#include "xbt/sysdep.h"
#include "xbt/log.h"
+#include "xbt/strbuff.h"
#include "xbt/mallocator.h"
#include "maxmin_private.hpp"
#include <stdlib.h>
#include <stdio.h> /* sprintf */
#include <math.h>
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_maxmin, surf,
- "Logging specific to SURF (maxmin)");
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_maxmin, surf, "Logging specific to SURF (maxmin)");
typedef struct s_dyn_light {
int *data;
double sg_maxmin_precision = 0.00001;
double sg_surf_precision = 0.00001;
+int sg_concurrency_limit= 100;
-static void *lmm_variable_mallocator_new_f(void);
+static void *lmm_variable_mallocator_new_f();
static void lmm_variable_mallocator_free_f(void *var);
-#define lmm_variable_mallocator_reset_f ((void_f_pvoid_t)NULL)
-static void lmm_update_modified_set(lmm_system_t sys,
- lmm_constraint_t cnst);
+#define lmm_variable_mallocator_reset_f ((void_f_pvoid_t)nullptr)
+static void lmm_update_modified_set(lmm_system_t sys, lmm_constraint_t cnst);
static void lmm_remove_all_modified_set(lmm_system_t sys);
static int Global_debug_id = 1;
static int Global_const_debug_id = 1;
static void lmm_var_free(lmm_system_t sys, lmm_variable_t var);
-static XBT_INLINE void lmm_cnst_free(lmm_system_t sys,
- lmm_constraint_t cnst);
+static inline void lmm_cnst_free(lmm_system_t sys, lmm_constraint_t cnst);
static void lmm_on_disabled_var(lmm_system_t sys, lmm_constraint_t cnstr);
static void lmm_enable_var(lmm_system_t sys, lmm_variable_t var);
}
inline void lmm_increase_concurrency(lmm_element_t elem) {
-
elem->constraint->concurrency_current+= lmm_element_concurrency(elem);
lmm_constraint_t cnstr=elem->constraint;
-
+
if(cnstr->concurrency_current > cnstr->concurrency_maximum)
cnstr->concurrency_maximum= cnstr->concurrency_current;
- xbt_assert(cnstr->concurrency_limit<0 || cnstr->concurrency_current<=cnstr->concurrency_limit,"Concurrency limit overflow!");
+ xbt_assert(cnstr->concurrency_limit<0 || cnstr->concurrency_current<=cnstr->concurrency_limit,
+ "Concurrency limit overflow!");
}
lmm_system_t lmm_system_new(int selective_update)
{
- lmm_system_t l = NULL;
+ lmm_system_t l = nullptr;
s_lmm_variable_t var;
s_lmm_constraint_t cnst;
l->selective_update_active = selective_update;
l->visited_counter = 1;
- XBT_DEBUG("Setting selective_update_active flag to %d",
- l->selective_update_active);
+ XBT_DEBUG("Setting selective_update_active flag to %d", l->selective_update_active);
- xbt_swag_init(&(l->variable_set),
- xbt_swag_offset(var, variable_set_hookup));
- xbt_swag_init(&(l->constraint_set),
- xbt_swag_offset(cnst, constraint_set_hookup));
+ xbt_swag_init(&(l->variable_set), xbt_swag_offset(var, variable_set_hookup));
+ xbt_swag_init(&(l->constraint_set), xbt_swag_offset(cnst, constraint_set_hookup));
- xbt_swag_init(&(l->active_constraint_set),
- xbt_swag_offset(cnst, active_constraint_set_hookup));
+ xbt_swag_init(&(l->active_constraint_set), xbt_swag_offset(cnst, active_constraint_set_hookup));
- xbt_swag_init(&(l->modified_constraint_set),
- xbt_swag_offset(cnst, modified_constraint_set_hookup));
- xbt_swag_init(&(l->saturated_variable_set),
- xbt_swag_offset(var, saturated_variable_set_hookup));
- xbt_swag_init(&(l->saturated_constraint_set),
- xbt_swag_offset(cnst, saturated_constraint_set_hookup));
+ xbt_swag_init(&(l->modified_constraint_set), xbt_swag_offset(cnst, modified_constraint_set_hookup));
+ xbt_swag_init(&(l->saturated_variable_set), xbt_swag_offset(var, saturated_variable_set_hookup));
+ xbt_swag_init(&(l->saturated_constraint_set), xbt_swag_offset(cnst, saturated_constraint_set_hookup));
l->variable_mallocator = xbt_mallocator_new(65536,
lmm_variable_mallocator_new_f,
void lmm_system_free(lmm_system_t sys)
{
- lmm_variable_t var = NULL;
- lmm_constraint_t cnst = NULL;
+ lmm_variable_t var = nullptr;
+ lmm_constraint_t cnst = nullptr;
+
+ if (!sys)
+ return;
-
while ((var = (lmm_variable_t) extract_variable(sys))) {
- XBT_WARN
- ("Variable %p (%d) still in system when freing it: this may be a bug",
- var, var->id_int);
+ XBT_WARN("Variable %d still in system when freing it: this may be a bug", var->id_int);
lmm_var_free(sys, var);
}
-
while ((cnst = (lmm_constraint_t) extract_constraint(sys)))
lmm_cnst_free(sys, cnst);
free(sys);
}
-static XBT_INLINE void lmm_variable_remove(lmm_system_t sys, lmm_variable_t var)
+static inline void lmm_variable_remove(lmm_system_t sys, lmm_variable_t var)
{
int i;
int nelements;
-
- lmm_element_t elem = NULL;
-
+
+ lmm_element_t elem = nullptr;
+
XBT_IN("(sys=%p, var=%p)", sys, var);
sys->modified = 1;
- //TODOLATER Can do better than that by leaving only the variable in only one enabled_element_set, call lmm_update_modified_set, and then remove it..
+ //TODOLATER Can do better than that by leaving only the variable in only one enabled_element_set, call
+ //lmm_update_modified_set, and then remove it..
if(var->cnsts_number)
- lmm_update_modified_set(sys, var->cnsts[0].constraint);
+ lmm_update_modified_set(sys, var->cnsts[0].constraint);
for (i = 0; i < var->cnsts_number; i++) {
elem = &var->cnsts[i];
else
lmm_on_disabled_var(sys,elem->constraint);
}
-
+
//Check if we can enable new variables going through the constraints where var was.
