}
namespace simgrid {
CpuCas01Model::CpuCas01Model() : simgrid::surf::CpuModel()
{
- char *optim = xbt_cfg_get_string(_sg_cfg_set, "cpu/optim");
- int select = xbt_cfg_get_boolean(_sg_cfg_set, "cpu/maxmin_selective_update");
+ char *optim = xbt_cfg_get_string("cpu/optim");
+ int select = xbt_cfg_get_boolean("cpu/maxmin-selective-update");
if (!strcmp(optim, "Full")) {
updateMechanism_ = UM_FULL;
updateMechanism_ = UM_LAZY;
selectiveUpdate_ = 1;
xbt_assert((select == 1)
- ||
- (xbt_cfg_is_default_value
- (_sg_cfg_set, "cpu/maxmin_selective_update")),
+ || (xbt_cfg_is_default_value("cpu/maxmin-selective-update")),
"Disabling selective update while using the lazy update mechanism is dumb!");
} else {
xbt_die("Unsupported optimization (%s) for this model", optim);
maxminSystem_ = lmm_system_new(selectiveUpdate_);
if (getUpdateMechanism() == UM_LAZY) {
- actionHeap_ = xbt_heap_new(8, NULL);
+ actionHeap_ = xbt_heap_new(8, nullptr);
xbt_heap_set_update_callback(actionHeap_, surf_action_lmm_update_index_heap);
modifiedSet_ = new ActionLmmList();
maxminSystem_->keep_track = modifiedSet_;
CpuCas01Model::~CpuCas01Model()
{
lmm_system_free(maxminSystem_);
- maxminSystem_ = NULL;
-
- if (actionHeap_)
- xbt_heap_free(actionHeap_);
+ maxminSystem_ = nullptr;
+ xbt_heap_free(actionHeap_);
delete modifiedSet_;
- surf_cpu_model_pm = NULL;
+ surf_cpu_model_pm = nullptr;
delete p_cpuRunningActionSetThatDoesNotNeedBeingChecked;
}
-Cpu *CpuCas01Model::createCpu(simgrid::s4u::Host *host, xbt_dynar_t speedPerPstate, int core)
+Cpu *CpuCas01Model::createCpu(simgrid::s4u::Host *host, std::vector<double> *speedPerPstate, int core)
{
return new CpuCas01(this, host, speedPerPstate, core);
}
/************
* Resource *
************/
-CpuCas01::CpuCas01(CpuCas01Model *model, simgrid::s4u::Host *host, xbt_dynar_t speedPerPstate, int core)
-: Cpu(model, host,
- lmm_constraint_new(model->getMaxminSystem(), this, core * xbt_dynar_get_as(speedPerPstate, 0/*pstate*/, double)),
+CpuCas01::CpuCas01(CpuCas01Model *model, simgrid::s4u::Host *host, std::vector<double> *speedPerPstate, int core)
+: Cpu(model, host, lmm_constraint_new(model->getMaxminSystem(), this, core * speedPerPstate->front()),
speedPerPstate, core)
{
}
CpuCas01::~CpuCas01()
{
if (getModel() == surf_cpu_model_pm)
- xbt_dynar_free(&speedPerPstate_);
+ speedPerPstate_.clear();
}
-xbt_dynar_t CpuCas01::getSpeedPeakList(){
- return speedPerPstate_;
+std::vector<double> * CpuCas01::getSpeedPeakList(){
+ return &speedPerPstate_;
}
bool CpuCas01::isUsed()
/** @brief take into account changes of speed (either load or max) */
void CpuCas01::onSpeedChange() {
- lmm_variable_t var = NULL;
- lmm_element_t elem = NULL;
+ lmm_variable_t var = nullptr;
+ lmm_element_t elem = nullptr;
lmm_update_constraint_bound(getModel()->getMaxminSystem(), getConstraint(),
coresAmount_ * speed_.scale * speed_.peak);
- while ((var = lmm_get_var_from_cnst
- (getModel()->getMaxminSystem(), getConstraint(), &elem))) {
+ while ((var = lmm_get_var_from_cnst(getModel()->getMaxminSystem(), getConstraint(), &elem))) {
CpuCas01Action *action = static_cast<CpuCas01Action*>(lmm_variable_id(var));
- lmm_update_variable_bound(getModel()->getMaxminSystem(),
- action->getVariable(),
- speed_.scale * speed_.peak);
+ lmm_update_variable_bound(getModel()->getMaxminSystem(), action->getVariable(), speed_.scale * speed_.peak);
}
Cpu::onSpeedChange();
if (value > 0) {
if(isOff())
- xbt_dynar_push_as(host_that_restart, char*, (char *)getName());
+ host_that_restart.push_back(getHost());
turnOn();
} else {
lmm_constraint_t cnst = getConstraint();
