-/* Copyright (c) 2004-2021. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2004-2023. The SimGrid Team. All rights reserved. */
/* 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 "src/kernel/lmm/maxmin.hpp"
-#include <boost/core/demangle.hpp>
-#include <typeinfo>
+#include "src/simgrid/math_utils.h"
+#include "xbt/ex.h"
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_maxmin, surf, "Logging specific to SURF (maxmin)");
+XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(ker_lmm);
-double sg_maxmin_precision = 1E-5; /* Change this with --cfg=maxmin/precision:VALUE */
-double sg_surf_precision = 1E-9; /* Change this with --cfg=surf/precision:VALUE */
-int sg_concurrency_limit = -1; /* Change this with --cfg=maxmin/concurrency-limit:VALUE */
-
-namespace simgrid {
-namespace kernel {
-namespace lmm {
+namespace simgrid::kernel::lmm {
using dyn_light_t = std::vector<int>;
-int Variable::next_rank_ = 1;
-int Constraint::next_rank_ = 1;
-
-int Element::get_concurrency() const
-{
- // Ignore element with weight less than one (e.g. cross-traffic)
- return (consumption_weight >= 1) ? 1 : 0;
- // There are other alternatives, but they will change the behavior of the model..
- // So do not use it unless you want to make a new model.
- // If you do, remember to change the variables concurrency share to reflect it.
- // Potential examples are:
- // return (elem->weight>0)?1:0;//Include element as soon as weight is non-zero
- // return (int)ceil(elem->weight);//Include element as the rounded-up integer value of the element weight
-}
-
-void Element::decrease_concurrency()
-{
- xbt_assert(constraint->concurrency_current_ >= get_concurrency());
- constraint->concurrency_current_ -= get_concurrency();
-}
-
-void Element::increase_concurrency()
-{
- constraint->concurrency_current_ += get_concurrency();
-
- if (constraint->concurrency_current_ > constraint->concurrency_maximum_)
- constraint->concurrency_maximum_ = constraint->concurrency_current_;
-
- xbt_assert(constraint->get_concurrency_limit() < 0 ||
- constraint->concurrency_current_ <= constraint->get_concurrency_limit(),
- "Concurrency limit overflow!");
-}
-
-void System::check_concurrency() const
-{
- // These checks are very expensive, so do them only if we want to debug SURF LMM
- if (not XBT_LOG_ISENABLED(surf_maxmin, xbt_log_priority_debug))
- return;
-
- for (Constraint const& cnst : constraint_set) {
- int concurrency = 0;
- for (Element const& elem : cnst.enabled_element_set_) {
- xbt_assert(elem.variable->sharing_penalty_ > 0);
- concurrency += elem.get_concurrency();
- }
-
- for (Element const& elem : cnst.disabled_element_set_) {
- // We should have staged variables only if concurrency is reached in some constraint
- xbt_assert(cnst.get_concurrency_limit() < 0 || elem.variable->staged_penalty_ == 0 ||
- elem.variable->get_min_concurrency_slack() < elem.variable->concurrency_share_,
- "should not have staged variable!");
- }
-
- xbt_assert(cnst.get_concurrency_limit() < 0 || cnst.get_concurrency_limit() >= concurrency,
- "concurrency check failed!");
- xbt_assert(cnst.concurrency_current_ == concurrency, "concurrency_current is out-of-date!");
- }
-
- // Check that for each variable, all corresponding elements are in the same state (i.e. same element sets)
- for (Variable const& var : variable_set) {
- if (var.cnsts_.empty())
- continue;
-
- const Element& elem = var.cnsts_[0];
- bool belong_to_enabled = elem.enabled_element_set_hook.is_linked();
- bool belong_to_disabled = elem.disabled_element_set_hook.is_linked();
- bool belong_to_active = elem.active_element_set_hook.is_linked();
-
- for (Element const& elem2 : var.cnsts_) {
- xbt_assert(belong_to_enabled == elem2.enabled_element_set_hook.is_linked(),
- "Variable inconsistency (1): enabled_element_set");
- xbt_assert(belong_to_disabled == elem2.disabled_element_set_hook.is_linked(),
- "Variable inconsistency (2): disabled_element_set");
- xbt_assert(belong_to_active == elem2.active_element_set_hook.is_linked(),
- "Variable inconsistency (3): active_element_set");
- }
- }
-}
-
-void System::var_free(Variable* var)
-{
- XBT_IN("(sys=%p, var=%p)", this, var);
- modified_ = true;
-
- // TODOLATER Can do better than that by leaving only the variable in only one enabled_element_set, call
- // update_modified_set, and then remove it..
