{
u32 len; /**< Number of elements in vector (NOT its allocated length). */
u8 hdr_size; /**< header size divided by VEC_MIN_ALIGN */
- u8 log2_align; /**< data alignment */
- u8 vpad[2]; /**< pad to 8 bytes */
+ u8 log2_align : 7; /**< data alignment */
+ u8 default_heap : 1; /**< vector uses default heap */
+ u8 grow_elts; /**< number of elts vector can grow without realloc */
+ u8 vpad[1]; /**< pad to 8 bytes */
u8 vector_data[0]; /**< Vector data . */
} vec_header_t;
@return pointer to the vector's vector_header_t
*/
#define _vec_find(v) ((vec_header_t *) (v) - 1)
+#define _vec_heap(v) (((void **) (_vec_find (v)))[-1])
always_inline uword __vec_align (uword data_align, uword configuered_align);
always_inline uword __vec_elt_sz (uword elt_sz, int is_void);
#define _vec_elt_sz(V) __vec_elt_sz (sizeof ((V)[0]), _vec_is_void (V))
#define _vec_align(V, A) __vec_align (__alignof__((V)[0]), A)
-always_inline CLIB_NOSANITIZE_ADDR uword
+always_inline __clib_nosanitize_addr uword
vec_get_header_size (void *v)
{
uword header_size = _vec_find (v)->hdr_size * VEC_MIN_ALIGN;
return v + vec_get_header_size (v);
}
-/** \brief Number of elements in vector (lvalue-capable)
-
- _vec_len (v) does not check for null, but can be used as an lvalue
- (e.g. _vec_len (v) = 99).
-*/
-
-#define _vec_len(v) (_vec_find(v)->len)
-
/** \brief Number of elements in vector (rvalue-only, NULL tolerant)
vec_len (v) checks for NULL, but cannot be used as an lvalue.
If in doubt, use vec_len...
*/
+static_always_inline u32
+__vec_len (void *v)
+{
+ return _vec_find (v)->len;
+}
+
+#define _vec_len(v) __vec_len ((void *) (v))
#define vec_len(v) ((v) ? _vec_len(v) : 0)
+
u32 vec_len_not_inline (void *v);
/** \brief Number of data bytes in vector. */
#define vec_max_len(v) _vec_max_len (v, _vec_elt_sz (v))
+static_always_inline void
+_vec_set_grow_elts (void *v, uword n_elts)
+{
+ uword max = pow2_mask (BITS (_vec_find (0)->grow_elts));
+
+ if (PREDICT_FALSE (n_elts > max))
+ n_elts = max;
+
+ _vec_find (v)->grow_elts = n_elts;
+}
+
always_inline void
_vec_set_len (void *v, uword len, uword elt_sz)
{
ASSERT (v);
ASSERT (len <= _vec_max_len (v, elt_sz));
uword old_len = _vec_len (v);
+ uword grow_elts = _vec_find (v)->grow_elts;
if (len > old_len)
- CLIB_MEM_UNPOISON (v + old_len * elt_sz, (len - old_len) * elt_sz);
- else if (len > old_len)
- CLIB_MEM_POISON (v + len * elt_sz, (old_len - len) * elt_sz);
+ clib_mem_unpoison (v + old_len * elt_sz, (len - old_len) * elt_sz);
+ else if (len < old_len)
+ clib_mem_poison (v + len * elt_sz, (old_len - len) * elt_sz);
- _vec_len (v) = len;
+ _vec_set_grow_elts (v, old_len + grow_elts - len);
+ _vec_find (v)->len = len;
}
#define vec_set_len(v, l) _vec_set_len ((void *) v, l, _vec_elt_sz (v))
+#define vec_inc_len(v, l) vec_set_len (v, _vec_len (v) + (l))
+#define vec_dec_len(v, l) vec_set_len (v, _vec_len (v) - (l))
/** \brief Reset vector length to zero
NULL-pointer tolerant
if (v) \
for ((var) = vec_len ((v)) - 1; (var) >= 0; (var)--)
+#define vec_foreach_pointer(e, v) \
+ if (v) \
+ for (typeof (**v) **__ep = (v), **__end = vec_end (v), *(e) = *__ep; \
+ __ep < __end; __ep++, (e) = __ep < __end ? *__ep : (e))
+
#endif /* included_clib_vec_bootstrap_h */
/*