-/* Copyright (c) 2004-2017. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2004-2019. 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. */
#ifndef SURF_MAXMIN_HPP
#define SURF_MAXMIN_HPP
-#include "src/internal_config.h"
-#include "src/surf/surf_interface.hpp"
-#include "surf/surf.hpp"
+#include "simgrid/kernel/resource/Action.hpp"
+#include "simgrid/s4u/Link.hpp"
#include "xbt/asserts.h"
#include "xbt/mallocator.h"
-#include "xbt/misc.h"
+
#include <boost/intrusive/list.hpp>
#include <cmath>
#include <limits>
*
* max( var1.weight * var1.value * elem5.value , var3.weight * var3.value * elem6.value ) <= cons3.bound
*
- * This is usefull for the sharing of resources for various models.
+ * This is useful for the sharing of resources for various models.
* For instance, for the network model, each link is associated to a constraint and each communication to a variable.
*
* Implementation details
/** @{ @ingroup SURF_lmm */
-/**
- * @brief Solve the lmm system
- * @param sys The lmm system to solve
- */
-XBT_PUBLIC(void) lmm_solve(lmm_system_t sys);
-
-XBT_PUBLIC(void) lagrange_solve(lmm_system_t sys);
-XBT_PUBLIC(void) bottleneck_solve(lmm_system_t sys);
-
-/** Default functions associated to the chosen protocol. When using the lagrangian approach. */
-
-XBT_PUBLIC(void)
-lmm_set_default_protocol_function(double (*func_f)(const s_lmm_variable_t& var, double x),
- double (*func_fp)(const s_lmm_variable_t& var, double x),
- double (*func_fpi)(const s_lmm_variable_t& var, double x));
-
-XBT_PUBLIC(double) func_reno_f(const s_lmm_variable_t& var, double x);
-XBT_PUBLIC(double) func_reno_fp(const s_lmm_variable_t& var, double x);
-XBT_PUBLIC(double) func_reno_fpi(const s_lmm_variable_t& var, double x);
-
-XBT_PUBLIC(double) func_reno2_f(const s_lmm_variable_t& var, double x);
-XBT_PUBLIC(double) func_reno2_fp(const s_lmm_variable_t& var, double x);
-XBT_PUBLIC(double) func_reno2_fpi(const s_lmm_variable_t& var, double x);
-
-XBT_PUBLIC(double) func_vegas_f(const s_lmm_variable_t& var, double x);
-XBT_PUBLIC(double) func_vegas_fp(const s_lmm_variable_t& var, double x);
-XBT_PUBLIC(double) func_vegas_fpi(const s_lmm_variable_t& var, double x);
-
/**
* @brief LMM element
* Elements can be seen as glue between constraint objects and variable objects.
* Then, it is used to list all variables involved in constraint through constraint's xxx_element_set lists, or
* vice-versa list all constraints for a given variable.
*/
-XBT_PUBLIC_CLASS s_lmm_element_t
-{
+class XBT_PUBLIC Element {
public:
int get_concurrency() const;
void decrease_concurrency();
boost::intrusive::list_member_hook<> disabled_element_set_hook;
boost::intrusive::list_member_hook<> active_element_set_hook;
- lmm_constraint_t constraint;
- lmm_variable_t variable;
+ Constraint* constraint;
+ Variable* variable;
// consumption_weight: impact of 1 byte or flop of your application onto the resource (in byte or flop)
// - if CPU, then probably 1.
double consumption_weight;
};
-struct s_lmm_constraint_light_t {
+class ConstraintLight {
+public:
double remaining_over_usage;
- lmm_constraint_t cnst;
+ Constraint* cnst;
};
/**
* the corresponding action will enable it (at least this is the idea).
* \li Enabled elements which variable's weight is non-zero. They are utilized in some LMM functions.
* \li Active elements which variable's weight is non-zero (i.e. it is enabled) AND its element value is non-zero.
- * LMM_solve iterates over active elements during resolution, dynamically making them active or unactive.
+ * LMM_solve iterates over active elements during resolution, dynamically making them active or inactive.
