# This looks like C++ but it is a basic IDL-like language
# (one definition per line) parsed by a python script:
-void process_kill(smx_process_t process);
+void process_kill(smx_actor_t process);
void process_killall(int reset_pid);
-void process_cleanup(smx_process_t process) [[nohandler]];
-void process_suspend(smx_process_t process) [[block]];
-void process_resume(smx_process_t process);
-void process_set_host(smx_process_t process, sg_host_t dest);
-int process_is_suspended(smx_process_t process) [[nohandler]];
-int process_join(smx_process_t process, double timeout) [[block]];
+void process_cleanup(smx_actor_t process) [[nohandler]];
+void process_suspend(smx_actor_t process) [[block]];
+void process_resume(smx_actor_t process);
+void process_set_host(smx_actor_t process, sg_host_t dest);
+int process_is_suspended(smx_actor_t process) [[nohandler]];
+int process_join(smx_actor_t process, double timeout) [[block]];
int process_sleep(double duration) [[block]];
smx_mutex_t mutex_init();
// Simcall number:
e_smx_simcall_t call;
// Issuing actor:
- smx_process_t issuer;
+ smx_actor_t issuer;
// Arguments of the simcall:
union u_smx_scalar args[11];
// Result of the simcall:
if (SIMIX_is_maestro())
xbt_die("Can't execute blocking call in kernel mode");
- smx_process_t self = SIMIX_process_self();
+ smx_actor_t self = SIMIX_process_self();
simgrid::xbt::Result<T> result;
simcall_run_blocking([&result, self, &code]{
{
if (!valid())
throw std::future_error(std::future_errc::no_state);
- smx_process_t self = SIMIX_process_self();
+ smx_actor_t self = SIMIX_process_self();
simgrid::xbt::Result<T> result;
simcall_run_blocking([this, &result, self]{
try {