SD_CHECK_INIT_DONE();
xbt_assert0(amount > 0, "amount must be positive");
- SD_task_data_t sd_data = xbt_new0(s_SD_task_data_t, 1); /* task private data */
+ SD_task_t task = xbt_new0(s_SD_task_t, 1);
/* general information */
+ task->data = data; /* user data */
if (name != NULL)
- sd_data->name = xbt_strdup(name);
+ task->name = xbt_strdup(name);
else
- sd_data->name = NULL;
+ task->name = NULL;
- sd_data->state = SD_NOT_SCHEDULED;
- sd_data->amount = amount;
- sd_data->surf_action = NULL;
- sd_data->watch_points = 0;
+ task->state_set = sd_global->not_scheduled_task_set;
+ xbt_swag_insert(task,task->state_set);
+
+ task->amount = amount;
+ task->surf_action = NULL;
+ task->watch_points = 0;
+ task->state_changed = 0;
/* dependencies */
- sd_data->tasks_before = xbt_dynar_new(sizeof(SD_dependency_t), NULL);
- sd_data->tasks_after = xbt_dynar_new(sizeof(SD_dependency_t), NULL);
+ task->tasks_before = xbt_dynar_new(sizeof(SD_dependency_t), NULL);
+ task->tasks_after = xbt_dynar_new(sizeof(SD_dependency_t), NULL);
/* scheduling parameters */
- sd_data->workstation_nb = 0;
- sd_data->workstation_list = NULL;
- sd_data->computation_amount = NULL;
- sd_data->communication_amount = NULL;
- sd_data->rate = 0;
-
- SD_task_t task = xbt_new0(s_SD_task_t, 1);
- task->sd_data = sd_data; /* private data */
- task->data = data; /* user data */
+ task->workstation_nb = 0;
+ task->workstation_list = NULL;
+ task->computation_amount = NULL;
+ task->communication_amount = NULL;
+ task->rate = 0;
return task;
}
-/* Schedules a task.
- * task: the task to schedule
- * workstation_nb: number of workstations where the task will be executed
- * workstation_list: workstations where the task will be executed
- * computation_amount: computation amount for each workstation
- * communication_amount: communication amount between each pair of workstations
- * rate: task execution speed rate
+/* Returns the data of a task.
*/
-void SD_task_schedule(SD_task_t task, int workstation_nb,
- const SD_workstation_t *workstation_list, double *computation_amount,
- double *communication_amount, double rate) {
+void* SD_task_get_data(SD_task_t task) {
SD_CHECK_INIT_DONE();
- xbt_assert0(task, "Invalid parameter");
- xbt_assert1(SD_task_get_state(task) == SD_NOT_SCHEDULED, "Task '%s' has already been scheduled.", SD_task_get_name(task));
- xbt_assert0(workstation_nb > 0, "workstation_nb must be positive");
-
- SD_task_data_t sd_data = task->sd_data;
- sd_data->workstation_nb = workstation_nb;
- sd_data->rate = rate;
-
- sd_data->computation_amount = xbt_new0(double, workstation_nb);
- memcpy(sd_data->computation_amount, computation_amount, sizeof(double) * workstation_nb);
-
- int communication_nb = workstation_nb * workstation_nb;
- sd_data->communication_amount = xbt_new0(double, communication_nb);
- memcpy(sd_data->communication_amount, communication_amount, sizeof(double) * communication_nb);
-
- /* we have to create a Surf workstation array instead of the SimDag workstation array */
- sd_data->workstation_list = xbt_new0(void*, workstation_nb);
- int i;
- for (i = 0; i < workstation_nb; i++) {
- sd_data->workstation_list[i] = workstation_list[i]->sd_data->surf_workstation;
- }
-
- sd_data->state = SD_SCHEDULED;
+ xbt_assert0(task != NULL, "Invalid parameter");
+ return task->data;
}
-/* Returns the data of a task.
+/* Returns the state of a task: SD_NOT_SCHEDULED, SD_SCHEDULED, SD_READY, SD_RUNNING, SD_DONE or SD_FAILED.
