A_CNT
for (i = 0; i < A_CNT(ttab); i++) {
if (icp->icmp_code >= A_CNT(unreach)) {
if (icp->icmp_code >= A_CNT(redirect)) {
if (icp->icmp_code >= A_CNT(timexceed)) {
if (icmp6->icmp6_code >= A_CNT(unreach6)) {
if (icmp6->icmp6_code >= A_CNT(timexceed6)) {
if (icmp6->icmp6_code >= A_CNT(param_prob6)) {
for (i = 0; i < A_CNT(ttab6); i++) {
A_CNT(chunk_dispatch_table));
err_dispatch_table, A_CNT(err_dispatch_table), flags);
parm_dispatch_table, A_CNT(parm_dispatch_table), flags);
parm_dispatch_table, A_CNT(parm_dispatch_table), flags);
parm_dispatch_table, A_CNT(parm_dispatch_table), flags);
A_CNT(chunk_dispatch_table));
parm_dispatch_table, A_CNT(parm_dispatch_table), flags);
A_CNT(parm_dispatch_table), flags);
A_CNT(err_dispatch_table), flags);
A_CNT(err_dispatch_table), flags);
for (i = 0; i < A_CNT(ttab); i++) {
for (i = 0; i < A_CNT(ttab6); i++) {
static ofmt_field_t wifi_show_fields[A_CNT(wifi_common_fields) + 2] = {
#define NHW A_CNT(pg_hw_names)
char flagsbuf[2 * A_CNT(dmasks)];
char flagsbuf[2 * A_CNT(fmasks)];
char bitfields[A_CNT(fmasks)];
char sflagsbuf[A_CNT(sfmasks)];
#define RX_HWLANE_STAT_SIZE A_CNT(rx_hwlane_stats_list)
#define RX_SWLANE_STAT_SIZE A_CNT(rx_swlane_stats_list)
#define RX_LANE_STAT_SIZE A_CNT(rx_lane_stats_list)
#define TX_LANE_STAT_SIZE A_CNT(tx_lane_stats_list)
#define MISC_STAT_SIZE A_CNT(misc_stats_list)
#define RX_RING_STAT_SIZE A_CNT(rx_ring_stats_list)
#define TX_RING_STAT_SIZE A_CNT(tx_ring_stats_list)
#define FANOUT_STAT_SIZE A_CNT(fanout_stats_list)
#define TOTAL_STAT_SIZE A_CNT(total_stats_list)
#define AGGR_PORT_STAT_SIZE A_CNT(aggr_port_stats_list)
#define FLOW_STAT_SIZE A_CNT(flow_stats_list)
int count = A_CNT(protocols);
for (i = 0; i < A_CNT(esm_arr); i++) {
for (i = 0; i < A_CNT(esm_arr); i++) {
#ifndef A_CNT
#define A_END(arr) (&arr[A_CNT(arr)])
static int _xti_nerr = A_CNT(_xti_errlist)-1; /* take off entry t_errno 0 */
#define A_END(arr) (&arr[A_CNT(arr)])
#define A_LAST(arr) (&arr[A_CNT(arr)-1])
#define A_END(arr) (&arr[A_CNT(arr)])
#define A_LAST(arr) (&arr[A_CNT(arr) - 1])
#define ICMP_VALID_LEVELS_CNT A_CNT(icmp_valid_levels_arr)
#define ICMP_OPT_ARR_CNT A_CNT(icmp_opt_arr)
for (i = 0; i < A_CNT(icmp_frag_size_table); i++) {
if (i == A_CNT(icmp_frag_size_table)) {
int ip_propinfo_count = A_CNT(ip_propinfo_tbl);
A_CNT(lcl_param_arr));
A_CNT(lcl_param_arr));
A_CNT(lcl_param_arr));
#define KEYSOCK_VALID_LEVELS_CNT A_CNT(keysock_valid_levels_arr)
#define KEYSOCK_OPT_ARR_CNT A_CNT(keysock_opt_arr)
rtss->rtss_params, A_CNT(lcl_param_arr));
#define RTS_VALID_LEVELS_CNT A_CNT(rts_valid_levels_arr)
#define RTS_OPT_ARR_CNT A_CNT(rts_opt_arr)
A_CNT(lcl_param_arr));
#define SPDSOCK_VALID_LEVELS_CNT A_CNT(spdsock_valid_levels_arr)
#define SPDSOCK_OPT_ARR_CNT A_CNT(spdsock_opt_arr)
for (i = 0; i < A_CNT(sctp_asconf_dispatch_tbl); i++) {
uint_t sctp_opt_arr_size = A_CNT(sctp_opt_arr);
int sctp_propinfo_count = A_CNT(sctp_propinfo_tbl);
#define TCP_OPT_ARR_CNT A_CNT(tcp_opt_arr)
#define TCP_VALID_LEVELS_CNT A_CNT(tcp_valid_levels_arr)
int tcp_propinfo_count = A_CNT(tcp_propinfo_tbl);
#define UDP_VALID_LEVELS_CNT A_CNT(udp_valid_levels_arr)
#define UDP_OPT_ARR_CNT A_CNT(udp_opt_arr)
int udp_propinfo_count = A_CNT(udp_propinfo_tbl);
#define RDS_VALID_LEVELS_CNT A_CNT(rds_valid_levels_arr)
#define RDS_OPT_ARR_CNT A_CNT(rds_opt_arr)
mtrp->mtr_statcount = A_CNT(ether_stats);
mtrp->mtr_mappingcount = A_CNT(mac_ether_mapping);
mtrp->mtr_statcount = A_CNT(wifi_stats);
#define TL_VALID_LEVELS_CNT A_CNT(tl_valid_levels_arr)
((A_CNT(tl_opt_arr) << 2) + \
(A_CNT(tl_opt_arr) * sizeof (struct opthdr)) + \
#define TL_OPT_ARR_CNT A_CNT(tl_opt_arr)
#define TL_MAXTRANSPORT A_CNT(tl_transports)
for (i = 0; i < A_CNT(param_arr); i++)
erip->param_arr, A_CNT(param_arr))) {