*/
-XBT_PUBLIC_CLASS s_lmm_constraint_t
-{
+class XBT_PUBLIC Constraint {
public:
- s_lmm_constraint_t() = default;
- s_lmm_constraint_t(void* id_value, double bound_value);
+ Constraint() = delete;
+ Constraint(resource::Resource* id_value, double bound_value);
/** @brief Unshare a constraint. */
- void unshare() { sharing_policy = 0; }
+ void unshare() { sharing_policy_ = s4u::Link::SharingPolicy::FATPIPE; }
- /**
- * @brief Check if a constraint is shared (shared by default)
- * @return 1 if shared, 0 otherwise
- */
- int get_sharing_policy() const { return sharing_policy; }
+ /** @brief Check how a constraint is shared */
+ s4u::Link::SharingPolicy get_sharing_policy() const { return sharing_policy_; }
- /**
- * @brief Get the usage of the constraint after the last lmm solve
- * @return The usage of the constraint
- */
+ /** @brief Get the usage of the constraint after the last lmm solve */
double get_usage() const;
int get_variable_amount() const;
- /**
- * @brief Sets the concurrency limit for this constraint
- * @param concurrency_limit The concurrency limit to use for this constraint
- */
+ /** @brief Sets the concurrency limit for this constraint */
void set_concurrency_limit(int limit)
{
- xbt_assert(limit < 0 || concurrency_maximum <= limit,
+ xbt_assert(limit < 0 || concurrency_maximum_ <= limit,
"New concurrency limit should be larger than observed concurrency maximum. Maybe you want to call"
" concurrency_maximum_reset() to reset the maximum?");
- concurrency_limit = limit;
+ concurrency_limit_ = limit;
}
- /**
- * @brief Gets the concurrency limit for this constraint
- * @return The concurrency limit used by this constraint
- */
- int get_concurrency_limit() const { return concurrency_limit; }
+ /** @brief Gets the concurrency limit for this constraint */
+ int get_concurrency_limit() const { return concurrency_limit_; }
/**
* @brief Reset the concurrency maximum for a given variable (we will update the maximum to reflect constraint
* evolution).
*/
- void reset_concurrency_maximum() { concurrency_maximum = 0; }
+ void reset_concurrency_maximum() { concurrency_maximum_ = 0; }
- /**
- * @brief Get the concurrency maximum for a given variable (which reflects constraint evolution).
- * @return the maximum concurrency of the constraint
- */
+ /** @brief Get the concurrency maximum for a given constraint (which reflects constraint evolution). */
int get_concurrency_maximum() const
{
- xbt_assert(concurrency_limit < 0 || concurrency_maximum <= concurrency_limit,
+ xbt_assert(concurrency_limit_ < 0 || concurrency_maximum_ <= concurrency_limit_,
"Very bad: maximum observed concurrency is higher than limit. This is a bug of SURF, please report it.");
- return concurrency_maximum;
+ return concurrency_maximum_;
}
int get_concurrency_slack() const
{
- return concurrency_limit < 0 ? std::numeric_limits<int>::max() : concurrency_limit - concurrency_current;
+ return concurrency_limit_ < 0 ? std::numeric_limits<int>::max() : concurrency_limit_ - concurrency_current_;
}
/**
* @param elem A element of constraint of the constraint or NULL
* @return A variable associated to a constraint
*/
- lmm_variable_t get_variable(const_lmm_element_t* elem) const;
+ Variable* get_variable(const Element** elem) const;
/**
* @brief Get a var associated to a constraint
* @param numelem parameter representing the number of elements to go
* @return A variable associated to a constraint
*/
- lmm_variable_t get_variable_safe(const_lmm_element_t* elem, const_lmm_element_t* nextelem, int* numelem) const;
+ Variable* get_variable_safe(const Element** elem, const Element** nextelem, int* numelem) const;
/**
* @brief Get the data associated to a constraint
* @return The data associated to the constraint
*/
- void* get_id() const { return id; }
+ resource::Resource* get_id() const { return id_; }
/* hookup to system */
- boost::intrusive::list_member_hook<> constraint_set_hook;
- boost::intrusive::list_member_hook<> active_constraint_set_hook;
- boost::intrusive::list_member_hook<> modified_constraint_set_hook;