*/
-void* SD_task_get_data(SD_task_t task) {
+e_SD_task_state_t SD_task_get_state(SD_task_t task) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
- return task->data;
+
+ if (task->state_set == sd_global->scheduled_task_set)
+ return SD_SCHEDULED;
+ if (task->state_set == sd_global->done_task_set)
+ return SD_DONE;
+ if (task->state_set == sd_global->running_task_set)
+ return SD_RUNNING;
+ if (task->state_set == sd_global->ready_task_set)
+ return SD_READY;
+ if (task->state_set == sd_global->not_scheduled_task_set)
+ return SD_NOT_SCHEDULED;
+ return SD_FAILED;
+}
+
+/* Changes the state of a task. Updates the swags and the flag sd_global->watch_point_reached.
+ */
+void __SD_task_set_state(SD_task_t task, e_SD_task_state_t new_state) {
+ xbt_swag_remove(task, task->state_set);
+ switch (new_state) {
+ case SD_NOT_SCHEDULED:
+ task->state_set = sd_global->not_scheduled_task_set;
+ break;
+ case SD_SCHEDULED:
+ task->state_set = sd_global->scheduled_task_set;
+ break;
+ case SD_READY:
+ task->state_set = sd_global->ready_task_set;
+ break;
+ case SD_RUNNING:
+ task->state_set = sd_global->running_task_set;
+ break;
+ case SD_DONE:
+ task->state_set = sd_global->done_task_set;
+ break;
+ case SD_FAILED:
+ task->state_set = sd_global->failed_task_set;
+ break;
+ default:
+ xbt_assert0(0, "Invalid state");
+ }
+ xbt_swag_insert(task,task->state_set);
+
+ if (task->watch_points & new_state) {
+ printf("Watch point reached with task '%s' in state %d!\n", SD_task_get_name(task), new_state);
+ sd_global->watch_point_reached = 1;
+ }
}
/* Sets the data of a task.
const char* SD_task_get_name(SD_task_t task) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
- return task->sd_data->name;
+ return task->name;
}
/* Returns the computing amount of a task.
double SD_task_get_amount(SD_task_t task) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
- return task->sd_data->amount;
+ return task->amount;
}
/* Returns the remaining computing amount of a task.
double SD_task_get_remaining_amount(SD_task_t task) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
- SD_task_data_t sd_data = task->sd_data;
- if (sd_data->surf_action)
- return sd_data->amount;
+
+ if (task->surf_action)
+ return task->amount;
else
- return sd_data->surf_action->remains;
+ return task->surf_action->remains;
}
/* temporary function for debbuging */
-void __SD_print_dependencies(SD_task_t task) {
+static void __SD_print_dependencies(SD_task_t task) {
printf("The following tasks must be executed before %s:", SD_task_get_name(task));
- xbt_dynar_t dynar = task->sd_data->tasks_before;
+ xbt_dynar_t dynar = task->tasks_before;
int length = xbt_dynar_length(dynar);
int i;
SD_dependency_t dependency;
printf("\nThe following tasks must be executed after %s:", SD_task_get_name(task));
- dynar = task->sd_data->tasks_after;
+ dynar = task->tasks_after;
length = xbt_dynar_length(dynar);
for (i = 0; i < length; i++) {
xbt_dynar_get_cpy(dynar, i, &dependency);
printf("\n----------------------------\n");
}
-/* Adds a dependency between two tasks.
+/* Destroys a dependency between two tasks.
+ */
+static void __SD_task_dependency_destroy(void *dependency) {
+ if (((SD_dependency_t) dependency)->name != NULL)
+ xbt_free(((SD_dependency_t) dependency)->name);
+ xbt_free(dependency);
+}
+
+/* Adds a dependency between two tasks. Their state must be SD_NOT_SCHEDULED, SD_SCHEDULED
+ * or SD_READY.
