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@ -4,6 +4,7 @@
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#define RR_QUANTUM 2
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#define CNTXT_SWITCH 1
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#define MAX_PROCESSES 10
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enum pstate {
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WAITING,
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@ -16,11 +17,11 @@ struct pinfo {
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int arrival_time;
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int execution_time;
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int priority;
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int nb_time_pre_empted;
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int wait_time;
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int turnaround_time;
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int remaining_time;
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int nb_time_pre_empted; // Ajouté pour compter les préemptions
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enum pstate state;
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struct pinfo * next_pinfo;
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@ -67,11 +68,13 @@ struct pinfo * create_process(int id, int arrival_time, int execution_time, int
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info->wait_time = 0;
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info->turnaround_time = 0;
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info->remaining_time = execution_time;
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info->nb_time_pre_empted = 0; // Initialiser le nombre de préemptions
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info->state = WAITING;
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info->next_pinfo = NULL;
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return info;
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}
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// Méthode de planification FCFS
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struct perf_info schedule_FCFS(struct pinfo * processes) {
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int current_time = 0;
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struct pinfo * process = processes;
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@ -94,6 +97,97 @@ struct perf_info schedule_FCFS(struct pinfo * processes) {
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return perf;
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}
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struct perf_info schedule_RR(struct pinfo *processes) { // Déclaration de la fonction schedule_RR qui prend un pointeur vers une liste de processus
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struct perf_info perf = {0, 0, 0}; // Initialisation de la structure de performance avec des valeurs à zéro
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int current_time = 0; // Variable pour suivre le temps actuel
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int finished_processes = 0; // Compteur pour le nombre de processus terminés
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while (finished_processes < MAX_PROCESSES) { // Boucle principale jusqu'à ce que tous les processus soient terminés
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int process_found = 0; // Indicateur pour savoir si un processus prêt a été trouvé
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struct pinfo *current_process = processes; // Pointeur pour parcourir la liste des processus
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while (current_process != NULL) { // Boucle pour parcourir tous les processus
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// Vérifiez si le processus est prêt à s'exécuter
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if (current_process->state != FINISHED && current_process->arrival_time <= current_time) { // Vérifie si le processus n'est pas fini et est arrivé
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process_found = 1; // Un processus prêt à s'exécuter a été trouvé
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int time_slice = (current_process->remaining_time < RR_QUANTUM) ? current_process->remaining_time : RR_QUANTUM; // Calcule la tranche de temps à exécuter
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// Simuler l'exécution
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current_time += time_slice; // Incrémente le temps actuel par la tranche de temps
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current_process->remaining_time -= time_slice; // Diminue le temps restant du processus
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// Calculer les temps d'attente pour les autres processus
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struct pinfo *other_process = processes; // Pointeur pour parcourir à nouveau la liste des processus
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while (other_process != NULL) { // Boucle pour parcourir tous les autres processus
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if (other_process->state != FINISHED && other_process != current_process && other_process->arrival_time <= current_time) { // Vérifie si l'autre processus est prêt
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other_process->wait_time += time_slice; // Augmente le temps d'attente des autres processus
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}
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other_process = other_process->next_pinfo; // Passe au processus suivant
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}
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// Gérer les statistiques de préemption
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if (current_process->remaining_time == 0) { // Vérifie si le processus est terminé
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current_process->state = FINISHED; // Met à jour l'état du processus à fini
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finished_processes++; // Incrémente le compteur de processus terminés
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current_process->turnaround_time = current_time - current_process->arrival_time; // Calcule le temps de turnaround
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} else {
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// Incrémenter le nombre de préemptions
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current_process->nb_time_pre_empted++; // Incrémente le compteur de préemptions pour le processus actuel
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perf.total_nr_ctxt_switch++; // Incrémente le nombre total de commutations de contexte
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}
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// Débogage : Afficher les informations du processus
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printf("Processus %d: remaining_time=%d, nb_time_pre_empted=%d\n", // Affiche les informations de débogage pour le processus actuel
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current_process->id, current_process->remaining_time, current_process->nb_time_pre_empted);
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}
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current_process = current_process->next_pinfo; // Passe au processus suivant dans la liste
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}
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if (!process_found) { // Vérifie si aucun processus prêt n'a été trouvé
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// Aucun processus prêt, avancer le temps
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current_time++; // Incrémente le temps actuel si aucun processus n'est prêt
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}
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}
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perf.total_time = current_time; // Enregistre le temps total écoulé dans la structure de performance
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return perf; // Renvoie la structure de performance
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}
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void write_file(struct pinfo * process, struct perf_info * perf) {
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FILE *myStream_execution = fopen("executionRR.csv", "w");
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FILE *myStream_performance = fopen("performanceRR.csv", "w");
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if (myStream_execution == NULL || myStream_performance == NULL) {
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perror("Erreur à l'ouverture des fichiers");
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return;
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}
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while (process != NULL) {
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fprintf(myStream_execution, "%d,%d,%d,%d\n",
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process->id,
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process->turnaround_time,
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process->wait_time,
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process->nb_time_pre_empted);
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process = process->next_pinfo;
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}
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fclose(myStream_execution);
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fprintf(myStream_performance, "%d,%d,%d\n",
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perf->total_time,
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perf->total_nr_ctxt_switch,
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perf->total_time_ctxt_switch);
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fclose(myStream_performance);
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}
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struct pinfo * read_file() {
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FILE * file = fopen("tasks.csv", "r");
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@ -121,12 +215,12 @@ struct pinfo * read_file() {
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atoi(prio_str)
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);
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// If linked list not initialized
