bitstr_size
amp->am_mapsize = bitstr_size(amp->am_nextents);
mapsize = bitstr_size(nextents);
set->asid_set = kmem_malloc(bitstr_size(set->asid_set_size),
limit = MIN(len, bitstr_size(INPUT_PROP_CNT));
limit = MIN(len, bitstr_size(KEY_CNT));
limit = MIN(len, bitstr_size(LED_CNT));
limit = MIN(len, bitstr_size(SND_CNT));
limit = MIN(len, bitstr_size(SW_CNT));
limit = bitstr_size(limit);
memset(&sc->sc_ndata, 0, bitstr_size(HKBD_NKEYCODE));
memset(&sc->sc_ndata, 0, bitstr_size(HKBD_NKEYCODE));
memset(&sc->sc_odata, 0, bitstr_size(HKBD_NKEYCODE));
memset(&sc->sc_ndata0, 0, bitstr_size(HKBD_NKEYCODE));
memset(&sc->sc_odata0, 0, bitstr_size(HKBD_NKEYCODE));
memcpy(sc->sc_odata0, sc->sc_ndata0, bitstr_size(HKBD_NKEYCODE));
memcpy(sc->sc_odata, sc->sc_ndata, bitstr_size(HKBD_NKEYCODE));
memset(&sc->sc_ndata0, 0, bitstr_size(HKBD_NKEYCODE));
bitstr_size(HKBD_NKEYCODE));
bitstr_size(HKBD_NKEYCODE));
memset(sc->sc_loc_key_valid, 0, bitstr_size(HKBD_NKEYCODE));
return malloc(bitstr_size(n_bits), M_OCS, M_ZERO | M_NOWAIT);
new_bits = malloc(bitstr_size(65536), M_IPID, M_WAITOK | M_ZERO);
return ((bitstr_t *)malloc(bitstr_size(_nbits), type, flags | M_ZERO));
return ((bitstr_t *)calloc(bitstr_size(_nbits), 1));
((name)[bitstr_size(nbits) / sizeof(bitstr_t)])
ATF_TC_WITHOUT_HEAD(bitstr_size);
ATF_TC_BODY(bitstr_size, tc)
ATF_CHECK_EQ(0, bitstr_size(0));
ATF_CHECK_EQ(sob, bitstr_size(1));
ATF_CHECK_EQ(sob, bitstr_size(sob * 8));
ATF_CHECK_EQ(2 * sob, bitstr_size(sob * 8 + 1));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0x55, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0x55, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xff, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xff, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0x55, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0x00, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0x55, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xFF, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0x55, bitstr_size(nbits));
memset(bitstr, 0, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
memset(bitstr, 0xAA, bitstr_size(nbits));
ATF_REQUIRE(bitstr_size(nbits) >= nbits / 8);
ATF_REQUIRE(malloc_usable_size(b) >= bitstr_size(nbits));
ATF_TP_ADD_TC(tp, bitstr_size);
memcpy(&tmp, evlist, bitstr_size(EVENT_MAX));
memcpy(&($$), &($1), bitstr_size(EVENT_MAX));
memset(s->keys2, 0, bitstr_size(xsize));
memcpy(s->keys2, s->keys1, bitstr_size(xsize));
memset(s->keys1, 0, bitstr_size(xsize));
memset(diff, 0, bitstr_size(xsize));
memset(s->keys1, 0, bitstr_size(xsize));