- boost::intrusive::list_member_hook<> saturated_constraint_set_hook;
- boost::intrusive::list<s_lmm_element_t,
- boost::intrusive::member_hook<s_lmm_element_t, boost::intrusive::list_member_hook<>,
- &s_lmm_element_t::enabled_element_set_hook>>
- enabled_element_set;
- boost::intrusive::list<s_lmm_element_t,
- boost::intrusive::member_hook<s_lmm_element_t, boost::intrusive::list_member_hook<>,
- &s_lmm_element_t::disabled_element_set_hook>>
- disabled_element_set;
- boost::intrusive::list<s_lmm_element_t,
- boost::intrusive::member_hook<s_lmm_element_t, boost::intrusive::list_member_hook<>,
- &s_lmm_element_t::active_element_set_hook>>
- active_element_set;
- double remaining;
- double usage;
- double bound;
+ boost::intrusive::list_member_hook<> constraint_set_hook_;
+ boost::intrusive::list_member_hook<> active_constraint_set_hook_;
+ boost::intrusive::list_member_hook<> modified_constraint_set_hook_;
+ boost::intrusive::list_member_hook<> saturated_constraint_set_hook_;
+ boost::intrusive::list<Element, boost::intrusive::member_hook<Element, boost::intrusive::list_member_hook<>,
+ &Element::enabled_element_set_hook>>
+ enabled_element_set_;
+ boost::intrusive::list<Element, boost::intrusive::member_hook<Element, boost::intrusive::list_member_hook<>,
+ &Element::disabled_element_set_hook>>
+ disabled_element_set_;
+ boost::intrusive::list<Element, boost::intrusive::member_hook<Element, boost::intrusive::list_member_hook<>,
+ &Element::active_element_set_hook>>
+ active_element_set_;
+ double remaining_;
+ double usage_;
+ double bound_;
// TODO MARTIN Check maximum value across resources at the end of simulation and give a warning is more than e.g. 500
- int concurrency_current; /* The current concurrency */
- int concurrency_maximum; /* The maximum number of (enabled and disabled) variables associated to the constraint at any
- * given time (essentially for tracing)*/
+ int concurrency_current_; /* The current concurrency */
+ int concurrency_maximum_; /* The maximum number of (enabled and disabled) variables associated to the constraint at
+ * any given time (essentially for tracing)*/
- int sharing_policy; /* see @e_surf_link_sharing_policy_t (0: FATPIPE, 1: SHARED, 2: FULLDUPLEX) */
- int id_int;
- double lambda;
- double new_lambda;
- lmm_constraint_light_t cnst_light;
+ s4u::Link::SharingPolicy sharing_policy_;
+ int rank_; // Only used in debug messages to identify the constraint
+ double lambda_;
+ double new_lambda_;
+ ConstraintLight* cnst_light_;
private:
- static int Global_debug_id;
- int concurrency_limit; /* The maximum number of variables that may be enabled at any time (stage variables if
- * necessary) */
- void* id;
+ static int next_rank_; // To give a separate rank_ to each constraint
+ int concurrency_limit_; /* The maximum number of variables that may be enabled at any time (stage variables if
+ * necessary) */
+ resource::Resource* id_;
};
/**
* When something prevents us from enabling a variable, we "stage" the weight that we would have like to set, so that as
* soon as possible we enable the variable with desired weight
*/
-XBT_PUBLIC_CLASS s_lmm_variable_t
-{
+class XBT_PUBLIC Variable {
public:
- void initialize(simgrid::surf::Action * id_value, double sharing_weight_value, double bound_value,
- int number_of_constraints, unsigned visited_value);
+ void initialize(resource::Action* id_value, double sharing_penalty, double bound_value, int number_of_constraints,
+ unsigned visited_value);
- /**
- * @brief Get the value of the variable after the last lmm solve
- * @return The value of the variable
- */
- double get_value() const { return value; }
+ /** @brief Get the value of the variable after the last lmm solve */
+ double get_value() const { return value_; }
- /**
- * @brief Get the maximum value of the variable (-1.0 if no maximum value)
- * @return The bound of the variable
- */
- double get_bound() const { return bound; }
+ /** @brief Get the maximum value of the variable (-1.0 if no specified maximum) */
