-/* Copyright (c) 2004-2014. The SimGrid Team.
- * All rights reserved. */
+/* Copyright (c) 2004-2017. 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_PRIVATE_H
-#define _SURF_MAXMIN_PRIVATE_H
+#ifndef SURF_MAXMIN_PRIVATE_H
+#define SURF_MAXMIN_PRIVATE_H
-#include <xbt/base.h>
-
-#include "surf/maxmin.h"
-#include "xbt/swag.h"
-#include "xbt/mallocator.h"
+#include "surf/maxmin.hpp"
#include "surf_interface.hpp"
+#include "xbt/mallocator.h"
+#include "xbt/swag.h"
+
+#include <vector>
/** @ingroup SURF_lmm
* @brief LMM element
* Elements can be seen as glue between constraint objects and variable objects.
* Basically, each variable will have a set of elements, one for each constraint where it is involved.
- * Then, it is used to list all variables involved in constraint through constraint's element_set lists, or vice-versa list all constraints for a given variable.
+ * 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.
*/
-typedef struct lmm_element {
+struct s_lmm_element_t {
/* hookup to constraint */
- s_xbt_swag_hookup_t element_set_hookup;
+ s_xbt_swag_hookup_t enabled_element_set_hookup;
+ s_xbt_swag_hookup_t disabled_element_set_hookup;
s_xbt_swag_hookup_t active_element_set_hookup;
lmm_constraint_t constraint;
lmm_variable_t variable;
- double value;
-} s_lmm_element_t;
-#define make_elem_active(elem) xbt_swag_insert_at_head(elem,&(elem->constraint->active_element_set))
-#define make_elem_inactive(elem) xbt_swag_remove(elem,&(elem->constraint->active_element_set))
-typedef struct lmm_constraint_light {
+ // consumption_weight: impact of 1 byte or flop of your application onto the resource (in byte or flop)
+ // - if CPU, then probably 1.
+ // - If network, then 1 in forward direction and 0.05 backward for the ACKs
+ double consumption_weight;
+};
+#define make_elem_active(elem) xbt_swag_insert_at_head((elem), &((elem)->constraint->active_element_set))
+#define make_elem_inactive(elem) xbt_swag_remove((elem), &((elem)->constraint->active_element_set))
+
+struct s_lmm_constraint_light_t {
double remaining_over_usage;
lmm_constraint_t cnst;
-} s_lmm_constraint_light_t;
+};
/** @ingroup SURF_lmm
* @brief LMM constraint
- * Each constraint contains several partially overlapping logical sets of elements:
+ * Each constraint contains several partially overlapping logical sets of elements:
* \li Disabled elements which variable's weight is zero. This variables are not at all processed by LMM, but eventually 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.
- *
- * Also note that we maintain element_set such that all enabled elements (i.e. var->weight>0) come before disabled elements.
+ * \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.
+ *
*/
-typedef struct lmm_constraint {
+struct s_lmm_constraint_t {
/* hookup to system */
s_xbt_swag_hookup_t constraint_set_hookup;
s_xbt_swag_hookup_t active_constraint_set_hookup;
s_xbt_swag_hookup_t modified_constraint_set_hookup;
s_xbt_swag_hookup_t saturated_constraint_set_hookup;
- //TODO we could split element_set in, say, enabled_element_set and disabled_element_set depending on var->weight
- //Could make code more readable and should not pose implementation issues (only lmm_print does not stop at the end of enabled elements
- s_xbt_swag_t element_set; /* a list of lmm_element_t */
+ s_xbt_swag_t enabled_element_set; /* a list of lmm_element_t */
+ s_xbt_swag_t disabled_element_set; /* a list of lmm_element_t */
s_xbt_swag_t active_element_set; /* a list of lmm_element_t */
double remaining;
double usage;
double bound;
int concurrency_limit; /* The maximum number of variables that may be enabled at any time (stage variables if necessary) */
- //TODO MARTIN Check maximum value across resources at the end of simulation and give a warning is more than e.g. 500
+ //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 sharing_policy; /* see @e_surf_link_sharing_policy_t (0: FATPIPE, 1: SHARED, 2: FULLDUPLEX) */
void *id;
int id_int;
double lambda;
double new_lambda;
lmm_constraint_light_t cnst_light;
-} s_lmm_constraint_t;
+};
/** @ingroup SURF_lmm
* @brief LMM variable
- *
+ *
* 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
*/
-typedef struct lmm_variable {
+struct s_lmm_variable_t {
/* hookup to system */
s_xbt_swag_hookup_t variable_set_hookup;
s_xbt_swag_hookup_t saturated_variable_set_hookup;
- s_lmm_element_t *cnsts;
- int cnsts_size;
- int cnsts_number;
- double weight; /* weight > 0 means variable is considered by LMM, weight == 0 means variable is not considered by LMM*/
+ std::vector<s_lmm_element_t> cnsts;
+
+ // sharing_weight: 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 */
- void *id;
+ 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) (struct lmm_variable * var, double x); /* (f) */
- double (*func_fp) (struct lmm_variable * var, double x); /* (f') */
- double (*func_fpi) (struct lmm_variable * var, double x); /* (f')^{-1} */
+ double (*func_f)(s_lmm_variable_t* var, double x); /* (f) */
+ double (*func_fp)(s_lmm_variable_t* var, double x); /* (f') */
+ double (*func_fpi)(s_lmm_variable_t* var, double x); /* (f')^{-1} */
/* \end{For Lagrange only} */
-} s_lmm_variable_t;
+};
/** @ingroup SURF_lmm
* @brief LMM system
*/