- if (not var->cnsts_.empty())
- update_modified_set(var->cnsts_[0].constraint);
-
- for (Element& elem : var->cnsts_) {
- if (var->sharing_penalty_ > 0)
- elem.decrease_concurrency();
- if (elem.enabled_element_set_hook.is_linked())
- simgrid::xbt::intrusive_erase(elem.constraint->enabled_element_set_, elem);
- if (elem.disabled_element_set_hook.is_linked())
- simgrid::xbt::intrusive_erase(elem.constraint->disabled_element_set_, elem);
- if (elem.active_element_set_hook.is_linked())
- simgrid::xbt::intrusive_erase(elem.constraint->active_element_set_, elem);
- if (elem.constraint->enabled_element_set_.empty() && elem.constraint->disabled_element_set_.empty())
- make_constraint_inactive(elem.constraint);
- else
- on_disabled_var(elem.constraint);
- }
-
- var->cnsts_.clear();
-
- check_concurrency();
-
- xbt_mallocator_release(variable_mallocator_, var);
- XBT_OUT();
-}
-
-System::System(bool selective_update) : selective_update_active(selective_update)
-{
- XBT_DEBUG("Setting selective_update_active flag to %d", selective_update_active);
-
- if (selective_update)
- modified_set_ = std::make_unique<kernel::resource::Action::ModifiedSet>();
-}
-
-System::~System()
-{
- while (Variable* var = extract_variable()) {
- std::string demangled = boost::core::demangle(var->id_ ? typeid(*var->id_).name() : "(unidentified)");
- XBT_WARN("Probable bug: a %s variable (#%d) not removed before the LMM system destruction.", demangled.c_str(),
- var->rank_);
- var_free(var);
- }
- while (Constraint* cnst = extract_constraint())
- cnst_free(cnst);
-
- xbt_mallocator_free(variable_mallocator_);
-}
-
-void System::cnst_free(Constraint* cnst)
-{
- make_constraint_inactive(cnst);
- delete cnst;
-}
-
-Constraint::Constraint(resource::Resource* id_value, double bound_value) : bound_(bound_value), id_(id_value)
-{
- rank_ = next_rank_++;
-}
-
-Constraint* System::constraint_new(resource::Resource* id, double bound_value)
-{
- auto* cnst = new Constraint(id, bound_value);
- insert_constraint(cnst);
- return cnst;
-}
-
-void* System::variable_mallocator_new_f()
-{
- return new Variable;
-}
-
-void System::variable_mallocator_free_f(void* var)
-{
- delete static_cast<Variable*>(var);
-}
-
-Variable* System::variable_new(resource::Action* id, double sharing_penalty, double bound, size_t number_of_constraints)
-{
- XBT_IN("(sys=%p, id=%p, penalty=%f, bound=%f, num_cons =%zu)", this, id, sharing_penalty, bound,
- number_of_constraints);
-
- auto* var = static_cast<Variable*>(xbt_mallocator_get(variable_mallocator_));
- var->initialize(id, sharing_penalty, bound, number_of_constraints, visited_counter_ - 1);
- if (sharing_penalty > 0)
- variable_set.push_front(*var);
- else
- variable_set.push_back(*var);
-
- XBT_OUT(" returns %p", var);
- return var;
-}
-
-void System::variable_free(Variable* var)
-{
- remove_variable(var);
- var_free(var);
-}
-
-void System::variable_free_all()
-{
- while (Variable* var = extract_variable())
- variable_free(var);
-}
-
-void System::expand(Constraint* cnst, Variable* var, double consumption_weight)
-{
- modified_ = true;
-
- // Check if this variable already has an active element in this constraint
- // If it does, subtract it from the required slack
- int current_share = 0;
- if (var->concurrency_share_ > 1) {
- for (const Element& elem : var->cnsts_) {
- if (elem.constraint == cnst && elem.enabled_element_set_hook.is_linked())
- current_share += elem.get_concurrency();
- }
- }
-
- // Check if we need to disable the variable
- if (var->sharing_penalty_ > 0 && var->concurrency_share_ - current_share > cnst->get_concurrency_slack()) {
- double penalty = var->sharing_penalty_;
- disable_var(var);
- for (Element const& elem : var->cnsts_)
- on_disabled_var(elem.constraint);
- consumption_weight = 0;
- var->staged_penalty_ = penalty;
- xbt_assert(not var->sharing_penalty_);
- }
-
- xbt_assert(var->cnsts_.size() < var->cnsts_.capacity(), "Too much constraints");
-
- var->cnsts_.emplace_back();
- Element& elem = var->cnsts_.back();
-
- elem.consumption_weight = consumption_weight;
- elem.constraint = cnst;
- elem.variable = var;
-
- if (var->sharing_penalty_ != 0.0) {
- elem.constraint->enabled_element_set_.push_front(elem);
- elem.increase_concurrency();
- } else
- elem.constraint->disabled_element_set_.push_back(elem);
-
- if (not selective_update_active) {
- make_constraint_active(cnst);
- } else if (elem.consumption_weight > 0 || var->sharing_penalty_ > 0) {
- make_constraint_active(cnst);
- update_modified_set(cnst);
- // TODOLATER: Why do we need this second call?