- //Do it after removing all elements, so he first disabled variables get priority over those with smaller
- //requirement
+ //Do it after removing all elements, so he first disabled variables get priority over those with smaller requirement
for (i = 0; i < var->cnsts_number; i++) {
elem = &var->cnsts[i];
if(xbt_swag_size(&(elem->constraint->disabled_element_set)))
- lmm_on_disabled_var(sys,elem->constraint);
+ lmm_on_disabled_var(sys,elem->constraint);
}
-
+
var->cnsts_number = 0;
lmm_check_concurrency(sys);
-
+
XBT_OUT();
}
static void lmm_var_free(lmm_system_t sys, lmm_variable_t var)
{
-
lmm_variable_remove(sys, var);
xbt_mallocator_release(sys->variable_mallocator, var);
}
-static XBT_INLINE void lmm_cnst_free(lmm_system_t sys,
- lmm_constraint_t cnst)
+static inline void lmm_cnst_free(lmm_system_t sys, lmm_constraint_t cnst)
{
make_constraint_inactive(sys, cnst);
free(cnst);
}
-lmm_constraint_t lmm_constraint_new(lmm_system_t sys, void *id,
- double bound_value)
+lmm_constraint_t lmm_constraint_new(lmm_system_t sys, void *id, double bound_value)
{
- lmm_constraint_t cnst = NULL;
+ lmm_constraint_t cnst = nullptr;
s_lmm_element_t elem;
cnst = xbt_new0(s_lmm_constraint_t, 1);
cnst->id = id;
cnst->id_int = Global_const_debug_id++;
- xbt_swag_init(&(cnst->enabled_element_set),
- xbt_swag_offset(elem, enabled_element_set_hookup));
- xbt_swag_init(&(cnst->disabled_element_set),
- xbt_swag_offset(elem, disabled_element_set_hookup));
- xbt_swag_init(&(cnst->active_element_set),
- xbt_swag_offset(elem, active_element_set_hookup));
+ xbt_swag_init(&(cnst->enabled_element_set), xbt_swag_offset(elem, enabled_element_set_hookup));
+ xbt_swag_init(&(cnst->disabled_element_set), xbt_swag_offset(elem, disabled_element_set_hookup));
+ xbt_swag_init(&(cnst->active_element_set), xbt_swag_offset(elem, active_element_set_hookup));
cnst->bound = bound_value;
cnst->concurrency_maximum=0;
cnst->concurrency_current=0;
- //TODO MARTIN Maybe a configuration item for the default cap concurrency?
- cnst->concurrency_limit=100;
+ cnst->concurrency_limit=sg_concurrency_limit;
cnst->usage = 0;
cnst->sharing_policy = 1; /* FIXME: don't hardcode the value */
insert_constraint(sys, cnst);
void lmm_constraint_concurrency_limit_set(lmm_constraint_t cnst, int concurrency_limit)
{
- xbt_assert(concurrency_limit<0 || cnst->concurrency_maximum<=concurrency_limit,"New concurrency limit should be larger than observed concurrency maximum. Maybe you want to call lmm_constraint_concurrency_maximum_reset() to reset the maximum?");
+ xbt_assert(concurrency_limit<0 || cnst->concurrency_maximum<=concurrency_limit,
+ "New concurrency limit should be larger than observed concurrency maximum. Maybe you want to call"
+ " lmm_constraint_concurrency_maximum_reset() to reset the maximum?");
cnst->concurrency_limit = concurrency_limit;
}
int lmm_constraint_concurrency_maximum_get(lmm_constraint_t cnst)
{
- xbt_assert(cnst->concurrency_limit<0 || cnst->concurrency_maximum<=cnst->concurrency_limit,"Very bad: maximum observed concurrency is higher than limit. This is a bug of SURF, please report it.");
+ xbt_assert(cnst->concurrency_limit<0 || cnst->concurrency_maximum<=cnst->concurrency_limit,
+ "Very bad: maximum observed concurrency is higher than limit. This is a bug of SURF, please report it.");
return cnst->concurrency_maximum;
}
/* @brief Remove a constraint
* Currently this is dead code, but it is exposed in maxmin.h
* Apparently, this call was designed assuming that constraint would no more have elements in it.
- * If this is not the case, assertion will fail, and you need to add calls e.g. to lmm_shrink before effectively removing it.
+ * If not the case, assertion will fail, and you need to add calls e.g. to lmm_shrink before effectively removing it.
*/
-XBT_INLINE void lmm_constraint_free(lmm_system_t sys,
- lmm_constraint_t cnst)
+inline void lmm_constraint_free(lmm_system_t sys,lmm_constraint_t cnst)
{
xbt_assert(!xbt_swag_size(&(cnst->active_element_set)),"Removing constraint but it still has active elements");
xbt_assert(!xbt_swag_size(&(cnst->enabled_element_set)),"Removing constraint but it still has enabled elements");
lmm_cnst_free(sys, cnst);
}
-static void *lmm_variable_mallocator_new_f(void)
+static void *lmm_variable_mallocator_new_f()
{
lmm_variable_t var = xbt_new(s_lmm_variable_t, 1);
- var->cnsts = NULL; /* will be created by realloc */
+ var->cnsts = nullptr; /* will be created by realloc */
return var;
}
xbt_free(var);
}
-lmm_variable_t lmm_variable_new(lmm_system_t sys, void *id,
- double weight,
- double bound, int number_of_constraints)
+lmm_variable_t lmm_variable_new(lmm_system_t sys, void *id, double weight, double bound, int number_of_constraints)
{
- lmm_variable_t var = NULL;
+ lmm_variable_t var = nullptr;
int i;
- XBT_IN("(sys=%p, id=%p, weight=%f, bound=%f, num_cons =%d)",
- sys, id, weight, bound, number_of_constraints);
+ XBT_IN("(sys=%p, id=%p, weight=%f, bound=%f, num_cons =%d)", sys, id, weight, bound, number_of_constraints);
var = (lmm_variable_t) xbt_mallocator_get(sys->variable_mallocator);
var->id = id;
var->id_int = Global_debug_id++;
var->cnsts = (s_lmm_element_t *) xbt_realloc(var->cnsts, number_of_constraints * sizeof(s_lmm_element_t));
for (i = 0; i < number_of_constraints; i++) {
- var->cnsts[i].enabled_element_set_hookup.next = NULL;
- var->cnsts[i].enabled_element_set_hookup.prev = NULL;
- var->cnsts[i].disabled_element_set_hookup.next = NULL;
- var->cnsts[i].disabled_element_set_hookup.prev = NULL;
- var->cnsts[i].active_element_set_hookup.next = NULL;
- var->cnsts[i].active_element_set_hookup.prev = NULL;
- var->cnsts[i].constraint = NULL;
- var->cnsts[i].variable = NULL;
+ var->cnsts[i].enabled_element_set_hookup.next = nullptr;
+ var->cnsts[i].enabled_element_set_hookup.prev = nullptr;
+ var->cnsts[i].disabled_element_set_hookup.next = nullptr;
+ var->cnsts[i].disabled_element_set_hookup.prev = nullptr;
+ var->cnsts[i].active_element_set_hookup.next = nullptr;
+ var->cnsts[i].active_element_set_hookup.prev = nullptr;
+ var->cnsts[i].constraint = nullptr;
+ var->cnsts[i].variable = nullptr;
var->cnsts[i].value = 0.0;
}
var->cnsts_size = number_of_constraints;
var->func_fp = func_fp_def;
var->func_fpi = func_fpi_def;
- var->variable_set_hookup.next = NULL;
- var->variable_set_hookup.prev = NULL;
- var->saturated_variable_set_hookup.next = NULL;
- var->saturated_variable_set_hookup.prev = NULL;
+ var->variable_set_hookup.next = nullptr;
+ var->variable_set_hookup.prev = nullptr;
+ var->saturated_variable_set_hookup.next = nullptr;
+ var->saturated_variable_set_hookup.prev = nullptr;
if (weight)
xbt_swag_insert_at_head(var, &(sys->variable_set));
return (var->value);
}
-
void lmm_variable_concurrency_share_set(lmm_variable_t var, short int concurrency_share)
{
var->concurrency_share=concurrency_share;
return (var->bound);
}
-void lmm_shrink(lmm_system_t sys, lmm_constraint_t cnst,
- lmm_variable_t var)
+void lmm_shrink(lmm_system_t sys, lmm_constraint_t cnst, lmm_variable_t var)
{
- lmm_element_t elem = NULL;
+ lmm_element_t elem = nullptr;
int found = 0;
int i;
sys->modified = 1;
- XBT_DEBUG("remove elem(value %f, cnst %p, var %p) in var %p",
- elem->value, elem->constraint, elem->variable, var);
+ XBT_DEBUG("remove elem(value %f, cnst %p, var %p) in var %p", elem->value, elem->constraint, elem->variable, var);
/* We are going to change the constraint object and the variable object.
