/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
+#include <algorithm>
+
#include "network_cm02.hpp"
#include "maxmin_private.hpp"
#include "simgrid/sg_config.h"
if (surf_network_model)
return;
- surf_network_model = new NetworkCm02Model();
+ surf_network_model = new simgrid::surf::NetworkCm02Model();
net_define_callbacks();
- Model *model = surf_network_model;
+ simgrid::surf::Model *model = surf_network_model;
xbt_dynar_push(all_existing_models, &model);
xbt_cfg_setdefault_double(_sg_cfg_set, "network/latency_factor",
if (surf_network_model)
return;
- surf_network_model = new NetworkCm02Model();
+ surf_network_model = new simgrid::surf::NetworkCm02Model();
net_define_callbacks();
- Model *model = surf_network_model;
+ simgrid::surf::Model *model = surf_network_model;
xbt_dynar_push(all_existing_models, &model);
xbt_cfg_setdefault_double(_sg_cfg_set, "network/latency_factor", 1.0);
if (surf_network_model)
return;
- surf_network_model = new NetworkCm02Model();
+ surf_network_model = new simgrid::surf::NetworkCm02Model();
net_define_callbacks();
- Model *model = surf_network_model;
+ simgrid::surf::Model *model = surf_network_model;
xbt_dynar_push(all_existing_models, &model);
lmm_set_default_protocol_function(func_reno_f, func_reno_fp,
func_reno_fpi);
if (surf_network_model)
return;
- surf_network_model = new NetworkCm02Model();
+ surf_network_model = new simgrid::surf::NetworkCm02Model();
net_define_callbacks();
- Model *model = surf_network_model;
+ simgrid::surf::Model *model = surf_network_model;
xbt_dynar_push(all_existing_models, &model);
lmm_set_default_protocol_function(func_reno2_f, func_reno2_fp,
func_reno2_fpi);
if (surf_network_model)
return;
- surf_network_model = new NetworkCm02Model();
+ surf_network_model = new simgrid::surf::NetworkCm02Model();
net_define_callbacks();
- Model *model = surf_network_model;
+ simgrid::surf::Model *model = surf_network_model;
xbt_dynar_push(all_existing_models, &model);
lmm_set_default_protocol_function(func_vegas_f, func_vegas_fp,
func_vegas_fpi);
xbt_cfg_setdefault_double(_sg_cfg_set, "network/weight_S", 8775);
}
+namespace simgrid {
+namespace surf {
+
NetworkCm02Model::NetworkCm02Model()
:NetworkModel()
{
Link* link = new NetworkCm02Link(this, name, properties, p_maxminSystem, sg_bandwidth_factor * bw_initial, history,
state_initial, state_trace, bw_initial, bw_trace, lat_initial, lat_trace, policy);
- surf_callback_emit(networkLinkCreatedCallbacks, link);
+ Link::onCreation(link);
return link;
}
}
xbt_dynar_foreach(route, i, _link) {
link = static_cast<NetworkCm02Link*>(_link);
- double bb = bandwidthFactor(size) * link->getBandwidth(); //(link->p_power.peak * link->p_power.scale);
+ double bb = bandwidthFactor(size) * link->getBandwidth();
bandwidth_bound =
- (bandwidth_bound < 0.0) ? bb : min(bandwidth_bound, bb);
+ (bandwidth_bound < 0.0) ? bb : std::min(bandwidth_bound, bb);
}
action->m_latCurrent = action->m_latency;
if (action->m_rate < 0) {
lmm_update_variable_bound(p_maxminSystem, action->getVariable(), (action->m_latCurrent > 0) ? sg_tcp_gamma / (2.0 * action->m_latCurrent) : -1.0);
} else {
- lmm_update_variable_bound(p_maxminSystem, action->getVariable(), (action->m_latCurrent > 0) ? min(action->m_rate, sg_tcp_gamma / (2.0 * action->m_latCurrent)) : action->m_rate);
+ lmm_update_variable_bound(p_maxminSystem, action->getVariable(), (action->m_latCurrent > 0) ? std::min(action->m_rate, sg_tcp_gamma / (2.0 * action->m_latCurrent)) : action->m_rate);
}
xbt_dynar_foreach(route, i, _link) {
xbt_dynar_free(&route);
XBT_OUT();
- surf_callback_emit(networkCommunicateCallbacks, action, src, dst, size, rate);
+ networkCommunicateCallbacks(action, src, dst, size, rate);
return action;
}
"Cannot connect trace %s to link %s: trace undefined",
trace_name, elm);
- link->p_power.event = tmgr_history_add_trace(history, trace, 0.0, 0, link);
+ link->p_speed.event = tmgr_history_add_trace(history, trace, 0.0, 0, link);
}
xbt_dict_foreach(trace_connect_list_latency, cursor, trace_name, elm) {
{
setState(state_init);
- p_power.scale = 1.0;
- p_power.peak = metric_peak;
+ p_speed.scale = 1.0;
+ p_speed.peak = metric_peak;
if (metric_trace)
- p_power.event = tmgr_history_add_trace(history, metric_trace, 0.0, 0, this);
+ p_speed.event = tmgr_history_add_trace(history, metric_trace, 0.0, 0, this);
else
- p_power.event = NULL;
+ p_speed.event = NULL;
m_latCurrent = lat_initial;
if (lat_trace)
/* "%g" " for event %p\n", surf_get_clock(), nw_link->name, */
/* value, event_type); */
- if (event_type == p_power.event) {
+ if (event_type == p_speed.event) {
updateBandwidth(value, date);
if (tmgr_trace_event_free(event_type))
- p_power.event = NULL;
+ p_speed.event = NULL;
} else if (event_type == p_latEvent) {
updateLatency(value, date);
if (tmgr_trace_event_free(event_type))
void NetworkCm02Link::updateBandwidth(double value, double date){
double delta = sg_weight_S_parameter / value - sg_weight_S_parameter /
- (p_power.peak * p_power.scale);
+ (p_speed.peak * p_speed.scale);
lmm_variable_t var = NULL;
lmm_element_t elem = NULL;
lmm_element_t nextelem = NULL;
NetworkCm02Action *action = NULL;
- p_power.peak = value;
+ p_speed.peak = value;
lmm_update_constraint_bound(getModel()->getMaxminSystem(),
getConstraint(),
sg_bandwidth_factor *
- (p_power.peak * p_power.scale));
- TRACE_surf_link_set_bandwidth(date, getName(), sg_bandwidth_factor * p_power.peak * p_power.scale);
+ (p_speed.peak * p_speed.scale));
+ TRACE_surf_link_set_bandwidth(date, getName(), sg_bandwidth_factor * p_speed.peak * p_speed.scale);
if (sg_weight_S_parameter > 0) {
while ((var = lmm_get_var_from_cnst_safe(getModel()->getMaxminSystem(), getConstraint(), &elem, &nextelem, &numelem))) {
action = (NetworkCm02Action*) lmm_variable_id(var);
lmm_update_variable_bound(getModel()->getMaxminSystem(), action->getVariable(), sg_tcp_gamma / (2.0 * action->m_latCurrent));
else {
lmm_update_variable_bound(getModel()->getMaxminSystem(), action->getVariable(),
- min(action->m_rate, sg_tcp_gamma / (2.0 * action->m_latCurrent)));
+ std::min(action->m_rate, sg_tcp_gamma / (2.0 * action->m_latCurrent)));
if (action->m_rate < sg_tcp_gamma / (2.0 * action->m_latCurrent)) {
XBT_INFO("Flow is limited BYBANDWIDTH");
m_lastValue = lmm_variable_getvalue(getVariable());
}
+}
+}