+ double get_bound() const { return bound_; }
/**
* @brief Set the concurrent share of the variable
- * @param concurrency_share The new concurrency share
+ * @param value The new concurrency share
*/
- void set_concurrency_share(short int value) { concurrency_share = value; }
+ void set_concurrency_share(short int value) { concurrency_share_ = value; }
/**
* @brief Get the numth constraint associated to the variable
* @param num The rank of constraint we want to get
* @return The numth constraint
*/
- lmm_constraint_t get_constraint(unsigned num) const { return num < cnsts.size() ? cnsts[num].constraint : nullptr; }
+ Constraint* get_constraint(unsigned num) const { return num < cnsts_.size() ? cnsts_[num].constraint : nullptr; }
/**
* @brief Get the weigth of the numth constraint associated to the variable
* @param num The rank of constraint we want to get
* @return The numth constraint
*/
- double get_constraint_weight(unsigned num) const { return num < cnsts.size() ? cnsts[num].consumption_weight : 0.0; }
+ double get_constraint_weight(unsigned num) const
+ {
+ return num < cnsts_.size() ? cnsts_[num].consumption_weight : 0.0;
+ }
- /**
- * @brief Get the number of constraint associated to a variable
- * @return The number of constraint associated to the variable
- */
- int get_number_of_constraint() const { return cnsts.size(); }
+ /** @brief Get the number of constraint associated to a variable */
+ size_t get_number_of_constraint() const { return cnsts_.size(); }
- /**
- * @brief Get the data associated to a variable
- * @return The data associated to the variable
- */
- simgrid::surf::Action* get_id() const { return id; }
+ /** @brief Get the data associated to a variable */
+ resource::Action* get_id() const { return id_; }
- /**
- * @brief Get the weight of a variable
- * @return The weight of the variable
- */
- double get_weight() const { return sharing_weight; }
+ /** @brief Get the penalty of a variable */
+ double get_penalty() const { return sharing_penalty_; }
/** @brief Measure the minimum concurrency slack across all constraints where the given var is involved */
int get_min_concurrency_slack() const;
/** @brief Check if a variable can be enabled
- * Make sure to set staged_weight before, if your intent is only to check concurrency
+ * Make sure to set staged_penalty before, if your intent is only to check concurrency
*/
- int can_enable() const { return staged_weight > 0 && get_min_concurrency_slack() >= concurrency_share; }
+ int can_enable() const { return staged_penalty_ > 0 && get_min_concurrency_slack() >= concurrency_share_; }
/* hookup to system */
- boost::intrusive::list_member_hook<> variable_set_hook;
- boost::intrusive::list_member_hook<> saturated_variable_set_hook;
+ boost::intrusive::list_member_hook<> variable_set_hook_;
+ boost::intrusive::list_member_hook<> saturated_variable_set_hook_;
- std::vector<s_lmm_element_t> cnsts;
+ std::vector<Element> cnsts_;
- // sharing_weight: variable's impact on the resource during the sharing
+ // sharing_penalty: variable's impact on the resource during the sharing
// if == 0, the variable is not considered by LMM
// on CPU, actions with N threads have a sharing of N
- // on network, the actions with higher latency have a lesser sharing_weight
- double sharing_weight;
-
- double staged_weight; /* If non-zero, variable is staged for addition as soon as maxconcurrency constraints will be
- * met */
- double bound;
- double value;
- short int concurrency_share; /* The maximum number of elements that variable will add to a constraint */
- simgrid::surf::Action* id;
- int id_int;
- unsigned visited; /* used by lmm_update_modified_set */
- /* \begin{For Lagrange only} */
- double mu;
- double new_mu;
- double (*func_f)(const s_lmm_variable_t& var, double x); /* (f) */
- double (*func_fp)(const s_lmm_variable_t& var, double x); /* (f') */
- double (*func_fpi)(const s_lmm_variable_t& var, double x); /* (f')^{-1} */
- /* \end{For Lagrange only} */