- * Propagate this change to other objects. Calling here before removing variable from not active elements (inactive elements are not visited)
+ * Propagate this change to other objects. Calling here before removing variable from not active elements
+ * (inactive elements are not visited)
*/
lmm_update_modified_set(sys, cnst);
//Useful in case var was already removed from the constraint
- lmm_update_modified_set(sys, var->cnsts[0].constraint); // will look up enabled_element_set of this constraint, and then each var in the enabled_element_set, and each var->cnsts[i].
+ lmm_update_modified_set(sys, var->cnsts[0].constraint); // will look up enabled_element_set of this constraint, and
+ //then each var in the enabled_element_set, and each var->cnsts[i].
if(xbt_swag_remove(elem, &(elem->constraint->enabled_element_set)))
lmm_decrease_concurrency(elem);
xbt_swag_remove(elem, &(elem->constraint->active_element_set));
- elem->constraint = NULL;
- elem->variable = NULL;
+ elem->constraint = nullptr;
+ elem->variable = nullptr;
elem->value = 0;
var->cnsts_number -= 1;
lmm_check_concurrency(sys);
}
-void lmm_expand(lmm_system_t sys, lmm_constraint_t cnst,
- lmm_variable_t var, double value)
+void lmm_expand(lmm_system_t sys, lmm_constraint_t cnst, lmm_variable_t var, double value)
{
- lmm_element_t elem = NULL;
+ lmm_element_t elem = nullptr;
double weight;
int i,current_share;
-
-
+
sys->modified = 1;
//Check if this variable already has an active element in this constraint
current_share=0;
if(var->concurrency_share>1){
for( i=0; i<var->cnsts_number;i++){
- if(var->cnsts[i].constraint==cnst && xbt_swag_belongs(&var->cnsts[i],&(var->cnsts[i].constraint->enabled_element_set)))
- current_share+=lmm_element_concurrency(&(var->cnsts[i]));
+ if(var->cnsts[i].constraint==cnst &&
+ xbt_swag_belongs(&var->cnsts[i],&(var->cnsts[i].constraint->enabled_element_set)))
+ current_share+=lmm_element_concurrency(&(var->cnsts[i]));
}
}
//Check if we need to disable the variable
- if(var->weight>0 && var->concurrency_share-current_share>lmm_concurrency_slack(cnst))
- {
+ if(var->weight>0 && var->concurrency_share-current_share>lmm_concurrency_slack(cnst)) {
weight=var->weight;
lmm_disable_var(sys,var);
for (i = 0; i < var->cnsts_number; i++)
elem->constraint = cnst;
elem->variable = var;
-
if (var->weight){
xbt_swag_insert_at_head(elem, &(elem->constraint->enabled_element_set));
lmm_increase_concurrency(elem);
- }
- else
+ } else
xbt_swag_insert_at_tail(elem, &(elem->constraint->disabled_element_set));
if(!sys->selective_update_active) {
lmm_check_concurrency(sys);
}
-void lmm_expand_add(lmm_system_t sys, lmm_constraint_t cnst,
- lmm_variable_t var, double value)
+void lmm_expand_add(lmm_system_t sys, lmm_constraint_t cnst, lmm_variable_t var, double value)
{
int i,j;
double weight;
sys->modified = 1;
-
+
lmm_check_concurrency(sys);
- //BEWARE: In case you have multiple elements in one constraint, this will always
- //add value to the first element.
+ //BEWARE: In case you have multiple elements in one constraint, this will always add value to the first element.
for (i = 0; i < var->cnsts_number; i++)
if (var->cnsts[i].constraint == cnst)
break;
//We need to check that increasing value of the element does not cross the concurrency limit
if (var->weight){
if(lmm_concurrency_slack(cnst)<lmm_element_concurrency(&var->cnsts[i])){
- weight=var->weight;
- lmm_disable_var(sys,var);
- for (j = 0; j < var->cnsts_number; j++)
- lmm_on_disabled_var(sys,var->cnsts[j].constraint);
- var->staged_weight=weight;
- xbt_assert(!var->weight);
+ weight=var->weight;
+ lmm_disable_var(sys,var);
+ for (j = 0; j < var->cnsts_number; j++)
+ lmm_on_disabled_var(sys,var->cnsts[j].constraint);
+ var->staged_weight=weight;
+ xbt_assert(!var->weight);
}
lmm_increase_concurrency(&var->cnsts[i]);
}
-
lmm_update_modified_set(sys, cnst);
} else
lmm_expand(sys, cnst, var, value);
lmm_check_concurrency(sys);
}
-lmm_constraint_t lmm_get_cnst_from_var(lmm_system_t /*sys*/,
- lmm_variable_t var,
- int num)
+lmm_constraint_t lmm_get_cnst_from_var(lmm_system_t /*sys*/, lmm_variable_t var, int num)
{
if (num < var->cnsts_number)
return (var->cnsts[num].constraint);
else
- return NULL;
+ return nullptr;
}
-double lmm_get_cnst_weight_from_var(lmm_system_t /*sys*/,
- lmm_variable_t var,
- int num)
+double lmm_get_cnst_weight_from_var(lmm_system_t /*sys*/, lmm_variable_t var, int num)
{
if (num < var->cnsts_number)
return (var->cnsts[num].value);
return 0.0;
}
-int lmm_get_number_of_cnst_from_var(lmm_system_t /*sys*/,
- lmm_variable_t var)
+int lmm_get_number_of_cnst_from_var(lmm_system_t /*sys*/, lmm_variable_t var)
{
return (var->cnsts_number);
}
-lmm_variable_t lmm_get_var_from_cnst(lmm_system_t /*sys*/,
- lmm_constraint_t cnst,
- lmm_element_t * elem)
+lmm_variable_t lmm_get_var_from_cnst(lmm_system_t /*sys*/, lmm_constraint_t cnst, lmm_element_t * elem)
{
-
if (!(*elem)) {
- //That is the first call, pick the first element among enabled_element_set (or disabled_element_set if enabled_element_set is empty)
+ // That is the first call, pick the first element among enabled_element_set (or disabled_element_set if
+ // enabled_element_set is empty)
*elem = (lmm_element_t) xbt_swag_getFirst(&(cnst->enabled_element_set));
if (!(*elem))
*elem = (lmm_element_t) xbt_swag_getFirst(&(cnst->disabled_element_set));
- } else {
+ } else {
//elem is not null, so we carry on
if(xbt_swag_belongs(*elem,&(cnst->enabled_element_set))){
//Look at enabled_element_set, and jump to disabled_element_set when finished
*elem = (lmm_element_t) xbt_swag_getNext(*elem, cnst->enabled_element_set.offset);
if (!(*elem))
- *elem = (lmm_element_t) xbt_swag_getFirst(&(cnst->disabled_element_set));
+ *elem = (lmm_element_t) xbt_swag_getFirst(&(cnst->disabled_element_set));
} else {