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// Si la liste n'est pas initialisée
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if (first == NULL) {
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first = process;
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}
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// If there is an element in list
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// Si un élément est déjà dans la liste
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if (last != NULL) {
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last->next_pinfo = process;
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}
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@ -139,9 +233,6 @@ struct pinfo * read_file() {
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return first;
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}
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void free_processes(struct pinfo * next) {
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struct pinfo * cur;
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while (next != NULL) {
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@ -152,146 +243,16 @@ void free_processes(struct pinfo * next) {
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}
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void write_file(struct pinfo * process, struct perf_info * perf) {
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FILE *myStream_execution = fopen("executionRR.csv", "w");
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FILE *myStream_performance = fopen("performanceRR.csv", "w");
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if (myStream_execution == NULL || myStream_performance == NULL) {
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perror("Erreur à l'ouverture des fichiers");
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return;
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}
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while (process != NULL) {
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fprintf(myStream_execution, "%d,%d,%d,%d\n",
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process->id,
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process->turnaround_time,
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process->wait_time,
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process->nb_time_pre_empted);
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process = process->next_pinfo;
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}
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fclose(myStream_execution);
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fprintf(myStream_performance, "%d,%d,%d\n",
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perf->total_time,
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perf->total_nr_ctxt_switch,
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perf->total_time_ctxt_switch);
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fclose(myStream_performance);
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}
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struct pinfo *enqueue(struct pinfo *queue, struct pinfo *process) {
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if (queue == NULL) {
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return process;
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}
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struct pinfo *temp = queue;
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while (temp->next_pinfo != NULL) {
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temp = temp->next_pinfo;
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}
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temp->next_pinfo = process;
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return queue;
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}
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struct pinfo *dequeue(struct pinfo **queue) {
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if (*queue == NULL) {
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return NULL;
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}
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struct pinfo *process = *queue;
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*queue = (*queue)->next_pinfo;
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process->next_pinfo = NULL;
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return process;
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}
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struct perf_info schedule_RR(struct pinfo *processes) {
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struct perf_info perf = {0, 0, 0};
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int current_time = 0;
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struct pinfo *queue = NULL;
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struct pinfo *current_process = NULL;
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int remaining_quantum = RR_QUANTUM;
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while (processes != NULL || queue != NULL || current_process != NULL) {
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// Ajouter les nouveaux processus arrivés à la file d'attente
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while (processes != NULL && processes->arrival_time <= current_time) {
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processes->state = READY;
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queue = enqueue(queue, processes);
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printf("Processus %d ajouté à la file d'attente à l'heure %d\n", processes->id, current_time);
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processes = processes->next_pinfo;
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}
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// Si aucun processus en cours, prendre le suivant dans la file d'attente
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if (current_process == NULL && queue != NULL) {
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current_process = dequeue(&queue);
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current_process->nb_time_pre_empted++;
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remaining_quantum = RR_QUANTUM; // Réinitialiser le quantum
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printf("Processus %d pris de la file d'attente pour exécution à l'heure %d\n", current_process->id, current_time);
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}
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// Exécuter le processus courant
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if (current_process != NULL) {
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current_process->remaining_time--;
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current_process->turnaround_time++;
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remaining_quantum--;
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printf("Processus %d exécuté à l'heure %d, temps restant: %d, quantum restant: %d\n", current_process->id, current_time, current_process->remaining_time, remaining_quantum);
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current_time++;
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// Vérifier si le processus est terminé
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if (current_process->remaining_time == 0) {
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current_process->state = FINISHED;
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printf("Processus %d terminé à l'heure %d\n", current_process->id, current_time);
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current_process = NULL;
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} else if (remaining_quantum == 0) {
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// Si le quantum RR est atteint, remettre le processus en file d'attente
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current_process->state = WAITING;
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queue = enqueue(queue, current_process);
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printf("Processus %d préempté et remis en file d'attente à l'heure %d\n", current_process->id, current_time);
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current_process = NULL;
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}
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} else {
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// Si aucun processus à exécuter, avancer le temps
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printf("Aucun processus à exécuter à l'heure %d, avancer le temps\n", current_time);
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current_time++;
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}
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// Mise à jour des performances
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perf.total_time = current_time;
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perf.total_nr_ctxt_switch++;
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perf.total_time_ctxt_switch += CNTXT_SWITCH;
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}
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printf("Planification RR terminée\n");
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return perf;
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}
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int main() {
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struct pinfo * processes = read_file();
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//struct perf_info perf = schedule_FCFS(processes);
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struct perf_info perf = schedule_RR(processes);
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//struct perf_info perf = schedule_FCFS(processes); // Remise en place de FCFS
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struct perf_info perf = schedule_RR(processes);
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write_file(processes, &perf);
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//print_processes(processes);
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//print_perf(&perf);
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free_processes(processes);
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return 0;
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}
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}
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florian.sauzeat