+ // on network, the actions with higher latency have a lesser sharing_penalty
+ double sharing_penalty_;
+
+ double staged_penalty_; /* If non-zero, variable is staged for addition as soon as maxconcurrency constraints will be
+ met */
+ double bound_;
+ double value_;
+ short int concurrency_share_; /* The maximum number of elements that variable will add to a constraint */
+ resource::Action* id_;
+ int rank_; // Only used in debug messages to identify the variable
+ unsigned visited_; /* used by System::update_modified_set() */
+ double mu_;
private:
- static int Global_debug_id;
+ static int next_rank_; // To give a separate rank_ to each variable
};
-inline void s_lmm_element_t::make_active()
+inline void Element::make_active()
{
- constraint->active_element_set.push_front(*this);
+ constraint->active_element_set_.push_front(*this);
}
-inline void s_lmm_element_t::make_inactive()
+inline void Element::make_inactive()
{
- if (active_element_set_hook.is_linked()) {
- auto& set = constraint->active_element_set;
- set.erase(set.iterator_to(*this));
- }
+ if (active_element_set_hook.is_linked())
+ simgrid::xbt::intrusive_erase(constraint->active_element_set_, *this);
}
/**
* @brief LMM system
*/
-XBT_PUBLIC_CLASS s_lmm_system_t
-{
+class XBT_PUBLIC System {
public:
/**
* @brief Create a new Linear MaxMim system
* @param selective_update whether we should do lazy updates
*/
- explicit s_lmm_system_t(bool selective_update);
+ explicit System(bool selective_update);
/** @brief Free an existing Linear MaxMin system */
- ~s_lmm_system_t();
+ virtual ~System();
/**
* @brief Create a new Linear MaxMin constraint
* @param id Data associated to the constraint (e.g.: a network link)
* @param bound_value The bound value of the constraint
*/
- lmm_constraint_t constraint_new(void* id, double bound_value);
+ Constraint* constraint_new(resource::Resource* id, double bound_value);
/**
* @brief Create a new Linear MaxMin variable
* @param id Data associated to the variable (e.g.: a network communication)
- * @param weight_value The weight of the variable (0.0 if not used)
+ * @param sharing_penalty The weight of the variable (0.0 if not used)
* @param bound The maximum value of the variable (-1.0 if no maximum value)
- * @param number_of_constraints The maximum number of constraint to associate to the variable
+ * @param number_of_constraints The maximum number of constraints to associate to the variable
*/
- lmm_variable_t variable_new(simgrid::surf::Action * id, double weight_value, double bound, int number_of_constraints);
+ Variable* variable_new(resource::Action* id, double sharing_penalty, double bound = -1.0,
+ size_t number_of_constraints = 1);
/**
* @brief Free a variable
* @param var The variable to free
*/
- void variable_free(lmm_variable_t var);
+ void variable_free(Variable * var);
+
+ /** @brief Free all variables */
+ void variable_free_all();
/**
* @brief Associate a variable to a constraint with a coefficient
* @param var A variable
* @param value The coefficient associated to the variable in the constraint
*/
- void expand(lmm_constraint_t cnst, lmm_variable_t var, double value);
+ void expand(Constraint * cnst, Variable * var, double value);
/**
* @brief Add value to the coefficient between a constraint and a variable or create one
* @param var A variable
* @param value The value to add to the coefficient associated to the variable in the constraint
*/
- void expand_add(lmm_constraint_t cnst, lmm_variable_t var, double value);
+ void expand_add(Constraint * cnst, Variable * var, double value);
- /**
- * @brief Update the bound of a variable
- * @param var A constraint
- * @param bound The new bound
- */
- void update_variable_bound(lmm_variable_t var, double bound);
+ /** @brief Update the bound of a variable */
+ void update_variable_bound(Variable * var, double bound);
- /**
- * @brief Update the weight of a variable
- * @param var A variable
- * @param weight The new weight of the variable
- */
- void update_variable_weight(lmm_variable_t var, double weight);
