wator_t* new_wator (char* fileplan){
FILE *f_p= fopen(fileplan, "r");
FILE *f = fopen(CONFIGURATION_FILE, "r");
wator_t *p ;
uint v[3];
/** Le successive variabili sarranno usate per cumulare la lettura
* In particolare verranno usate stringhe per semplicità (per usare strcmp)
*/
char st[3][3];
st[0][2] = st[1][2] = st[2][2] = '\0'; /*verranno letti caratteri per cui l'end line dovrà esser messo a mano*/
if ( ! f || ! f_p ){
if (f) fclose(f);
if (f_p) fclose(f);
/* errno settato da fopen */
return NULL;
}
if(fscanf( f, "%c%c %u\n", st[0], st[0]+1, &v[0] ) < 3 /* Se l'esito è true allora il formato è errato*/
|| fscanf( f, "%c%c %u\n", st[1], st[1]+1, &v[1] ) < 3
|| fscanf( f, "%c%c %u\n", st[2], st[2]+1, &v[2] ) < 3
|| ( strcmp(st[0],"sd") && strcmp(st[1],"sd") && strcmp(st[2],"sd") )
|| ( strcmp(st[0],"sb") && strcmp(st[1],"sb") && strcmp(st[2],"sb") )
|| ( strcmp(st[0],"fb") && strcmp(st[1],"fb") && strcmp(st[2],"fb") )
){ /** Se uno degli ultimi tre confronti è vero => esiste un st* diverso da tutte le stringhe accettate
* Viceversa se l'esito è false allora tutte le stringhe sono ovviamente diverse!
*/
fclose(f);
errno = EBADF; /*Non saprei che errore sia più consono tra i disponibili */
return NULL;
}
/* alloco wator*/
if ( ! ( p = malloc(sizeof(wator_t)) ) ){
errno = EFAULT;
fclose(f);
fclose(f_p);
return NULL;
}
/* inizializzazioni non previste dal file conf*/
p->plan = NULL;
p->nf = p->ns = p->nwork = p->chronon = 0;
/* utilizzo della macro sopra definita per cercare in st il valore "sd" e restituire il rispettivo v */
p->sd = CERCA("sd", st, v);
p->sb = CERCA("sb", st, v);
p->fb = CERCA("fb", st, v);
/***** PARTE DUBBIA ****/
if ( ! (p->plan = load_planet( f_p ) ) ) {
/*errno settato da load*/
fclose(f_p);
fclose(f);
return NULL;
}
p->ns = shark_count ( p->plan );
p->nf = fish_count ( p->plan );
/************************/
fclose(f_p);
fclose(f);
return p;
}
/**
*
* questo programma testa tutte le funzioni finora implementate
*
* esegue un test alla volta passando il risultato alla funzione print_result
*
**/
int main ()
{
planet_t *pl;
wator_t *wt;
cell_t **copia;
cell_t c;
int k,l,p,g,n;
FILE *f1, *f2;
mtrace();
print_result ( cell_to_char(WATER) == 'W' , "cell_to_char(WATER)" );
print_result ( cell_to_char(FISH) == 'F' , "cell_to_char(FISH)" );
print_result ( cell_to_char(SHARK) == 'S' , "cell_to_char(SHARK)" );
print_result ( char_to_cell('W') == WATER , "char_to_cell('W')" );
print_result ( char_to_cell('F') == FISH , "char_to_cell('F')" );
print_result ( char_to_cell('S') == SHARK , "char_to_cell('S')" );
print_result ( char_to_cell('P') == -1 , "char_to_cell('P')" );
print_result ( char_to_cell( cell_to_char (WATER) ) == WATER , "char_to_cell( cell_to_char (WATER) )" );
print_result ( cell_to_char( char_to_cell ('F') ) == 'F' , "cell_to_char( char_to_cell ('F') )" );
test_matrice_generica (10,40);
test_matrice_generica (1000,40000);
pl=new_planet (10,10);
print_result ( ( pl!=NULL && pl->nrow==10 && pl->ncol==10 ) || errno==ENOMEM, "new_planet (10,10)" );
free_planet (pl);
contatore_pesci=contatore_squali=0;
print_result ( controlla_formato_e_conta_squali_e_pesci ('W', ' ', 0, &c ) && c == WATER , "controlla_formato_e_conta_squali_e_pesci ('W', ' ', 0, &c )" );
