LEVEL_SHIFT
total += (hat->hat_pages_mapped[l] << LEVEL_SHIFT(l));
LEVEL_SHIFT(1)];
>> LEVEL_SHIFT(1)];
LEVEL_SHIFT(range[cnt].tr_level);
(LEVEL_SHIFT(ht->ht_level) - MMU_PAGESHIFT);
(LEVEL_SHIFT(ht->ht_level) - MMU_PAGESHIFT);
((uintptr_t)cnt << LEVEL_SHIFT(rp->hkr_level));
LEVEL_SHIFT(0))) {
#define TLB_RANGE_LEN(r) ((r)->tr_cnt << LEVEL_SHIFT((r)->tr_level))
index = (va >> LEVEL_SHIFT(level)) & (mmu.ptes_per_table - 1);
return ((va >> LEVEL_SHIFT(l)) & (HTABLE_NUM_PTES(ht) - 1));
va = ht->ht_vaddr + ((uintptr_t)entry << LEVEL_SHIFT(l));
((((va) >> LEVEL_SHIFT(1)) + ((va) >> 28) + (lvl) + \
((uintptr_t)HTABLE_NUM_PTES(ht) << LEVEL_SHIFT((ht)->ht_level))))
((uintptr_t)HTABLE_NUM_PTES(ht) << LEVEL_SHIFT((ht)->ht_level)))
htable_cnt = map_len >> LEVEL_SHIFT(1);
if (va >> LEVEL_SHIFT(l + 1) ==
last_va >> LEVEL_SHIFT(l + 1))
LEVEL_SHIFT(mmu.max_level)) & (mmu.top_level_count - 1));
(LEVEL_SIZE(rg_szc) >> LEVEL_SHIFT(rg_szc - 1))
#define PAGE_BSZS_SHIFT(szc) (LEVEL_SHIFT(szc) - MMU_PAGESHIFT)
hw_page_array[i].hp_shift = LEVEL_SHIFT(i);
hw_page_array[i].hp_pgcnt = LEVEL_SIZE(i) >> LEVEL_SHIFT(0);
idx = (va >> LEVEL_SHIFT(l)) & (xpv_panic_nptes[l] - 1);
idx = (va >> LEVEL_SHIFT(0)) &