void hamilton2(int value, int *adjmatrix[])
{
stackH[stackHcount] = value;
stackHcount++;
if(stackHcount < n)
{
visitedH[value] = true;
for(i=0; i<n; i++)
{
if((adjmatrix[value][i] == 1) && (visitedH[i] == false))
{
hamilton2(i, adjmatrix);
}
}
visitedH[value] = false;
}
else
{
if((adjmatrix[value][0] == 1) && (test == true))
{
printf("Cykl Hamiltona: ");
for(i=0; i<stackHcount; i++)
{
printf("%d ",stackH[i]);
}
printf("0");
test = false;
//return;
}
}
if(test == false) return;
stackHcount--;
i = value;
}
int main()
{
srand(time(NULL));
n = 0;
licznik = 0;
do
{
printf("Podaj liczbe wierzcholkow: (min. 8)\n");
scanf("%d",&n);
} while (n < 8);
/*-----INICJALIZACJA TABLICY n x n - macierz sasiedztwa-----*/
int **adjmatrix30;
adjmatrix30 = (int**)malloc(n*sizeof(int*));
for (i=0; i<n; i++)
{
adjmatrix30[i] = (int*)malloc(n*sizeof(int));
}
int **adjmatrix70;
adjmatrix70 = (int**)malloc(n*sizeof(int*));
for (i=0; i<n; i++)
{
adjmatrix70[i] = (int*)malloc(n*sizeof(int));
}
/*-----GENEROWANIE I WYŒWIETLANIE GRAFU 0.3-----*/
printf("\n-----0.3-----\n");
nullify(adjmatrix30,n);
K = 0.3*n*(n-1)/2;
//generateHamilton2(n,adjmatrix30);
//adjmatrix_gen2(n, adjmatrix30);
generowanie(n,adjmatrix30);
//adjmatrix_print(n, adjmatrix30);
//printf("\nliczba krawedzi: %d\n",licznik);
/*---HAMILTON 0.3---*/
stackH = (int*)malloc((n+1)*sizeof(int));
stackHcount = 0;
visitedH = (bool*)malloc(n*sizeof(bool));
for(i=0; i<n; i++) visitedH[i] = false;
printf("\n");
test = true;
hamilton2(0, adjmatrix30);
printf("\n");
/*---EULER 0.3---*/
stack = (int*)malloc((K+1)*sizeof(int));
scount = 0;
euler(0, adjmatrix30);
printf("Cykl eulera: ");
for(i=0; i<scount; i++) printf("%d ",stack[i]);
//adjmatrix_print(n, adjmatrix30);
/*-----GENEROWANIE I WYŒWIETLANIE GRAFU 0.7-----*/
printf("\n-----0.7-----\n");
licznik = 0;
K = 0.7*n*(n-1)/2;
//adjmatrix_gen2(n, adjmatrix70);
generowanie(n, adjmatrix70);
//adjmatrix_print(n, adjmatrix70);
//printf("\nliczba krawedzi: %d\n",licznik);
/*---HAMILTON 0.7---*/
stackHcount = 0;
for(i=0; i<n; i++) visitedH[i] = false;
printf("\n");
test = true;
hamilton2(0, adjmatrix70);
printf("\n");
/*---EULER 0.7---*/
stack = (int*)realloc(stack,(K+1)*sizeof(int));
scount = 0;
euler(0, adjmatrix70);
printf("Cykl eulera: ");
for(i=0; i<scount; i++) printf("%d ",stack[i]);
/*-----GENEROWANIE I WYŒWIETLANIE GRAFU 0.5-----*/
printf("\n-----0.7-----\n");
licznik = 0;
K = 0.5*n*(n-1)/2;
generowanie_niesp(n, adjmatrix70);
/*---HAMILTON 0.5---*/
stackHcount = 0;
for(i=0; i<n; i++) visitedH[i] = false;
printf("\n");
test = true;
hamilton2(0, adjmatrix70);
printf("\n");
//ZWALNIANIE PAMIECI
for (i=0; i<n; i++)
{
free(adjmatrix30[i]);
free(adjmatrix70[i]);
}
free(adjmatrix30);
free(adjmatrix70);
free(stack);
free(stackH);
free(visitedH);
}
int main()
{