*elem = (lmm_element_t) xbt_swag_getNext(*elem, cnst->disabled_element_set.offset);
}
if (*elem)
return (*elem)->variable;
else
- return NULL;
+ return nullptr;
}
//if we modify the swag between calls, normal version may loop forever
//this safe version ensures that we browse the swag elements only once
-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)
+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)
{
if (!(*elem)){
*elem = (lmm_element_t) xbt_swag_getFirst(&(cnst->enabled_element_set));
if(*numelem>0){
(*numelem) --;
}else
- return NULL;
+ return nullptr;
}
if (*elem){
//elem is not null, so we carry on
//Look at enabled_element_set, and jump to disabled_element_set when finished
*nextelem = (lmm_element_t) xbt_swag_getNext(*elem, cnst->enabled_element_set.offset);
if (!(*nextelem))
- *nextelem = (lmm_element_t) xbt_swag_getFirst(&(cnst->disabled_element_set));
+ *nextelem = (lmm_element_t) xbt_swag_getFirst(&(cnst->disabled_element_set));
} else {
*nextelem = (lmm_element_t) xbt_swag_getNext(*elem, cnst->disabled_element_set.offset);
}
return (*elem)->variable;
}else
- return NULL;
+ return nullptr;
}
void *lmm_constraint_id(lmm_constraint_t cnst)
return var->id;
}
-static XBT_INLINE void saturated_constraint_set_update(double usage,
- int cnst_light_num,
- dyn_light_t saturated_constraint_set,
- double *min_usage)
+static inline void saturated_constraint_set_update(double usage, int cnst_light_num,
+ dyn_light_t saturated_constraint_set, double *min_usage)
{
xbt_assert(usage > 0,"Impossible");
} else if (*min_usage == usage) {
if(saturated_constraint_set->pos == saturated_constraint_set->size) { // realloc the size
saturated_constraint_set->size *= 2;
- saturated_constraint_set->data = (int*) xbt_realloc(saturated_constraint_set->data, (saturated_constraint_set->size) * sizeof(int));
+ saturated_constraint_set->data =
+ (int*) xbt_realloc(saturated_constraint_set->data, (saturated_constraint_set->size) * sizeof(int));
}
saturated_constraint_set->data[saturated_constraint_set->pos] = cnst_light_num;
saturated_constraint_set->pos++;
}
}
-static XBT_INLINE void saturated_variable_set_update(
- s_lmm_constraint_light_t *cnst_light_tab,
- dyn_light_t saturated_constraint_set,
- lmm_system_t sys)
+static inline void saturated_variable_set_update(s_lmm_constraint_light_t *cnst_light_tab,
+ dyn_light_t saturated_constraint_set, lmm_system_t sys)
{
/* Add active variables (i.e. variables that need to be set) from the set of constraints to saturate (cnst_light_tab)*/
- lmm_constraint_light_t cnst = NULL;
+ lmm_constraint_light_t cnst = nullptr;
void *_elem;
- lmm_element_t elem = NULL;
- xbt_swag_t elem_list = NULL;
+ lmm_element_t elem = nullptr;
+ xbt_swag_t elem_list = nullptr;
int i;
for(i = 0; i< saturated_constraint_set->pos; i++){
cnst = &cnst_light_tab[saturated_constraint_set->data[i]];
void lmm_print(lmm_system_t sys)
{
void *_cnst, *_elem, *_var;
- lmm_constraint_t cnst = NULL;
- lmm_element_t elem = NULL;
- lmm_variable_t var = NULL;
- xbt_swag_t cnst_list = NULL;
- xbt_swag_t var_list = NULL;
- xbt_swag_t elem_list = NULL;
- char print_buf[1024];
- char *trace_buf = (char*) xbt_malloc0(sizeof(char));
+ lmm_constraint_t cnst = nullptr;
+ lmm_element_t elem = nullptr;
+ lmm_variable_t var = nullptr;
+ xbt_swag_t cnst_list = nullptr;
+ xbt_swag_t var_list = nullptr;
+ xbt_swag_t elem_list = nullptr;
+ xbt_strbuff_t buf = xbt_strbuff_new();
double sum = 0.0;
/* Printing Objective */
var_list = &(sys->variable_set);
- sprintf(print_buf, "MAX-MIN ( ");
- trace_buf = (char*)
- xbt_realloc(trace_buf, strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
+ xbt_strbuff_append(buf, "MAX-MIN ( ");
xbt_swag_foreach(_var, var_list) {
- var = (lmm_variable_t)_var;
- sprintf(print_buf, "'%d'(%f) ", var->id_int, var->weight);
- trace_buf = (char*)
- xbt_realloc(trace_buf, strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
+ var = (lmm_variable_t)_var;
+ xbt_strbuff_printf(buf, "'%d'(%f) ", var->id_int, var->weight);
}
- sprintf(print_buf, ")");
- trace_buf = (char*)
- xbt_realloc(trace_buf, strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
- XBT_DEBUG("%20s", trace_buf);
- trace_buf[0] = '\000';
+ xbt_strbuff_append(buf, ")");
+ XBT_DEBUG("%20s", buf->data);
+ xbt_strbuff_clear(buf);
XBT_DEBUG("Constraints");
/* Printing Constraints */
sum = 0.0;
//Show the enabled variables
elem_list = &(cnst->enabled_element_set);
- sprintf(print_buf, "\t");
- trace_buf = (char*)
- xbt_realloc(trace_buf, strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
- sprintf(print_buf, "%s(",(cnst->sharing_policy)?"":"max");
- trace_buf = (char*)
- xbt_realloc(trace_buf,
- strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
+ xbt_strbuff_append(buf, "\t");
+ xbt_strbuff_printf(buf, "%s(", (cnst->sharing_policy)?"":"max");
xbt_swag_foreach(_elem, elem_list) {
elem = (lmm_element_t)_elem;
- sprintf(print_buf, "%f.'%d'(%f) %s ", elem->value,
+ xbt_strbuff_printf(buf, "%f.'%d'(%f) %s ", elem->value,
elem->variable->id_int, elem->variable->value,(cnst->sharing_policy)?"+":",");
- trace_buf = (char*)
- xbt_realloc(trace_buf,
- strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
if(cnst->sharing_policy)
sum += elem->value * elem->variable->value;
else
elem_list = &(cnst->disabled_element_set);
xbt_swag_foreach(_elem, elem_list) {
elem = (lmm_element_t)_elem;
- sprintf(print_buf, "%f.'%d'(%f) %s ", elem->value,
+ xbt_strbuff_printf(buf, "%f.'%d'(%f) %s ", elem->value,
elem->variable->id_int, elem->variable->value,(cnst->sharing_policy)?"+":",");
- trace_buf = (char*)
- xbt_realloc(trace_buf,
- strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
if(cnst->sharing_policy)
sum += elem->value * elem->variable->value;
else
sum = MAX(sum,elem->value * elem->variable->value);
}
-
- sprintf(print_buf, "0) <= %f ('%d')", cnst->bound, cnst->id_int);
