X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/7e6a22e5e70668af1007180c823291b4524f321e..45f517dc85cc6c2ed4ebce27de4f75c00271f945:/src/simdag/sd_task.c diff --git a/src/simdag/sd_task.c b/src/simdag/sd_task.c index 158184d935..c51d5f2847 100644 --- a/src/simdag/sd_task.c +++ b/src/simdag/sd_task.c @@ -1,67 +1,254 @@ +/* Copyright (c) 2006, 2007, 2008, 2009, 2010, 2011. 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. */ + #include "private.h" #include "simdag/simdag.h" #include "xbt/sysdep.h" #include "xbt/dynar.h" +#include "instr/instr_private.h" -XBT_LOG_NEW_DEFAULT_SUBCATEGORY(sd_task,sd, - "Logging specific to SimDag (task)"); +XBT_LOG_NEW_DEFAULT_SUBCATEGORY(sd_task, sd, + "Logging specific to SimDag (task)"); static void __SD_task_remove_dependencies(SD_task_t task); static void __SD_task_destroy_scheduling_data(SD_task_t task); -/** - * \brief Creates a new task. - * - * \param name the name of the task (can be \c NULL) - * \param data the user data you want to associate with the task (can be \c NULL) - * \param amount amount of the task - * \return the new task - * \see SD_task_destroy() - */ -SD_task_t SD_task_create(const char *name, void *data, double amount) { - - SD_task_t task; - SD_CHECK_INIT_DONE(); +void* SD_task_new_f(void) +{ + SD_task_t task = xbt_new0(s_SD_task_t, 1); + task->tasks_before = xbt_dynar_new(sizeof(SD_dependency_t), NULL); + task->tasks_after = xbt_dynar_new(sizeof(SD_dependency_t), NULL); - task = xbt_new(s_SD_task_t, 1); + return task; +} - /* general information */ - task->data = data; /* user data */ - if (name != NULL) - task->name = xbt_strdup(name); - else - task->name = NULL; +void SD_task_recycle_f(void *t) +{ + SD_task_t task = (SD_task_t) t; + /* Reset the content */ + task->kind = SD_TASK_NOT_TYPED; task->state_hookup.prev = NULL; task->state_hookup.next = NULL; task->state_set = sd_global->not_scheduled_task_set; - task->state = SD_NOT_SCHEDULED; xbt_swag_insert(task, task->state_set); + task->state = SD_NOT_SCHEDULED; + task->return_hookup.prev = NULL; + task->return_hookup.next = NULL; + + task->marked = 0; - task->amount = amount; - task->remains = amount; task->start_time = -1.0; task->finish_time = -1.0; task->surf_action = NULL; task->watch_points = 0; - task->state_changed = 0; /* dependencies */ - task->tasks_before = xbt_dynar_new(sizeof(SD_dependency_t), NULL); - task->tasks_after = xbt_dynar_new(sizeof(SD_dependency_t), NULL); + xbt_dynar_reset(task->tasks_before); + xbt_dynar_reset(task->tasks_after); + task->unsatisfied_dependencies = 0; + task->is_not_ready = 0; /* scheduling parameters */ task->workstation_nb = 0; task->workstation_list = NULL; task->computation_amount = NULL; task->communication_amount = NULL; - task->rate = 0; + task->rate = -1; +} + +void SD_task_free_f(void *t) +{ + SD_task_t task = (SD_task_t)t; + + xbt_dynar_free(&task->tasks_before); + xbt_dynar_free(&task->tasks_after); + xbt_free(task); +} + +/** + * \brief Creates a new task. + * + * \param name the name of the task (can be \c NULL) + * \param data the user data you want to associate with the task (can be \c NULL) + * \param amount amount of the task + * \return the new task + * \see SD_task_destroy() + */ +SD_task_t SD_task_create(const char *name, void *data, double amount) +{ + SD_task_t task = xbt_mallocator_get(sd_global->task_mallocator); + + /* general information */ + task->data = data; /* user data */ + task->name = xbt_strdup(name); + task->amount = amount; + task->remains = amount; sd_global->task_number++; +#ifdef HAVE_TRACING + task->category = NULL; +#endif + return task; } +static XBT_INLINE SD_task_t SD_task_create_sized(const char *name, + void *data, double amount, + int ws_count) +{ + SD_task_t task = SD_task_create(name, data, amount); + task->communication_amount = xbt_new0(double, ws_count * ws_count); + task->computation_amount = xbt_new0(double, ws_count); + task->workstation_nb = ws_count; + task->workstation_list = xbt_new0(SD_workstation_t, ws_count); + return task; +} + +/** @brief create a end-to-end communication task that can then be auto-scheduled + * + * Auto-scheduling mean that the task can be used with SD_task_schedulev(). This + * allows to specify the task costs at creation, and decouple them from the + * scheduling process where you just specify which resource should deliver the + * mandatory power. + * + * A end-to-end communication must be scheduled on 2 hosts, and the amount + * specified at creation is sent from hosts[0] to hosts[1]. + */ +SD_task_t SD_task_create_comm_e2e(const char *name, void *data, + double amount) +{ + SD_task_t res = SD_task_create_sized(name, data, amount, 2); + res->communication_amount[2] = amount; + res->kind = SD_TASK_COMM_E2E; + return res; +} + +/** @brief create a sequential computation task that can then be auto-scheduled + * + * Auto-scheduling mean that the task can be used with SD_task_schedulev(). This + * allows to specify the task costs at creation, and decouple them from the + * scheduling process where you just specify which resource should deliver the + * mandatory power. + * + * A sequential computation must be scheduled on 1 host, and the amount + * specified at creation to be run on hosts[0]. + * + * \param name the name of the task (can be \c NULL) + * \param data the user data you want to associate with the task (can be \c NULL) + * \param amount amount of compute work to be done by the task + * \return the new SD_TASK_COMP_SEQ typed task + */ +SD_task_t SD_task_create_comp_seq(const char *name, void *data, + double amount) +{ + SD_task_t res = SD_task_create_sized(name, data, amount, 1); + res->computation_amount[0] = amount; + res->kind = SD_TASK_COMP_SEQ; + return res; +} + +/** @brief create a parallel computation task that can then be auto-scheduled + * + * Auto-scheduling mean that the task can be used with SD_task_schedulev(). This + * allows to specify the task costs at creation, and decouple them from the + * scheduling process where you just specify which resource should deliver the + * mandatory power. + * + * A parallel computation can be scheduled on any number of host. + * The underlying speedup model is Amdahl's law. + * To be auto-scheduled, \see SD_task_distribute_comp_amdhal has to be called + * first. + * \param name the name of the task (can be \c NULL) + * \param data the user data you want to associate with the task (can be \c NULL) + * \param amount amount of compute work to be done by the task + * \param alpha purely serial fraction of the work to be done (in [0.;1.[) + * \return the new task + */ +SD_task_t SD_task_create_comp_par_amdahl(const char *name, void *data, + double amount, double alpha) +{ + xbt_assert(alpha < 1. && alpha >= 0., + "Invalid parameter: alpha must be in [0.;1.["); + + SD_task_t res = SD_task_create(name, data, amount); + res->alpha = alpha; + res->kind = SD_TASK_COMP_PAR_AMDAHL; + return res; +} + +/** @brief create a complex data redistribution task that can then be + * auto-scheduled + * + * Auto-scheduling mean that the task can be used with SD_task_schedulev(). + * This allows to specify the task costs at creation, and decouple them from + * the scheduling process where you just specify which resource should + * communicate. + * + * A data redistribution can be scheduled on any number of host. + * The assumed distribution is a 1D block distribution. Each host owns the same + * share of the \see amount. + * To be auto-scheduled, \see SD_task_distribute_comm_mxn_1d_block has to be + * called first. + * \param name the name of the task (can be \c NULL) + * \param data the user data you want to associate with the task (can be + * \c NULL) + * \param amount amount of data to redistribute by the task + * \return the new task + */ +SD_task_t SD_task_create_comm_par_mxn_1d_block(const char *name, void *data, + double amount) +{ + SD_task_t res = SD_task_create(name, data, amount); + res->workstation_list=NULL; + res->kind = SD_TASK_COMM_PAR_MXN_1D_BLOCK; + return res; +} + +/** + * \brief Destroys a task. + * + * The user data (if any) should have been destroyed first. + * + * \param task the task you want to destroy + * \see SD_task_create() + */ +void SD_task_destroy(SD_task_t task) +{ + XBT_DEBUG("Destroying task %s...", SD_task_get_name(task)); + + __SD_task_remove_dependencies(task); + /* if the task was scheduled or runnable we have to free the scheduling parameters */ + if (__SD_task_is_scheduled_or_runnable(task)) + __SD_task_destroy_scheduling_data(task); + if (task->state_set != NULL) /* would be null if just created */ + xbt_swag_remove(task, task->state_set); + + xbt_swag_remove(task, sd_global->return_set); + + xbt_free(task->name); + + if (task->surf_action != NULL) + surf_workstation_model->action_unref(task->surf_action); + + xbt_free(task->workstation_list); + xbt_free(task->communication_amount); + xbt_free(task->computation_amount); + + xbt_mallocator_release(sd_global->task_mallocator,task); + sd_global->task_number--; + +#ifdef HAVE_TRACING + if (task->category) xbt_free(task->category); +#endif + + XBT_DEBUG("Task destroyed."); +} + /** * \brief Returns the user data of a task * @@ -69,9 +256,8 @@ SD_task_t SD_task_create(const char *name, void *data, double amount) { * \return the user data associated with this task (can be \c NULL) * \see SD_task_set_data() */ -void* SD_task_get_data(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); +void *SD_task_get_data(SD_task_t task) +{ return task->data; } @@ -85,67 +271,94 @@ void* SD_task_get_data(SD_task_t task) { * \param data the new data you want to associate with this task * \see SD_task_get_data() */ -void SD_task_set_data(SD_task_t task, void *data) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); +void SD_task_set_data(SD_task_t task, void *data) +{ task->data = data; } +/** + * \brief Sets the rate of a task + * + * This will change the network bandwidth a task can use. This rate + * depends on both the nominal bandwidth on the route onto which the task is + * scheduled (\see SD_task_get_current_bandwidth) and the amount of data to + * transfer. + * + * To divide the nominal bandwidth by 2, the rate then has to be : + * rate = bandwidth/(2*amount) + * + * \param task a \see SD_TASK_COMM_E2E task (end-to-end communication) + * \param rate the new rate you want to associate with this task. + */ +void SD_task_set_rate(SD_task_t task, double rate) +{ + xbt_assert(task->kind == SD_TASK_COMM_E2E, + "The rate can be modified for end-to-end communications only."); + + task->rate = rate; +} + /** * \brief Returns the state of a task * * \param task a task * \return the current \ref e_SD_task_state_t "state" of this task: - * #SD_NOT_SCHEDULED, #SD_SCHEDULED, #SD_READY, #SD_RUNNING, #SD_DONE or #SD_FAILED + * #SD_NOT_SCHEDULED, #SD_SCHEDULED, #SD_RUNNABLE, #SD_RUNNING, #SD_DONE or #SD_FAILED * \see e_SD_task_state_t */ -e_SD_task_state_t SD_task_get_state(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); +e_SD_task_state_t SD_task_get_state(SD_task_t task) +{ return task->state; } /* 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) { +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_SCHEDULABLE: + task->state_set = sd_global->schedulable_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; + case SD_RUNNABLE: + task->state_set = sd_global->runnable_task_set; break; case SD_IN_FIFO: task->state_set = sd_global->in_fifo_task_set; break; case SD_RUNNING: task->state_set = sd_global->running_task_set; - task->start_time = surf_workstation_resource->common_public-> - action_get_start_time(task->surf_action); + task->start_time = + surf_workstation_model->action_get_start_time(task->surf_action); break; case SD_DONE: task->state_set = sd_global->done_task_set; - task->finish_time = surf_workstation_resource->common_public-> - action_get_finish_time(task->surf_action); + task->finish_time = + surf_workstation_model->action_get_finish_time(task->surf_action); task->remains = 0; +#ifdef HAVE_JEDULE + jedule_log_sd_event(task); +#endif break; case SD_FAILED: task->state_set = sd_global->failed_task_set; break; default: - xbt_assert0(0, "Invalid state"); + xbt_die( "Invalid state"); } xbt_swag_insert(task, task->state_set); task->state = new_state; if (task->watch_points & new_state) { - INFO1("Watch point reached with task '%s'!", SD_task_get_name(task)); + XBT_VERB("Watch point reached with task '%s'!", SD_task_get_name(task)); sd_global->watch_point_reached = 1; - SD_task_unwatch(task, new_state); /* remove the watch point */ + SD_task_unwatch(task, new_state); /* remove the watch point */ } } @@ -155,75 +368,189 @@ void __SD_task_set_state(SD_task_t task, e_SD_task_state_t new_state) { * \param task a task * \return the name of this task (can be \c NULL) */ -const char* SD_task_get_name(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); +const char *SD_task_get_name(SD_task_t task) +{ return task->name; } +/** @brief Allows to change the name of a task */ +void SD_task_set_name(SD_task_t task, const char *name) +{ + xbt_free(task->name); + task->name = xbt_strdup(name); +} + +/** @brief Returns the dynar of the parents of a task + * + * \param task a task + * \return a newly allocated dynar comprising the parents of this task + */ + +xbt_dynar_t SD_task_get_parents(SD_task_t task) +{ + unsigned int i; + xbt_dynar_t parents; + SD_dependency_t dep; + + parents = xbt_dynar_new(sizeof(SD_task_t), NULL); + xbt_dynar_foreach(task->tasks_before, i, dep) { + xbt_dynar_push(parents, &(dep->src)); + } + return parents; +} + +/** @brief Returns the dynar of the parents of a task + * + * \param task a task + * \return a newly allocated dynar comprising the parents of this task + */ +xbt_dynar_t SD_task_get_children(SD_task_t task) +{ + unsigned int i; + xbt_dynar_t children; + SD_dependency_t dep; + + children = xbt_dynar_new(sizeof(SD_task_t), NULL); + xbt_dynar_foreach(task->tasks_after, i, dep) { + xbt_dynar_push(children, &(dep->dst)); + } + return children; +} + +/** + * \brief Returns the amount of workstations involved in a task + * + * Only call this on already scheduled tasks! + * \param task a task + */ +int SD_task_get_workstation_count(SD_task_t task) +{ + return task->workstation_nb; +} + /** - * \brief Returns the total amount of a task + * \brief Returns the list of workstations involved in a task * + * Only call this on already scheduled tasks! * \param task a task - * \return the total amount of this task + */ +SD_workstation_t *SD_task_get_workstation_list(SD_task_t task) +{ + return task->workstation_list; +} + +/** + * \brief Returns the total amount of work contained in a task + * + * \param task a task + * \return the total amount of work (computation or data transfer) for this task * \see SD_task_get_remaining_amount() */ -double SD_task_get_amount(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); +double SD_task_get_amount(SD_task_t task) +{ return task->amount; } /** - * \brief Returns the remaining amount of a task + * \brief Returns the remaining amount work to do till the completion of a task * * \param task a task - * \return the remaining amount of this task + * \return the remaining amount of work (computation or data transfer) of this task * \see SD_task_get_amount() */ -double SD_task_get_remaining_amount(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - +double SD_task_get_remaining_amount(SD_task_t task) +{ if (task->surf_action) - return task->surf_action->remains; + return surf_workstation_model->get_remains(task->surf_action); else return task->remains; } -/* temporary function for debbuging */ -static void __SD_print_dependencies(SD_task_t task) { - xbt_dynar_t dynar; - int length; - int i; - SD_dependency_t dependency; - - INFO1("The following tasks must be executed before %s:", SD_task_get_name(task)); - dynar = task->tasks_before; - length = xbt_dynar_length(dynar); - +int SD_task_get_kind(SD_task_t task) +{ + return task->kind; +} - for (i = 0; i < length; i++) { - xbt_dynar_get_cpy(dynar, i, &dependency); - INFO1(" %s", SD_task_get_name(dependency->src)); +/** @brief Displays debugging informations about a task */ +void SD_task_dump(SD_task_t task) +{ + unsigned int counter; + SD_dependency_t dependency; + char *statename; + + XBT_INFO("Displaying task %s", SD_task_get_name(task)); + statename = bprintf("%s %s %s %s %s %s %s %s", + (task->state & SD_NOT_SCHEDULED ? "not scheduled" : + ""), + (task->state & SD_SCHEDULABLE ? "schedulable" : ""), + (task->state & SD_SCHEDULED ? "scheduled" : ""), + (task->state & SD_RUNNABLE ? "runnable" : + "not runnable"), + (task->state & SD_IN_FIFO ? "in fifo" : ""), + (task->state & SD_RUNNING ? "running" : ""), + (task->state & SD_DONE ? "done" : ""), + (task->state & SD_FAILED ? "failed" : "")); + XBT_INFO(" - state: %s", statename); + free(statename); + + if (task->kind != 0) { + switch (task->kind) { + case SD_TASK_COMM_E2E: + XBT_INFO(" - kind: end-to-end communication"); + break; + case SD_TASK_COMP_SEQ: + XBT_INFO(" - kind: sequential