- if (var->cnsts_.size() > 1)
- update_modified_set(var->cnsts_[0].constraint);
- }
-
- check_concurrency();
-}
-
-void System::expand_add(Constraint* cnst, Variable* var, double value)
-{
- modified_ = true;
-
- check_concurrency();
-
- // BEWARE: In case you have multiple elements in one constraint, this will always add value to the first element.
- auto elem_it =
- std::find_if(begin(var->cnsts_), end(var->cnsts_), [&cnst](Element const& x) { return x.constraint == cnst; });
- if (elem_it != end(var->cnsts_)) {
- Element& elem = *elem_it;
- if (var->sharing_penalty_ != 0.0)
- elem.decrease_concurrency();
-
- if (cnst->sharing_policy_ != Constraint::SharingPolicy::FATPIPE)
- elem.consumption_weight += value;
- else
- elem.consumption_weight = std::max(elem.consumption_weight, value);
-
- // We need to check that increasing value of the element does not cross the concurrency limit
- if (var->sharing_penalty_ != 0.0) {
- if (cnst->get_concurrency_slack() < elem.get_concurrency()) {
- double penalty = var->sharing_penalty_;
- disable_var(var);
- for (Element const& elem2 : var->cnsts_)
- on_disabled_var(elem2.constraint);
- var->staged_penalty_ = penalty;
- xbt_assert(not var->sharing_penalty_);
- }
- elem.increase_concurrency();
- }
- update_modified_set(cnst);
- } else
- expand(cnst, var, value);
-
- check_concurrency();
-}
-
-Variable* Constraint::get_variable(const Element** elem) const
-{
- if (*elem == nullptr) {
- // That is the first call, pick the first element among enabled_element_set (or disabled_element_set if
- // enabled_element_set is empty)
- if (not enabled_element_set_.empty())
- *elem = &enabled_element_set_.front();
- else if (not disabled_element_set_.empty())
- *elem = &disabled_element_set_.front();
- else
- *elem = nullptr;
- } else {
- // elem is not null, so we carry on
- if ((*elem)->enabled_element_set_hook.is_linked()) {
- // Look at enabled_element_set, and jump to disabled_element_set when finished
- auto iter = std::next(enabled_element_set_.iterator_to(**elem));
- if (iter != std::end(enabled_element_set_))
- *elem = &*iter;
- else if (not disabled_element_set_.empty())
- *elem = &disabled_element_set_.front();
- else
- *elem = nullptr;
- } else {
- auto iter = std::next(disabled_element_set_.iterator_to(**elem));
- *elem = iter != std::end(disabled_element_set_) ? &*iter : nullptr;
- }
- }
- if (*elem)
- return (*elem)->variable;
- else
- return nullptr;
-}
-
-// if we modify the list between calls, normal version may loop forever
-// this safe version ensures that we browse the list elements only once
-Variable* Constraint::get_variable_safe(const Element** elem, const Element** nextelem, size_t* numelem) const
-{
- if (*elem == nullptr) {
- *numelem = enabled_element_set_.size() + disabled_element_set_.size() - 1;
- if (not enabled_element_set_.empty())
- *elem = &enabled_element_set_.front();
- else if (not disabled_element_set_.empty())
- *elem = &disabled_element_set_.front();
- else
- *elem = nullptr;
- } else {
- *elem = *nextelem;
- if (*numelem > 0) {
- (*numelem)--;
- } else
- return nullptr;
- }
- if (*elem) {
- // elem is not null, so we carry on
- if ((*elem)->enabled_element_set_hook.is_linked()) {
- // Look at enabled_element_set, and jump to disabled_element_set when finished
- auto iter = std::next(enabled_element_set_.iterator_to(**elem));
- if (iter != std::end(enabled_element_set_))
- *nextelem = &*iter;
- else if (not disabled_element_set_.empty())
