###################################################
INPUT += @CMAKE_HOME_DIRECTORY@/examples/msg/app-pingpong/app-pingpong.c \
+ @CMAKE_HOME_DIRECTORY@/examples/msg/app-token-ring/app-token-ring.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/app-masterworker/app-masterworker.c \
- @CMAKE_HOME_DIRECTORY@/examples/msg/process-migration/process-migration.c \
+ @CMAKE_HOME_DIRECTORY@/examples/msg/async-wait/async-wait.c \
+ @CMAKE_HOME_DIRECTORY@/examples/msg/icomms/peer2.c \
+ @CMAKE_HOME_DIRECTORY@/examples/msg/icomms/peer3.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/process-suspend/process-suspend.c \
+ @CMAKE_HOME_DIRECTORY@/examples/msg/process-migration/process-migration.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/task-priority/task-priority.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/properties \
@CMAKE_HOME_DIRECTORY@/examples/msg/parallel_task \
- @CMAKE_HOME_DIRECTORY@/examples/msg/async-wait/async-wait.c \
- @CMAKE_HOME_DIRECTORY@/examples/msg/icomms/peer2.c \
- @CMAKE_HOME_DIRECTORY@/examples/msg/icomms/peer3.c \
- @CMAKE_HOME_DIRECTORY@/examples/msg/tracing/simple.c \
+ @CMAKE_HOME_DIRECTORY@/examples/msg/trace-simple/trace-simple.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/tracing/ms.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/tracing/categories.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/tracing/procmig.c \
@CMAKE_HOME_DIRECTORY@/examples/msg/io \
@CMAKE_HOME_DIRECTORY@/examples/msg/gpu \
@CMAKE_HOME_DIRECTORY@/examples/msg/actions \
- @CMAKE_HOME_DIRECTORY@/examples/msg/token_ring \
@CMAKE_HOME_DIRECTORY@/examples/msg/pmm \
@CMAKE_HOME_DIRECTORY@/examples/msg/chord
#include "xbt/xbt_os_time.h"
/** @addtogroup MSG_examples
- *
+ * @section MSG_ex_apps Examples of full applications
+ *
* - <b>pmm/msg_pmm.c</b>: Parallel Matrix Multiplication is a little application. This is something that most MPI
* developers have written during their class, here implemented using MSG instead of MPI.
*/
/** @addtogroup MSG_examples
*
- * @section MSG_ex_apps Examples of full applications
- *
- * - <b>token_ring/ring_call.c</b>: Classical token ring communication, where a token is exchanged along a ring to
- * reach every participant.
+ * - <b>Token Ring: app-token-ring/app-token-ring.c</b>: Classical token ring communication, where a token is exchanged
+ * along a ring to reach every participant. The tesh file laying in the directory shows how to run the same example on
+ * different platforms.
*/
-static int host(int argc, char *argv[])
+/** Single function for all hosts */
+static int foo(int argc, char *argv[])
{
- unsigned int task_comp_size = 50000000;
- unsigned int task_comm_size = 1000000;
- int host_number =
- xbt_str_parse_int(MSG_process_get_name(MSG_process_self()), "Process name must be an integer but is: %s");
+ unsigned int task_comm_size = 1000000; /** The token is 1MB long*/
+ int rank = xbt_str_parse_int(MSG_process_get_name(MSG_process_self()), "Invalid process name: %s");
char mailbox[256];
msg_task_t task = NULL;
XBT_ATTRIB_UNUSED int res;
- if (host_number == 0){ //root: send then receive
- sprintf(mailbox, "%d", host_number+1);
- task = MSG_task_create("Token", task_comp_size, task_comm_size, NULL);
- XBT_INFO("Host \"%d\" send '%s' to Host \"%s\"",host_number,task->name,mailbox);
+ if (rank == 0){ /** - The root (rank 0) first sends the token then waits to receive it back */
+ sprintf(mailbox, "%d", rank+1);
+ task = MSG_task_create("Token", 0, task_comm_size, NULL);
+ XBT_INFO("Host \"%d\" send '%s' to Host \"%s\"", rank, task->name,mailbox);
MSG_task_send(task, mailbox);
task = NULL;
res = MSG_task_receive(&(task), MSG_process_get_name(MSG_process_self()));
xbt_assert(res == MSG_OK, "MSG_task_get failed");
- XBT_INFO("Host \"%d\" received \"%s\"",host_number, MSG_task_get_name(task));
+ XBT_INFO("Host \"%d\" received \"%s\"", rank, MSG_task_get_name(task));
MSG_task_destroy(task);
- } else{ // receive then send
+ } else{ /** - The others receive from their left neighbor (rank-1) and send to their right neighbor (rank+1) */
res = MSG_task_receive(&(task), MSG_process_get_name(MSG_process_self()));
xbt_assert(res == MSG_OK, "MSG_task_get failed");
- XBT_INFO("Host \"%d\" received \"%s\"",host_number, MSG_task_get_name(task));
+ XBT_INFO("Host \"%d\" received \"%s\"",rank, MSG_task_get_name(task));
- if(host_number+1 == MSG_get_host_number())
+ if(rank+1 == MSG_get_host_number()) /** - Except for the last one which sends the token back to rank 0 */
sprintf(mailbox, "0");
else
- sprintf(mailbox, "%d", host_number+1);
- XBT_INFO("Host \"%d\" send '%s' to Host \"%s\"",host_number,task->name,mailbox);
+ sprintf(mailbox, "%d", rank+1);
+ XBT_INFO("Host \"%d\" send '%s' to Host \"%s\"",rank,task->name,mailbox);
MSG_task_send(task, mailbox);
}
return 0;
}
-int main(int argc, char **argv)
+int main(int argc, char *argv[])
{
unsigned int i;
MSG_init(&argc, argv);
- MSG_create_environment(argv[1]);
+ MSG_create_environment(argv[1]); /** - Load the platform description */
xbt_dynar_t hosts = MSG_hosts_as_dynar();
msg_host_t h;
- MSG_function_register("host", host);
+ MSG_function_register("foo", foo);
XBT_INFO("Number of host '%d'",MSG_get_host_number());
- xbt_dynar_foreach (hosts, i, h){
+ xbt_dynar_foreach (hosts, i, h){ /** - Give a unique rank to each host and create a @ref foo process on each */
char* name_host = bprintf("%u",i);
- MSG_process_create(name_host, host, NULL, h);
+ MSG_process_create(name_host, foo, NULL, h);
free(name_host);
}
xbt_dynar_free(&hosts);
- int res = MSG_main();
+ int res = MSG_main(); /** - Run the simulation */
XBT_INFO("Simulation time %g", MSG_get_clock());
return res != MSG_OK;
}
/** @addtogroup MSG_examples
*
- * - <b>Process migration: process-migration/process-migration.c</b>. Processes can move or be moved from a host to
+ * - <b>Process Migration: process-migration/process-migration.c</b>. Processes can move or be moved from a host to
* another while they are running thanks to the @ref MSG_process_migrate function.