- trace_buf = (char*)
- xbt_realloc(trace_buf, strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
+
+ xbt_strbuff_printf(buf, "0) <= %f ('%d')", cnst->bound, cnst->id_int);
if (!cnst->sharing_policy) {
- sprintf(print_buf, " [MAX-Constraint]");
- trace_buf = (char*)
- xbt_realloc(trace_buf,
- strlen(trace_buf) + strlen(print_buf) + 1);
- strcat(trace_buf, print_buf);
+ xbt_strbuff_printf(buf, " [MAX-Constraint]");
}
- XBT_DEBUG("%s", trace_buf);
- trace_buf[0] = '\000';
+ XBT_DEBUG("%s", buf->data);
+ xbt_strbuff_clear(buf);
xbt_assert(!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);
+ "Incorrect value (%f is not smaller than %f): %g", sum, cnst->bound, sum - cnst->bound);
+ //if(double_positive(sum - cnst->bound, cnst->bound*sg_maxmin_precision))
+ //XBT_ERROR("Incorrect value (%f is not smaller than %f): %g",sum, cnst->bound, sum - cnst->bound);
}
XBT_DEBUG("Variables");
xbt_swag_foreach(_var, var_list) {
var = (lmm_variable_t)_var;
if (var->bound > 0) {
- XBT_DEBUG("'%d'(%f) : %f (<=%f)", var->id_int, var->weight, var->value,
- var->bound);
+ XBT_DEBUG("'%d'(%f) : %f (<=%f)", var->id_int, var->weight, var->value, var->bound);
xbt_assert(!double_positive(var->value - var->bound, var->bound*sg_maxmin_precision),
- "Incorrect value (%f is not smaller than %f",
- var->value, var->bound);
+ "Incorrect value (%f is not smaller than %f", var->value, var->bound);
} else {
XBT_DEBUG("'%d'(%f) : %f", var->id_int, var->weight, var->value);
}
}
- free(trace_buf);
+ xbt_strbuff_free(buf);
}
void lmm_solve(lmm_system_t sys)
{
void *_var, *_cnst, *_cnst_next, *_elem;
- lmm_variable_t var = NULL;
- lmm_constraint_t cnst = NULL;
- lmm_element_t elem = NULL;
- xbt_swag_t cnst_list = NULL;
- xbt_swag_t var_list = NULL;
- xbt_swag_t elem_list = NULL;
+ lmm_variable_t var = nullptr;
+ lmm_constraint_t cnst = nullptr;
+ lmm_element_t elem = nullptr;
+ xbt_swag_t cnst_list = nullptr;
+ xbt_swag_t var_list = nullptr;
+ xbt_swag_t elem_list = nullptr;
double min_usage = -1;
double min_bound = -1;
XBT_IN("(sys=%p)", sys);
- /*
- * 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.
+ /* 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.
*/
- cnst_list =
- sys->
- selective_update_active ? &(sys->modified_constraint_set) :
- &(sys->active_constraint_set);
+ cnst_list = sys->selective_update_active ? &(sys->modified_constraint_set) : &(sys->active_constraint_set);
XBT_DEBUG("Active constraints : %d", xbt_swag_size(cnst_list));
/* Init: Only modified code portions: reset the value of active variables */
}
}
- s_lmm_constraint_light_t *cnst_light_tab = (s_lmm_constraint_light_t *)xbt_malloc0(xbt_swag_size(cnst_list)*sizeof(s_lmm_constraint_light_t));
+ s_lmm_constraint_light_t *cnst_light_tab =
+ (s_lmm_constraint_light_t *)xbt_malloc0(xbt_swag_size(cnst_list)*sizeof(s_lmm_constraint_light_t));
int cnst_light_num = 0;
dyn_light_t saturated_constraint_set = xbt_new0(s_dyn_light_t,1);
saturated_constraint_set->size = 5;
xbt_swag_foreach_safe(_cnst, _cnst_next, cnst_list) {
cnst = (lmm_constraint_t)_cnst;
- /* INIT: Collect constraints that actually need to be saturated (i.e remaining and usage are strictly positive) into cnst_light_tab. */
+ /* 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 (!double_positive(cnst->remaining, cnst->bound*sg_maxmin_precision))
continue;
sys->keep_track->push_back(*action);
}
}
- XBT_DEBUG("Constraint '%d' usage: %f remaining: %f ", cnst->id_int, cnst->usage, cnst->remaining);
+ XBT_DEBUG("Constraint '%d' usage: %f remaining: %f concurrency: %i<=%i<=%i", cnst->id_int, cnst->usage,
+ cnst->remaining,cnst->concurrency_current,cnst->concurrency_maximum,cnst->concurrency_limit);
/* Saturated constraints update */
if(cnst->usage > 0) {
cnst_light_tab[cnst_light_num].remaining_over_usage = cnst->remaining / cnst->usage;
saturated_constraint_set_update(cnst_light_tab[cnst_light_num].remaining_over_usage,
cnst_light_num, saturated_constraint_set, &min_usage);
- xbt_assert(cnst->active_element_set.count>0, "There is no sense adding a constraint that has no active element!" );
+ xbt_assert(cnst->active_element_set.count>0, "There is no sense adding a constraint that has no active element!");
cnst_light_num++;
}
}
- saturated_variable_set_update( cnst_light_tab,
- saturated_constraint_set,
- sys);
+ saturated_variable_set_update( cnst_light_tab, saturated_constraint_set, sys);
/* Saturated variables update */
-
do {
/* Fix the variables that have to be */
var_list = &(sys->saturated_variable_set);
var = (lmm_variable_t)_var;
if (var->weight <= 0.0)
DIE_IMPOSSIBLE;
- /* First check if some of these variables could reach their upper
- bound and update min_bound accordingly. */
+ /* First check if some of these variables could reach their upper bound and update min_bound accordingly. */
XBT_DEBUG
("var=%d, var->bound=%f, var->weight=%f, min_usage=%f, var->bound*var->weight=%f",
- var->id_int, var->bound, var->weight, min_usage,
- var->bound * var->weight);
+ var->id_int, var->bound, var->weight, min_usage, var->bound * var->weight);
if ((var->bound > 0) && (var->bound * var->weight < min_usage)) {
if (min_bound < 0)
min_bound = var->bound*var->weight;
}
}
-
while ((var = (lmm_variable_t)xbt_swag_getFirst(var_list))) {
int i;
if (min_bound < 0) {
- //If no variable could reach its bound, deal iteratively the constraints usage ( at worst one constraint is saturated at each cycle)
+ //If no variable could reach its bound, deal iteratively the constraints usage ( at worst one constraint is
+ // saturated at each cycle)
var->value = min_usage / var->weight;
- // XBT_DEBUG("Setting %p (%d) value to %f\n", var, var->id_int, var->value);
+ // XBT_DEBUG("Setting %p (%d) value to %f\n", var, var->id_int, var->value);