- *nextelem = &disabled_element_set_.front();
- else
- *nextelem = nullptr;
- } else {
- auto iter = std::next(disabled_element_set_.iterator_to(**elem));
- *nextelem = iter != std::end(disabled_element_set_) ? &*iter : nullptr;
- }
- return (*elem)->variable;
- } else
- return nullptr;
-}
-
static inline void saturated_constraints_update(double usage, int cnst_light_num, dyn_light_t& saturated_constraints,
double* min_usage)
{
}
}
-template <class ElemList>
-static void format_element_list(const ElemList& elem_list, Constraint::SharingPolicy sharing_policy, double& sum,
- std::string& buf)
-{
- for (Element const& elem : elem_list) {
- buf += std::to_string(elem.consumption_weight) + ".'" + std::to_string(elem.variable->rank_) + "'(" +
- std::to_string(elem.variable->value_) + ")" +
- (sharing_policy != Constraint::SharingPolicy::FATPIPE ? " + " : " , ");
- if (sharing_policy != Constraint::SharingPolicy::FATPIPE)
- sum += elem.consumption_weight * elem.variable->value_;
- else
- sum = std::max(sum, elem.consumption_weight * elem.variable->value_);
- }
-}
-
-void System::print() const
+void MaxMin::do_solve()
{
- std::string buf = "MAX-MIN ( ";
-
- /* Printing Objective */
- for (Variable const& var : variable_set)
- buf += "'" + std::to_string(var.rank_) + "'(" + std::to_string(var.sharing_penalty_) + ") ";
- buf += ")";
- XBT_DEBUG("%20s", buf.c_str());
- buf.clear();
-
- XBT_DEBUG("Constraints");
- /* Printing Constraints */
- for (Constraint const& cnst : active_constraint_set) {
- double sum = 0.0;
- // Show the enabled variables
- buf += "\t";
- buf += cnst.sharing_policy_ != Constraint::SharingPolicy::FATPIPE ? "(" : "max(";
- format_element_list(cnst.enabled_element_set_, cnst.sharing_policy_, sum, buf);
- // TODO: Adding disabled elements only for test compatibility, but do we really want them to be printed?
- format_element_list(cnst.disabled_element_set_, cnst.sharing_policy_, sum, buf);
-
- buf += "0) <= " + std::to_string(cnst.bound_) + " ('" + std::to_string(cnst.rank_) + "')";
-
- if (cnst.sharing_policy_ == Constraint::SharingPolicy::FATPIPE) {
- buf += " [MAX-Constraint]";
- }
- XBT_DEBUG("%s", buf.c_str());
- buf.clear();
- xbt_assert(not double_positive(sum - cnst.bound_, cnst.bound_ * sg_maxmin_precision),
- "Incorrect value (%f is not smaller than %f): %g", sum, cnst.bound_, sum - cnst.bound_);
- }
-
- XBT_DEBUG("Variables");
- /* Printing Result */
- for (Variable const& var : variable_set) {
- if (var.bound_ > 0) {
- XBT_DEBUG("'%d'(%f) : %f (<=%f)", var.rank_, var.sharing_penalty_, var.value_, var.bound_);
- xbt_assert(not double_positive(var.value_ - var.bound_, var.bound_ * sg_maxmin_precision),
- "Incorrect value (%f is not smaller than %f", var.value_, var.bound_);
- } else {
- XBT_DEBUG("'%d'(%f) : %f", var.rank_, var.sharing_penalty_, var.value_);
- }
- }
-}
-
-void System::lmm_solve()
-{
- if (modified_) {
- XBT_IN("(sys=%p)", this);
- /* Compute Usage and store the variables that reach the maximum. If selective_update_active is true, only
- * constraints that changed are considered. Otherwise all constraints with active actions are considered.
- */
- if (selective_update_active)
- lmm_solve(modified_constraint_set);
- else
- lmm_solve(active_constraint_set);
- XBT_OUT();
- }
+ XBT_IN("(sys=%p)", this);
+ /* Compute Usage and store the variables that reach the maximum. If selective_update_active is true, only
+ * constraints that changed are considered. Otherwise all constraints with active actions are considered.
