1
0
mirror of https://gitlab.com/klmp200/LO41.git synced 2024-11-24 18:14:19 +00:00

Merci klipfel pour l'astuce

This commit is contained in:
Antoine Bartuccio 2018-06-18 16:09:28 +02:00
parent e820bd7a58
commit ba921acbf3
Signed by: klmp200
GPG Key ID: E7245548C53F904B
6 changed files with 28 additions and 32 deletions

View File

@ -135,16 +135,16 @@ void _free__Building(THIS(Building)){
free(this); free(this);
} }
int get_inside_elevator_Building(THIS(Building), int current_floor, ElevatorPassenger elevator_passenger){ int get_inside_elevator_Building(THIS(Building), int current_floor, Passenger passenger){
int i; int i;
/* Make assumption that a waiting elevator is not full */ /* Make assumption that a waiting elevator is not full */
pthread_mutex_lock(this->mutex_func_get_inside_elevator); pthread_mutex_lock(this->mutex_func_get_inside_elevator);
printf("Test d'entrée à l'étage %d de %s : id %d\n", current_floor, elevator_passenger.passenger.visitor->name, elevator_passenger.passenger.visitor->id); printf("Test d'entrée à l'étage %d de %s : id %d\n", current_floor, passenger.visitor->name, passenger.visitor->id);
for (i=0; i<ELEVATOR_NB; i++){ for (i=0; i<ELEVATOR_NB; i++){
if (this->elevators[i]->can_get_inside(this->elevators[i], current_floor)){ if (this->elevators[i]->can_get_inside(this->elevators[i], current_floor)){
/* pour faire taire le compilateur le temps que je revienne sur cette fonction */ /* pour faire taire le compilateur le temps que je revienne sur cette fonction */
if (elevator_passenger.type == VISITOR) if (passenger.type == VISITOR)
this->elevators[i]->add_passenger(this->elevators[i], elevator_passenger); this->elevators[i]->add_passenger(this->elevators[i], passenger);
/* Il faut faire des trucs ici */ /* Il faut faire des trucs ici */
pthread_mutex_unlock(this->mutex_func_get_inside_elevator); pthread_mutex_unlock(this->mutex_func_get_inside_elevator);
return i; return i;
@ -154,27 +154,27 @@ int get_inside_elevator_Building(THIS(Building), int current_floor, ElevatorPass
return -1; return -1;
} }
void go_to_floor_Building(THIS(Building), int origin, int destination, ElevatorPassenger elevator_passenger){ void go_to_floor_Building(THIS(Building), int origin, int destination, Passenger passenger){
int elevator_number; int elevator_number;
if (origin < 0 || origin >= FLOORS) {CRASH("You are trying to start from a non existing floor\n");} if (origin < 0 || origin >= FLOORS) {CRASH("You are trying to start from a non existing floor\n");}
if (destination < 0 || destination >= FLOORS) {CRASH("You are trying to reach a non existing floor\n");} if (destination < 0 || destination >= FLOORS) {CRASH("You are trying to reach a non existing floor\n");}
pthread_cond_wait(this->condition_floors[origin], this->mutex_cond_get_inside_elevator); pthread_cond_wait(this->condition_floors[origin], this->mutex_cond_get_inside_elevator);
elevator_number = this->get_inside_elevator(this, origin, elevator_passenger); elevator_number = this->get_inside_elevator(this, origin, passenger);
if (elevator_passenger.type == RESIDENT) if (passenger.type == RESIDENT)
printf("Le résident %s rentre dans l'ascenseur %s depuis l'étage %d\n", elevator_passenger.passenger.resident->name, printf("Le résident %s rentre dans l'ascenseur %s depuis l'étage %d\n", passenger.resident->name,
this->elevators[elevator_number]->name, origin); this->elevators[elevator_number]->name, origin);
else if (elevator_passenger.type == VISITOR) else if (passenger.type == VISITOR)
printf("Le visiteur %s rentre dans l'ascenseur %s depuis l'étage %d\n", elevator_passenger.passenger.visitor->name, printf("Le visiteur %s rentre dans l'ascenseur %s depuis l'étage %d\n", passenger.visitor->name,
this->elevators[elevator_number]->name, origin); this->elevators[elevator_number]->name, origin);
pthread_cond_wait(this->condition_floors[destination], this->mutex_cond_get_outside_elevator); pthread_cond_wait(this->condition_floors[destination], this->mutex_cond_get_outside_elevator);
if (elevator_passenger.type == RESIDENT) if (passenger.type == RESIDENT)
printf("Le résident %s sors de l'ascenseur %s à l'étage %d\n", elevator_passenger.passenger.resident->name, printf("Le résident %s sors de l'ascenseur %s à l'étage %d\n", passenger.resident->name,
this->elevators[elevator_number]->name, destination); this->elevators[elevator_number]->name, destination);
else if (elevator_passenger.type == VISITOR) else if (passenger.type == VISITOR)
printf("Le visiteur %s sors de l'ascenseur %s à l'étage %d\n", elevator_passenger.passenger.visitor->name, printf("Le visiteur %s sors de l'ascenseur %s à l'étage %d\n", passenger.visitor->name,
this->elevators[elevator_number]->name, destination); this->elevators[elevator_number]->name, destination);
} }

