-/**
+/**
@page GRAS_tut_tour_simpleexchange Lesson 2: Exchanging simple messages
\section GRAS_tut_tour_simpleexchange_toc Table of Contents
- \ref GRAS_tut_tour_simpleexchange_socks
- \ref GRAS_tut_tour_simpleexchange_exchange
- \ref GRAS_tut_tour_simpleexchange_recaping
-
-<hr>
+
+<hr>
\section GRAS_tut_tour_simpleexchange_msgtype Declaring the messages to be exchanged
gras_msg_send on the sender side, and \ref gras_msg_wait on the receiver side.
\ref gras_msg_send expects 3 arguments: the socket on which to send the
-message, the message type, and a pointer to the actual content of the
-message. The simplest way to retrive a message type from its name is to use
-\ref gras_msgtype_by_name. Since we don't have any payload, this becomes:
+message, the message type (described by its name), and a pointer to the actual content of the
+message. Since we don't have any payload, this becomes:
\dontinclude 02-simple.c
\skip msg_send
\section GRAS_tut_tour_simpleexchange_recaping Recaping everything together
Here is the complete code of this example. Note the use of the functions
-\ref gras_socket_my_port, \ref gras_socket_peer_name and \ref
-gras_socket_peer_port to retrieve information about who you are connected to.
+\ref xbt_socket_my_port, \ref xbt_socket_peer_name and \ref
+xbt_socket_peer_port to retrieve information about who you are connected to.
\include 02-simple.c
-Here is the output of the simulator. Note that \ref gras_socket_peer_port
+Here is the output of the simulator. Note that \ref xbt_socket_peer_port
actually returns the port number of the <i>server</i> of the peer. This may
sound a bit strange to BSD experts, but it is actually really useful: you
can store this value, and contact your peer afterward passing this number to