*/
void SD_task_dependency_add(const char *name, void *data, SD_task_t src, SD_task_t dst) {
SD_CHECK_INIT_DONE();
xbt_assert0(src != NULL && dst != NULL, "Invalid parameter");
xbt_assert1(src != dst, "Cannot add a dependency between task '%s' and itself", SD_task_get_name(src));
+ xbt_assert1(__SD_task_is_not_scheduled(src) || __SD_task_is_scheduled_or_ready(src),
+ "Task '%s' must be SD_NOT_SCHEDULED, SD_SCHEDULED or SD_READY", SD_task_get_name(src));
+ xbt_assert1(__SD_task_is_not_scheduled(dst) || __SD_task_is_scheduled_or_ready(dst),
+ "Task '%s' must be SD_NOT_SCHEDULED, SD_SCHEDULED or SD_READY", SD_task_get_name(dst));
- xbt_dynar_t dynar = src->sd_data->tasks_after;
+ xbt_dynar_t dynar = src->tasks_after;
int length = xbt_dynar_length(dynar);
int found = 0;
int i;
xbt_dynar_get_cpy(dynar, i, &dependency);
found = (dependency->dst == dst);
}
- xbt_assert2(!found, "A dependency already exists between task '%s' and task '%s'", src->sd_data->name, dst->sd_data->name);
+ xbt_assert2(!found, "A dependency already exists between task '%s' and task '%s'",
+ SD_task_get_name(src), SD_task_get_name(dst));
dependency = xbt_new0(s_SD_dependency_t, 1);
dependency->dst = dst;
/* src must be executed before dst */
- xbt_dynar_push(src->sd_data->tasks_after, &dependency);
- xbt_dynar_push(dst->sd_data->tasks_before, &dependency);
+ xbt_dynar_push(src->tasks_after, &dependency);
+ xbt_dynar_push(dst->tasks_before, &dependency);
+
+ /* if the task was ready, then dst->tasks_before is not empty anymore,
+ so we must go back to state SD_SCHEDULED */
+ if (__SD_task_is_ready(dst)) {
+ printf("SD_task_dependency_add: %s was ready and becomes scheduled!\n", SD_task_get_name(dst));
+ __SD_task_set_state(dst, SD_SCHEDULED);
+ }
/* __SD_print_dependencies(src);
__SD_print_dependencies(dst); */
void SD_task_dependency_remove(SD_task_t src, SD_task_t dst) {
SD_CHECK_INIT_DONE();
xbt_assert0(src != NULL && dst != NULL, "Invalid parameter");
- xbt_assert1(src != dst, "Cannot remove a dependency between task '%s' and itself", SD_task_get_name(src));
- xbt_dynar_t dynar = src->sd_data->tasks_after;
+ /* remove the dependency from src->tasks_after */
+ xbt_dynar_t dynar = src->tasks_after;
int length = xbt_dynar_length(dynar);
int found = 0;
int i;
}
}
xbt_assert4(found, "No dependency found between task '%s' and '%s': task '%s' is not a successor of task '%s'",
- src->sd_data->name, dst->sd_data->name, dst->sd_data->name, src->sd_data->name);
+ SD_task_get_name(src), SD_task_get_name(dst), SD_task_get_name(dst), SD_task_get_name(src));
- dynar = dst->sd_data->tasks_before;
+ /* remove the dependency from dst->tasks_before */
+ dynar = dst->tasks_before;
length = xbt_dynar_length(dynar);
found = 0;
xbt_dynar_get_cpy(dynar, i, &dependency);
if (dependency->src == src) {
xbt_dynar_remove_at(dynar, i, NULL);
- __SD_task_destroy_dependency(dependency);
+ __SD_task_dependency_destroy(dependency);
found = 1;
}
}
xbt_assert4(found, "SimDag error: task '%s' is a successor of '%s' but task '%s' is not a predecessor of task '%s'",
- dst->sd_data->name, src->sd_data->name, src->sd_data->name, dst->sd_data->name); /* should never happen... */
+ SD_task_get_name(dst), SD_task_get_name(src), SD_task_get_name(src), SD_task_get_name(dst)); /* should never happen... */
-/* __SD_print_dependencies(src);
- __SD_print_dependencies(dst); */
+ /* if the task was scheduled and dst->tasks_before is empty now, we can make it ready */
+ if (xbt_dynar_length(dst->tasks_before) == 0 && __SD_task_is_scheduled(dst))
+ __SD_task_set_state(dst, SD_READY);
+
+ /* __SD_print_dependencies(src);
+ __SD_print_dependencies(dst);*/
}
/* Returns the data associated to a dependency between two tasks. This data can be NULL.
