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LO41/Building/Building.c
Aethor a8107a97b1 Merge branch 'master' into 'bro'
# Conflicts:
#   Elevator/Elevator.c
2018-06-22 00:00:32 +00:00

294 lines
9.5 KiB
C

//
// Created by Antoine Bartuccio on 05/06/2018.
//
#include <string.h>
#include <math.h>
#include "Building.h"
#include "../Resident/Resident.h"
#include "../Visitor/Visitor.h"
#define LINE_BUFFER 256
SYNCHRONIZED_GETTER(Building, int*, waiting_floors)
void remove_end_char(char * string, char character){
size_t string_size = strlen(string);
if (string[string_size - 1] == character)
string[string_size - 1] = '\0';
}
/**
* Get the best call for the elevator
*@param THIS(Building) : this
*@param elevator_floor : actual floor of the requesting elevator
*@returns the closest floor where a client is calling as an int. If no client is calling, returns -1.
*/
int get_next_call_Building(THIS(Building), int elevator_floor){
pthread_mutex_lock(this->mutex_func_get_next_call);
int* waiting_floors = this->get_waiting_floors(this);
int i;
float best_diff = INFINITY;
int next_target = -1;
for(i=0; i<FLOORS; i++){
if(waiting_floors[i] > 0){
if(abs(elevator_floor - i) < best_diff && elevator_floor != i/*beware*/){
best_diff = abs(elevator_floor - i);
next_target = i;
}
}
}
pthread_mutex_unlock(this->mutex_func_get_next_call);
return next_target;
}
List * split(char * line, char * separator){
List * split = NEW(List);
char * to_delete = strdup(line);
char * to_delete_back = to_delete;
char * token = NULL;
while((token = strsep(&to_delete, separator)) != NULL)
split->insert_tail(split, (void*) token, sizeof(char) * strlen(token));
free(to_delete_back);
return split;
}
void parse_residents_Building(THIS(Building), char * file){
/* File format is name;appartment_floor;destination */
FILE * f = fopen(file, "r");
List * line_split = NULL;
Resident * resident = NULL;
size_t len = LINE_BUFFER;
char * line = NULL;
char * trash;
int i = 0;
if (f == NULL) {
CRASH("File for residents does not exist");
}
while (getline(&line, &len, f) > 0) {
remove_end_char(line, '\n');
line_split = split(line, ";");
resident = NEW(Resident, i, line_split->get_element_data(line_split, 0),
(int) strtol(line_split->get_element_data(line_split, 1), &trash, 10),
(int) strtol(line_split->get_element_data(line_split, 2), &trash, 10));
this->residents->insert_tail(this->residents, resident, sizeof(Resident));
resident->name = NULL;
DELETE(resident);
DELETE(line_split);
i++;
}
free(line);
fclose(f);
}
void parse_visitors_Building(THIS(Building), char * file){
/* File format is name;contact_name */
FILE * f = fopen(file, "r");
List * line_split = NULL;
Visitor * visitor = NULL;
size_t len = LINE_BUFFER;
char * line = NULL;
int i = 0;
if (f == NULL) {
CRASH("File for visitors does not exist");
}
while (getline(&line, &len, f) > 0) {
remove_end_char(line, '\n');
line_split = split(line, ";");
visitor = NEW(Visitor, i, line_split->get_element_data(line_split, 0),
line_split->get_element_data(line_split, 1));
this->visitors->insert_tail(this->visitors, visitor, sizeof(Visitor));
visitor->contact_name = NULL;
visitor->name = NULL;
DELETE(visitor);
DELETE(line_split);
i++;
}
free(line);
fclose(f);
}
void free_resident(void* data){
Resident * r = (Resident *) data;
DELETE(r);
}
void free_visitor(void* data){
Visitor * v = (Visitor *) data;
DELETE(v);
}
void _free__Building(THIS(Building)){
int i = 0;
this->residents->clear_custom(this->residents, free_resident);
this->visitors->clear_custom(this->visitors, free_visitor);
pthread_mutex_unlock(this->mutex_cond_get_inside_elevator);
pthread_mutex_destroy(this->mutex_cond_get_inside_elevator);
pthread_mutex_unlock(this->mutex_cond_get_outside_elevator);
pthread_mutex_destroy(this->mutex_cond_get_outside_elevator);
pthread_mutex_unlock(this->mutex_func_get_inside_elevator);
pthread_mutex_destroy(this->mutex_func_get_inside_elevator);
pthread_mutex_unlock(this->mutex_func_get_next_call);
pthread_mutex_destroy(this->mutex_func_get_next_call);
pthread_mutex_unlock(&this->mutex_waiting_floors);
pthread_mutex_destroy(&this->mutex_waiting_floors);
DELETE(this->residents);
DELETE(this->visitors);
for (i=0; i<ELEVATOR_NB; i++)
DELETE(this->elevators[i]);
for (i=0; i<FLOORS; i++) {
pthread_cond_destroy(this->condition_floors[i]);
free(this->condition_floors[i]);
}
free(this->condition_floors);
free(this->mutex_cond_get_inside_elevator);
free(this->mutex_cond_get_outside_elevator);
free(this->mutex_func_get_inside_elevator);
free(this->mutex_func_get_next_call);
free(this->elevators);
free(this);
}
/**
* Tries to make @passenger enter an elevator, passenger being at @current_floor
* @THIS(Building)