computation"); + break; + case SD_TASK_COMP_PAR_AMDAHL: + XBT_INFO(" - kind: parallel computation following Amdahl's law"); + break; + default: + XBT_INFO(" - (unknown kind %d)", task->kind); + } } + XBT_INFO(" - amount: %.0f", SD_task_get_amount(task)); + XBT_INFO(" - Dependencies to satisfy: %u", task->unsatisfied_dependencies); + if (!xbt_dynar_is_empty(task->tasks_before)) { + XBT_INFO(" - pre-dependencies:"); + xbt_dynar_foreach(task->tasks_before, counter, dependency) { + XBT_INFO(" %s", SD_task_get_name(dependency->src)); + } + } + if (!xbt_dynar_is_empty(task->tasks_after)) { + XBT_INFO(" - post-dependencies:"); + xbt_dynar_foreach(task->tasks_after, counter, dependency) { + XBT_INFO(" %s", SD_task_get_name(dependency->dst)); + } + } +} - INFO1("The following tasks must be executed after %s:", SD_task_get_name(task)); - - dynar = task->tasks_after; - length = xbt_dynar_length(dynar); - for (i = 0; i < length; i++) { - xbt_dynar_get_cpy(dynar, i, &dependency); - INFO1(" %s", SD_task_get_name(dependency->dst)); +/** @brief Dumps the task in dotty formalism into the FILE* passed as second argument */ +void SD_task_dotty(SD_task_t task, void *out) +{ + unsigned int counter; + SD_dependency_t dependency; + fprintf(out, " T%p [label=\"%.20s\"", task, task->name); + switch (task->kind) { + case SD_TASK_COMM_E2E: + fprintf(out, ", shape=box"); + break; + case SD_TASK_COMP_SEQ: + fprintf(out, ", shape=circle"); + break; + default: + xbt_die("Unknown task type!"); + } + fprintf(out, "];\n"); + xbt_dynar_foreach(task->tasks_before, counter, dependency) { + fprintf(out, " T%p -> T%p;\n", dependency->src, dependency->dst); } - INFO0("----------------------------"); } /* 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); +static void __SD_task_dependency_destroy(void *dependency) +{ + xbt_free(((SD_dependency_t)dependency)->name); xbt_free(dependency); } @@ -231,7 +558,7 @@ static void __SD_task_dependency_destroy(void *dependency) { * \brief Adds a dependency between two tasks * * \a dst will depend on \a src, ie \a dst will not start before \a src is finished. - * Their \ref e_SD_task_state_t "state" must be #SD_NOT_SCHEDULED, #SD_SCHEDULED or #SD_READY. + * Their \ref e_SD_task_state_t "state" must be #SD_NOT_SCHEDULED, #SD_SCHEDULED or #SD_RUNNABLE. * * \param name the name of the new dependency (can be \c NULL) * \param data the user data you want to associate with this dependency (can be \c NULL) @@ -239,49 +566,53 @@ static void __SD_task_dependency_destroy(void *dependency) { * \param dst the task you want to make depend on \a src * \see SD_task_dependency_remove() */ -void SD_task_dependency_add(const char *name, void *data, SD_task_t src, SD_task_t dst) { +void SD_task_dependency_add(const char *name, void *data, SD_task_t src, + SD_task_t dst) +{ xbt_dynar_t dynar; int length; int found = 0; int i; SD_dependency_t dependency; - SD_CHECK_INIT_DONE(); - xbt_assert0(src != NULL && dst != NULL, "Invalid parameter"); - dynar = src->tasks_after; length = xbt_dynar_length(dynar); - - - if (src == dst) - THROW1(arg_error, 0, "Cannot add a dependency between task '%s' and itself", - SD_task_get_name(src)); - - if (!__SD_task_is_not_scheduled(src) && !__SD_task_is_scheduled_or_ready(src)) - THROW1(arg_error, 0, "Task '%s' must be SD_NOT_SCHEDULED, SD_SCHEDULED or SD_READY", SD_task_get_name(src)); - - if (!__SD_task_is_not_scheduled(dst) && !__SD_task_is_scheduled_or_ready(dst)) - THROW1(arg_error, 0, "Task '%s' must be SD_NOT_SCHEDULED, SD_SCHEDULED or SD_READY", SD_task_get_name(dst)); - - DEBUG2("SD_task_dependency_add: src = %s, dst = %s", SD_task_get_name(src), SD_task_get_name(dst)); + if (src == dst) + THROWF(arg_error, 0, + "Cannot add a dependency between task '%s' and itself", + SD_task_get_name(src)); + + if (!__SD_task_is_not_scheduled(src) && !__SD_task_is_schedulable(src) + && !__SD_task_is_scheduled_or_runnable(src) && !__SD_task_is_running(src)) + THROWF(arg_error, 0, + "Task '%s' must be SD_NOT_SCHEDULED, SD_SCHEDULABLE, SD_SCHEDULED or SD_RUNNABLE" + " or SD_RUNNING", + SD_task_get_name(src)); + + if (!__SD_task_is_not_scheduled(dst) && !__SD_task_is_schedulable(dst) + && !__SD_task_is_scheduled_or_runnable(dst)) + THROWF(arg_error, 0, + "Task '%s' must be SD_NOT_SCHEDULED, SD_SCHEDULABLE, SD_SCHEDULED or SD_RUNNABLE", + SD_task_get_name(dst)); + + XBT_DEBUG("SD_task_dependency_add: src = %s, dst = %s", + SD_task_get_name(src), SD_task_get_name(dst)); for (i = 0; i < length && !found; i++) { xbt_dynar_get_cpy(dynar, i, &dependency); found = (dependency->dst == dst); - DEBUG2("Dependency %d: dependency->dst = %s", i, SD_task_get_name(dependency->dst)); + XBT_DEBUG("Dependency %d: dependency->dst = %s", i, + SD_task_get_name(dependency->dst)); } if (found) - THROW2(arg_error, 0, "A dependency already exists between task '%s' and task '%s'", - SD_task_get_name(src), SD_task_get_name(dst)); + THROWF(arg_error, 0, + "A dependency already exists between task '%s' and task '%s'", + SD_task_get_name(src), SD_task_get_name(dst)); dependency = xbt_new(s_SD_dependency_t, 1); - if (name != NULL) - dependency->name = xbt_strdup(name); - else - dependency->name = NULL; - + dependency->name = xbt_strdup(name); /* xbt_strdup is cleaver enough to deal with NULL args itself */ dependency->data = data; dependency->src = src; dependency->dst = dst; @@ -290,38 +621,51 @@ void SD_task_dependency_add(const char *name, void *data, SD_task_t src, SD_task 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, + dst->unsatisfied_dependencies++; + dst->is_not_ready++; + + /* if the task was runnable, then dst->tasks_before is not empty anymore, so we must go back to state SD_SCHEDULED */ - if (__SD_task_is_ready(dst)) { - DEBUG1("SD_task_dependency_add: %s was ready and becomes scheduled!", SD_task_get_name(dst)); + if (__SD_task_is_runnable(dst)) { + XBT_DEBUG + ("SD_task_dependency_add: %s was runnable and becomes scheduled!", + SD_task_get_name(dst)); __SD_task_set_state(dst, SD_SCHEDULED); } /* __SD_print_dependencies(src); - __SD_print_dependencies(dst); */ + __SD_print_dependencies(dst); */ } /** - * \brief Indacates whether there is a dependency between two tasks. + * \brief Indicates whether there is a dependency between two tasks. * * \param src a task * \param dst a task depending on \a src + * + * If src is NULL, checks whether dst has any pre-dependency. + * If dst is NULL, checks whether src has any post-dependency. */ -int SD_task_dependency_exists(SD_task_t src, SD_task_t dst) { - xbt_dynar_t dynar; - int length; - int i; +int SD_task_dependency_exists(SD_task_t src, SD_task_t dst) +{ + unsigned int counter; SD_dependency_t dependency; - SD_CHECK_INIT_DONE(); - xbt_assert0(src != NULL && dst != NULL, "Invalid parameter"); + xbt_assert(src != NULL + || dst != NULL, + "Invalid parameter: both src and dst are NULL"); - dynar = src->tasks_after; - length = xbt_dynar_length(dynar); - - for (i = 0; i < length; i++) { - xbt_dynar_get_cpy(dynar, i, &dependency); - if (dependency->dst == dst) return 1; + if (src) { + if (dst) { + xbt_dynar_foreach(src->tasks_after, counter, dependency) { + if (dependency->dst == dst) + return 1; + } + } else { + return xbt_dynar_length(src->tasks_after); + } + } else { + return xbt_dynar_length(dst->tasks_before); } return 0; } @@ -333,7 +677,8 @@ int SD_task_dependency_exists(SD_task_t src, SD_task_t dst) { * \param dst a task depending on \a src * \see SD_task_dependency_add() */ -void SD_task_dependency_remove(SD_task_t src, SD_task_t dst) { +void SD_task_dependency_remove(SD_task_t src, SD_task_t dst) +{ xbt_dynar_t dynar; int length; @@ -341,9 +686,6 @@ void SD_task_dependency_remove(SD_task_t src, SD_task_t dst) { int i; SD_dependency_t dependency; - SD_CHECK_INIT_DONE(); - xbt_assert0(src != NULL && dst != NULL, "Invalid parameter"); - /* remove the dependency from src->tasks_after */ dynar = src->tasks_after; length = xbt_dynar_length(dynar); @@ -356,33 +698,46 @@ void SD_task_dependency_remove(SD_task_t src, SD_task_t dst) { } } if (!found) - THROW4(arg_error, 0, - "No dependency found between task '%s' and '%s': task '%s' is not a successor of task '%s'", - SD_task_get_name(src), SD_task_get_name(dst), SD_task_get_name(dst), SD_task_get_name(src)); + THROWF(arg_error, 0, + "No dependency found between task '%s' and '%s': task '%s' is not a successor of task '%s'", + SD_task_get_name(src), SD_task_get_name(dst), + SD_task_get_name(dst), SD_task_get_name(src)); /* remove the dependency from dst->tasks_before */ dynar = dst->tasks_before; length = xbt_dynar_length(dynar); found = 0; - + for (i = 0; i < length && !found; i++) { xbt_dynar_get_cpy(dynar, i, &dependency); if (dependency->src == src) { xbt_dynar_remove_at(dynar, i, NULL); __SD_task_dependency_destroy(dependency); + dst->unsatisfied_dependencies--; + dst->is_not_ready--; found = 1; } } /* should never happen... */ - xbt_assert4(found, "SimDag error: task '%s' is a successor of '%s' but task '%s' is not a predecessor of task '%s'", - SD_task_get_name(dst), SD_task_get_name(src), SD_task_get_name(src), SD_task_get_name(dst)); + xbt_assert(found, + "SimDag error: task '%s' is a successor of '%s' but task '%s' is not a predecessor of task '%s'", + SD_task_get_name(dst), SD_task_get_name(src), + SD_task_get_name(src), SD_task_get_name(dst)); + + /* if the task was scheduled and dst->tasks_before is empty now, we can make it runnable */ + + if (dst->unsatisfied_dependencies == 0) { + if (__SD_task_is_scheduled(dst)) + __SD_task_set_state(dst, SD_RUNNABLE); + else + __SD_task_set_state(dst, SD_SCHEDULABLE); + } - /* 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); + if (dst->is_not_ready == 0) + __SD_task_set_state(dst, SD_SCHEDULABLE); - /* __SD_print_dependencies(src); - __SD_print_dependencies(dst);*/ + /* __SD_print_dependencies(src); + __SD_print_dependencies(dst); */ } /** @@ -393,7 +748,8 @@ void SD_task_dependency_remove(SD_task_t src, SD_task_t dst) { * \return the user data associated with this dependency (can be \c NULL) * \see SD_task_dependency_add() */ -void *SD_task_dependency_get_data(SD_task_t src, SD_task_t dst) { +void *SD_task_dependency_get_data(SD_task_t src, SD_task_t dst) +{ xbt_dynar_t dynar; int length; @@ -401,10 +757,6 @@ void *SD_task_dependency_get_data(SD_task_t src, SD_task_t dst) { int i; SD_dependency_t dependency; - - SD_CHECK_INIT_DONE(); - xbt_assert0(src != NULL && dst != NULL, "Invalid parameter"); - dynar = src->tasks_after; length = xbt_dynar_length(dynar); @@ -413,22 +765,31 @@ void *SD_task_dependency_get_data(SD_task_t src, SD_task_t dst) { found = (dependency->dst == dst); } if (!found) - THROW2(arg_error, 0, "No dependency found between task '%s' and '%s'", SD_task_get_name(src), SD_task_get_name(dst)); + THROWF(arg_error, 0, "No dependency found between task '%s' and '%s'", + SD_task_get_name(src), SD_task_get_name(dst)); return dependency->data; } /* temporary function for debugging */ -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"}; +static void __SD_print_watch_points(SD_task_t task) +{ + static const int state_masks[] = + { SD_SCHEDULABLE, SD_SCHEDULED, SD_RUNNING, SD_RUNNABLE, SD_DONE, + SD_FAILED + }; + static const char *state_names[] = + { "schedulable", "scheduled", "running", "runnable", "done", + "failed" + }; int i; - INFO2("Task '%s' watch points (%x): ", SD_task_get_name(task), task->watch_points); + XBT_INFO("Task '%s' watch points (%x): ", SD_task_get_name(task), + task->watch_points); for (i = 0; i < 5; i++) { if (task->watch_points & state_masks[i]) - INFO1("%s ", state_names[i]); + XBT_INFO("%s ", state_names[i]); } } @@ -438,82 +799,99 @@ static void __SD_print_watch_points(SD_task_t task) { * SD_simulate() will stop as soon as the \ref e_SD_task_state_t "state" of this * task becomes the one given in argument. The * watch point is then automatically removed. - * + * * \param task a task * \param state the \ref e_SD_task_state_t "state" you want to watch * (cannot be #SD_NOT_SCHEDULED) * \see SD_task_unwatch() */ -void SD_task_watch(SD_task_t task, e_SD_task_state_t state) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - +void SD_task_watch(SD_task_t task, e_SD_task_state_t state) +{ if (state & SD_NOT_SCHEDULED) - THROW0(arg_error, 0, "Cannot add a watch point for state SD_NOT_SCHEDULED"); + THROWF(arg_error, 0, + "Cannot add a watch point for state SD_NOT_SCHEDULED"); task->watch_points = task->watch_points | state; - /* __SD_print_watch_points(task);*/ + /* __SD_print_watch_points(task); */ } /** * \brief Removes a watch point from a task - * + * * \param task a task * \param state the \ref e_SD_task_state_t "state" you no longer want to watch * \see SD_task_watch() */ -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, - "SimDag error: Cannot have a watch point for state SD_NOT_SCHEDULED"); - +void SD_task_unwatch(SD_task_t task, e_SD_task_state_t state) +{ + xbt_assert(state != SD_NOT_SCHEDULED, + "SimDag error: Cannot have a watch point for state SD_NOT_SCHEDULED"); + task->watch_points = task->watch_points & ~state; - /* __SD_print_watch_points(task);*/ + /* __SD_print_watch_points(task); */ } /** * \brief Returns an approximative estimation of the execution time of a task. - * + * * The estimation is very approximative because the value returned is the time * the task would take if it was executed now and if it was the only task. - * + * * \param task the task to evaluate * \param workstation_nb number of workstations on which the task would be executed * \param workstation_list the workstations on which the task would be executed * \param computation_amount computation amount for each workstation * \param communication_amount communication amount between each pair of workstations - * \param rate task execution speed rate * \see SD_schedule() */ double SD_task_get_execution_time(SD_task_t task, - int workstation_nb, - const SD_workstation_t *workstation_list, - const double *computation_amount, - const double *communication_amount, - double rate) { + int workstation_nb, + const SD_workstation_t * + workstation_list, + const double *computation_amount, + const double *communication_amount) +{ double time, max_time = 0.0; int i, j; - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL && workstation_nb > 0 && workstation_list != NULL && - computation_amount != NULL && communication_amount != NULL, - "Invalid parameter"); + xbt_assert(workstation_nb > 0, "Invalid parameter"); /* the task execution time is the maximum execution time of the parallel tasks */ for (i = 0; i < workstation_nb; i++) { - time = SD_workstation_get_computation_time(workstation_list[i], computation_amount[i]); - - for (j = 0; j < workstation_nb; j++) { - time += SD_route_get_communication_time(workstation_list[i], workstation_list[j], - communication_amount[i * workstation_nb + j]); - } + time = 0.0; + if (computation_amount != NULL) + time = + SD_workstation_get_computation_time(workstation_list[i], + computation_amount[i]); + + if (communication_amount != NULL) + for (j = 0; j < workstation_nb; j++) { + time += + SD_route_get_communication_time(workstation_list[i], + workstation_list[j], + communication_amount[i * + workstation_nb + + j]); + } if (time > max_time) { max_time = time; } } - return max_time * SD_task_get_amount(task); + return max_time; +} + +static XBT_INLINE void SD_task_do_schedule(SD_task_t task) +{ + if (!__SD_task_is_not_scheduled(task) && !__SD_task_is_schedulable(task)) + THROWF(arg_error, 0, "Task '%s' has already been scheduled", + SD_task_get_name(task)); + + /* update the task state */ + if (task->unsatisfied_dependencies == 0) + __SD_task_set_state(task, SD_RUNNABLE); + else + __SD_task_set_state(task, SD_SCHEDULED); } /** @@ -522,188 +900,273 @@ double SD_task_get_execution_time(SD_task_t task, * The task state must be #SD_NOT_SCHEDULED. * Once scheduled, a task will be executed as soon as possible in SD_simulate(), * i.e. when its dependencies are satisfied. - * + * * \param task the task you want to schedule - * \param workstation_nb number of workstations on which the task will be executed + * \param workstation_count number of workstations on which the task will be executed * \param workstation_list the workstations on which the task will be executed * \param computation_amount computation amount for each workstation * \param communication_amount communication amount between each pair of workstations * \param rate task execution speed rate * \see SD_task_unschedule() */ -void SD_task_schedule(SD_task_t task, int workstation_nb, - const SD_workstation_t *workstation_list, const double *computation_amount, - const double *communication_amount, double rate) { - +void SD_task_schedule(SD_task_t task, int workstation_count, + const SD_workstation_t * workstation_list, + const double *computation_amount, + const double *communication_amount, double rate) +{ int communication_nb; - - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - xbt_assert0(workstation_nb > 0, "workstation_nb must be positive"); - - if (!