void msort(LIST* lst){
if(lst_length(lst) <= 1)
return;
LIST* lst2 = lst_prefix(lst, lst_length(lst)/2);
msort(lst);
msort(lst2);
lst_merge_sorted(lst, lst2);
}
static int cl_c(statedes *st, bindes *bd, int c, char **v)
{int i, rv;
char *cpr, *cdv, **sdv, **scp;
bd->iparam = MAKE_N(int, 2);
rv = 1;
cpr = "";
cdv = "";
for (i = 1; i < c; i++)
{if (strcmp(v[i], "-c") == 0)
cpr = v[++i];
else if (strcmp(v[i], "-dv") == 0)
cdv = v[++i];
else if (strcmp(v[i], "-h") == 0)
{printf(" C specifications: -c <c-proto> -dv <c-der>\n");
printf(" c file containing C prototypes\n");
printf(" dv file containing C enum,struct,union defs\n");
printf("\n");
cpr = "";
break;};};
if (IS_NULL(cpr) == FALSE)
{sdv = file_text(FALSE, cdv);
scp = file_text(FALSE, cpr);
st->cdv = sdv;
st->cpr = scp;
bd->iparam[0] = lst_length(sdv);
bd->iparam[1] = lst_length(scp);
rv = 0;}
else
printf("No prototypes found for '%s'\n", st->pck);
return(rv);}
void qsort1(LIST* lst){
if(lst_length(lst) <= 1)
return;
ElemType pivot = lst_pop_front(lst);
LIST* pivotList = lst_create();
lst_push_front(pivotList, pivot);
LIST* lst2 = lst_filter_leq(lst, pivot);
qsort1(lst);
qsort1(lst2);
lst_concat(lst2, pivotList);
lst_concat(lst2, lst);
lst_concat(lst, lst2);
}
int main() {
printf("REMINDER: This test suite is NOT exhaustive. Passing all of these tests does NOT mean you will get 100%% on the project.\n");
srand(time(NULL));
int i;
/********* 0 lst_is_empty **********/
LIST *empty = lst_create();
LIST *one = lst_create();
LIST *large = lst_create();
lst_push_back(one, 5);
int rand_size = rand() % 20;
for(i = 0; i < rand_size; i++) {
lst_push_back(large, i);
}
printf("\n\nTest: 0A\nDescription: Testing lst_is_empty with List of length 0\nExpected output: 1\n");
printf("Your output: %d\n", lst_is_empty(empty));
printf("\n\nTest: 0B\nDescription: Testing lst_is_empty with List of length 1\nExpected output: 0\n");
printf("Your output: %d\n", lst_is_empty(one));
printf("\n\nTest: 0CnDescription: Testing lst_is_empty with List of length %d\nExpected output: %d\n", rand_size, ((rand_size == 0) ? 1 : 0));
printf("Your output: %d\n", lst_is_empty(large));
FREE(large);
FREE(one);
FREE(empty);
/********* 1 lst_print_rev **********/
LIST *rev1 = lst_create();
LIST *rev2 = lst_create();
for(i = 0; i < 5; i++) {
lst_push_back(rev2, i);
}
printf("\n\nTest: 1A\nDescription: Testing lst_print_rev with List of length 5\nExpected output: \n[4, 3, 2, 1, 0]\n");
printf("Your output\n");
lst_print_rev(rev2);
printf("\n\nTest: 1B\nDescription: Testing lst_print_rev with List of length 0\nExpected output: \n[ ]\n");
printf("Your output\n");
lst_print_rev(rev1);
FREE(rev1);
FREE(rev2);
/********** 3 lst_pop_back ***********/
large = lst_create();
one = lst_create();
empty = lst_create();
for(i = 0; i < 8; i++) {
lst_push_back(large, i);
}
lst_push_back(one, 6);
printf("\n\nTest: 3A\nDescription: Testing lst_pop_back with List of length 0\nExpected output: <some arbitrary number (NO SEG FAULT!)>\n");
printf("Your output: %d\n", lst_pop_back(empty));
printf("\n\nTest: 3B\nDescription: Testing lst_pop_back with List of length 1\nExpected output: 6\n");
printf("Your output: %d\n", lst_pop_back(one));
printf("\n\nTest: 3C\nDescription: Testing lst_pop_back with List of length 8\nExpected output: 7\n");
printf("Your output: %d\n", lst_pop_back(large));
FREE(large);
FREE(one);
FREE(empty);
/********** 5 lst_is_sorted ***********/
empty = lst_create();
LIST *sorted = lst_create();
LIST *unsorted = lst_create();
for(i = 0; i < 10; i++) {
lst_push_back(sorted, i);
lst_push_back(unsorted, i);
}
lst_push_back(unsorted, 5);
printf("\n\nTest: 5A\nDescription: Testing lst_is_sorted with List of length 0\nExpected output: 1\n");
printf("Your output: %d\n", lst_is_sorted(empty));
printf("\n\nTest: 5B\nDescription: Testing lst_is_sorted with List of length 11\nExpected output: 0\n");
