X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/07f07c110338b034abedccf6fdb2d0dcbf6c7f3e..6270ece7967b322385bbff766ee5f882ba1ef2a2:/src/include/surf/maxmin.h diff --git a/src/include/surf/maxmin.h b/src/include/surf/maxmin.h index 53a54d7ad4..18dcef51c5 100644 --- a/src/include/surf/maxmin.h +++ b/src/include/surf/maxmin.h @@ -1,4 +1,4 @@ -/* Copyright (c) 2004-2013. The SimGrid Team. +/* Copyright (c) 2004-2015. The SimGrid Team. * All rights reserved. */ /* This program is free software; you can redistribute it and/or modify it @@ -7,25 +7,58 @@ #ifndef _SURF_MAXMIN_H #define _SURF_MAXMIN_H -#include "portable.h" +#include "src/portable.h" #include "xbt/misc.h" +#include "xbt/asserts.h" #include "surf/datatypes.h" #include /** @addtogroup SURF_lmm * @details - * A linear maxmin solver to resolves inequations systems. - * - * A system is composed of variables, constraints and elements linking them. + * A linear maxmin solver to resolve inequations systems. + * + * Most SimGrid model rely on a "fluid/steady-state" modeling that + * simulate the sharing of resources between actions at relatively + * coarse-grain. Such sharing is generally done by solving a set of + * linear inequations. Let's take an example and assume we have the + * variables \f$x_1\f$, \f$x_2\f$, \f$x_3\f$, and \f$x_4\f$ . Let's + * say that \f$x_1\f$ and \f$x_2\f$ correspond to activities running + * and the same CPU \f$A\f$ whose capacity is \f$C_A\f$. In such a + * case, we need to enforce: + * + * \f[ x_1 + x_2 \leq C_A \f] + * + * Likewise, if \f$x_3\f$ (resp. \f$x_4\f$) corresponds to a network + * flow \f$F_3\f$ (resp. \f$F_4\f$) that goes through a set of links + * \f$L_1\f$ and \f$L_2\f$ (resp. \f$L_2\f$ and \f$L_3\f$), then we + * need to enforce: + * + * \f[ x_3 \leq C_{L_1} \f] + * \f[ x_3 + x_4 \leq C_{L_2} \f] + * \f[ x_4 \leq C_{L_3} \f] + * + * One could set every variable to 0 to make sure the constraints are + * satisfied but this would obviously not be very realistic. A + * possible objective is to try to maximize the minimum of the + * \f$x_i\f$ . This ensures that all the \f$x_i\f$ are positive and "as + * large as possible". + * + * This is called *max-min fairness* and is the most commonly used + * objective in SimGrid. Another possibility is to maximize + * \f$\sum_if(x_i)\f$, where \f$f\f$ is a strictly increasing concave + * function. + * * Constraint: * - bound (set) * - shared (set) * - usage (computed) + * * Variable: * - weight (set) * - bound (set) * - value (computed) + * * Element: * - value (set) * @@ -46,32 +79,41 @@ * var1.weight * var1.value * elem1.value + var2.weight * var2.value * elem2.value <= cons1.bound * var2.weight * var2.value * elem3.value + var3.weight * var3.value * elem4.value <= cons2.bound * - * where `var1.value`, `var2.value` and `var3.value` are the unknown values + * where `var1.value`, `var2.value` and `var3.value` are the unknown values. * - * if a constraint is not shared the sum is replace by a max + * If a constraint is not shared, the sum is replaced by a max. + * For example, a third non-shared constraint `cons3` and the associated elements `elem5` and `elem6` could write as: + * + * 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. + * For instance, for the network model, each link is associated + * to a constraint and each communication to a variable. * - * Its usefull for the sharing of resources for various models. - * For instance for the network model the link are associated - * to consrtaint and the communications to variables. */ -extern double sg_maxmin_precision; -#define MAXMIN_PRECISION sg_maxmin_precision -static XBT_INLINE void double_update(double *variable, double value) +XBT_PUBLIC_DATA(double) sg_maxmin_precision; +XBT_PUBLIC_DATA(double) sg_surf_precision; + +static XBT_INLINE void double_update(double *variable, double value, double precision) { + //printf("Updating %g -= %g +- %g\n",*variable,value,precision); + //xbt_assert(value==0 || value>precision); + //Check that precision is higher than the machine-dependent size of the mantissa. If not, brutal rounding may happen, and the precision mechanism is not active... + //xbt_assert(*variable< (2< MAXMIN_PRECISION); + return (value > precision); } -static XBT_INLINE int double_equals(double value1, double value2) +static XBT_INLINE int double_equals(double value1, double value2, double precision) { - return (fabs(value1 - value2) < MAXMIN_PRECISION); + return (fabs(value1 - value2) < precision); } SG_BEGIN_DECL() @@ -107,7 +149,7 @@ XBT_PUBLIC(lmm_constraint_t) lmm_constraint_new(lmm_system_t sys, void *id, * * @param cnst The constraint to share */ -void lmm_constraint_shared(lmm_constraint_t cnst); +XBT_PUBLIC(void) lmm_constraint_shared(lmm_constraint_t cnst); /** * @brief Check if a constraint is shared (shared by default) @@ -115,7 +157,7 @@ void lmm_constraint_shared(lmm_constraint_t cnst); * @param cnst The constraint to share * @return 1 if shared, 0 otherwise */ -int lmm_constraint_is_shared(lmm_constraint_t cnst); +XBT_PUBLIC(int) lmm_constraint_sharing_policy(lmm_constraint_t cnst); /** * @brief Free a constraint @@ -123,7 +165,7 @@ int lmm_constraint_is_shared(lmm_constraint_t cnst); * @param sys The system associated to the constraint * @param cnst The constraint to free */ -void lmm_constraint_free(lmm_system_t sys, lmm_constraint_t cnst); +XBT_PUBLIC(void) lmm_constraint_free(lmm_system_t sys, lmm_constraint_t cnst); /** * @brief Get the usage of the constraint after the last lmm solve @@ -131,7 +173,7 @@ void lmm_constraint_free(lmm_system_t sys, lmm_constraint_t cnst); * @param cnst A constraint * @return The usage of the constraint */ -double lmm_constraint_get_usage(lmm_constraint_t cnst); +XBT_PUBLIC(double) lmm_constraint_get_usage(lmm_constraint_t cnst); /** * @brief Create a new Linear MaxMin variable @@ -200,20 +242,9 @@ XBT_PUBLIC(void) lmm_expand(lmm_system_t sys, lmm_constraint_t cnst, * @param var A variable * @param value The value to add to the coefficient associated to the variable in the constraint */ -void lmm_expand_add(lmm_system_t sys, lmm_constraint_t cnst, +XBT_PUBLIC(void) lmm_expand_add(lmm_system_t sys, lmm_constraint_t cnst, lmm_variable_t var, double value); -/** - * @brief Change the value of the coefficient between a constraint and a variable - * - * @param sys A system - * @param cnst A constraint - * @param var A variable - * @param value The new value of the coefficient between a constraint and a variable - */ -void lmm_elem_set_value(lmm_system_t sys, lmm_constraint_t cnst, - lmm_variable_t var, double value); - /** * @brief Get the numth constraint associated to the variable * @@ -222,7 +253,7 @@ void lmm_elem_set_value(lmm_system_t sys, lmm_constraint_t cnst, * @param num The rank of constraint we want to get * @return The numth constraint */ -lmm_constraint_t lmm_get_cnst_from_var(lmm_system_t sys, +XBT_PUBLIC(lmm_constraint_t) lmm_get_cnst_from_var(lmm_system_t sys, lmm_variable_t var, int num); /** @@ -233,7 +264,7 @@ lmm_constraint_t lmm_get_cnst_from_var(lmm_system_t sys, * @param num The rank of constraint we want to get * @return The numth constraint */ -double lmm_get_cnst_weight_from_var(lmm_system_t sys, lmm_variable_t var, +XBT_PUBLIC(double) lmm_get_cnst_weight_from_var(lmm_system_t sys, lmm_variable_t var, int num); /** @@ -243,7 +274,7 @@ double lmm_get_cnst_weight_from_var(lmm_system_t sys, lmm_variable_t var, * @param var A variable * @return The number of constraint associated to the variable */ -int lmm_get_number_of_cnst_from_var(lmm_system_t sys, lmm_variable_t var); +XBT_PUBLIC(int) lmm_get_number_of_cnst_from_var(lmm_system_t