XBT_DEBUG("Setting var (%d) value to %f\n", var->id_int, 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->weight, sg_maxmin_precision)){
- var->value = var->bound;
- XBT_DEBUG("Setting %p (%d) value to %f\n", var, var->id_int, 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->id_int);
- xbt_swag_remove(var, var_list);
- continue;
- }
+ //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->weight, sg_maxmin_precision)){
+ var->value = var->bound;
+ XBT_DEBUG("Setting %p (%d) value to %f\n", var, var->id_int, 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->id_int);
+ xbt_swag_remove(var, var_list);
+ continue;
+ }
}
XBT_DEBUG("Min usage: %f, Var(%d)->weight: %f, Var(%d)->value: %f ",
- min_usage, var->id_int, var->weight, var->id_int, var->value);
-
+ min_usage, var->id_int, var->weight, var->id_int, var->value);
/* Update the usage of contraints where this variable is involved */
for (i = 0; i < var->cnsts_number; i++) {
elem = &var->cnsts[i];
cnst = elem->constraint;
if (cnst->sharing_policy) {
- //Remember: shared constraints require that sum(elem->value * var->value) < cnst->bound
+ //Remember: shared constraints require that sum(elem->value * var->value) < cnst->bound
double_update(&(cnst->remaining), elem->value * var->value, cnst->bound*sg_maxmin_precision);
double_update(&(cnst->usage), elem->value / var->weight, sg_maxmin_precision);
- //If the constraint is saturated, remove it from the set of active constraints (light_tab)
- if(!double_positive(cnst->usage,sg_maxmin_precision) || !double_positive(cnst->remaining,cnst->bound*sg_maxmin_precision)) {
+ //If the constraint is saturated, remove it from the set of active constraints (light_tab)
+ if(!double_positive(cnst->usage,sg_maxmin_precision) ||
+ !double_positive(cnst->remaining,cnst->bound*sg_maxmin_precision)) {
if (cnst->cnst_light) {
int index = (cnst->cnst_light-cnst_light_tab);
XBT_DEBUG("index: %d \t cnst_light_num: %d \t || usage: %f remaining: %f bound: %f ",
- index,cnst_light_num, cnst->usage, cnst->remaining, cnst->bound);
- // XBT_DEBUG("index: %d \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 ",
- //index,cnst_light_num, cnst, cnst->cnst_light, cnst_light_tab, cnst->usage, cnst->remaining, cnst->bound);
+ index,cnst_light_num, cnst->usage, cnst->remaining, cnst->bound);
+ //XBT_DEBUG("index: %d \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 ", 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_light_tab[index].cnst->cnst_light = &cnst_light_tab[index];
cnst_light_num--;
- cnst->cnst_light = NULL;
+ cnst->cnst_light = nullptr;
}
} else {
cnst->cnst_light->remaining_over_usage = cnst->remaining / cnst->usage;
}
make_elem_inactive(elem);
} else {
- //Remember: non-shared constraints only require that max(elem->value * var->value) < cnst->bound
+ //Remember: non-shared constraints only require that max(elem->value * var->value) < cnst->bound
cnst->usage = 0.0;
make_elem_inactive(elem);
elem_list = &(cnst->enabled_element_set);
xbt_swag_foreach(_elem, elem_list) {
- elem = (lmm_element_t)_elem;
- xbt_assert(elem->variable->weight > 0);
- if (elem->variable->value > 0) continue;
- if (elem->value > 0)
- cnst->usage = MAX(cnst->usage, elem->value / elem->variable->weight);
+ elem = (lmm_element_t)_elem;
+ xbt_assert(elem->variable->weight > 0);
+ if (elem->variable->value > 0) continue;
+ if (elem->value > 0)
+ cnst->usage = MAX(cnst->usage, elem->value / elem->variable->weight);
}
- //If the constraint is saturated, remove it from the set of active constraints (light_tab)
- if(!double_positive(cnst->usage,sg_maxmin_precision) || !double_positive(cnst->remaining,cnst->bound*sg_maxmin_precision)) {
+ //If the constraint is saturated, remove it from the set of active constraints (light_tab)
+ if(!double_positive(cnst->usage,sg_maxmin_precision) ||
+ !double_positive(cnst->remaining,cnst->bound*sg_maxmin_precision)) {
if(cnst->cnst_light) {
int index = (cnst->cnst_light-cnst_light_tab);
- XBT_DEBUG("index: %d \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 ",
- index,cnst_light_num, cnst, cnst->cnst_light, cnst_light_tab, cnst->usage, cnst->remaining, cnst->bound);
+ XBT_DEBUG("index: %d \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 ", 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_light_tab[index].cnst->cnst_light = &cnst_light_tab[index];
cnst_light_num--;
- cnst->cnst_light = NULL;
+ cnst->cnst_light = nullptr;
}
} else {
cnst->cnst_light->remaining_over_usage = cnst->remaining / cnst->usage;
- xbt_assert(cnst->active_element_set.count>0, "Should not keep a maximum constraint that has no active element! You want to check the maxmin precision and possible rounding effects." );
+ xbt_assert(cnst->active_element_set.count>0, "Should not keep a maximum constraint that has no active"
+ " element! You want to check the maxmin precision and possible rounding effects." );
}
}
}
saturated_constraint_set->pos = 0;
int pos;
for(pos=0; pos<cnst_light_num; pos++){
- xbt_assert(cnst_light_tab[pos].cnst->active_element_set.count>0, "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);
- saturated_constraint_set_update(
- cnst_light_tab[pos].remaining_over_usage,
- pos,
- saturated_constraint_set,
- &min_usage);
- }
+ xbt_assert(cnst_light_tab[pos].cnst->active_element_set.count>0, "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);
+ saturated_constraint_set_update(cnst_light_tab[pos].remaining_over_usage, pos, saturated_constraint_set,
+ &min_usage);
+ }
- saturated_variable_set_update( cnst_light_tab,
- saturated_constraint_set,
- sys);
+ saturated_variable_set_update(cnst_light_tab, saturated_constraint_set, sys);
} while (cnst_light_num > 0);
}
lmm_check_concurrency(sys);
-
+
xbt_free(saturated_constraint_set->data);
xbt_free(saturated_constraint_set);
xbt_free(cnst_light_tab);
XBT_OUT();
}
-
/** \brief Attribute the value bound to var->bound.