*/
#include "simgrid/msg.h"
-XBT_LOG_NEW_DEFAULT_CATEGORY(msg_test, "Messages specific for this msg example");
+XBT_LOG_NEW_DEFAULT_CATEGORY(msg_process_suspend, "Messages specific for this msg example");
#define SLEEP(duration) \
if (MSG_process_sleep(duration) != MSG_OK) \
xbt_die("What's going on??? I failed to sleep!");
/** @addtogroup MSG_examples
+ * @section MSG_ex_process Acting on Processes
*
- * - <b>process-suspend/process-suspend.c: Process Suspend/Resume example</b>. Demonstrates how to suspend and resume
- * processes using the @ref MSG_process_suspend and @ref MSG_process_resume functions.
+ * - <b>Process Suspend/Resume: process-suspend/process-suspend.c</b>. Processes can be suspended and resumed during
+ * their executions thanks to the @ref MSG_process_suspend and @ref MSG_process_resume functions.
*/
-/** Lazy guy function. This process suspends itself asap. */
+/** The Lazy guy only wants to sleep, but can be awaken by the @ref dream_master. */
static int lazy_guy(int argc, char *argv[])
{
XBT_INFO("Nobody's watching me ? Let's go to sleep.");
- MSG_process_suspend(MSG_process_self());
+ MSG_process_suspend(MSG_process_self()); /** - Start by suspending itself */
XBT_INFO("Uuuh ? Did somebody call me ?");
- XBT_INFO("Going to sleep...");
+ XBT_INFO("Going to sleep..."); /** - Then repetitively go to sleep, but got awaken */
SLEEP(10.0);
XBT_INFO("Mmm... waking up.");
return 0;
}
-/** Dream master function. This process creates a lazy_guy process and resumes it 10 seconds later. */
+/** The Dream master: */
static int dream_master(int argc, char *argv[])
{
msg_process_t lazy = NULL;
- XBT_INFO("Let's create a lazy guy.");
+ XBT_INFO("Let's create a lazy guy."); /** - Create a @ref lazy_guy process */
lazy = MSG_process_create("Lazy", lazy_guy, NULL, MSG_host_self());
XBT_INFO("Let's wait a little bit...");
- SLEEP(10.0);
+ SLEEP(10.0); /** - Wait for 10 seconds */
XBT_INFO("Let's wake the lazy guy up! >:) BOOOOOUUUHHH!!!!");
- MSG_process_resume(lazy);
+ MSG_process_resume(lazy); /** - Then wake up the @ref lazy_guy */
- SLEEP(5.0);
+ SLEEP(5.0); /** Repeat two times: */
XBT_INFO("Suspend the lazy guy while he's sleeping...");
- MSG_process_suspend(lazy);
+ MSG_process_suspend(lazy); /** - Suspend the @ref lazy_guy while he's asleep */
XBT_INFO("Let him finish his siesta.");
- SLEEP(10.0);
+ SLEEP(10.0); /** - Wait for 10 seconds */
XBT_INFO("Wake up, lazy guy!");
- MSG_process_resume(lazy);
+ MSG_process_resume(lazy); /** - Then wake up the @ref lazy_guy again */
SLEEP(5.0);
XBT_INFO("Suspend again the lazy guy while he's sleeping...");
XBT_INFO("OK, goodbye now.");
return 0;
-} /* end_of_dream_master */
+}
int main(int argc, char *argv[])
{
MSG_init(&argc, argv);
xbt_assert(argc > 1, "Usage: %s platform_file\n\tExample: %s msg_platform.xml\n", argv[0], argv[0]);
- MSG_create_environment(argv[1]);
- MSG_function_register("dream_master", dream_master);
+ MSG_create_environment(argv[1]); /** - Load the platform description */
+ MSG_function_register("dream_master", dream_master); /** - Create and deploy the @ref dream_master */
xbt_dynar_t hosts = MSG_hosts_as_dynar();
MSG_process_create("dream_master", dream_master, NULL, xbt_dynar_getfirst_as(hosts, msg_host_t));
xbt_dynar_free(&hosts);
- res = MSG_main();
+ res = MSG_main(); /** - Run the simulation */
XBT_INFO("Simulation time %g", MSG_get_clock());
return res != MSG_OK;