sys, lmm_variable_t var); /** * @brief Get a var associated to a constraint @@ -254,17 +285,34 @@ int lmm_get_number_of_cnst_from_var(lmm_system_t sys, lmm_variable_t var); * @param elem A element of constraint of the constraint or NULL * @return A variable associated to a constraint */ -lmm_variable_t lmm_get_var_from_cnst(lmm_system_t sys, +XBT_PUBLIC(lmm_variable_t) lmm_get_var_from_cnst(lmm_system_t sys, lmm_constraint_t cnst, lmm_element_t * elem); +/** + * @brief Get a var associated to a constraint + * @details Get the first variable of the next variable of elem if elem is not NULL + * + * @param cnst A constraint + * @param elem A element of constraint of the constraint or NULL + * @param nextelem A element of constraint of the constraint or NULL, the one after elem + * @param numelem parameter representing the number of elements to go + * + * @return A variable associated to a constraint + */ +XBT_PUBLIC(lmm_variable_t) lmm_get_var_from_cnst_safe(lmm_system_t /*sys*/, + lmm_constraint_t cnst, + lmm_element_t * elem, + lmm_element_t * nextelem, + int * numelem); + /** * @brief Get the first active constraint of a system * * @param sys A system * @return The first active constraint */ -lmm_constraint_t lmm_get_first_active_constraint(lmm_system_t sys); +XBT_PUBLIC(lmm_constraint_t) lmm_get_first_active_constraint(lmm_system_t sys); /** * @brief Get the next active constraint of a constraint in a system @@ -274,7 +322,7 @@ lmm_constraint_t lmm_get_first_active_constraint(lmm_system_t sys); * * @return The next active constraint */ -lmm_constraint_t lmm_get_next_active_constraint(lmm_system_t sys, +XBT_PUBLIC(lmm_constraint_t) lmm_get_next_active_constraint(lmm_system_t sys, lmm_constraint_t cnst); #ifdef HAVE_LATENCY_BOUND_TRACKING @@ -287,15 +335,15 @@ XBT_PUBLIC(int) lmm_is_variable_limited_by_latency(lmm_variable_t var); * @param cnst A constraint * @return The data associated to the constraint */ -void *lmm_constraint_id(lmm_constraint_t cnst); +XBT_PUBLIC(void *) lmm_constraint_id(lmm_constraint_t cnst); /** * @brief Get the data associated to a variable * - * @param cnst A variable + * @param var A variable * @return The data associated to the variable */ -void *lmm_variable_id(lmm_variable_t var); +XBT_PUBLIC(void *) lmm_variable_id(lmm_variable_t var); /** * @brief Update the value of element linking the constraint and the variable @@ -305,7 +353,7 @@ void *lmm_variable_id(lmm_variable_t var); * @param var A variable * @param value The new value */ -void lmm_update(lmm_system_t sys, lmm_constraint_t cnst, +XBT_PUBLIC(void) lmm_update(lmm_system_t sys, lmm_constraint_t cnst, lmm_variable_t var, double value); /** @@ -315,14 +363,14 @@ void lmm_update(lmm_system_t sys, lmm_constraint_t cnst, * @param var A constraint * @param bound The new bound */ -void lmm_update_variable_bound(lmm_system_t sys, lmm_variable_t var, +XBT_PUBLIC(void) lmm_update_variable_bound(lmm_system_t sys, lmm_variable_t var, double bound); /** * @brief Update the weight of a variable * * @param sys A system - * @param var A variable + * @param var A variable * @param weight The new weight of the variable */ XBT_PUBLIC(void) lmm_update_variable_weight(lmm_system_t sys, @@ -335,7 +383,7 @@ XBT_PUBLIC(void) lmm_update_variable_weight(lmm_system_t sys, * @param var A variable * @return The weight of the variable */ -double lmm_get_variable_weight(lmm_variable_t var); +XBT_PUBLIC(double) lmm_get_variable_weight(lmm_variable_t var); /** * @brief Update a constraint bound @@ -355,7 +403,7 @@ XBT_PUBLIC(void) lmm_update_constraint_bound(lmm_system_t sys, * @param cnst A constraint * @return [description] */ -int lmm_constraint_used(lmm_system_t sys, lmm_constraint_t cnst); +XBT_PUBLIC(int) lmm_constraint_used(lmm_system_t sys, lmm_constraint_t cnst); /** * @brief Solve the lmm system