void *SD_task_dependency_get_data(SD_task_t src, SD_task_t dst) {
SD_CHECK_INIT_DONE();
xbt_assert0(src != NULL && dst != NULL, "Invalid parameter");
- xbt_assert1(src != dst, "Cannot have a dependency between task '%s' and itself", SD_task_get_name(src));
- xbt_dynar_t dynar = src->sd_data->tasks_after;
+ xbt_dynar_t dynar = src->tasks_after;
int length = xbt_dynar_length(dynar);
int found = 0;
int i;
xbt_dynar_get_cpy(dynar, i, &dependency);
found = (dependency->dst == dst);
}
- xbt_assert4(found, "No dependency found between task '%s' and '%s': task '%s' is not a successor of task '%s'",
- src->sd_data->name, dst->sd_data->name, dst->sd_data->name, src->sd_data->name);
+ xbt_assert2(found, "No dependency found between task '%s' and '%s'", SD_task_get_name(src), SD_task_get_name(dst));
return dependency->data;
}
-/* Returns the state of a task: SD_NOT_SCHEDULED, SD_SCHEDULED, SD_RUNNING, SD_DONE or SD_FAILED.
- */
-SD_task_state_t SD_task_get_state(SD_task_t task) {
- SD_CHECK_INIT_DONE();
- xbt_assert0(task != NULL, "Invalid parameter");
- return task->sd_data->state;
-}
-
/* temporary function for debugging */
-void __SD_print_watch_points(SD_task_t task) {
- static const int state_masks[] = {SD_SCHEDULED, SD_RUNNING, SD_DONE, SD_FAILED};
- static const char* state_names[] = {"scheduled", "running", "done", "failed"};
+static void __SD_print_watch_points(SD_task_t task) {
+ static const int state_masks[] = {SD_SCHEDULED, SD_RUNNING, SD_READY, SD_DONE, SD_FAILED};
+ static const char* state_names[] = {"scheduled", "running", "ready", "done", "failed"};
- printf("Task '%s' watch points (%x): ", task->sd_data->name, task->sd_data->watch_points);
+ printf("Task '%s' watch points (%x): ", SD_task_get_name(task), task->watch_points);
int i;
- for (i = 0; i < 4; i++) {
- if (task->sd_data->watch_points & state_masks[i])
+ for (i = 0; i < 5; i++) {
+ if (task->watch_points & state_masks[i])
printf("%s ", state_names[i]);
}
printf("\n");
/* Adds a watch point to a task.
SD_simulate will stop as soon as the state of this task is the one given in argument.
Watch point is then automatically removed.
+ The given state must be SD_SCHEDULED, SD_READY, SD_RUNNING, SD_DONE or SD_FAILED.
*/
-void SD_task_watch(SD_task_t task, SD_task_state_t state) {
+void SD_task_watch(SD_task_t task, e_SD_task_state_t state) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
+ xbt_assert0(state != SD_NOT_SCHEDULED, "Cannot add a watch point for state SD_NOT_SCHEDULED");
- task->sd_data->watch_points = task->sd_data->watch_points | state;
+ task->watch_points = task->watch_points | state;
__SD_print_watch_points(task);
}
/* Removes a watch point from a task.
+ The given state must be SD_SCHEDULED, SD_READY, SD_RUNNING, SD_DONE or SD_FAILED.
*/
-void SD_task_unwatch(SD_task_t task, SD_task_state_t state) {
+void SD_task_unwatch(SD_task_t task, e_SD_task_state_t state) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
+ xbt_assert0(state != SD_NOT_SCHEDULED, "Cannot have a watch point for state SD_NOT_SCHEDULED");
- task->sd_data->watch_points = task->sd_data->watch_points & ~state;
+ task->watch_points = task->watch_points & ~state;
__SD_print_watch_points(task);
}
-/* Unschedules a task. The state must be SD_SCHEDULED, SD_RUNNING or SD_FAILED.
+/* Destroys the data memorised by SD_task_schedule. Task state must be SD_SCHEDULED or SD_READY.
+ */
+static void __SD_task_destroy_scheduling_data(SD_task_t task) {
+ SD_CHECK_INIT_DONE();
+ xbt_assert1(__SD_task_is_scheduled_or_ready(task),
+ "Task '%s' must be SD_SCHEDULED or SD_READY", SD_task_get_name(task));
+ xbt_free(task->workstation_list);
+ xbt_free(task->computation_amount);
+ xbt_free(task->communication_amount);
+}
+
+/* Schedules a task.