+ */
+ if (selective_update_active)
+ maxmin_solve(modified_constraint_set);
+ else
+ maxmin_solve(active_constraint_set);
+ XBT_OUT();
}
-template <class CnstList> void System::lmm_solve(CnstList& cnst_list)
+template <class CnstList> void MaxMin::maxmin_solve(CnstList& cnst_list)
{
double min_usage = -1;
double min_bound = -1;
for (Constraint& cnst : cnst_list) {
/* INIT: Collect constraints that actually need to be saturated (i.e remaining and usage are strictly positive)
* into cnst_light_tab. */
- cnst.remaining_ = cnst.bound_;
- if (not double_positive(cnst.remaining_, cnst.bound_ * sg_maxmin_precision))
+ cnst.dynamic_bound_ = cnst.bound_;
+ if ((cnst.get_sharing_policy() == Constraint::SharingPolicy::NONLINEAR || cnst.get_sharing_policy() == Constraint::SharingPolicy::WIFI) && cnst.dyn_constraint_cb_) {
+ cnst.dynamic_bound_ = cnst.dyn_constraint_cb_(cnst.bound_, cnst.concurrency_current_);
+ }
+ cnst.remaining_ = cnst.dynamic_bound_;
+ if (not double_positive(cnst.remaining_, cnst.dynamic_bound_ * sg_precision_workamount))
continue;
cnst.usage_ = 0;
for (Element& elem : cnst.enabled_element_set_) {
cnst.usage_ = elem.consumption_weight / elem.variable->sharing_penalty_;
elem.make_active();
- resource::Action* action = elem.variable->id_;
- if (modified_set_ && not action->is_within_modified_set())
- modified_set_->push_back(*action);
}
}
XBT_DEBUG("Constraint '%d' usage: %f remaining: %f concurrency: %i<=%i<=%i", cnst.rank_, cnst.usage_,
XBT_DEBUG("Setting var (%d) value to %f\n", var.rank_, var.value_);
} else {
// If there exist a variable that can reach its bound, only update it (and other with the same bound) for now.
- if (double_equals(min_bound, var.bound_ * var.sharing_penalty_, sg_maxmin_precision)) {
+ if (double_equals(min_bound, var.bound_ * var.sharing_penalty_, sg_precision_workamount)) {
var.value_ = var.bound_;
XBT_DEBUG("Setting %p (%d) value to %f\n", &var, var.rank_, var.value_);
} else {
// Variables which bound is different are not considered for this cycle, but they will be afterwards.
- XBT_DEBUG("Do not consider %p (%d) \n", &var, var.rank_);
+ XBT_DEBUG("Do not consider %p (%d)\n", &var, var.rank_);
var_list.pop_front();
continue;
}
}
- XBT_DEBUG("Min usage: %f, Var(%d).penalty: %f, Var(%d).value: %f ", min_usage, var.rank_, var.sharing_penalty_,
+ XBT_DEBUG("Min usage: %f, Var(%d).penalty: %f, Var(%d).value: %f", min_usage, var.rank_, var.sharing_penalty_,
var.rank_, var.value_);
/* Update the usage of constraints where this variable is involved */
Constraint* cnst = elem.constraint;
if (cnst->sharing_policy_ != Constraint::SharingPolicy::FATPIPE) {
// Remember: shared constraints require that sum(elem.value * var.value) < cnst->bound
- double_update(&(cnst->remaining_), elem.consumption_weight * var.value_, cnst->bound_ * sg_maxmin_precision);
- double_update(&(cnst->usage_), elem.consumption_weight / var.sharing_penalty_, sg_maxmin_precision);
+ double_update(&(cnst->remaining_), elem.consumption_weight * var.value_,
+ cnst->dynamic_bound_ * sg_precision_workamount);
+ double_update(&(cnst->usage_), elem.consumption_weight / var.sharing_penalty_, sg_precision_workamount);
// If the constraint is saturated, remove it from the set of active constraints (light_tab)
- if (not double_positive(cnst->usage_, sg_maxmin_precision) ||
- not double_positive(cnst->remaining_, cnst->bound_ * sg_maxmin_precision)) {
+ if (not double_positive(cnst->usage_, sg_precision_workamount) ||
+ not double_positive(cnst->remaining_, cnst->dynamic_bound_ * sg_precision_workamount)) {
if (cnst->cnst_light_) {
size_t index = (cnst->cnst_light_ - cnst_light_tab);
- XBT_DEBUG("index: %zu \t cnst_light_num: %d \t || usage: %f remaining: %f bound: %f ", index,
- cnst_light_num, cnst->usage_, cnst->remaining_, cnst->bound_);
- cnst_light_tab[index] = cnst_light_tab[cnst_light_num - 1];
+ XBT_DEBUG("index: %zu \t cnst_light_num: %d \t || usage: %f remaining: %f bound: %f", index,
+ cnst_light_num, cnst->usage_, cnst->remaining_, cnst->dynamic_bound_);
+ cnst_light_tab[index] = cnst_light_tab[cnst_light_num - 1];
cnst_light_tab[index].cnst->cnst_light_ = &cnst_light_tab[index];
cnst_light_num--;
cnst->cnst_light_ = nullptr;
cnst->usage_ = std::max(cnst->usage_, elem2.consumption_weight / elem2.variable->sharing_penalty_);
}