__SD_task_is_not_scheduled(task)) - THROW1(arg_error, 0, "Task '%s' has already been scheduled", SD_task_get_name(task)); + task->workstation_nb = 0; + task->rate = -1; + xbt_assert(workstation_count > 0, "workstation_nb must be positive"); - task->workstation_nb = workstation_nb; + task->workstation_nb = workstation_count; task->rate = rate; - task->computation_amount = xbt_new(double, workstation_nb); - memcpy(task->computation_amount, computation_amount, sizeof(double) * workstation_nb); + if (computation_amount) { + task->computation_amount = xbt_realloc(task->computation_amount, + sizeof(double) * workstation_count); + memcpy(task->computation_amount, computation_amount, + sizeof(double) * workstation_count); + } else { + xbt_free(task->computation_amount); + task->computation_amount = NULL; + } - communication_nb = workstation_nb * workstation_nb; - task->communication_amount = xbt_new(double, communication_nb); - memcpy(task->communication_amount, communication_amount, sizeof(double) * communication_nb); + communication_nb = workstation_count * workstation_count; + if (communication_amount) { + task->communication_amount = xbt_realloc(task->communication_amount, + sizeof(double) * communication_nb); + memcpy(task->communication_amount, communication_amount, + sizeof(double) * communication_nb); + } else { + xbt_free(task->communication_amount); + task->communication_amount = NULL; + } - task->workstation_list = xbt_new(SD_workstation_t, workstation_nb); - memcpy(task->workstation_list, workstation_list, sizeof(SD_workstation_t) * workstation_nb); + task->workstation_list = + xbt_realloc(task->workstation_list, + sizeof(SD_workstation_t) * workstation_count); + memcpy(task->workstation_list, workstation_list, + sizeof(SD_workstation_t) * workstation_count); - /* 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); + SD_task_do_schedule(task); } /** * \brief Unschedules a task * - * The task state must be #SD_SCHEDULED, #SD_READY, #SD_RUNNING or #SD_FAILED. + * The task state must be #SD_SCHEDULED, #SD_RUNNABLE, #SD_RUNNING or #SD_FAILED. * If you call this function, the task state becomes #SD_NOT_SCHEDULED. * Call SD_task_schedule() to schedule it again. * * \param task the task you want to unschedule * \see SD_task_schedule() */ -void SD_task_unschedule(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - +void SD_task_unschedule(SD_task_t task) +{ if (task->state_set != sd_global->scheduled_task_set && - task->state_set != sd_global->ready_task_set && + task->state_set != sd_global->runnable_task_set && task->state_set != sd_global->running_task_set && task->state_set != sd_global->failed_task_set) - THROW1(arg_error, 0, "Task %s: the state must be SD_SCHEDULED, SD_READY, SD_RUNNING or SD_FAILED", - SD_task_get_name(task)); + THROWF(arg_error, 0, + "Task %s: the state must be SD_SCHEDULED, SD_RUNNABLE, 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 */ + if (__SD_task_is_scheduled_or_runnable(task) /* if the task is scheduled or runnable */ + && ((task->kind == SD_TASK_COMP_PAR_AMDAHL) || + (task->kind == SD_TASK_COMM_PAR_MXN_1D_BLOCK))) { /* Don't free scheduling data for typed tasks */ __SD_task_destroy_scheduling_data(task); + task->workstation_list=NULL; + task->workstation_nb = 0; + } - 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); + if (__SD_task_is_running(task)) /* the task should become SD_FAILED */ + surf_workstation_model->action_cancel(task->surf_action); + else { + if (task->unsatisfied_dependencies == 0) + __SD_task_set_state(task, SD_SCHEDULABLE); + else + __SD_task_set_state(task, SD_NOT_SCHEDULED); + } task->remains = task->amount; task->start_time = -1.0; } -/* Destroys the data memorised by SD_task_schedule. Task state must be SD_SCHEDULED or SD_READY. +/* Destroys the data memorized by SD_task_schedule. Task state must be SD_SCHEDULED or SD_RUNNABLE. */ -static void __SD_task_destroy_scheduling_data(SD_task_t task) { - SD_CHECK_INIT_DONE(); - if (!__SD_task_is_scheduled_or_ready(task) && !__SD_task_is_in_fifo(task)) - THROW1(arg_error, 0, "Task '%s' must be SD_SCHEDULED, SD_READY or SD_IN_FIFO", SD_task_get_name(task)); +static void __SD_task_destroy_scheduling_data(SD_task_t task) +{ + if (!__SD_task_is_scheduled_or_runnable(task) + && !__SD_task_is_in_fifo(task)) + THROWF(arg_error, 0, + "Task '%s' must be SD_SCHEDULED, SD_RUNNABLE or SD_IN_FIFO", + SD_task_get_name(task)); xbt_free(task->computation_amount); xbt_free(task->communication_amount); + task->computation_amount = task->communication_amount = NULL; } /* Runs a task. This function is directly called by __SD_task_try_to_run if the task * doesn't have to wait in fifos. Otherwise, it is called by __SD_task_just_done when * the task gets out of its fifos. */ -void __SD_task_really_run(SD_task_t task) { +void __SD_task_really_run(SD_task_t task) +{ int i; void **surf_workstations; - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - xbt_assert2(__SD_task_is_ready_or_in_fifo(task), "Task '%s' is not ready or in a fifo! Task state: %d", - SD_task_get_name(task), SD_task_get_state(task)); - xbt_assert1(task->workstation_list != NULL, "Task '%s': workstation_list is NULL!", SD_task_get_name(task)); + xbt_assert(__SD_task_is_runnable_or_in_fifo(task), + "Task '%s' is not runnable or in a fifo! Task state: %d", + SD_task_get_name(task), (int)SD_task_get_state(task)); + xbt_assert(task->workstation_list != NULL, + "Task '%s': workstation_list is NULL!", + SD_task_get_name(task)); - DEBUG1("Really running task '%s'", SD_task_get_name(task)); + XBT_DEBUG("Really running task '%s'", SD_task_get_name(task)); /* set this task as current task for the workstations in sequential mode */ for (i = 0; i < task->workstation_nb; i++) { - if (SD_workstation_get_access_mode(task->workstation_list[i]) == SD_WORKSTATION_SEQUENTIAL_ACCESS) { + if (SD_workstation_get_access_mode(task->workstation_list[i]) == + SD_WORKSTATION_SEQUENTIAL_ACCESS) { task->workstation_list[i]->current_task = task; - xbt_assert0(__SD_workstation_is_busy(task->workstation_list[i]), "The workstation should be busy now"); + xbt_assert(__SD_workstation_is_busy(task->workstation_list[i]), + "The workstation should be busy now"); } } - - DEBUG1("Task '%s' set as current task for its workstations", SD_task_get_name(task)); + + XBT_DEBUG("Task '%s' set as current task for its workstations", + SD_task_get_name(task)); /* start the task */ - /* we have to create a Surf workstation array instead of the SimDag workstation array */ - surf_workstations = xbt_new(void*, task->workstation_nb); + /* we have to create a Surf workstation array instead of the SimDag + * workstation array */ + surf_workstations = xbt_new(void *, task->workstation_nb); - for (i = 0; i < task->workstation_nb; i++) { + for (i = 0; i < task->workstation_nb; i++) surf_workstations[i] = task->workstation_list[i]->surf_workstation; + + /* It's allowed to pass a NULL vector as cost to mean vector of 0.0 (easing + * user's life). Let's deal with it */ +#define cost_or_zero(array,pos) ((array)?(array)[pos]:0.0) + + task->surf_action = NULL; + if ((task->workstation_nb == 1) + && (cost_or_zero(task->communication_amount, 0) == 0.0)) { + task->surf_action = + surf_workstation_model->extension. + workstation.execute(surf_workstations[0], + cost_or_zero(task->computation_amount, 0)); + } else if ((task->workstation_nb == 1) + && (cost_or_zero(task->computation_amount, 0) == 0.0)) { + + task->surf_action = + surf_workstation_model->extension. + workstation.communicate(surf_workstations[0], surf_workstations[0], + cost_or_zero(task->communication_amount, + 0), task->rate); + } else if ((task->workstation_nb == 2) + && (cost_or_zero(task->computation_amount, 0) == 0.0) + && (cost_or_zero(task->computation_amount, 1) == 0.0)) { + int nb = 0; + double value = 0.0; + + for (i = 0; i < task->workstation_nb * task->workstation_nb; i++) { + if (cost_or_zero(task->communication_amount, i) > 0.0) { + nb++; + value = cost_or_zero(task->communication_amount, i); + } + } + if (nb == 1) { + task->surf_action = + surf_workstation_model->extension. + workstation.communicate(surf_workstations[0], + surf_workstations[1], value, task->rate); + } } - - task->surf_action = surf_workstation_resource->extension_public-> - execute_parallel_task(task->workstation_nb, - surf_workstations, - task->computation_amount, - task->communication_amount, - task->amount, - task->rate); - surf_workstation_resource->common_public->action_set_data(task->surf_action, task); - task->state_changed = 1; - - DEBUG1("surf_action = %p", task->surf_action); - - xbt_free(surf_workstations); - __SD_task_destroy_scheduling_data(task); /* now the scheduling data are not useful anymore */ +#undef cost_or_zero + + if (!task->surf_action) { + double *computation_amount = xbt_new(double, task->workstation_nb); + double *communication_amount = xbt_new(double, task->workstation_nb * + task->workstation_nb); + + memcpy(computation_amount, task->computation_amount, sizeof(double) * + task->workstation_nb); + memcpy(communication_amount, task->communication_amount, + sizeof(double) * task->workstation_nb * task->workstation_nb); + + task->surf_action = + surf_workstation_model->extension. + workstation.execute_parallel_task(task->workstation_nb, + surf_workstations, + computation_amount, + communication_amount, + task->rate); + } else { + xbt_free(surf_workstations); + } + + surf_workstation_model->action_data_set(task->surf_action, task); + + XBT_DEBUG("surf_action = %p", task->surf_action); + +#ifdef HAVE_TRACING + if (task->category) + TRACE_surf_action(task->surf_action, task->category); +#endif + + __SD_task_destroy_scheduling_data(task); /* now the scheduling data are not useful anymore */ __SD_task_set_state(task, SD_RUNNING); - xbt_assert2(__SD_task_is_running(task), "Bad state of task '%s': %d", - SD_task_get_name(task), SD_task_get_state(task)); + xbt_assert(__SD_task_is_running(task), "Bad state of task '%s': %d", + SD_task_get_name(task), (int)SD_task_get_state(task)); } -/* Tries to run a task. This function is called by SD_simulate() when a scheduled task becomes SD_READY +/* Tries to run a task. This function is called by SD_simulate() when a scheduled task becomes SD_RUNNABLE * (ie when its dependencies are satisfied). * If one of the workstations where the task is scheduled on is busy (in sequential mode), * the task doesn't start. * Returns whether the task has started. */ -int __SD_task_try_to_run(SD_task_t task) { +int __SD_task_try_to_run(SD_task_t task) +{ int can_start = 1; int i; SD_workstation_t workstation; - 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)); + xbt_assert(__SD_task_is_runnable(task), + "Task '%s' is not runnable! Task state: %d", + SD_task_get_name(task), (int)SD_task_get_state(task)); for (i = 0; i < task->workstation_nb; i++) { - can_start = !__SD_workstation_is_busy(task->workstation_list[i]); + can_start = can_start && + !__SD_workstation_is_busy(task->workstation_list[i]); } - DEBUG2("Task '%s' can start: %d", SD_task_get_name(task), can_start); - - if (!can_start) { /* if the task cannot start and is not in the fifos yet*/ + XBT_DEBUG("Task '%s' can start: %d", SD_task_get_name(task), can_start); + + if (!can_start) { /* if the task cannot start and is not in the fifos yet */ for (i = 0; i < task->workstation_nb; i++) { workstation = task->workstation_list[i]; if (workstation->access_mode == SD_WORKSTATION_SEQUENTIAL_ACCESS) { - DEBUG2("Pushing task '%s' in the fifo of workstation '%s'", SD_task_get_name(task), - SD_workstation_get_name(workstation)); - xbt_fifo_push(workstation->task_fifo, task); + XBT_DEBUG("Pushing task '%s' in the fifo of workstation '%s'", + SD_task_get_name(task), + SD_workstation_get_name(workstation)); + xbt_fifo_push(workstation->task_fifo, task); } } __SD_task_set_state(task, SD_IN_FIFO); - xbt_assert2(__SD_task_is_in_fifo(task), "Bad state of task '%s': %d", - SD_task_get_name(task), SD_task_get_state(task)); - DEBUG1("Task '%s' state is now SD_IN_FIFO", SD_task_get_name(task)); - } - else { + xbt_assert(__SD_task_is_in_fifo(task), "Bad state of task '%s': %d", + SD_task_get_name(task), (int)SD_task_get_state(task)); + XBT_DEBUG("Task '%s' state is now SD_IN_FIFO", SD_task_get_name(task)); + } else { __SD_task_really_run(task); } @@ -714,8 +1177,9 @@ int __SD_task_try_to_run(SD_task_t task) { * It updates task->state and task->action and executes if necessary the tasks * which were waiting in fifos for the end of `task' */ -void __SD_task_just_done(SD_task_t task) { - int i, j; +void __SD_task_just_done(SD_task_t task) +{ + int i, j; SD_workstation_t workstation; SD_task_t candidate; @@ -724,131 +1188,158 @@ void __SD_task_just_done(SD_task_t task) { SD_task_t *candidates; int can_start = 1; - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - xbt_assert1(__SD_task_is_running(task), "The task must be running! Task state: %d", SD_task_get_state(task)); - xbt_assert1(task->workstation_list != NULL, "Task '%s': workstation_list is NULL!", SD_task_get_name(task)); + xbt_assert(__SD_task_is_running(task), + "The task must be running! Task state: %d", + (int)SD_task_get_state(task)); + xbt_assert(task->workstation_list != NULL, + "Task '%s': workstation_list is NULL!", + SD_task_get_name(task)); candidates = xbt_new(SD_task_t, 8); __SD_task_set_state(task, SD_DONE); - surf_workstation_resource->common_public->action_free(task->surf_action); + surf_workstation_model->action_unref(task->surf_action); task->surf_action = NULL; - DEBUG0("Looking for candidates"); + XBT_DEBUG("Looking for candidates"); /* if the task was executed on sequential workstations, maybe we can execute the next task of the fifo for each workstation */ for (i = 0; i < task->workstation_nb; i++) { workstation = task->workstation_list[i]; - DEBUG2("Workstation '%s': access_mode = %d", SD_workstation_get_name(workstation), workstation->access_mode); + XBT_DEBUG("Workstation '%s': access_mode = %d", + SD_workstation_get_name(workstation), (int)workstation->access_mode); if (workstation->access_mode == SD_WORKSTATION_SEQUENTIAL_ACCESS) { - xbt_assert1(workstation->task_fifo != NULL, "Workstation '%s' has sequential access but no fifo!", - SD_workstation_get_name(workstation)); - xbt_assert2(workstation->current_task = task, "Workstation '%s': current task should be '%s'", - SD_workstation_get_name(workstation), SD_task_get_name(task)); + xbt_assert(workstation->task_fifo != NULL, + "Workstation '%s' has sequential access but no fifo!", + SD_workstation_get_name(workstation)); + xbt_assert(workstation->current_task = + task, "Workstation '%s': current task should be '%s'", + SD_workstation_get_name(workstation), + SD_task_get_name(task)); /* the task is over so we can release the workstation */ workstation->current_task = NULL; - DEBUG0("Getting candidate in fifo"); - candidate = xbt_fifo_get_item_content(xbt_fifo_get_first_item(workstation->task_fifo)); + XBT_DEBUG("Getting candidate in fifo"); + candidate = + xbt_fifo_get_item_content(xbt_fifo_get_first_item + (workstation->task_fifo)); if (candidate != NULL) { - DEBUG1("Candidate: '%s'", SD_task_get_name(candidate)); - xbt_assert2(__SD_task_is_in_fifo(candidate), "Bad state of candidate '%s': %d", - SD_task_get_name(candidate), SD_task_get_state(candidate)); + XBT_DEBUG("Candidate: '%s'", SD_task_get_name(candidate)); + xbt_assert(__SD_task_is_in_fifo(candidate), + "Bad state of candidate '%s': %d", + SD_task_get_name(candidate), + (int)SD_task_get_state(candidate)); } - DEBUG1("Candidate in fifo: %p", candidate); + XBT_DEBUG("Candidate in fifo: %p", candidate); /* if there was a task waiting for my place */ if (candidate != NULL) { - /* Unfortunately, we are not sure yet that we can execute the task now, - because the task can be waiting more deeply in some other workstation's fifos... - So we memorize all candidate tasks, and then we will check for each candidate - whether or not all its workstations are available. */ - - /* realloc if necessary */ - if (candidate_nb == candidate_capacity) { - candidate_capacity *= 2; - candidates = xbt_realloc(candidates, sizeof(SD_task_t) * candidate_capacity); - } - - /* register the candidate */ - candidates[candidate_nb++] = candidate; - candidate->fifo_checked = 0; + /* Unfortunately, we are not sure yet that we can execute the task now, + because the task can be waiting more deeply in some other workstation's fifos... + So we memorize all candidate tasks, and then we will check for each candidate + whether or not all its workstations are available. */ + + /* realloc if necessary */ + if (candidate_nb == candidate_capacity) { + candidate_capacity *= 2; + candidates = + xbt_realloc(candidates, + sizeof(SD_task_t) * candidate_capacity); + } + + /* register the candidate */ + candidates[candidate_nb++] = candidate; + candidate->fifo_checked = 0; } } } - DEBUG1("Candidates found: %d", candidate_nb); + XBT_DEBUG("Candidates found: %d", candidate_nb); /* now we check every candidate task */ for (i = 