+ /** @brief Update the sharing penalty of a variable */
+ void update_variable_penalty(Variable* var, double penalty);
- /**
- * @brief Update a constraint bound
- * @param cnst A constraint
- * @param bound The new bound of the consrtaint
- */
- void update_constraint_bound(lmm_constraint_t cnst, double bound);
+ /** @brief Update a constraint bound */
+ void update_constraint_bound(Constraint * cnst, double bound);
- /**
- * @brief [brief description]
- * @param cnst A constraint
- * @return [description]
- */
- int constraint_used(lmm_constraint_t cnst) { return cnst->active_constraint_set_hook.is_linked(); }
+ int constraint_used(Constraint* cnst) { return cnst->active_constraint_set_hook_.is_linked(); }
/** @brief Print the lmm system */
void print() const;
/** @brief Solve the lmm system */
- void solve();
+ void lmm_solve();
+
+ /** @brief Solve the lmm system. May be specialized in subclasses. */
+ virtual void solve() { lmm_solve(); }
private:
static void* variable_mallocator_new_f();
static void variable_mallocator_free_f(void* var);
- void var_free(lmm_variable_t var);
- void cnst_free(lmm_constraint_t cnst);
- lmm_variable_t extract_variable()
+ void var_free(Variable * var);
+ void cnst_free(Constraint * cnst);
+ Variable* extract_variable()
{
if (variable_set.empty())
return nullptr;
- lmm_variable_t res = &variable_set.front();
+ Variable* res = &variable_set.front();
variable_set.pop_front();
return res;
}
- lmm_constraint_t extract_constraint()
+ Constraint* extract_constraint()
{
if (constraint_set.empty())
return nullptr;
- lmm_constraint_t res = &constraint_set.front();
+ Constraint* res = &constraint_set.front();
constraint_set.pop_front();
return res;
}
- void insert_constraint(lmm_constraint_t cnst) { constraint_set.push_back(*cnst); }
- void remove_variable(lmm_variable_t var)
+ void insert_constraint(Constraint * cnst) { constraint_set.push_back(*cnst); }
+ void remove_variable(Variable * var)
{
- if (var->variable_set_hook.is_linked())
- variable_set.erase(variable_set.iterator_to(*var));
- if (var->saturated_variable_set_hook.is_linked())
- saturated_variable_set.erase(saturated_variable_set.iterator_to(*var));
+ if (var->variable_set_hook_.is_linked())
+ simgrid::xbt::intrusive_erase(variable_set, *var);
+ if (var->saturated_variable_set_hook_.is_linked())
+ simgrid::xbt::intrusive_erase(saturated_variable_set, *var);
}
- void make_constraint_active(lmm_constraint_t cnst)
+ void make_constraint_active(Constraint * cnst)
{
- if (not cnst->active_constraint_set_hook.is_linked())
+ if (not cnst->active_constraint_set_hook_.is_linked())
active_constraint_set.push_back(*cnst);
}
- void make_constraint_inactive(lmm_constraint_t cnst)
+ void make_constraint_inactive(Constraint * cnst)
{
- if (cnst->active_constraint_set_hook.is_linked())
- active_constraint_set.erase(active_constraint_set.iterator_to(*cnst));
- if (cnst->modified_constraint_set_hook.is_linked())
- modified_constraint_set.erase(modified_constraint_set.iterator_to(*cnst));
+ if (cnst->active_constraint_set_hook_.is_linked())
+ simgrid::xbt::intrusive_erase(active_constraint_set, *cnst);
+ if (cnst->modified_constraint_set_hook_.is_linked())
+ simgrid::xbt::intrusive_erase(modified_constraint_set, *cnst);
}
- void enable_var(lmm_variable_t var);
- void disable_var(lmm_variable_t var);
- void on_disabled_var(lmm_constraint_t cnstr);
+ void enable_var(Variable * var);
+ void disable_var(Variable * var);
+ void on_disabled_var(Constraint * cnstr);
/**
* @brief Update the value of element linking the constraint and the variable
* @param var A variable
* @param value The new value
*/
- void update(lmm_constraint_t cnst, lmm_variable_t var, double value);
+ void update(Constraint * cnst, Variable * var, double value);
- void update_modified_set(lmm_constraint_t cnst);
- void update_modified_set_rec(lmm_constraint_t cnst);
+ void update_modified_set(Constraint * cnst);
+ void update_modified_set_rec(Constraint * cnst);
/** @brief Remove all constraints of the modified_constraint_set. */