*
* \param sys the lmm_system_t
* \param var the lmm_variable_t
* \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 lmm_update_variable_bound(lmm_system_t sys, lmm_variable_t var,
- double bound)
+ * 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 lmm_update_variable_bound(lmm_system_t sys, lmm_variable_t var, double bound)
{
sys->modified = 1;
var->bound = bound;
lmm_update_modified_set(sys, var->cnsts[0].constraint);
}
-
-
int lmm_concurrency_slack(lmm_constraint_t cnstr){
-
//FIXME MARTIN: Replace by infinite value std::numeric_limits<int>::(max)(), or something better within Simgrid?
if(cnstr->concurrency_limit<0)
return 666;
return cnstr->concurrency_limit - cnstr->concurrency_current;
}
-/** \brief Measure the minimum concurrency slack across all constraints where var is involved
- *
- * \param The variable to check for
- *
- */
+/** \brief Measure the minimum concurrency slack across all constraints where the given var is involved */
int lmm_cnstrs_min_concurrency_slack(lmm_variable_t var){
int i;
//FIXME MARTIN: Replace by infinite value std::numeric_limits<int>::(max)(), or something better within Simgrid?
int slack,minslack=666;
for (i = 0; i < var->cnsts_number; i++) {
slack=lmm_concurrency_slack(var->cnsts[i].constraint);
-
+
//This is only an optimization, to avoid looking at more constraints when slack is already zero
//Disable it when debugging to let lmm_concurrency_slack catch nasty things
if(!slack && !XBT_LOG_ISENABLED(surf_maxmin, xbt_log_priority_debug))
return var->staged_weight>0 && lmm_cnstrs_min_concurrency_slack(var)>=var->concurrency_share;
}
-
-//Small remark: In this implementation of lmm_enable_var and lmm_disable_var, we will meet multiple times with var when running lmm_update_modified_set.
-//A priori not a big performance issue, but we might do better by calling lmm_update_modified_set within the for loops (after doing the first for enabling==1, and before doing the last for disabling==1)
-
+//Small remark: In this implementation of lmm_enable_var and lmm_disable_var, we will meet multiple times with var when
+// running lmm_update_modified_set.
+//A priori not a big performance issue, but we might do better by calling lmm_update_modified_set within the for loops
+// (after doing the first for enabling==1, and before doing the last for disabling==1)
void lmm_enable_var(lmm_system_t sys, lmm_variable_t var){
-
int i;
lmm_element_t elem;
-
+
xbt_assert(lmm_can_enable_var(var));
var->weight = var->staged_weight;
var->staged_weight = 0;
- //Enabling the variable, move to var to list head. Subtility is: here, we need to call lmm_update_modified_set AFTER moving at least one element of var.
+ //Enabling the variable, move to var to list head. Subtility is: here, we need to call lmm_update_modified_set AFTER
+ // moving at least one element of var.
xbt_swag_remove(var, &(sys->variable_set));
xbt_swag_insert_at_head(var, &(sys->variable_set));
if (var->cnsts_number)
lmm_update_modified_set(sys, var->cnsts[0].constraint);
- //When used within lmm_on_disabled_var, we would get an assertion fail, because transiently there can be variables that are staged and could be activated.
+ //When used within lmm_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 lmm_check_concurrency() in the end.
// lmm_check_concurrency(sys);
}
lmm_element_t elem;
xbt_assert(!var->staged_weight,"Staged weight should have been cleared");
- //Disabling the variable, move to var to list tail. Subtility is: here, we need to call lmm_update_modified_set BEFORE moving the last element of var.
+ //Disabling the variable, move to var to list tail. Subtility is: here, we need to call lmm_update_modified_set BEFORE
+ //moving the last element of var.
xbt_swag_remove(var, &(sys->variable_set));
xbt_swag_insert_at_tail(var, &(sys->variable_set));
if (var->cnsts_number)
* And then add it to enabled variables
*/
void lmm_on_disabled_var(lmm_system_t sys, lmm_constraint_t cnstr){
-
lmm_element_t elem;
lmm_element_t nextelem;
int numelem;
-
+
if(cnstr->concurrency_limit<0)
return;
nextelem = (lmm_element_t) xbt_swag_getNext(elem, cnstr->disabled_element_set.offset);
- if (elem->variable->staged_weight>0 )
- {
- //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?
- if(lmm_can_enable_var(elem->variable)){
- lmm_enable_var(sys,elem->variable);
- }
+ if (elem->variable->staged_weight>0 ){
+ //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?
+ if(lmm_can_enable_var(elem->variable)){
+ lmm_enable_var(sys,elem->variable);
}
+ }
xbt_assert(cnstr->concurrency_current<=cnstr->concurrency_limit,"Concurrency overflow!");
if(cnstr->concurrency_current==cnstr->concurrency_limit)
//And we need to go through all constraints of the disabled var before getting back a coherent state.
//Anyway, caller functions all call lmm_check_concurrency() in the end.
// lmm_check_concurrency(sys);
-
}
/* \brief update the weight of a variable, and enable/disable it.
* @return Returns whether a change was made
*/
-void lmm_update_variable_weight(lmm_system_t sys, lmm_variable_t var,
- double weight)
+void lmm_update_variable_weight(lmm_system_t sys, lmm_variable_t var, double weight)
{
int minslack;
-
+
xbt_assert(weight>=0,"Variable weight should not be negative!");
-
+
if (weight == var->weight)
return;
int enabling_var= (weight>0 && var->weight<=0);
int disabling_var= (weight<=0 && var->weight>0);
-
+
XBT_IN("(sys=%p, var=%p, weight=%f)", sys, var, weight);
sys->modified = 1;
-
+
//Are we enabling this variable?
if (enabling_var){
var->staged_weight = weight;
minslack=lmm_cnstrs_min_concurrency_slack(var);
if(minslack<var->concurrency_share){
- XBT_DEBUG("Staging var (instead of enabling) because min concurrency slack %i, with weight %f and concurrency share %i", minslack, weight, var->concurrency_share);
+ XBT_DEBUG("Staging var (instead of enabling) because min concurrency slack %i, with weight %f and concurrency"
+ " share %i", minslack, weight, var->concurrency_share);
return;
}
XBT_DEBUG("Enabling var with min concurrency slack %i", minslack);
- lmm_enable_var(sys,var);
+ lmm_enable_var(sys,var);
} else if (disabling_var){
//Are we disabling this variable?
- lmm_disable_var(sys,var);
+ lmm_disable_var(sys,var);
} else {
var->weight=weight;
}
lmm_check_concurrency(sys);
-
+
XBT_OUT();
return;
}
return var->weight;
}
-void lmm_update_constraint_bound(lmm_system_t sys,
- lmm_constraint_t cnst,
- double bound)
+void lmm_update_constraint_bound(lmm_system_t sys, lmm_constraint_t cnst, double bound)
{
sys->modified = 1;
lmm_update_modified_set(sys, cnst);
return xbt_swag_belongs(cnst, &(sys->active_constraint_set));
}
-XBT_INLINE lmm_constraint_t lmm_get_first_active_constraint(lmm_system_t
- sys)
+inline lmm_constraint_t lmm_get_first_active_constraint(lmm_system_t sys)
{
return (lmm_constraint_t)xbt_swag_getFirst(&(sys->active_constraint_set));
}
-XBT_INLINE lmm_constraint_t lmm_get_next_active_constraint(lmm_system_t
- sys,
- lmm_constraint_t
- cnst)
+inline lmm_constraint_t lmm_get_next_active_constraint(lmm_system_t sys, lmm_constraint_t cnst)
{
return (lmm_constraint_t)xbt_swag_getNext(cnst, (sys->active_constraint_set).offset);
}
-#ifdef HAVE_LATENCY_BOUND_TRACKING
-XBT_PUBLIC(int) lmm_is_variable_limited_by_latency(lmm_variable_t var)
-{
- return (double_equals(var->bound, var->value, var->bound*sg_maxmin_precision));
-}
-#endif
-
-
/** \brief Update the constraint set propagating recursively to
* other constraints so the system should not be entirely computed.