0; i < candidate_nb; i++) { candidate = candidates[i]; if (candidate->fifo_checked) { - continue; /* we have already evaluated that task*/ + continue; /* we have already evaluated that task */ } - xbt_assert2(__SD_task_is_in_fifo(candidate), "Bad state of candidate '%s': %d", - SD_task_get_name(candidate), SD_task_get_state(candidate)); + xbt_assert(__SD_task_is_in_fifo(candidate), + "Bad state of candidate '%s': %d", + SD_task_get_name(candidate), (int)SD_task_get_state(candidate)); for (j = 0; j < candidate->workstation_nb && can_start; j++) { workstation = candidate->workstation_list[j]; /* I can start on this workstation if the workstation is shared - or if I am the first task in the fifo */ - can_start = workstation->access_mode == SD_WORKSTATION_SHARED_ACCESS || - candidate == xbt_fifo_get_item_content(xbt_fifo_get_first_item(workstation->task_fifo)); + or if I am the first task in the fifo */ + can_start = workstation->access_mode == SD_WORKSTATION_SHARED_ACCESS + || candidate == + xbt_fifo_get_item_content(xbt_fifo_get_first_item + (workstation->task_fifo)); } - DEBUG2("Candidate '%s' can start: %d", SD_task_get_name(candidate), can_start); + XBT_DEBUG("Candidate '%s' can start: %d", SD_task_get_name(candidate), + can_start); /* now we are sure that I can start! */ if (can_start) { for (j = 0; j < candidate->workstation_nb && can_start; j++) { - workstation = candidate->workstation_list[j]; - - /* update the fifo */ - if (workstation->access_mode == SD_WORKSTATION_SEQUENTIAL_ACCESS) { - candidate = xbt_fifo_shift(workstation->task_fifo); /* the return value is stored just for debugging */ - DEBUG1("Head of the fifo: '%s'", (candidate != NULL) ? SD_task_get_name(candidate) : "NULL"); - xbt_assert0(candidate == candidates[i], "Error in __SD_task_just_done: bad first task in the fifo"); - } - } /* for each workstation */ - + workstation = candidate->workstation_list[j]; + + /* update the fifo */ + if (workstation->access_mode == SD_WORKSTATION_SEQUENTIAL_ACCESS) { + candidate = xbt_fifo_shift(workstation->task_fifo); /* the return value is stored just for debugging */ + XBT_DEBUG("Head of the fifo: '%s'", + (candidate != + NULL) ? SD_task_get_name(candidate) : "NULL"); + xbt_assert(candidate == candidates[i], + "Error in __SD_task_just_done: bad first task in the fifo"); + } + } /* for each workstation */ + /* finally execute the task */ - DEBUG2("Task '%s' state: %d", SD_task_get_name(candidate), SD_task_get_state(candidate)); + XBT_DEBUG("Task '%s' state: %d", SD_task_get_name(candidate), + (int)SD_task_get_state(candidate)); __SD_task_really_run(candidate); - - DEBUG4("Calling __SD_task_is_running: task '%s', state set: %p, running_task_set: %p, is running: %d", - SD_task_get_name(candidate), candidate->state_set, sd_global->running_task_set, __SD_task_is_running(candidate)); - xbt_assert2(__SD_task_is_running(candidate), "Bad state of task '%s': %d", - SD_task_get_name(candidate), SD_task_get_state(candidate)); - DEBUG0("Okay, the task is running."); - - } /* can start */ + + XBT_DEBUG + ("Calling __SD_task_is_running: task '%s', state set: %p, running_task_set: %p, is running: %d", + SD_task_get_name(candidate), candidate->state_set, + sd_global->running_task_set, __SD_task_is_running(candidate)); + xbt_assert(__SD_task_is_running(candidate), + "Bad state of task '%s': %d", + SD_task_get_name(candidate), + (int)SD_task_get_state(candidate)); + XBT_DEBUG("Okay, the task is running."); + + } /* can start */ candidate->fifo_checked = 1; - } /* for each candidate */ - + } /* for each candidate */ + xbt_free(candidates); } -/* Remove all dependencies associated with a task. This function is called when the task is destroyed. +/* + * Remove all dependencies associated with a task. This function is called + * when the task is destroyed. */ -static void __SD_task_remove_dependencies(SD_task_t task) { +static 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->tasks_before) > 0) { + while (!xbt_dynar_is_empty(task->tasks_before)) { xbt_dynar_get_cpy(task->tasks_before, 0, &dependency); SD_task_dependency_remove(dependency->src, dependency->dst); } - while (xbt_dynar_length(task->tasks_after) > 0) { + while (!xbt_dynar_is_empty(task->tasks_after)) { xbt_dynar_get_cpy(task->tasks_after, 0, &dependency); SD_task_dependency_remove(dependency->src, dependency->dst); } @@ -862,12 +1353,12 @@ static void __SD_task_remove_dependencies(SD_task_t task) { * \param task: a task * \return the start time of this task */ -double SD_task_get_start_time(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - if(task->surf_action) - return surf_workstation_resource->common_public->action_get_start_time(task->surf_action); - else +double SD_task_get_start_time(SD_task_t task) +{ + if (task->surf_action) + return surf_workstation_model-> + action_get_start_time(task->surf_action); + else return task->start_time; } @@ -876,56 +1367,330 @@ double SD_task_get_start_time(SD_task_t task) { * * The task state must be SD_RUNNING, SD_DONE or SD_FAILED. * If the state is not completed yet, the returned value is an - * estimation of the task finish time. This value can fluctuate + * estimation of the task finish time. This value can fluctuate * until the task is completed. * * \param task: a task * \return the start time of this task */ -double SD_task_get_finish_time(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - - if(task->surf_action) /* should never happen as actions are destroyed right after their completion */ - return surf_workstation_resource->common_public->action_get_finish_time(task->surf_action); - else +double SD_task_get_finish_time(SD_task_t task) +{ + if (task->surf_action) /* should never happen as actions are destroyed right after their completion */ + return surf_workstation_model-> + action_get_finish_time(task->surf_action); + else return task->finish_time; } - -/** - * \brief Destroys a task. - * - * The user data (if any) should have been destroyed first. +/** @brief Blah * - * \param task the task you want to destroy - * \see SD_task_create() */ -void SD_task_destroy(SD_task_t task) { - SD_CHECK_INIT_DONE(); - xbt_assert0(task != NULL, "Invalid parameter"); - - DEBUG1("Destroying task %s...", SD_task_get_name(task)); - - __SD_task_remove_dependencies(task); +void SD_task_distribute_comp_amdhal(SD_task_t task, int ws_count) +{ + int i; + xbt_assert(task->kind == SD_TASK_COMP_PAR_AMDAHL, + "Task %s is not a SD_TASK_COMP_PAR_AMDAHL typed task." + "Cannot use this function.", + SD_task_get_name(task)); + + task->computation_amount = xbt_new0(double, ws_count); + task->communication_amount = xbt_new0(double, ws_count * ws_count); + task->workstation_nb = ws_count; + task->workstation_list = xbt_new0(SD_workstation_t, ws_count); + + for(i=0;icomputation_amount[i] = + (task->alpha + (1 - task->alpha)/ws_count) * task->amount; + } +} - /* 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); +/** @brief Auto-schedules a task. + * + * Auto-scheduling mean that the task can be used with SD_task_schedulev(). This + * allows to specify the task costs at creation, and decorelate them from the + * scheduling process where you just specify which resource should deliver the + * mandatory power. + * + * To be auto-schedulable, a task must be created with SD_task_create_comm_e2e() or + * SD_task_create_comp_seq(). Check their definitions for the exact semantic of each + * of them. + * + * @todo + * We should create tasks kind for the following categories: + * - Point to point communication (done) + * - Sequential computation (done) + * - group communication (redistribution, several kinds) + * - parallel tasks with no internal communication (one kind per speedup model such as amdal) + * - idem+ internal communication. Task type not enough since we cannot store comm cost alongside to comp one) + */ +void SD_task_schedulev(SD_task_t task, int count, + const SD_workstation_t * list) +{ + int i, j; + SD_dependency_t dep; + unsigned int cpt; + xbt_assert(task->kind != 0, + "Task %s is not typed. Cannot automatically schedule it.", + SD_task_get_name(task)); + switch (task->kind) { + case SD_TASK_COMP_PAR_AMDAHL: + SD_task_distribute_comp_amdhal(task, count); + case SD_TASK_COMM_E2E: + case SD_TASK_COMP_SEQ: + xbt_assert(task->workstation_nb == count,"Got %d locations, but were expecting %d locations",count,task->workstation_nb); + for (i = 0; i < count; i++) + task->workstation_list[i] = list[i]; + SD_task_do_schedule(task); + break; + default: + xbt_die("Kind of task %s not supported by SD_task_schedulev()", + SD_task_get_name(task)); + } + if (task->kind == SD_TASK_COMM_E2E) { + XBT_VERB("Schedule comm task %s between %s -> %s. It costs %.f bytes", + SD_task_get_name(task), + SD_workstation_get_name(task->workstation_list[0]), + SD_workstation_get_name(task->workstation_list[1]), + task->communication_amount[2]); - if (task->surf_action != NULL) - surf_workstation_resource->common_public->action_free(task->surf_action); + } - if (task->workstation_list != NULL) - xbt_free(task->workstation_list); + /* Iterate over all childs and parent being COMM_E2E to say where I am located (and start them if runnable) */ + if (task->kind == SD_TASK_COMP_SEQ) { + XBT_VERB("Schedule computation task %s on %s. It costs %.f flops", + SD_task_get_name(task), + SD_workstation_get_name(task->workstation_list[0]), + task->computation_amount[0]); + + xbt_dynar_foreach(task->tasks_before, cpt, dep) { + SD_task_t before = dep->src; + if (before->kind == SD_TASK_COMM_E2E) { + before->workstation_list[1] = task->workstation_list[0]; + + if (before->workstation_list[0] && + (__SD_task_is_schedulable(before) + || __SD_task_is_not_scheduled(before))) { + SD_task_do_schedule(before); + XBT_VERB + ("Auto-Schedule comm task %s between %s -> %s. It costs %.f bytes", + SD_task_get_name(before), + SD_workstation_get_name(before->workstation_list[0]), + SD_workstation_get_name(before->workstation_list[1]), + before->communication_amount[2]); + } + } + } + xbt_dynar_foreach(task->tasks_after, cpt, dep) { + SD_task_t after = dep->dst; + if (after->kind == SD_TASK_COMM_E2E) { + after->workstation_list[0] = task->workstation_list[0]; + if (after->workstation_list[1] + && (__SD_task_is_not_scheduled(after) + || __SD_task_is_schedulable(after))) { + SD_task_do_schedule(after); + XBT_VERB + ("Auto-Schedule comm task %s between %s -> %s. It costs %.f bytes", + SD_task_get_name(after), + SD_workstation_get_name(after->workstation_list[0]), + SD_workstation_get_name(after->workstation_list[1]), + after->communication_amount[2]); + + } + } + } + } + /* Iterate over all childs and parent being MXN_1D_BLOC to say where I am located (and start them if runnable) */ + if (task->kind == SD_TASK_COMP_PAR_AMDAHL) { + XBT_VERB("Schedule computation task %s on %d workstations. %.f flops" + " will be distributed following Amdahl'Law", + SD_task_get_name(task), task->workstation_nb, + task->computation_amount[0]); + xbt_dynar_foreach(task->tasks_before, cpt, dep) { + SD_task_t before = dep->src; + if (before->kind == SD_TASK_COMM_PAR_MXN_1D_BLOCK){ + if (!before->workstation_list){ + XBT_VERB("Sender side of Task %s is not scheduled yet. Fill the workstation list with receiver side", + SD_task_get_name(before)); + before->workstation_list = xbt_new0(SD_workstation_t, count); + before->workstation_nb = count; + for (i=0;iworkstation_list[i] = task->workstation_list[i]; + } else { + int src_nb, dst_nb; + double src_start, src_end, dst_start, dst_end; + src_nb = before->workstation_nb; + dst_nb = count; + before->workstation_list = (SD_workstation_t*) xbt_realloc( + before->workstation_list, + (before->workstation_nb+count)*sizeof(s_SD_workstation_t)); + for(i=0; iworkstation_list[before->workstation_nb+i] = + task->workstation_list[i]; + + before->workstation_nb += count; + + before->computation_amount = xbt_new0(double, + before->workstation_nb); + before->communication_amount = xbt_new0(double, + before->workstation_nb* + before->workstation_nb); + + for(i=0;iamount/src_nb; + src_end = src_start + before->amount/src_nb; + for(j=0; jamount/dst_nb; + dst_end = dst_start + before->amount/dst_nb; + XBT_VERB("(%s->%s): (%.2f, %.2f)-> (%.2f, %.2f)", + SD_workstation_get_name(before->workstation_list[i]), + SD_workstation_get_name(before->workstation_list[src_nb+j]), + src_start, src_end, dst_start, dst_end); + if ((src_end <= dst_start) || (dst_end <= src_start)) { + before->communication_amount[i*(src_nb+dst_nb)+src_nb+j]=0.0; + } else { + before->communication_amount[i*(src_nb+dst_nb)+src_nb+j] = + MIN(src_end, dst_end) - MAX(src_start, dst_start); + } + XBT_VERB("==> %.2f", + before->communication_amount[i*(src_nb+dst_nb)+src_nb+j]); + } + } + + if (__SD_task_is_schedulable(before) || + __SD_task_is_not_scheduled(before)) { + SD_task_do_schedule(before); + XBT_VERB + ("Auto-Schedule redistribution task %s. Send %.f bytes from %d hosts to %d hosts.", + SD_task_get_name(before),before->amount, src_nb, dst_nb); + } + } + } + } + xbt_dynar_foreach(task->tasks_after, cpt, dep) { + SD_task_t after = dep->dst; + if (after->kind == SD_TASK_COMM_PAR_MXN_1D_BLOCK){ + if (!after->workstation_list){ + XBT_VERB("Receiver side of Task %s is not scheduled yet. Fill the workstation list with sender side", + SD_task_get_name(after)); + after->workstation_list = xbt_new0(SD_workstation_t, count); + after->workstation_nb = count; + for (i=0;iworkstation_list[i] = task->workstation_list[i]; + } else { + int src_nb, dst_nb; + double src_start, src_end, dst_start, dst_end; + src_nb = count; + dst_nb = after->workstation_nb; + after->workstation_list = (SD_workstation_t*) xbt_realloc( + after->workstation_list, + (after->workstation_nb+count)*sizeof(s_SD_workstation_t)); + for(i=after->workstation_nb - 1; i>=0; i--) + after->workstation_list[count+i] = after->workstation_list[i]; + for(i=0; iworkstation_list[i] = task->workstation_list[i]; + + after->workstation_nb += count; + + after->computation_amount = xbt_new0(double, after->workstation_nb); + after->communication_amount = xbt_new0(double, + after->workstation_nb* + after->workstation_nb); + + for(i=0;iamount/src_nb; + src_end = src_start + after->amount/src_nb; + for(j=0; jamount/dst_nb; + dst_end = dst_start + after->amount/dst_nb; + XBT_VERB("(%d->%d): (%.2f, %.2f)-> (%.2f, %.2f)", + i, j, src_start, src_end, dst_start, dst_end); + if ((src_end <= dst_start) || (dst_end <= src_start)) { + after->communication_amount[i*(src_nb+dst_nb)+src_nb+j]=0.0; + } else { + after->communication_amount[i*(src_nb+dst_nb)+src_nb+j] = + MIN(src_end, dst_end)- MAX(src_start, dst_start); + } + XBT_VERB("==> %.2f", + after->communication_amount[i*(src_nb+dst_nb)+src_nb+j]); + } + } + + if (__SD_task_is_schedulable(after) || + __SD_task_is_not_scheduled(after)) { + SD_task_do_schedule(after); + XBT_VERB + ("Auto-Schedule redistribution task %s. Send %.f bytes from %d hosts to %d hosts.", + SD_task_get_name(after),after->amount, src_nb, dst_nb); + } + } + } + } + } +} - xbt_dynar_free(&task->tasks_before); - xbt_dynar_free(&task->tasks_after); - xbt_free(task); +/** @brief autoschedule a task on a list of workstations + * + * This function is very similar to SD_task_schedulev(), + * but takes the list of workstations to schedule onto as separate parameters. + * It builds a proper vector of workstations and then call SD_task_schedulev() + */ +void SD_task_schedulel(SD_task_t task, int count, ...) +{ + va_list ap; + SD_workstation_t *list = xbt_new(SD_workstation_t, count); + int i; + va_start(ap, count); + for (i = 0; i < count; i++) { + list[i] = va_arg(ap, SD_workstation_t); + } + va_end(ap); + SD_task_schedulev(task, count, list); + free(list); +} - sd_global->task_number--; +/** + * \brief Sets the tracing category of a task. + * + * This function should be called after the creation of a + * SimDAG task, to define the category of that task. The first + * parameter must contain a task that was created with the + * function #SD_task_create. The second parameter must contain + * a category that was previously declared with the function + * #TRACE_category. + * + * \param task The task to be considered + * \param category the name of the category to be associated to the task + * + * \see SD_task_get_category, TRACE_category, TRACE_category_with_color + */ +void SD_task_set_category (SD_task_t task, const char *category) +{ +#ifdef HAVE_TRACING + if (!TRACE_is_enabled()) return; + if (task == NULL) return; + if (category == NULL){ + if (task->category) xbt_free (task->category); + task->category = NULL; + }else{ + task->category = xbt_strdup (category); + } +#endif +} - DEBUG0("Task destroyed."); +/** + * \brief Gets the current tracing category of a task. + * + * \param task The task to be considered + * + * \see SD_task_set_category + * + * \return Returns the name of the tracing category of the given task, NULL otherwise + */ +const char *SD_task_get_category (SD_task_t task) +{ +#ifdef HAVE_TRACING + return task->category; +#else + return NULL; +#endif }