// If the constraint is saturated, remove it from the set of active constraints (light_tab)
- if (not double_positive(cnst->usage_, sg_maxmin_precision) ||
- not double_positive(cnst->remaining_, cnst->bound_ * sg_maxmin_precision)) {
+ if (not double_positive(cnst->usage_, sg_precision_workamount) ||
+ not double_positive(cnst->remaining_, cnst->dynamic_bound_ * sg_precision_workamount)) {
if (cnst->cnst_light_) {
size_t index = (cnst->cnst_light_ - cnst_light_tab);
XBT_DEBUG("index: %zu \t cnst_light_num: %d \t || \t cnst: %p \t cnst->cnst_light: %p "
- "\t cnst_light_tab: %p usage: %f remaining: %f bound: %f ",
+ "\t cnst_light_tab: %p usage: %f remaining: %f bound: %f",
index, cnst_light_num, cnst, cnst->cnst_light_, cnst_light_tab, cnst->usage_, cnst->remaining_,
- cnst->bound_);
- cnst_light_tab[index] = cnst_light_tab[cnst_light_num - 1];
+ cnst->dynamic_bound_);
+ cnst_light_tab[index] = cnst_light_tab[cnst_light_num - 1];
cnst_light_tab[index].cnst->cnst_light_ = &cnst_light_tab[index];
cnst_light_num--;
cnst->cnst_light_ = nullptr;
min_bound = -1;
saturated_constraints.clear();
for (int pos = 0; pos < cnst_light_num; pos++) {
- xbt_assert(not cnst_light_tab[pos].cnst->active_element_set_.empty(),
- "Cannot saturate more a constraint that has"
- " no active element! You may want to change the maxmin precision (--cfg=maxmin/precision:<new_value>)"
- " because of possible rounding effects.\n\tFor the record, the usage of this constraint is %g while "
- "the maxmin precision to which it is compared is %g.\n\tThe usage of the previous constraint is %g.",
- cnst_light_tab[pos].cnst->usage_, sg_maxmin_precision, cnst_light_tab[pos - 1].cnst->usage_);
+ xbt_assert(
+ not cnst_light_tab[pos].cnst->active_element_set_.empty(),
+ "Cannot saturate more a constraint that has"
+ " no active element! You may want to change the work amount precision (--cfg=precision/work-amount:<new_value>)"
+ " because of possible rounding effects.\n\tFor the record, the usage of this constraint is %g while "
+ "the maxmin precision to which it is compared is %g.\n\t%s%g.",
+ cnst_light_tab[pos].cnst->usage_, sg_precision_workamount,
+ (pos > 0 ? "The usage of the previous constraint is " : "There is no previous constraint. "),
+ (pos > 0 ? cnst_light_tab[pos - 1].cnst->usage_ : -1));
saturated_constraints_update(cnst_light_tab[pos].remaining_over_usage, pos, saturated_constraints, &min_usage);
}
saturated_variable_set_update(cnst_light_tab, saturated_constraints, this);
} while (cnst_light_num > 0);
-
- modified_ = false;
- if (selective_update_active)
- remove_all_modified_set();
-
- if (XBT_LOG_ISENABLED(surf_maxmin, xbt_log_priority_debug)) {
- print();
- }
-
- check_concurrency();
-}
-
-/** @brief Attribute the value bound to var->bound.
- *
- * @param var the Variable*
- * @param bound the new bound to associate with var
- *
- * Makes var->bound equal to bound. Whenever this function is called a change is signed in the system. To
- * avoid false system changing detection it is a good idea to test (bound != 0) before calling it.
- */
-void System::update_variable_bound(Variable* var, double bound)
-{
- modified_ = true;
- var->bound_ = bound;
-
- if (not var->cnsts_.empty())
- update_modified_set(var->cnsts_[0].constraint);
-}
-
-void Variable::initialize(resource::Action* id_value, double sharing_penalty, double bound_value,
- size_t number_of_constraints, unsigned visited_value)
-{
- id_ = id_value;
- rank_ = next_rank_++;
- cnsts_.reserve(number_of_constraints);
- sharing_penalty_ = sharing_penalty;
- staged_penalty_ = 0.0;
- bound_ = bound_value;
- concurrency_share_ = 1;
- value_ = 0.0;
- visited_ = visited_value;
- mu_ = 0.0;
-
- xbt_assert(not variable_set_hook_.is_linked());
- xbt_assert(not saturated_variable_set_hook_.is_linked());
-}
-
-int Variable::get_min_concurrency_slack() const
-{
- int minslack = std::numeric_limits<int>::max();
- for (Element const& elem : cnsts_) {
- int slack = elem.constraint->get_concurrency_slack();
- if (slack < minslack) {
- // This is only an optimization, to avoid looking at more constraints when slack is already zero
- if (slack == 0)
- return 0;
- minslack = slack;
- }
- }
- return minslack;
-}
-
-// Small remark: In this implementation of System::enable_var() and System::disable_var(), we will meet multiple times
-// with var when running System::update_modified_set().