printf("Your output: %d\n", lst_is_sorted(unsorted));
printf("\n\nTest: 5C\nDescription: Testing lst_is_sorted with List of length 10\nExpected output: 1\n");
printf("Your output: %d\n", lst_is_sorted(sorted));
FREE(empty);
FREE(sorted);
FREE(unsorted);
/********** 7 lst_length ***********/
empty = lst_create();
rand_size = rand() % 100;
LIST *small = lst_create();
large = lst_create();
for(i = 0; i < rand_size; i++) {
lst_push_back(large, rand() % 1000);
}
lst_push_back(small, 3);
printf("\n\nTest: 7A\nDescription: Testing lst_length with List of length 0\nExpected output: 0\n");
printf("Your output: %d\n", lst_length(empty));
printf("\n\nTest: 7B\nDescription: Testing lst_length with List of length 1\nExpected output: 1\n");
printf("Your output: %d\n", lst_length(small));
printf("\n\nTest: 7C\nDescription: Testing lst_length with List of length %d\nExpected output: %d\n", rand_size, rand_size);
printf("Your output: %d\n", lst_length(large));
FREE(empty);
FREE(small);
FREE(large);
/********** 9 lst_clone ***********/
empty = lst_create();
small = lst_create();
large = lst_create();
lst_push_back(small, 3);
rand_size = rand() % 10;
for(i = 0; i < rand_size; i++) {
lst_push_back(large, rand() % 500);
}
printf("\n\nTest 9A\nDescription: Testing lst_clone with List of length 0\nExpected output:\n");
lst_print(empty);
printf("Your output: \n");
LIST *empty_clone = lst_clone(empty);
lst_print(empty_clone);
printf("\n\nTest 9B\nDescription: Testing lst_clone with List of length 1\nExpected output:\n");
lst_print(small);
printf("Your output: \n");
LIST *small_clone = lst_clone(small);
lst_print(small_clone);
printf("\n\nTest 9C\nDescription: Testing lst_clone with List of random size\nExpected output:\n");
lst_print(large);
printf("Your output: \n");
LIST *large_clone = lst_clone(large);
lst_print(large_clone);
FREE(empty);
FREE(small);
FREE(large);
/********** 11 lst_to_array ***********/
large = lst_create();
rand_size = rand() % 50;
for(i = 0; i < rand_size; i++) {
lst_push_back(large, rand() % 100);
}
printf("\n\nTest 11A\nDescription: Testing lst_to_array with List of length %d\nExpected output:\n", rand_size);
lst_print(large);
printf("Your output: \n");
int *arr = lst_to_array(large);
print_arr(arr, lst_length(large));
FREE(large);
/********** 13 lst_filter_leq ***********/
large = lst_create();
empty = lst_create();
small = lst_create();
lst_push_back(small, 7);
for(i = 0; i < 10; i++) {
lst_push_back(large, i);
}
printf("\n\nTest 13A\nDescription: Testing lst_filter_leq with List of length 0 and cutoff of 5\nExpected output for original List after call to lst_filter_leq:\n");
LIST *leq_empty = lst_filter_leq(empty, 5);
printf("[ ]\n");
printf("Your output of original List:\n");
lst_print(empty);
printf("Expected output for new list of leq elements:\n");
printf("[ ]\n");
printf("Your output of new list of leq elements:\n");
lst_print(leq_empty);
printf("\n\nTest 13B\nDescription: Testing lst_filter_leq with List of length 1 and cutoff of 7\nExpected output for original List after call to lst_filter_leq:\n");
LIST *leq_small = lst_filter_leq(small, 5);
printf("[ 7 ]\n");
printf("Your output of original List:\n");
lst_print(small);
printf("Expected output for new list of leq elements:\n");
printf("[ ]\n");
printf("Your output of new list of leq elements:\n");
lst_print(leq_small);
printf("\n\nTest 13C\nDescription: Testing lst_filter_leq with List of length 0 and cutoff of 5\nExpected output for original List after call to lst_filter_leq:\n");
LIST *leq_large = lst_filter_leq(large, 5);
printf("[ 6 7 8 9 ]\n");
printf("Your output of original List:\n");
lst_print(large);
printf("Expected output for new list of leq elements:\n");
printf("[ 0 1 2 3 4 5 ]\n");
printf("Your output of new list of leq elements:\n");
lst_print(leq_large);
FREE(leq_empty);
FREE(leq_small);
FREE(leq_large);
FREE(empty);
FREE(small);
FREE(large);
}