clock_t stop, start, starte3, stope3, starte7, stope7, starth3, stoph3, starth7, stoph7;
srand(time(NULL));
n = 0;
licznik = 0;
for(n=10;n<=100;n+=10){
printf("%d",n);
/*
do
{
printf("Podaj liczbe wierzcholkow: (min. 8)\n");
scanf("%d",&n);
} while (n < 8);
*/
/*-----INICJALIZACJA TABLICY n x n - macierz sasiedztwa-----*/
int **adjmatrix30;
adjmatrix30 = (int**)malloc(n*sizeof(int*));
for (i=0; i<n; i++)
{
adjmatrix30[i] = (int*)malloc(n*sizeof(int));
}
int **adjmatrix70;
adjmatrix70 = (int**)malloc(n*sizeof(int*));
for (i=0; i<n; i++)
{
adjmatrix70[i] = (int*)malloc(n*sizeof(int));
}
/*-----GENEROWANIE I WYŒWIETLANIE GRAFU 0.3-----*/
//printf("\n-----0.3-----\n");
nullify(adjmatrix30,n);
K = 0.3*n*(n-1)/2;
//generateHamilton2(n,adjmatrix30);
//adjmatrix_gen2(n, adjmatrix30);
generowanie(n,adjmatrix30);
//adjmatrix_print(n, adjmatrix30);
//printf("\nliczba krawedzi: %d\n",licznik);
/*---HAMILTON 0.3---*/
stackH = (int*)malloc((n+1)*sizeof(int));
stackHcount = 0;
visitedH = (bool*)malloc(n*sizeof(bool));
for(i=0; i<n; i++) visitedH[i] = false;
//printf("\n");
test = true;
starth3=clock();
hamilton2(0, adjmatrix30);
stoph3=clock();
//printf("\n");
/*---EULER 0.3---*/
stack = (int*)malloc((K+1)*sizeof(int));
scount = 0;
starte3=clock();
euler(0, adjmatrix30);
stope3=clock();
//printf("Cykl eulera: ");
//for(i=0; i<scount; i++) printf("%d ",stack[i]);
//adjmatrix_print(n, adjmatrix30);
/*-----GENEROWANIE I WYŒWIETLANIE GRAFU 0.7-----*/
//printf("\n-----0.7-----\n");
licznik = 0;
K = 0.7*n*(n-1)/2;
//adjmatrix_gen2(n, adjmatrix70);
generowanie(n, adjmatrix70);
//adjmatrix_print(n, adjmatrix70);
//printf("\nliczba krawedzi: %d\n",licznik);
/*---HAMILTON 0.7---*/
stackHcount = 0;
for(i=0; i<n; i++) visitedH[i] = false;
//printf("\n");
test = true;
starth7=clock();
hamilton2(0, adjmatrix70);
stoph7=clock();
//printf("\n");
/*---EULER 0.7---*/
stack = (int*)realloc(stack,(K+1)*sizeof(int));
scount = 0;
starte7=clock();
euler(0, adjmatrix70);
stope7=clock();
//printf("Cykl eulera: ");
//for(i=0; i<scount; i++) printf("%d ",stack[i]);
/*-----GENEROWANIE I WYŒWIETLANIE GRAFU 0.5-----*/
//printf("%d\n",n);
//printf("\n-----0.7-----\n");
licznik = 0;
K = 0.5*n*(n-1)/2;
generowanie_niesp(n, adjmatrix70);
/*---HAMILTON 0.5---*/
stackHcount = 0;
for(i=0; i<n; i++) visitedH[i] = false;
//printf("\n");
test = true;
start=clock();
hamilton2(0, adjmatrix70);
stop=clock();
// printf("\n");
printf(" %.5f %.5f %.5f %.5f %.5f\n", (stope3-starte3)/(double)CLOCKS_PER_SEC,(stope7-starte7)/(double)CLOCKS_PER_SEC,(stoph3-starth3)/(double)CLOCKS_PER_SEC,(stoph7-starth7)/(double)CLOCKS_PER_SEC,(stop-start)/(double)CLOCKS_PER_SEC);
//ZWALNIANIE PAMIECI
for (i=0; i<n; i++)
{
free(adjmatrix30[i]);
free(adjmatrix70[i]);
}
free(adjmatrix30);
free(adjmatrix70);
free(stack);
free(stackH);
free(visitedH);
}
}