-// A priori not a big performance issue, but we might do better by calling System::update_modified_set() within the for
-// loops (after doing the first for enabling==1, and before doing the last for disabling==1)
-void System::enable_var(Variable* var)
-{
- xbt_assert(not XBT_LOG_ISENABLED(surf_maxmin, xbt_log_priority_debug) || var->can_enable());
-
- var->sharing_penalty_ = var->staged_penalty_;
- var->staged_penalty_ = 0;
-
- // Enabling the variable, move var to list head. Subtlety is: here, we need to call update_modified_set AFTER
- // moving at least one element of var.
-
- simgrid::xbt::intrusive_erase(variable_set, *var);
- variable_set.push_front(*var);
- for (Element& elem : var->cnsts_) {
- simgrid::xbt::intrusive_erase(elem.constraint->disabled_element_set_, elem);
- elem.constraint->enabled_element_set_.push_front(elem);
- elem.increase_concurrency();
- }
- if (not var->cnsts_.empty())
- update_modified_set(var->cnsts_[0].constraint);
-
- // When used within on_disabled_var, we would get an assertion fail, because transiently there can be variables
- // that are staged and could be activated.
- // Anyway, caller functions all call check_concurrency() in the end.
-}
-
-void System::disable_var(Variable* var)
-{
- xbt_assert(not var->staged_penalty_, "Staged penalty should have been cleared");
- // Disabling the variable, move to var to list tail. Subtlety is: here, we need to call update_modified_set
- // BEFORE moving the last element of var.
- simgrid::xbt::intrusive_erase(variable_set, *var);
- variable_set.push_back(*var);
- if (not var->cnsts_.empty())
- update_modified_set(var->cnsts_[0].constraint);
- for (Element& elem : var->cnsts_) {
- simgrid::xbt::intrusive_erase(elem.constraint->enabled_element_set_, elem);
- elem.constraint->disabled_element_set_.push_back(elem);
- if (elem.active_element_set_hook.is_linked())
- simgrid::xbt::intrusive_erase(elem.constraint->active_element_set_, elem);
- elem.decrease_concurrency();
- }
-
- var->sharing_penalty_ = 0.0;
- var->staged_penalty_ = 0.0;
- var->value_ = 0.0;
- check_concurrency();
-}
-
-/* /brief Find variables that can be enabled and enable them.
- *
- * Assuming that the variable has already been removed from non-zero penalties
- * Can we find a staged variable to add?
- * If yes, check that none of the constraints that this variable is involved in is at the limit of its concurrency
- * And then add it to enabled variables
- */
-void System::on_disabled_var(Constraint* cnstr)
-{
- if (cnstr->get_concurrency_limit() < 0)
- return;
-
- size_t numelem = cnstr->disabled_element_set_.size();
- if (numelem == 0)
- return;
-
- Element* elem = &cnstr->disabled_element_set_.front();
-
- // Cannot use foreach loop, because System::enable_var() will modify disabled_element_set.. within the loop
- while (numelem-- && elem) {
- Element* nextelem;
- if (elem->disabled_element_set_hook.is_linked()) {
- auto iter = std::next(cnstr->disabled_element_set_.iterator_to(*elem));
- nextelem = iter != std::end(cnstr->disabled_element_set_) ? &*iter : nullptr;
- } else {
- nextelem = nullptr;
- }
-
- if (elem->variable->staged_penalty_ > 0 && elem->variable->can_enable()) {
- // Found a staged variable
- // TODOLATER: Add random timing function to model reservation protocol fuzziness? Then how to make sure that
- // staged variables will eventually be called?
- enable_var(elem->variable);
- }
-
- xbt_assert(cnstr->concurrency_current_ <= cnstr->get_concurrency_limit(), "Concurrency overflow!");
- if (cnstr->concurrency_current_ == cnstr->get_concurrency_limit())
- break;
-
- elem = nextelem;
- }
-
- // We could get an assertion fail, because transiently there can be variables that are staged and could be activated.
- // And we need to go through all constraints of the disabled var before getting back a coherent state.
- // Anyway, caller functions all call check_concurrency() in the end.