print_result ( controlla_formato_e_conta_squali_e_pesci ('F', ' ', 0, &c ) && c == FISH && contatore_pesci==1 , "controlla_formato_e_conta_squali_e_pesci ('F', ' ', 0, &c )" );
print_result ( controlla_formato_e_conta_squali_e_pesci ('S', '\n', 1, &c ) && c == SHARK && contatore_squali==1 , "controlla_formato_e_conta_squali_e_pesci ('S', '\\n', 1, &c )" );
print_result ( ! controlla_formato_e_conta_squali_e_pesci ('M', '\n', 1, &c ), "controlla_formato_e_conta_squali_e_pesci ('M', '\\n', 1, &c )" );
print_result ( ! controlla_formato_e_conta_squali_e_pesci ('W', '\n', 0, &c ), "controlla_formato_e_conta_squali_e_pesci ('W', '\\n', 0, &c )" );
print_result ( ! controlla_formato_e_conta_squali_e_pesci ('W', 'a', 0, &c ), "controlla_formato_e_conta_squali_e_pesci ('W', 'a', 0, &c )" );
print_result ( test_load_store ("custom_test/planet1.dat", 1), "test_load_store(\"custom_test/planet1.dat\")" );
print_result ( test_load_store ("custom_test/planet2.dat", 1), "test_load_store(\"custom_test/planet2.dat\")" );
print_result ( test_load_store ("custom_test/planet3.dat", 0), "test_load_store(\"custom_test/planet3.dat\")" );
print_result ( test_load_store ("custom_test/planet4.dat", 0), "test_load_store(\"custom_test/planet4.dat\")" );
print_result ( test_load_store ("custom_test/planet5.dat", 0), "test_load_store(\"custom_test/planet5.dat\")" );
wt = malloc ( sizeof(wator_t) );
wt->plan = NULL;
system ("rm -f wator.conf");
print_result ( read_wator_conf (wt) == -1, "read_wator_conf without wator.conf" );
system ("cp custom_test/wator.conf.1 wator.conf");
print_result ( read_wator_conf (wt) == 1 && wt->sd == 100 && wt->sb == 20 && wt->fb == 15 , "read_wator_conf wator.conf.1" );
system ("cp custom_test/wator.conf.2 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.2" );
system ("cp custom_test/wator.conf.3 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.3" );
system ("cp custom_test/wator.conf.4 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.4" );
system ("cp custom_test/wator.conf.5 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.5" );
system ("cp custom_test/wator.conf.6 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.6" );
system ("cp custom_test/wator.conf.7 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.7" );
system ("cp custom_test/wator.conf.8 wator.conf");
print_result ( ! read_wator_conf(wt) && errno == ERANGE , "read_wator_conf wator.conf.8" );
free_wator (wt);
system ("cp custom_test/wator.conf.1 wator.conf");
wt=new_wator ("custom_test/planet1.dat");
print_result ( wt != NULL && wt->nf == 701 && wt->ns == 300 && wt->sd == 100 && wt->sb == 20 && wt->fb == 15 && wt->plan != NULL && wt->plan->nrow == 200 && wt->plan->ncol == 130 && wt->plan->w[3][7] == SHARK , "new_wator");
k=7;
l=6;
print_result ( ricerca_cella (wt->plan, &k, &l, FISH) && k==7 && l==7 , "ricerca_cella (wt->pl, 7, 6, FISH)" );
k=l=0;
print_result ( ricerca_cella (wt->plan, &k, &l, SHARK) && k==199 && l==0 , "ricerca_cella (wt->pl, 0, 0, SHARK)" );
k=1;
l=3;
print_result ( ! ricerca_cella (wt->plan, &k, &l, SHARK) && k==1 && l==3 , "ricerca_cella (wt->pl, 1, 3, SHARK)" );
k=5;
l=2;
print_result ( ricerca_cella (wt->plan, &k, &l, FISH) && k==5 && ( l==3 || l== 1 ), "ricerca_cella (wt->pl, 5, 2, SHARK)" );
k=20;
l=25;
