int main() {
srand(time(0));
MonitorModuleCpu mmc;
MonitorModuleRam mmr;
MonitorModuleUser mmu;
MonitorModuleNetwork mmn;
mmc.initialize();
mmr.initialize();
mmu.initialize();
mmn.initialize();
while (1) {
NCursesDisplayUser titi(&mmu);
titi.display(6, 69, 1, 1);
NCursesDisplayCpu toto(&mmc);
toto.display(7, 69, 8, 1);
NCursesDisplayRam tata(&mmr);
tata.display(6, 69, 16, 1);
NCursesDisplayNetwork tutu(&mmn);
tutu.display(6, 69, 23, 1);
refresh();
sleep(1);
}
}
void toto(void)
{
int n = 100;
while (n >= 0)
{
titi();
--n;
}
}
int main()
{
try {
ios_fc::DatagramSocket toto(1478);
ios_fc::Datagram titi(toto.getBroadcastAddress()/*ios_fc::SocketAddress("durandal")*/, 1478, ios_fc::VoidBuffer("Hello", 5), 5);
toto.send(titi);
ios_fc::Buffer<char> resultBuf(1024);
ios_fc::Datagram result = toto.receive(resultBuf);
printf("Recu:%s du port %d\n", (const void *)(result.getMessage()), result.getPortNum());
ios_fc::Datagram titi2(result.getAddress(), result.getPortNum(), ios_fc::VoidBuffer("Tiens", 5), 5);
toto.send(titi2);
} catch (ios_fc::Exception e) {
e.printMessage();
}
return 0;
}
int toto()
{
titi();
}
int main (int argc, char **argv) {
// printf("argv[0] is %p\n", toto(argv[0]));
printf("titi() returned %i\n", titi());
return 0;
}
int main()
{
titi();
}