void remove_all_modified_set();
void check_concurrency() const;
- template <class CnstList> void solve(CnstList& cnst_list);
+ template <class CnstList> void lmm_solve(CnstList& cnst_list);
+
public:
- bool modified;
- boost::intrusive::list<s_lmm_variable_t,
- boost::intrusive::member_hook<s_lmm_variable_t, boost::intrusive::list_member_hook<>,
- &s_lmm_variable_t::variable_set_hook>>
+ bool modified_ = false;
+ boost::intrusive::list<Variable, boost::intrusive::member_hook<Variable, boost::intrusive::list_member_hook<>,
+ &Variable::variable_set_hook_>>
variable_set;
- boost::intrusive::list<s_lmm_constraint_t,
- boost::intrusive::member_hook<s_lmm_constraint_t, boost::intrusive::list_member_hook<>,
- &s_lmm_constraint_t::active_constraint_set_hook>>
+ boost::intrusive::list<Constraint, boost::intrusive::member_hook<Constraint, boost::intrusive::list_member_hook<>,
+ &Constraint::active_constraint_set_hook_>>
active_constraint_set;
- boost::intrusive::list<s_lmm_variable_t,
- boost::intrusive::member_hook<s_lmm_variable_t, boost::intrusive::list_member_hook<>,
- &s_lmm_variable_t::saturated_variable_set_hook>>
+ boost::intrusive::list<Variable, boost::intrusive::member_hook<Variable, boost::intrusive::list_member_hook<>,
+ &Variable::saturated_variable_set_hook_>>
saturated_variable_set;
- boost::intrusive::list<s_lmm_constraint_t,
- boost::intrusive::member_hook<s_lmm_constraint_t, boost::intrusive::list_member_hook<>,
- &s_lmm_constraint_t::saturated_constraint_set_hook>>
+ boost::intrusive::list<Constraint, boost::intrusive::member_hook<Constraint, boost::intrusive::list_member_hook<>,
+ &Constraint::saturated_constraint_set_hook_>>
saturated_constraint_set;
- simgrid::surf::ActionLmmListPtr keep_track;
-
- void (*solve_fun)(lmm_system_t self);
+ resource::Action::ModifiedSet* modified_set_ = nullptr;
private:
+
+ typedef std::vector<int> dyn_light_t;
+
+ //Data used in lmm::solve
+ ConstraintLight* cnst_light_tab;
+ unsigned int cnst_light_max_size;
+ dyn_light_t saturated_constraints;
+
bool selective_update_active; /* flag to update partially the system only selecting changed portions */
- unsigned visited_counter; /* used by lmm_update_modified_set and lmm_remove_modified_set to cleverly (un-)flag the
- * constraints (more details in these functions) */
- boost::intrusive::list<s_lmm_constraint_t,
- boost::intrusive::member_hook<s_lmm_constraint_t, boost::intrusive::list_member_hook<>,
- &s_lmm_constraint_t::constraint_set_hook>>
+ unsigned visited_counter_ = 1; /* used by System::update_modified_set() and System::remove_all_modified_set() to
+ * cleverly (un-)flag the constraints (more details in these functions) */
+ boost::intrusive::list<Constraint, boost::intrusive::member_hook<Constraint, boost::intrusive::list_member_hook<>,
+ &Constraint::constraint_set_hook_>>
constraint_set;
- boost::intrusive::list<s_lmm_constraint_t,
- boost::intrusive::member_hook<s_lmm_constraint_t, boost::intrusive::list_member_hook<>,
- &s_lmm_constraint_t::modified_constraint_set_hook>>
+ boost::intrusive::list<Constraint, boost::intrusive::member_hook<Constraint, boost::intrusive::list_member_hook<>,
+ &Constraint::modified_constraint_set_hook_>>
modified_constraint_set;
- xbt_mallocator_t variable_mallocator;
+ xbt_mallocator_t variable_mallocator_ =
+ xbt_mallocator_new(65536, System::variable_mallocator_new_f, System::variable_mallocator_free_f, nullptr);
+};
+
+class XBT_PUBLIC FairBottleneck : public System {
+public:
+ explicit FairBottleneck(bool selective_update) : System(selective_update) {}
+ void solve() final { bottleneck_solve(); }
+
+private:
+ void bottleneck_solve();
};
-extern XBT_PRIVATE double (*func_f_def)(const s_lmm_variable_t&, double);
-extern XBT_PRIVATE double (*func_fp_def)(const s_lmm_variable_t&, double);
-extern XBT_PRIVATE double (*func_fpi_def)(const s_lmm_variable_t&, double);
+XBT_PUBLIC System* make_new_maxmin_system(bool selective_update);
+XBT_PUBLIC System* make_new_fair_bottleneck_system(bool selective_update);
/** @} */
}