print_result ( ricerca_cella (wt->plan, &k, &l, WATER) && ( (k==19 && l==25 ) || ( k== 20 && l== 24 ) ), "ricerca_cella (wt->pl, 20, 25, WATER)" );
print_result ( shark_rule1 ( wt, 0, 2, &k, &l ) == -1 , "shark_rule_1 (0,2)" );
print_result ( shark_rule1 ( wt, 1, 14, &k, &l ) == MOVE, "shark_rule_1 (1,15)" );
print_result ( shark_rule1 ( wt, 7, 6, &k, &l ) == EAT && k==7 && l==7, "shark_rule_1 (7,7)" );
//resetto il pianeta
free_wator (wt);
wt=new_wator ("custom_test/planet1.dat");
n=10;
wt->plan->btime[1][14] = 3;
print_result ( ! riproduzione_generica (wt->plan, 1, 14, &k, &l, 4, &n ) && k==1 && l==14 && n==10, "riproduzione_generica (wt->plan, 1, 14) - nothing" );
p=1;
g=14;
print_result ( riproduzione_generica (wt->plan, 1, 14, &k, &l, 4, &n ) && ricerca_cella (wt->plan, &p, &g, SHARK) && p==k && g==l && n==11, "riproduzione_generica (wt->plan, 1, 14) - born" );
wt->plan->dtime[3][7] = wt->sd;
print_result ( shark_rule2 ( wt, 3, 7, &k, &l ) == DEAD && wt->plan->w[3][7] == WATER, "shark_rule2 ( wt, 3, 7) - died" );
print_result ( shark_rule2 ( wt, 7, 6, &k, &l ) == ALIVE && wt->plan->btime[7][6] == 1 , "shark_rule2 ( wt, 7, 6) - nothing" );
wt->plan->btime[7][6] = wt->sb;
p=7;
g=6;
print_result ( shark_rule2 ( wt, 7, 6, &k, &l ) == ALIVE && ricerca_cella ( wt->plan, &p, &g, SHARK ) && p==k && g==l , "shark_rule2 ( wt, 7, 6) - born" );
//resetto il pianeta
free_wator (wt);
wt=new_wator ("custom_test/planet1.dat");
p=0;
g=12;
print_result ( fish_rule3 ( wt, 0, 12, &k, &l ) == MOVE && wt->plan->w[0][12] == WATER && ricerca_cella (wt->plan,&p,&g,FISH) && p==k && g==l , "fish_rule_3 ( wt, 0, 12) - moved" );
print_result ( ! fish_rule4 (wt, 5, 70, &k, &l ) && wt->plan->btime[5][70] == 1 , "fish_rule4 (wt, 5, 70) - nothing" );
print_result ( conta_generico ( wt->plan, FISH ) == 701 , "conta_generico ( wt->plan, FISH )" );
print_result ( conta_generico ( wt->plan, SHARK ) == 300 , "conta_generico ( wt->plan, SHARK )" );
print_result ( conta_generico ( wt->plan, WATER ) == wt->plan->ncol*wt->plan->nrow - 701 - 300 , "conta_generico ( wt->plan, WATER )" );
wt->plan->btime[5][70] = wt->fb;
p=5;
g=70;
print_result ( ! fish_rule4 (wt, 5, 70, &k, &l ) && wt->plan->btime[5][70] == 0 && ricerca_cella (wt->plan, &p,&g,FISH) && p==k && g==l , "fish_rule4 (wt, 5, 70) - born" );
//quello in più rispetto a 701 del test di prima è appena nato. Auguri!
print_result ( fish_count ( wt->plan ) == wt->nf , "fish_count ( wt->plan ) == wt->nf");
print_result ( shark_count ( wt->plan ) == wt->ns , "fish_count ( wt->plan ) == wt->ns");
//copio il pianeta e lo scrivo sul file. Poi confronto i due file, per vedere se sono uguali
copia = (cell_t**) alloca_matrice_generica ( wt->plan->nrow, wt->plan->ncol, sizeof (cell_t), sizeof (cell_t *) );
copia_pianeta (copia, wt->plan->w, wt->plan->nrow, wt->plan->ncol);
pl = malloc ( sizeof (planet_t) );
pl->w = copia;
pl->nrow = wt->plan->nrow;
pl->ncol = wt->plan->ncol;
pl->btime = NULL;
pl->dtime = NULL;
f1 = fopen ( "custom_test/result_wt.dat", "w" );
f2 = fopen ( "custom_test/result_copia.dat", "w" );
print_planet ( f1, wt->plan );
print_planet ( f2, pl );
fclose (f1);
fclose (f2);
print_result ( confronto_file ( f1,f2 ), "copia_pianeta ()" );
free_wator (wt);
free_planet (pl);
wt = new_wator ("custom_test/planet1.dat");
free_wator (wt);
muntrace();
return 0;
}