View File

@ -27,12 +27,12 @@ typedef struct o_Building {
PRIVATE void (*parse_residents)(_THIS(Building), char * file); PRIVATE void (*parse_residents)(_THIS(Building), char * file);
PRIVATE void (*parse_visitors)(_THIS(Building), char * file); PRIVATE void (*parse_visitors)(_THIS(Building), char * file);
PRIVATE int (*get_inside_elevator)(_THIS(Building), int current_floor, ElevatorPassenger elevator_passenger); PRIVATE int (*get_inside_elevator)(_THIS(Building), int current_floor, Passenger passenger);
PUBLIC int (*use_call_box)(_THIS(Building), char * resident_name); PUBLIC int (*use_call_box)(_THIS(Building), char * resident_name);
PUBLIC void (*signal_elevator_at_floor)(_THIS(Building), int floor); PUBLIC void (*signal_elevator_at_floor)(_THIS(Building), int floor);
SYNCHRONIZE PUBLIC void (*go_to_floor)(_THIS(Building), int origin, int destination, ElevatorPassenger elevator_passenger); SYNCHRONIZE PUBLIC void (*go_to_floor)(_THIS(Building), int origin, int destination, Passenger passenger);
DESTRUCTOR(Building); DESTRUCTOR(Building);
} Building; } Building;

View File

@ -28,11 +28,11 @@ void _free__Elevator(THIS(Elevator)){
free(this); free(this);
} }
void add_passenger_Elevator(THIS(Elevator), ElevatorPassenger passenger){ void add_passenger_Elevator(THIS(Elevator), Passenger passenger){
pthread_mutex_lock(&this->mutex_passenger); pthread_mutex_lock(&this->mutex_passenger);
this->passengers->insert_tail(this->passengers, ((void *)&passenger), sizeof(ElevatorPassenger)); this->passengers->insert_tail(this->passengers, ((void *)&passenger), sizeof(Passenger));
printf("Le passager avec l'id %d est entre dans l'ascenseur %s\nIl y a maintenant %d passagers dans l'ascenseur %s\n", printf("Le passager avec l'id %d est entre dans l'ascenseur %s\nIl y a maintenant %d passagers dans l'ascenseur %s\n",
passenger.passenger.visitor->get_id(passenger.passenger.visitor), this->name, this->passengers->get_size(this->passengers), this->name); passenger.visitor->get_id(passenger.visitor), this->name, this->passengers->get_size(this->passengers), this->name);
if (this->passengers->get_size(this->passengers) >= MAX_ELEVATOR_CAPACITY) if (this->passengers->get_size(this->passengers) >= MAX_ELEVATOR_CAPACITY)
this->set_state(this, SLEEPING); this->set_state(this, SLEEPING);
pthread_mutex_unlock(&this->mutex_passenger); pthread_mutex_unlock(&this->mutex_passenger);

View File

@ -31,7 +31,7 @@ typedef struct o_Elevator {
SYNCHRONIZE PUBLIC void (*repair)(_THIS(Elevator)); SYNCHRONIZE PUBLIC void (*repair)(_THIS(Elevator));
SYNCHRONIZE PUBLIC int (*get_number_of_passengers)(_THIS(Elevator)); SYNCHRONIZE PUBLIC int (*get_number_of_passengers)(_THIS(Elevator));
SYNCHRONIZE PUBLIC void (*add_passenger)(_THIS(Elevator), ElevatorPassenger passenger); SYNCHRONIZE PUBLIC void (*add_passenger)(_THIS(Elevator), Passenger passenger);
SYNCHRONIZE PUBLIC ELEVATOR_STATE (*get_state)(_THIS(Elevator)); SYNCHRONIZE PUBLIC ELEVATOR_STATE (*get_state)(_THIS(Elevator));
SYNCHRONIZE PUBLIC int (*get_floor)(_THIS(Elevator)); SYNCHRONIZE PUBLIC int (*get_floor)(_THIS(Elevator));
SYNCHRONIZE PUBLIC int (*can_get_inside)(_THIS(Elevator), int floor); SYNCHRONIZE PUBLIC int (*can_get_inside)(_THIS(Elevator), int floor);

View File

@ -10,14 +10,12 @@
typedef enum {RESIDENT, VISITOR} PASSENGER_TYPE; typedef enum {RESIDENT, VISITOR} PASSENGER_TYPE;
typedef union u_Passenger { typedef struct s_Passenger {
PASSENGER_TYPE type;
union {
Resident * resident; Resident * resident;
Visitor * visitor; Visitor * visitor;
};
} Passenger; } Passenger;
typedef struct s_ElevatorPassenger {
PASSENGER_TYPE type;
Passenger passenger;
} ElevatorPassenger;
#endif //LO41_PASSENGER_H #endif //LO41_PASSENGER_H

View File

@ -13,17 +13,15 @@ void * runnable_Visitor(void * void_this){
Visitor *this = (Visitor*) void_this; Visitor *this = (Visitor*) void_this;
SharedData * data = GET_INSTANCE(SharedData); SharedData * data = GET_INSTANCE(SharedData);
Passenger passenger; Passenger passenger;
ElevatorPassenger elevator_passenger;
AGENT_OPTIONS AGENT_OPTIONS
passenger.visitor = this; passenger.visitor = this;
elevator_passenger.passenger = passenger; passenger.type = VISITOR;
elevator_passenger.type = VISITOR;
printf("Bonjour, je suis %s et je souhaite rendre visite a %s\n", this->name, this->contact_name); printf("Bonjour, je suis %s et je souhaite rendre visite a %s\n", this->name, this->contact_name);
printf("Bip, %s appel a l'interphone\n%s habite a l'etage %d\n", this->name, this->contact_name, (this->destination = data->use_call_box(data, this->contact_name))); printf("Bip, %s appel a l'interphone\n%s habite a l'etage %d\n", this->name, this->contact_name, (this->destination = data->use_call_box(data, this->contact_name)));
data->main_building->go_to_floor(data->main_building, this->position, this->destination, elevator_passenger); data->main_building->go_to_floor(data->main_building, this->position, this->destination, passenger);
return NULL; return NULL;
} }