+ * task: the task to schedule
+ * workstation_nb: number of workstations where the task will be executed
+ * workstation_list: workstations where the task will be executed
+ * computation_amount: computation amount for each workstation
+ * communication_amount: communication amount between each pair of workstations
+ * rate: task execution speed rate
+ */
+void SD_task_schedule(SD_task_t task, int workstation_nb,
+ const SD_workstation_t *workstation_list, double *computation_amount,
+ double *communication_amount, double rate) {
+ SD_CHECK_INIT_DONE();
+ xbt_assert0(task, "Invalid parameter");
+ xbt_assert1(__SD_task_is_not_scheduled(task), "Task '%s' has already been scheduled.", SD_task_get_name(task));
+ xbt_assert0(workstation_nb > 0, "workstation_nb must be positive");
+
+ task->workstation_nb = workstation_nb;
+ task->rate = rate;
+
+ task->computation_amount = xbt_new0(double, workstation_nb);
+ memcpy(task->computation_amount, computation_amount, sizeof(double) * workstation_nb);
+
+ int communication_nb = workstation_nb * workstation_nb;
+ task->communication_amount = xbt_new0(double, communication_nb);
+ memcpy(task->communication_amount, communication_amount, sizeof(double) * communication_nb);
+
+ /* we have to create a Surf workstation array instead of the SimDag workstation array */
+ task->workstation_list = xbt_new0(void*, workstation_nb);
+ int i;
+ for (i = 0; i < workstation_nb; i++) {
+ task->workstation_list[i] = workstation_list[i]->surf_workstation;
+ }
+
+ /* update the task state */
+ if (xbt_dynar_length(task->tasks_before) == 0)
+ __SD_task_set_state(task, SD_READY);
+ else
+ __SD_task_set_state(task, SD_SCHEDULED);
+}
+
+/* Unschedules a task. The state must be SD_SCHEDULED, SD_READY, SD_RUNNING or SD_FAILED.
* The task is reinitialised and its state becomes SD_NOT_SCHEDULED.
* Call SD_task_schedule to schedule it again.
*/
void SD_task_unschedule(SD_task_t task) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
- xbt_assert1(task->sd_data->state == SD_SCHEDULED ||
- task->sd_data->state == SD_RUNNING ||
- task->sd_data->state == SD_FAILED,
- "Task %s: the state must be SD_SCHEDULED, SD_RUNNING or SD_FAILED", task->sd_data->name);
-
- if (task->sd_data->state == SD_SCHEDULED)
+ xbt_assert1(task->state_set == sd_global->scheduled_task_set ||
+ task->state_set == sd_global->ready_task_set ||
+ task->state_set == sd_global->running_task_set ||
+ task->state_set == sd_global->failed_task_set,
+ "Task %s: the state must be SD_SCHEDULED, SD_READY, SD_RUNNING or SD_FAILED",
+ SD_task_get_name(task));
+
+ if (__SD_task_is_scheduled_or_ready(task)) /* if the task is scheduled or ready */
__SD_task_destroy_scheduling_data(task);
- task->sd_data->state = SD_NOT_SCHEDULED;
+ if (__SD_task_is_running(task)) /* the task should become SD_FAILED */
+ surf_workstation_resource->common_public->action_cancel(task->surf_action);
+ else
+ __SD_task_set_state(task, SD_NOT_SCHEDULED);
}
/* Runs a task. This function is called by SD_simulate when a scheduled task can start
* (ie when its dependencies are satisfied).
