CS代考计算机代写 /* Test program for lib/kernel/list.c.

/* Test program for lib/kernel/list.c.

Attempts to test the list functionality that is not
sufficiently tested elsewhere in Pintos.

This is not a test we will run on your submitted projects.
It is here for completeness.
*/

#undef NDEBUG
#include
#include #include
#include
#include “threads/test.h”

/* Maximum number of elements in a linked list that we will
test. */
#define MAX_SIZE 64

/* A linked list element. */
struct value
{
struct list_elem elem; /* List element. */
int value; /* Item value. */
};

static void shuffle (struct value[], size_t);
static bool value_less (const struct list_elem *, const struct list_elem *,
void *);
static void verify_list_fwd (struct list *, int size);
static void verify_list_bkwd (struct list *, int size);

/* Test the linked list implementation. */
void
test (void)
{
int size;

printf (“testing various size lists:”);
for (size = 0; size < MAX_SIZE; size++) { int repeat; printf (" %d", size); for (repeat = 0; repeat < 10; repeat++) { static struct value values[MAX_SIZE * 4]; struct list list; struct list_elem *e; int i, ofs; /* Put values 0...SIZE in random order in VALUES. */ for (i = 0; i < size; i++) values[i].value = i; shuffle (values, size); /* Assemble list. */ list_init (&list); for (i = 0; i < size; i++) list_push_back (&list, &values[i].elem); /* Verify correct minimum and maximum elements. */ e = list_min (&list, value_less, NULL); ASSERT (size ? list_entry (e, struct value, elem)->value == 0
: e == list_begin (&list));
e = list_max (&list, value_less, NULL);
ASSERT (size ? list_entry (e, struct value, elem)->value == size – 1
: e == list_begin (&list));

/* Sort and verify list. */
list_sort (&list, value_less, NULL);
verify_list_fwd (&list, size);

/* Reverse and verify list. */
list_reverse (&list);
verify_list_bkwd (&list, size);

/* Shuffle, insert using list_insert_ordered(),
and verify ordering. */
shuffle (values, size);
list_init (&list);
for (i = 0; i < size; i++) list_insert_ordered (&list, &values[i].elem, value_less, NULL); verify_list_fwd (&list, size); /* Duplicate some items, uniquify, and verify. */ ofs = size; for (e = list_begin (&list); e != list_end (&list); e = list_next (e)) { struct value *v = list_entry (e, struct value, elem); int copies = random_ulong () % 4; while (copies-- > 0)
{
values[ofs].value = v->value;
list_insert (e, &values[ofs++].elem);
}
}
ASSERT ((size_t) ofs < sizeof values / sizeof *values); list_unique (&list, NULL, value_less, NULL); verify_list_fwd (&list, size); } } printf (" done\n"); printf ("list: PASS\n"); } /* Shuffles the CNT elements in ARRAY into random order. */ static void shuffle (struct value *array, size_t cnt) { size_t i; for (i = 0; i < cnt; i++) { size_t j = i + random_ulong () % (cnt - i); struct value t = array[j]; array[j] = array[i]; array[i] = t; } } /* Returns true if value A is less than value B, false otherwise. */ static bool value_less (const struct list_elem *a_, const struct list_elem *b_, void *aux UNUSED) { const struct value *a = list_entry (a_, struct value, elem); const struct value *b = list_entry (b_, struct value, elem); return a->value < b->value;
}

/* Verifies that LIST contains the values 0…SIZE when traversed
in forward order. */
static void
verify_list_fwd (struct list *list, int size)
{
struct list_elem *e;
int i;

for (i = 0, e = list_begin (list);
i < size && e != list_end (list); i++, e = list_next (e)) { struct value *v = list_entry (e, struct value, elem); ASSERT (i == v->value);
}
ASSERT (i == size);
ASSERT (e == list_end (list));
}

/* Verifies that LIST contains the values 0…SIZE when traversed
in reverse order. */
static void
verify_list_bkwd (struct list *list, int size)
{
struct list_elem *e;
int i;

for (i = 0, e = list_rbegin (list);
i < size && e != list_rend (list); i++, e = list_prev (e)) { struct value *v = list_entry (e, struct value, elem); ASSERT (i == v->value);
}
ASSERT (i == size);
ASSERT (e == list_rend (list));
}