return index < lst->count;
}
+/**
+ * alist_calc_index() - Calculate the index of an item in the list
+ *
+ * The returned element number will be -1 if the list is empty or the pointer
+ * pointers to before the list starts.
+ *
+ * If the pointer points to after the last item, the calculated element-number
+ * will be returned, even though it is greater than lst->count
+ *
+ * @lst: alist to check
+ * @ptr: pointer to check
+ * Return: element number of the pointer
+ */
+int alist_calc_index(const struct alist *lst, const void *ptr);
+
/**
* alist_err() - Check if the alist is still valid
*
#define alist_add(_lst, _obj) \
((typeof(_obj) *)alist_add_ptr(_lst, &(_obj)))
+/** get next entry as a constant */
+#define alist_next(_lst, _objp) \
+ ((const typeof(_objp))alist_next_ptrd(_lst, _objp))
+
+/** get next entry, which can be written to */
+#define alist_nextw(_lst, _objp) \
+ ((typeof(_objp))alist_next_ptrd(_lst, _objp))
+
+/**
+ * alist_next_ptrd() - Get a pointer to the next list element
+ *
+ * This returns NULL if the requested element is beyond lst->count
+ *
+ * @lst: List to check
+ * @ptr: Pointer to current element (must be valid)
+ * Return: Pointer to next element, or NULL if @ptr is the last
+ */
+const void *alist_next_ptrd(const struct alist *lst, const void *ptr);
+
/**
* alist_init() - Set up a new object list
*
return lst->data + index * lst->obj_size;
}
+int alist_calc_index(const struct alist *lst, const void *ptr)
+{
+ uint index;
+
+ if (!lst->count || ptr < lst->data)
+ return -1;
+
+ index = (ptr - lst->data) / lst->obj_size;
+
+ return index;
+}
+
+const void *alist_next_ptrd(const struct alist *lst, const void *ptr)
+{
+ int index = alist_calc_index(lst, ptr);
+
+ assert(index != -1);
+
+ return alist_get_ptr(lst, index + 1);
+}
+
void *alist_ensure_ptr(struct alist *lst, uint index)
{
uint minsize = index + 1;
return 0;
}
LIB_TEST(lib_test_alist_add, 0);
+
+/* Test alist_next() */
+static int lib_test_alist_next(struct unit_test_state *uts)
+{
+ const struct my_struct *ptr;
+ struct my_struct data, *ptr2;
+ struct alist lst;
+ ulong start;
+
+ start = ut_check_free();
+
+ ut_assert(alist_init_struct(&lst, struct my_struct));
+ data.val = 123;
+ data.other_val = 0;
+ alist_add(&lst, data);
+
+ data.val = 321;
+ alist_add(&lst, data);
+
+ data.val = 789;
+ alist_add(&lst, data);
+
+ ptr = alist_get(&lst, 0, struct my_struct);
+ ut_assertnonnull(ptr);
+ ut_asserteq(123, ptr->val);
+
+ ptr = alist_next(&lst, ptr);
+ ut_assertnonnull(ptr);
+ ut_asserteq(321, ptr->val);
+
+ ptr2 = (struct my_struct *)ptr;
+ ptr2 = alist_nextw(&lst, ptr2);
+ ut_assertnonnull(ptr2);
+
+ ptr = alist_next(&lst, ptr);
+ ut_assertnonnull(ptr);
+ ut_asserteq(789, ptr->val);
+ ut_asserteq_ptr(ptr, ptr2);
+ ptr2->val = 89;
+ ut_asserteq(89, ptr->val);
+
+ ptr = alist_next(&lst, ptr);
+ ut_assertnull(ptr);
+
+ alist_uninit(&lst);
+
+ /* Check for memory leaks */
+ ut_assertok(ut_check_delta(start));
+
+ return 0;
+}
+LIB_TEST(lib_test_alist_next, 0);