- lmm_variable_t var = NULL;
- lmm_element_t elem = NULL;
+ lmm_variable_t var = nullptr;
+ lmm_element_t elem = nullptr;
double date = surf_get_clock();
turnOff();
while ((var = lmm_get_var_from_cnst(getModel()->getMaxminSystem(), cnst, &elem))) {
Action *action = static_cast<Action*>(lmm_variable_id(var));
- if (action->getState() == SURF_ACTION_RUNNING ||
- action->getState() == SURF_ACTION_READY ||
- action->getState() == SURF_ACTION_NOT_IN_THE_SYSTEM) {
+ if (action->getState() == Action::State::running ||
+ action->getState() == Action::State::ready ||
+ action->getState() == Action::State::not_in_the_system) {
action->setFinishTime(date);
- action->setState(SURF_ACTION_FAILED);
+ action->setState(Action::State::failed);
}
}
}
CpuAction *CpuCas01::execution_start(double size)
{
-
XBT_IN("(%s,%g)", getName(), size);
- CpuCas01Action *action = new CpuCas01Action(getModel(), size, isOff(),
- speed_.scale * speed_.peak, getConstraint());
+ CpuCas01Action *action = new CpuCas01Action(getModel(), size, isOff(), speed_.scale * speed_.peak, getConstraint());
XBT_OUT();
return action;
duration = MAX(duration, sg_surf_precision);
XBT_IN("(%s,%g)", getName(), duration);
- CpuCas01Action *action = new CpuCas01Action(getModel(), 1.0, isOff(),
- speed_.scale * speed_.peak, getConstraint());
+ CpuCas01Action *action = new CpuCas01Action(getModel(), 1.0, isOff(), speed_.scale * speed_.peak, getConstraint());
// FIXME: sleep variables should not consume 1.0 in lmm_expand
- action->m_maxDuration = duration;
- action->m_suspended = 2;
+ action->maxDuration_ = duration;
+ action->suspended_ = 2;
if (duration == NO_MAX_DURATION) {
- /* Move to the *end* of the corresponding action set. This convention
- is used to speed up update_resource_state */
+ /* Move to the *end* of the corresponding action set. This convention is used to speed up update_resource_state */
action->getStateSet()->erase(action->getStateSet()->iterator_to(*action));
- action->p_stateSet = static_cast<CpuCas01Model*>(getModel())->p_cpuRunningActionSetThatDoesNotNeedBeingChecked;
+ action->stateSet_ = static_cast<CpuCas01Model*>(getModel())->p_cpuRunningActionSetThatDoesNotNeedBeingChecked;
action->getStateSet()->push_back(*action);
}
- lmm_update_variable_weight(getModel()->getMaxminSystem(),
- action->getVariable(), 0.0);
+ lmm_update_variable_weight(getModel()->getMaxminSystem(), action->getVariable(), 0.0);
if (getModel()->getUpdateMechanism() == UM_LAZY) { // remove action from the heap
action->heapRemove(getModel()->getActionHeap());
- // this is necessary for a variable with weight 0 since such
- // variables are ignored in lmm and we need to set its max_duration
- // correctly at the next call to share_resources
+ // this is necessary for a variable with weight 0 since such variables are ignored in lmm and we need to set its
+ // max_duration correctly at the next call to share_resources
getModel()->getModifiedSet()->push_front(*action);
}
**********/
CpuCas01Action::CpuCas01Action(Model *model, double cost, bool failed, double speed, lmm_constraint_t constraint)
- : CpuAction(model, cost, failed,
- lmm_variable_new(model->getMaxminSystem(), this,
- 1.0, speed, 1))
+ : CpuAction(model, cost, failed, lmm_variable_new(model->getMaxminSystem(), this, 1.0, speed, 1))
{
if (model->getUpdateMechanism() == UM_LAZY) {
- m_indexHeap = -1;
- m_lastUpdate = surf_get_clock();
- m_lastValue = 0.0;
+ indexHeap_ = -1;
+ lastUpdate_ = surf_get_clock();
+ lastValue_ = 0.0;
}
lmm_expand(model->getMaxminSystem(), constraint, getVariable(), 1.0);
}
+CpuCas01Action::~CpuCas01Action()=default;
+
}
}