*
* \param sys the lmm_system_t
* \param cnst the lmm_constraint_t 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.
+ * 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.
*/
-static void lmm_update_modified_set_rec(lmm_system_t sys,
- lmm_constraint_t cnst)
+static void lmm_update_modified_set_rec(lmm_system_t sys, lmm_constraint_t cnst)
{
void* _elem;
//TODOLATER: Why lmm_modified_set has been changed in git version 2392B5157...? Looks equivalent logically and less obvious..
-
xbt_swag_foreach(_elem, &cnst->enabled_element_set) {
lmm_variable_t var = ((lmm_element_t)_elem)->variable;
s_lmm_element_t *cnsts = var->cnsts;
int i;
- for (i = 0; var->visited != sys->visited_counter
- && i < var->cnsts_number ; i++) {
- if (cnsts[i].constraint != cnst
- && !xbt_swag_belongs(cnsts[i].constraint,
- &sys->modified_constraint_set)) {
+ for (i = 0; var->visited != sys->visited_counter && i < var->cnsts_number ; i++) {
+ if (cnsts[i].constraint != cnst && !xbt_swag_belongs(cnsts[i].constraint, &sys->modified_constraint_set)) {
xbt_swag_insert(cnsts[i].constraint, &sys->modified_constraint_set);
lmm_update_modified_set_rec(sys, cnsts[i].constraint);
}
}
}
-static void lmm_update_modified_set(lmm_system_t sys,
- lmm_constraint_t cnst)
+static void lmm_update_modified_set(lmm_system_t sys, lmm_constraint_t cnst)
{
/* nothing to do if selective update isn't active */
- if (sys->selective_update_active
- && !xbt_swag_belongs(cnst, &sys->modified_constraint_set)) {
+ if (sys->selective_update_active && !xbt_swag_belongs(cnst, &sys->modified_constraint_set)) {
xbt_swag_insert(cnst, &sys->modified_constraint_set);
lmm_update_modified_set_rec(sys, cnst);
}
/** \brief Remove all constraints of the modified_constraint_set.
*
* \param sys the lmm_system_t
- *
*/
static void lmm_remove_all_modified_set(lmm_system_t sys)
{
-
//We cleverly un-flag all variables just by incrementing sys->visited_counter
//In effect, the var->visited value will no more be equal to sys->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 long) time ago are not wrongly skipped here, which would lead to very nasty bugs (i.e. not readibily reproducible, and requiring a lot of run time before happening).
+ //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 long) time ago are not wrongly skipped here, which would lead to very nasty bugs
+ //(i.e. not readibily reproducible, and requiring a lot of run time before happening).
if (++sys->visited_counter == 1) {
/* the counter wrapped around, reset each variable->visited */
void *_var;
}
/**
- * Returns total resource load
- *
- * \param cnst the lmm_constraint_t associated to the resource
+ * 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.
*
- * This is dead code, but we may use it later for debug/trace.
+ * If the resource is not shared (ie in FATPIPE mode), then the the
+ * load is the max (not the sum) of all resource usages located on this resource.
+ * .
+ * \param cnst the lmm_constraint_t associated to the resource
*/
double lmm_constraint_get_usage(lmm_constraint_t cnst) {
double usage = 0.0;
xbt_swag_t elem_list = &(cnst->enabled_element_set);
void *_elem;
- lmm_element_t elem = NULL;
xbt_swag_foreach(_elem, elem_list) {
- elem = (lmm_element_t)_elem;
- if ((elem->value > 0)) {
+ lmm_element_t elem = (lmm_element_t)_elem;
+ if (elem->value > 0) {
if (cnst->sharing_policy)
usage += elem->value * elem->variable->value;
else if (usage < elem->value * elem->variable->value)
- usage = elem->value * elem->variable->value;
+ usage = std::max(usage, elem->value * elem->variable->value);
}
}
return usage;
lmm_variable_t var;
int concurrency;
int i,belong_to_enabled,belong_to_disabled,belong_to_active;
-
+
//These checks are very expensive, so do them only if we want to debug SURF LMM
if (XBT_LOG_ISENABLED(surf_maxmin, xbt_log_priority_debug)) {
-
xbt_swag_foreach(_cnst, &(sys->constraint_set)) {
cnst = (lmm_constraint_t) _cnst;
concurrency=0;
xbt_swag_foreach(_elem, &(cnst->enabled_element_set)) {
- elem = (lmm_element_t)_elem;
- xbt_assert(elem->variable->weight > 0);
- concurrency+=lmm_element_concurrency(elem);
+ elem = (lmm_element_t)_elem;
+ xbt_assert(elem->variable->weight > 0);
+ concurrency+=lmm_element_concurrency(elem);
}
-
+
xbt_swag_foreach(_elem, &(cnst->disabled_element_set)) {
- elem = (lmm_element_t)_elem;
- //We should have staged variables only if concurrency is reached in some constraint
- xbt_assert(cnst->concurrency_limit<0 || elem->variable->staged_weight==0 || lmm_cnstrs_min_concurrency_slack(elem->variable) < elem->variable->concurrency_share,"should not have staged variable!");
+ elem = (lmm_element_t)_elem;
+ //We should have staged variables only if concurrency is reached in some constraint
+ xbt_assert(cnst->concurrency_limit<0 || elem->variable->staged_weight==0 ||
+ lmm_cnstrs_min_concurrency_slack(elem->variable) < elem->variable->concurrency_share,
+ "should not have staged variable!");
}
-
+
xbt_assert(cnst->concurrency_limit<0 || cnst->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)
xbt_swag_foreach(_var, &(sys->variable_set)) {
var= (lmm_variable_t) _var;
if(!var->cnsts_number)
- continue;
+ continue;
elem = &var->cnsts[0];
belong_to_enabled=xbt_swag_belongs(elem,&(elem->constraint->enabled_element_set));
belong_to_active=xbt_swag_belongs(elem,&(elem->constraint->active_element_set));
for (i = 1; i < var->cnsts_number; i++) {
- elem = &var->cnsts[i];
- xbt_assert(belong_to_enabled==xbt_swag_belongs(elem,&(elem->constraint->enabled_element_set)),
- "Variable inconsistency (1): enabled_element_set");
- xbt_assert(belong_to_disabled==xbt_swag_belongs(elem,&(elem->constraint->disabled_element_set)),
- "Variable inconsistency (2): disabled_element_set");
- xbt_assert(belong_to_active==xbt_swag_belongs(elem,&(elem->constraint->active_element_set)),
- "Variable inconsistency (3): active_element_set");
+ elem = &var->cnsts[i];
+ xbt_assert(belong_to_enabled==xbt_swag_belongs(elem,&(elem->constraint->enabled_element_set)),
+ "Variable inconsistency (1): enabled_element_set");
+ xbt_assert(belong_to_disabled==xbt_swag_belongs(elem,&(elem->constraint->disabled_element_set)),
+ "Variable inconsistency (2): disabled_element_set");
+ xbt_assert(belong_to_active==xbt_swag_belongs(elem,&(elem->constraint->active_element_set)),
+ "Variable inconsistency (3): active_element_set");
}
-
}
}
}
