A
lgorithmique
N
umérique
D
istribuée
Public GIT Repository
projects
/
simgrid.git
/ blobdiff
commit
grep
author
committer
pickaxe
?
search:
re
summary
|
shortlog
|
log
|
commit
|
commitdiff
|
tree
raw
| inline |
side by side
Split up Fortran bindings in several files to avoid 2000 lines files.
[simgrid.git]
/
examples
/
msg
/
cloud-capping
/
cloud-capping.c
diff --git
a/examples/msg/cloud-capping/cloud-capping.c
b/examples/msg/cloud-capping/cloud-capping.c
index
5ecfd7b
..
73b3eda
100644
(file)
--- a/
examples/msg/cloud-capping/cloud-capping.c
+++ b/
examples/msg/cloud-capping/cloud-capping.c
@@
-66,15
+66,15
@@
static void test_dynamic_change(void)
{
msg_host_t pm0 = MSG_host_by_name("Fafard");
- msg_
host
_t vm0 = MSG_vm_create_core(pm0, "VM0");
- msg_
host
_t vm1 = MSG_vm_create_core(pm0, "VM1");
+ msg_
vm
_t vm0 = MSG_vm_create_core(pm0, "VM0");
+ msg_
vm
_t vm1 = MSG_vm_create_core(pm0, "VM1");
MSG_vm_start(vm0);
MSG_vm_start(vm1);
msg_task_t task0 = MSG_task_create("Task0", DOUBLE_MAX, 0, NULL);
msg_task_t task1 = MSG_task_create("Task1", DOUBLE_MAX, 0, NULL);
- MSG_process_create("worker0", worker_busy_loop_main, &task0, vm0);
- MSG_process_create("worker1", worker_busy_loop_main, &task1, vm1);
+ MSG_process_create("worker0", worker_busy_loop_main, &task0,
(msg_host_t)
vm0);
+ MSG_process_create("worker1", worker_busy_loop_main, &task1,
(msg_host_t)
vm1);
double task0_remain_prev = MSG_task_get_flops_amount(task0);
double task1_remain_prev = MSG_task_get_flops_amount(task1);
@@
-203,15
+203,15
@@
static int master_main(int argc, char *argv[])
test_two_tasks(pm0, pm0);
XBT_INFO(" ");
- msg_
host
_t vm0 = MSG_vm_create_core(pm0, "VM0");
+ msg_
vm
_t vm0 = MSG_vm_create_core(pm0, "VM0");
MSG_vm_start(vm0);
XBT_INFO("# 3. Put a single task on a VM. ");
- test_one_task(vm0);
+ test_one_task(
(msg_host_t)
vm0);
XBT_INFO(" ");
XBT_INFO("# 4. Put two tasks on a VM.");
- test_two_tasks(
vm0,
vm0);
+ test_two_tasks(
(msg_host_t)vm0, (msg_host_t)
vm0);
XBT_INFO(" ");
MSG_vm_destroy(vm0);
@@
-220,7
+220,7
@@
static int master_main(int argc, char *argv[])
MSG_vm_start(vm0);
XBT_INFO("# 6. Put a task on a PM and a task on a VM.");
- test_two_tasks(pm0, vm0);
+ test_two_tasks(pm0,
(msg_host_t)
vm0);
XBT_INFO(" ");
MSG_vm_destroy(vm0);
@@
-231,15
+231,15
@@
static int master_main(int argc, char *argv[])
MSG_vm_start(vm0);
XBT_INFO("# 7. Put a single task on the VM capped by 10%%.");
- test_one_task(vm0);
+ test_one_task(
(msg_host_t)
vm0);
XBT_INFO(" ");
XBT_INFO("# 8. Put two tasks on the VM capped by 10%%.");
- test_two_tasks(
vm0,
vm0);
+ test_two_tasks(
(msg_host_t)vm0, (msg_host_t)
vm0);
XBT_INFO(" ");
XBT_INFO("# 9. Put a task on a PM and a task on the VM capped by 10%%.");
- test_two_tasks(pm0, vm0);
+ test_two_tasks(pm0,
(msg_host_t)
vm0);
XBT_INFO(" ");
MSG_vm_destroy(vm0);
@@
-259,13
+259,13
@@
static int master_main(int argc, char *argv[])
const double computation_amount = cpu_speed * 10;
XBT_INFO("# 10. (a) Put a task on a VM without any bound.");
- launch_worker(vm0, "worker0", computation_amount, 0, 0);
+ launch_worker(
(msg_host_t)
vm0, "worker0", computation_amount, 0, 0);
MSG_process_sleep(1000);
XBT_INFO(" ");
XBT_INFO("# 10. (b) set 10%% bound to the VM, and then put a task on the VM.");
MSG_vm_set_bound(vm0, cpu_speed / 10);
- launch_worker(vm0, "worker0", computation_amount, 0, 0);
+ launch_worker(
(msg_host_t)
vm0, "worker0", computation_amount, 0, 0);
MSG_process_sleep(1000);
XBT_INFO(" ");
@@
-274,7
+274,7
@@
static int master_main(int argc, char *argv[])
XBT_INFO(" ");
XBT_INFO("# 10. (d) Put a task again on the VM.");
- launch_worker(vm0, "worker0", computation_amount, 0, 0);
+ launch_worker(
(msg_host_t)
vm0, "worker0", computation_amount, 0, 0);
MSG_process_sleep(1000);
XBT_INFO(" ");