-typedef struct lmm_system {
+class s_lmm_system_t {
+public:
+ /**
+ * @brief Create a new Linear MaxMim system
+ * @param selective_update whether we should do lazy updates
+ */
+ s_lmm_system_t(bool selective_update);
+ /** @brief Free an existing Linear MaxMin system */
+ ~s_lmm_system_t();
+
+ /**
+ * @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);
+
+ /**
+ * @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 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
+ */
+ lmm_variable_t variable_new(simgrid::surf::Action* id, double weight_value, double bound, int number_of_constraints);
+
+ /**
+ * @brief Free a variable
+ * @param var The variable to free
+ */
+ void variable_free(lmm_variable_t var);
+
+ /**
+ * @brief Associate a variable to a constraint with a coefficient
+ * @param cnst A constraint
+ * @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);
+
+ /**
+ * @brief Add value to the coefficient between a constraint and a variable or create one
+ * @param cnst A constraint
+ * @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);
+
+ /**
+ * @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 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 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 [brief description]
+ * @param cnst A constraint
+ * @return [description]
+ */
+ int constraint_used(lmm_constraint_t cnst) { return xbt_swag_belongs(cnst, &active_constraint_set); }
+
+ /** @brief Print the lmm system */
+ void print();
+
+ /** @brief Solve the lmm system */
+ void 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() { return static_cast<lmm_variable_t>(xbt_swag_extract(&variable_set)); }
+ lmm_constraint_t extract_constraint() { return static_cast<lmm_constraint_t>(xbt_swag_extract(&constraint_set)); }
+ void insert_constraint(lmm_constraint_t cnst) { xbt_swag_insert(cnst, &constraint_set); }
+ void remove_variable(lmm_variable_t var)
+ {
+ xbt_swag_remove(var, &variable_set);
+ xbt_swag_remove(var, &saturated_variable_set);
+ }
+ void remove_constraint(lmm_constraint_t cnst) // FIXME: unused
+ {
+ xbt_swag_remove(cnst, &constraint_set);
+ xbt_swag_remove(cnst, &saturated_constraint_set);
+ }
+ void make_constraint_active(lmm_constraint_t cnst) { xbt_swag_insert(cnst, &active_constraint_set); }
+ void make_constraint_inactive(lmm_constraint_t cnst)
+ {
+ xbt_swag_remove(cnst, &active_constraint_set);
+ xbt_swag_remove(cnst, &modified_constraint_set);
+ }
+
+ void enable_var(lmm_variable_t var);
+ void disable_var(lmm_variable_t var);
+ void on_disabled_var(lmm_constraint_t cnstr);
+
+ /**
+ * @brief Update the value of element linking the constraint and the variable
+ * @param cnst A constraint
+ * @param var A variable
+ * @param value The new value
+ */
+ void update(lmm_constraint_t cnst, lmm_variable_t var, double value);
+
+ void update_modified_set(lmm_constraint_t cnst);
+ void update_modified_set_rec(lmm_constraint_t cnst);
+
+ /** @brief Remove all constraints of the modified_constraint_set. */
+ void remove_all_modified_set();
+ void check_concurrency();
+
+public:
int modified;
- int 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)*/
s_xbt_swag_t variable_set; /* a list of lmm_variable_t */
- s_xbt_swag_t constraint_set; /* a list of lmm_constraint_t */
-
s_xbt_swag_t active_constraint_set; /* a list of lmm_constraint_t */
- s_xbt_swag_t modified_constraint_set; /* a list of modified lmm_constraint_t */
-
s_xbt_swag_t saturated_variable_set; /* a list of lmm_variable_t */
s_xbt_swag_t saturated_constraint_set; /* a list of lmm_constraint_t_t */
simgrid::surf::ActionLmmListPtr keep_track;
- xbt_mallocator_t variable_mallocator;
-} s_lmm_system_t;
-
-#define extract_variable(sys) xbt_swag_extract(&(sys->variable_set))
-#define extract_constraint(sys) xbt_swag_extract(&(sys->constraint_set))
-#define insert_constraint(sys,cnst) xbt_swag_insert(cnst,&(sys->constraint_set))
-#define remove_variable(sys,var) do {xbt_swag_remove(var,&(sys->variable_set));\
- xbt_swag_remove(var,&(sys->saturated_variable_set));} while(0)
-#define remove_constraint(sys,cnst) do {xbt_swag_remove(cnst,&(sys->constraint_set));\
- xbt_swag_remove(cnst,&(sys->saturated_constraint_set));} while(0)
-#define make_constraint_active(sys,cnst) xbt_swag_insert(cnst,&(sys->active_constraint_set))
-#define make_constraint_inactive(sys,cnst) \
- do { xbt_swag_remove(cnst, &sys->active_constraint_set); \
- xbt_swag_remove(cnst, &sys->modified_constraint_set); } while (0)
+ void (*solve_fun)(lmm_system_t self);
-/** @ingroup SURF_lmm
- * @brief Print informations about a lmm system
- *
- * @param sys A lmm system
- */
-XBT_PRIVATE void lmm_print(lmm_system_t sys);
+private:
+ 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) */
+ s_xbt_swag_t constraint_set; /* a list of lmm_constraint_t */
+ s_xbt_swag_t modified_constraint_set; /* a list of modified lmm_constraint_t */
+ xbt_mallocator_t variable_mallocator;
+};
extern XBT_PRIVATE double (*func_f_def) (lmm_variable_t, double);
extern XBT_PRIVATE double (*func_fp_def) (lmm_variable_t, double);
extern XBT_PRIVATE double (*func_fpi_def) (lmm_variable_t, double);
-#endif /* _SURF_MAXMIN_PRIVATE_H */
-
-
+#endif /* SURF_MAXMIN_PRIVATE_H */