real_time/software/raspberry/superviseur-robot/example/stress/main.cpp
Sébastien DI MERCURIO 776a2f4ce6 initial commit
2018-08-27 16:39:49 +02:00

91 lines
No EOL
2.3 KiB
C++

#include <iostream>
#include "../../src/definitions.h"
#include "../../src/robot.h"
#include <ctime>
#define NB_TEST 50
#define NB_RETRIES_MAX 5
#define DELAY_BETWEEN_RETRIES 10000 // 10 ms
#define DELAY_BETWEEN_TEST 1000000 // 1 seconde
int nb_retries;
int nb_test;
int laststatus;
int nb_success;
int nb_timeout;
int nb_unknown_cmd;
int flipflop;
int main() {
if (open_communication_robot("/dev/ttyUSB0") != 0) {
std::cout << "Unable to open com port" << std::endl;
return -1;
}
std::cout << "Debut du test de stress" << std::endl;
time_t t_debut, t_fin;
struct tm *tm_debut, *tm_fin;
time(&t_debut);
tm_debut = (struct tm*)malloc (sizeof(struct tm));
tm_debut = localtime((const time_t*)&t_debut);
std::cout << "[heure debut]: " << asctime(tm_debut) << std::endl;
nb_retries=-1;
do {
usleep(DELAY_BETWEEN_RETRIES);
nb_retries++;
laststatus = send_command_to_robot(DMB_START_WITHOUT_WD);
} while ((nb_retries<NB_RETRIES_MAX) && (laststatus != 0));
if(nb_retries == NB_RETRIES_MAX) {
std::cout << "Unable to start robot" <<std::endl;
return -1;
}
nb_success =0;
nb_timeout =0;
nb_unknown_cmd =0;
flipflop = 0;
for (nb_test=0; nb_test < NB_TEST; nb_test++) {
nb_retries=-1;
do {
usleep(DELAY_BETWEEN_RETRIES);
nb_retries++;
if (flipflop == 0) {
laststatus = send_command_to_robot(DMB_TURN, "100");
} else {
laststatus = send_command_to_robot(DMB_TURN, "-100");
}
} while ((nb_retries<NB_RETRIES_MAX) && (laststatus != 0));
if (flipflop ==0) flipflop=1;
else flipflop =0;
if (laststatus == 0) nb_success++;
else if (laststatus == ROBOT_TIMED_OUT) nb_timeout++;
else if (laststatus == ROBOT_UKNOWN_CMD) nb_unknown_cmd ++;
std::cout << "Test " << nb_test << " [s " << nb_success
<< ": t " << nb_timeout << ": u " << nb_unknown_cmd
<< "]"<< "\x1B" <<"[30D"<<std::flush;
usleep(DELAY_BETWEEN_TEST);
}
time(&t_fin);
tm_fin = (struct tm*)malloc (sizeof(struct tm));
tm_fin = localtime((const time_t*)&t_fin);
std::cout << std::endl << std::endl << "[heure fin]: " << asctime(tm_fin) << std::endl;
return 0;
}