*/
-void __SD_task_run(SD_task_t task) {
+surf_action_t __SD_task_run(SD_task_t task) {
SD_CHECK_INIT_DONE();
xbt_assert0(task != NULL, "Invalid parameter");
+ xbt_assert2(__SD_task_is_ready(task), "Task '%s' is not ready! Task state: %d",
+ SD_task_get_name(task), SD_task_get_state(task));
- SD_task_data_t sd_data = task->sd_data;
- surf_workstation_resource->extension_public->
- execute_parallel_task(sd_data->workstation_nb,
- sd_data->workstation_list,
- sd_data->computation_amount,
- sd_data->communication_amount,
- sd_data->amount,
- sd_data->rate);
- task->sd_data->state = SD_RUNNING;
+ surf_action_t surf_action = surf_workstation_resource->extension_public->
+ execute_parallel_task(task->workstation_nb,
+ task->workstation_list,
+ task->computation_amount,
+ task->communication_amount,
+ task->amount,
+ task->rate);
__SD_task_destroy_scheduling_data(task); /* now the scheduling data are not useful anymore */
-}
+ __SD_task_set_state(task, SD_RUNNING);
+ return surf_action;
+}
-/* Destroys a task. The user data (if any) should have been destroyed first.
+/* Remove all dependencies associated with a task. This function is called when the task is done.
*/
-void SD_task_destroy(SD_task_t task) {
- SD_CHECK_INIT_DONE();
- xbt_assert0(task != NULL, "Invalid parameter");
-
- /* printf("Destroying task %s...\n", SD_task_get_name(task));*/
-
+void __SD_task_remove_dependencies(SD_task_t task) {
/* we must destroy the dependencies carefuly (with SD_dependency_remove)
because each one is stored twice */
SD_dependency_t dependency;
- while (xbt_dynar_length(task->sd_data->tasks_before) > 0) {
- xbt_dynar_get_cpy(task->sd_data->tasks_before, 0, &dependency);
+ while (xbt_dynar_length(task->tasks_before) > 0) {
+ xbt_dynar_get_cpy(task->tasks_before, 0, &dependency);
SD_task_dependency_remove(dependency->src, dependency->dst);
}
- while (xbt_dynar_length(task->sd_data->tasks_after) > 0) {
- xbt_dynar_get_cpy(task->sd_data->tasks_after, 0, &dependency);
+ while (xbt_dynar_length(task->tasks_after) > 0) {
+ xbt_dynar_get_cpy(task->tasks_after, 0, &dependency);
SD_task_dependency_remove(dependency->src, dependency->dst);
}
+}
- if (task->sd_data->state == SD_SCHEDULED)
- __SD_task_destroy_scheduling_data(task);
+/* Destroys a task. The user data (if any) should have been destroyed first.
+ */
+void SD_task_destroy(SD_task_t task) {
+ SD_CHECK_INIT_DONE();
+ xbt_assert0(task != NULL, "Invalid parameter");
- if (task->sd_data->name != NULL)
- xbt_free(task->sd_data->name);
+ /*printf("Destroying task %s...\n", SD_task_get_name(task));*/
- xbt_dynar_free(&task->sd_data->tasks_before);
- xbt_dynar_free(&task->sd_data->tasks_after);
- xbt_free(task->sd_data);
- xbt_free(task);
+ __SD_task_remove_dependencies(task);
- /*printf("Task destroyed.\n");*/
+ /* if the task was scheduled or ready we have to free the scheduling parameters */
+ if (__SD_task_is_scheduled_or_ready(task))
+ __SD_task_destroy_scheduling_data(task);
-}
+ if (task->name != NULL)
+ xbt_free(task->name);
-/* Destroys the data memorised by SD_task_schedule. Task state must be SD_SCHEDULED.
- */
-void __SD_task_destroy_scheduling_data(SD_task_t task) {
- xbt_free(task->sd_data->workstation_list);
- xbt_free(task->sd_data->computation_amount);
- xbt_free(task->sd_data->communication_amount);
-}
+ xbt_dynar_free(&task->tasks_before);
+ xbt_dynar_free(&task->tasks_after);
+ xbt_free(task);
-/* Destroys a dependency between two tasks.
- */
-void __SD_task_destroy_dependency(void *dependency) {
- if (((SD_dependency_t) dependency)->name != NULL)
- xbt_free(((SD_dependency_t) dependency)->name);
- /*printf("destroying dependency between %s and %s\n", ((SD_dependency_t) dependency)->src->sd_data->name, ((SD_dependency_t) dependency)->dst->sd_data->name);*/
- xbt_free(dependency);
- /*printf("destroyed.\n");*/
+ /*printf("Task destroyed.\n");*/
}