-}
-
-/** @brief update the penalty of a variable (disable it by passing 0 as a penalty) */
-void System::update_variable_penalty(Variable* var, double penalty)
-{
- xbt_assert(penalty >= 0, "Variable penalty should not be negative!");
-
- if (penalty == var->sharing_penalty_)
- return;
-
- bool enabling_var = (penalty > 0 && var->sharing_penalty_ <= 0);
- bool disabling_var = (penalty <= 0 && var->sharing_penalty_ > 0);
-
- XBT_IN("(sys=%p, var=%p, penalty=%f)", this, var, penalty);
-
- modified_ = true;
-
- // Are we enabling this variable?
- if (enabling_var) {
- var->staged_penalty_ = penalty;
- int minslack = var->get_min_concurrency_slack();
- if (minslack < var->concurrency_share_) {
- XBT_DEBUG("Staging var (instead of enabling) because min concurrency slack %i, with penalty %f and concurrency"
- " share %i",
- minslack, penalty, var->concurrency_share_);
- return;
- }
- XBT_DEBUG("Enabling var with min concurrency slack %i", minslack);
- enable_var(var);
- } else if (disabling_var) {
- disable_var(var);
- } else {
- var->sharing_penalty_ = penalty;
- }
-
- check_concurrency();
-
- XBT_OUT();
-}
-
-void System::update_constraint_bound(Constraint* cnst, double bound)
-{
- modified_ = true;
- update_modified_set(cnst);
- cnst->bound_ = bound;
-}
-
-/** @brief Update the constraint set propagating recursively to other constraints so the system should not be entirely
- * computed.
- *
- * @param cnst the Constraint* affected by the change
- *
- * A recursive algorithm to optimize the system recalculation selecting only constraints that have changed. Each
- * constraint change is propagated to the list of constraints for each variable.
- */
-void System::update_modified_set_rec(const Constraint* cnst)
-{
- for (Element const& elem : cnst->enabled_element_set_) {
- Variable* var = elem.variable;
- for (Element const& elem2 : var->cnsts_) {
- if (var->visited_ == visited_counter_)
- break;
- if (elem2.constraint != cnst && not elem2.constraint->modified_constraint_set_hook_.is_linked()) {
- modified_constraint_set.push_back(*elem2.constraint);
- update_modified_set_rec(elem2.constraint);
- }
- }
- // var will be ignored in later visits as long as sys->visited_counter does not move
- var->visited_ = visited_counter_;
- }
-}
-
-void System::update_modified_set(Constraint* cnst)
-{
- /* nothing to do if selective update isn't active */
- if (selective_update_active && not cnst->modified_constraint_set_hook_.is_linked()) {
- modified_constraint_set.push_back(*cnst);
- update_modified_set_rec(cnst);
- }
-}
-
-void System::remove_all_modified_set()
-{
- // We cleverly un-flag all variables just by incrementing visited_counter
- // In effect, the var->visited value will no more be equal to visited counter
- // To be clean, when visited counter has wrapped around, we force these var->visited values so that variables that
- // were in the modified a long long time ago are not wrongly skipped here, which would lead to very nasty bugs
- // (i.e. not readily reproducible, and requiring a lot of run time before happening).
- if (++visited_counter_ == 1) {
- /* the counter wrapped around, reset each variable->visited */
- for (Variable& var : variable_set)
- var.visited_ = 0;
- }
- modified_constraint_set.clear();
-}
-
-/**
- * Returns resource load (in flop per second, or byte per second, or similar)
- *
- * If the resource is shared (the default case), the load is sum of resource usage made by
- * every variables located on this resource.
- *
- * If the resource is not shared (ie in FATPIPE mode), then the load is the max (not the sum)
- * of all resource usages located on this resource.
- */
-double Constraint::get_usage() const
-{
- double result = 0.0;
- if (sharing_policy_ != SharingPolicy::FATPIPE) {
- for (Element const& elem : enabled_element_set_)
- if (elem.consumption_weight > 0)
- result += elem.consumption_weight * elem.variable->value_;
- } else {
- for (Element const& elem : enabled_element_set_)
- if (elem.consumption_weight > 0)
- result = std::max(result, elem.consumption_weight * elem.variable->value_);
- }
- return result;
-}
-
-int Constraint::get_variable_amount() const
-{
- return static_cast<int>(std::count_if(std::begin(enabled_element_set_), std::end(enabled_element_set_),
- [](const Element& elem) { return elem.consumption_weight > 0; }));
}
-} // namespace lmm
-} // namespace kernel
-} // namespace simgrid
+} // namespace simgrid::kernel::lmm