* @current_floor the floor where the passenger is trying to enter the elevator
* @passenger the passenger to put in the elevator
* @returns an elevator number ( between 0 and ELEVATOR_NB - 1, inclusive ), -1 if no elevator was found ready to accept the passenger
*/
int get_inside_elevator_Building(THIS(Building), int current_floor, Passenger * passenger){
int i;
/* Make assumption that a waiting elevator is not full */
pthread_mutex_lock(this->mutex_func_get_inside_elevator);
printf("Passager %s : J'essaye de rentrer dans un ascenseur, à l'étage %d ( id : %d )\n", passenger->get_name(passenger), current_floor, passenger->get_id(passenger));
for (i=0; i<ELEVATOR_NB; i++){
if (this->elevators[i]->can_get_inside(this->elevators[i], current_floor)){
this->elevators[i]->add_passenger(this->elevators[i], passenger);
pthread_mutex_unlock(this->mutex_func_get_inside_elevator);
return i;
}
}
pthread_mutex_unlock(this->mutex_func_get_inside_elevator);
return -1;
}
void go_to_floor_Building(THIS(Building), int origin, int destination, Passenger * passenger){
int elevator_number;
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");}
this->waiting_floors[origin]++;//on ajoute à la liste des attentes
pthread_mutex_lock(this->mutex_cond_get_inside_elevator);
pthread_cond_wait(this->condition_floors[origin], this->mutex_cond_get_inside_elevator);
pthread_mutex_unlock(this->mutex_cond_get_inside_elevator);
elevator_number = this->get_inside_elevator(this, origin, passenger);
if (elevator_number != -1){ //passenger accepted in elevator
this->waiting_floors[origin]--;//on retire de la liste des attentes
pthread_mutex_lock(this->mutex_cond_get_outside_elevator);
pthread_cond_wait(this->condition_floors[destination], this->mutex_cond_get_outside_elevator);
pthread_mutex_unlock(this->mutex_cond_get_outside_elevator);
this->elevators[elevator_number]->remove_passenger(this->elevators[elevator_number], passenger);
}else{
if (passenger->type == RESIDENT)
printf("Résident %s : L'ascenseur à l'étage %d était plein et je n'ai pas pu monter\n", passenger->get_name(passenger), origin);
else if (passenger->type == VISITOR)
printf("Visiteur %s : L'ascenseur à l'étage %d était plein et je n'ai pas pu monter\n", passenger->get_name(passenger), origin);
//reloading fire
this->waiting_floors[origin]--;
this->go_to_floor(this, origin, destination, passenger);
}
}
int use_call_box_Building(THIS(Building), char * resident_name){
/* Return negative number if not found */
Element * current = this->residents->get_head(this->residents);
while (current != NULL){
if (!strcmp(((Resident *) current->get_data(current))->name, resident_name))
return ((Resident *) current->get_data(current))->apartment_floor;
current = current->get_next(current);
}
return -1;
}
void signal_elevator_at_floor_Building(THIS(Building), int floor){
pthread_cond_signal(this->condition_floors[floor]);
}
Building *_init_Building(char * residents_file, char * visitors_file){
Building * new_building = malloc_or_die(sizeof(Building));
char elevator_name[] = "@";
int i;
new_building->floors = FLOORS;
for (i=0; i<FLOORS; i++)
new_building->waiting_floors[i] = 0;
pthread_mutex_init(&new_building->mutex_waiting_floors, NULL);
new_building->elevators = malloc_or_die(sizeof(Elevator*) * ELEVATOR_NB);
new_building->mutex_cond_get_inside_elevator = malloc_or_die(sizeof(pthread_mutex_t));
new_building->mutex_cond_get_outside_elevator = malloc_or_die(sizeof(pthread_mutex_t));
new_building->mutex_func_get_inside_elevator = malloc_or_die(sizeof(pthread_mutex_t));
new_building->mutex_func_get_next_call = malloc_or_die(sizeof(pthread_mutex_t));
pthread_mutex_init(new_building->mutex_cond_get_inside_elevator, NULL);
pthread_mutex_init(new_building->mutex_cond_get_outside_elevator, NULL);
pthread_mutex_init(new_building->mutex_func_get_inside_elevator, NULL);
pthread_mutex_init(new_building->mutex_func_get_next_call, NULL);
new_building->condition_floors = malloc_or_die(sizeof(pthread_cond_t*) * FLOORS);
new_building->residents = NEW(List);
new_building->visitors = NEW(List);
for (i=0; i<ELEVATOR_NB; i++) {
elevator_name[0]++;
new_building->elevators[i] = NEW(Elevator, elevator_name);
}
for (i=0; i<FLOORS; i++){
new_building->condition_floors[i] = malloc_or_die((sizeof(pthread_cond_t)));
pthread_cond_init(new_building->condition_floors[i], NULL);
}
LINK_ALL(Building, new_building,
parse_residents,
parse_visitors,
get_inside_elevator,
use_call_box,
go_to_floor,
get_next_call,
get_waiting_floors,
signal_elevator_at_floor
)
if (residents_file != NULL)
new_building->parse_residents(new_building, residents_file);
if (visitors_file != NULL)
new_building->parse_visitors(new_building, visitors_file);
return new_building;
}