char* argv3 = bprintf("%f", bound);
const char* argv[] = {pr_name, argv1, argv2, argv3, NULL};
- sg_actor_t actor = sg_actor_init(pr_name, host);
- sg_actor_start(actor, worker_main, 4, argv);
+ sg_actor_create(pr_name, host, worker_main, 4, argv);
free(argv1);
free(argv2);
sg_vm_start(vm0);
sg_vm_start(vm1);
- int w0_argc = 3;
const char* w0_argv[] = {"worker0", "Task0", "-1.0", NULL};
- sg_actor_t w0 = sg_actor_init("worker0", (sg_host_t)vm0);
- sg_actor_start(w0, worker_busy_loop, w0_argc, w0_argv);
+ sg_actor_create("worker0", (sg_host_t)vm0, worker_busy_loop, 3, w0_argv);
- int w1_argc = 3;
char* speed = bprintf("%f", sg_host_speed(pm0));
const char* w1_argv[] = {"worker1", "Task1", speed, NULL};
-
- sg_actor_t w1 = sg_actor_init("worker1", (sg_host_t)vm1);
- sg_actor_start(w1, worker_busy_loop, w1_argc, w1_argv);
+ sg_actor_create("worker1", (sg_host_t)vm1, worker_busy_loop, 3, w1_argv);
sg_actor_sleep_for(3000); // let the tasks end
const double computation_amount = cpu_speed * 10;
const char* hostA_name = sg_host_get_name(hostA);
- XBT_INFO("### Test: with/without MSG_task_set_bound");
+ XBT_INFO("### Test: with/without sg_exec_set_bound");
XBT_INFO("### Test: no bound for Task1@%s", hostA_name);
launch_worker(hostA, "worker0", computation_amount, 0, 0);
simgrid_load_platform(argv[1]);
- sg_actor_t actor = sg_actor_init("master_", sg_host_by_name("Fafard"));
- sg_actor_start(actor, master_main, 0, NULL);
+ sg_actor_create("master_", sg_host_by_name("Fafard"), master_main, 0, NULL);
simgrid_run();
XBT_INFO("Bye (simulation time %g)", simgrid_get_clock());