used_pages
uint64 used_pages; /* # of accessible pages in use */
static int used_pages(system_info*);
double usedMemoryPercent = double(sysInfo->used_pages) / sysInfo->max_pages;
"326 MiB used (16%)"), used_pages(sysInfo), data.String());
"326 MiB used (16%)"), used_pages(sysInfo), (int)(100 * usedMemoryPercent));
return (int)round(sysInfo->used_pages * B_PAGE_SIZE / 1048576.0);
return fSystemInfo.used_pages * B_PAGE_SIZE;
fCommittedMemory = (int64)systemInfo.used_pages * B_PAGE_SIZE / 1024LL;
int64 committedMemory = (int64)sinfo.used_pages * B_PAGE_SIZE / 1024;
fMemoryUsage = float(info.used_pages) / float(info.max_pages);
int64 committedMemory = (int64)systemInfo.used_pages * B_PAGE_SIZE / 1024;
percentUsed = 100 * info.used_pages / info.max_pages;
used = info.used_pages * 4;
(systemInfo.used_pages * B_PAGE_SIZE / 1024),
(systemInfo.used_pages * B_PAGE_SIZE));
(systemInfo.max_pages - systemInfo.used_pages) * B_PAGE_SIZE / 1024,
(systemInfo.max_pages - systemInfo.used_pages) * B_PAGE_SIZE);
(float)100 * systemInfo.used_pages / systemInfo.max_pages);
B_PAGE_SIZE * (uint64)(info->max_pages - info->used_pages),
B_PAGE_SIZE * (uint64)info->used_pages,
BPrivate::string_for_size((int64)info.used_pages * B_PAGE_SIZE,
(sinfo.max_pages - sinfo.used_pages) * B_PAGE_SIZE);
info->used_pages = subtractPages > info->max_pages
if (info->used_pages + info->cached_pages > info->max_pages) {
info->cached_pages = info->max_pages - info->used_pages;
info->used_pages = std::min(systemInfo.used_pages, uint64(INT32_MAX));
int32 used_pages; /* # of accessible pages in use */
size_t used_pages;
size_t used_pages;
atomic_add((int32*)&heap.used_pages, pagesAllocated);
if (pagesNeeded > area.page_count - area.used_pages)
area.used_pages += pagesNeeded;
area->used_pages = 0;
area.used_pages -= pagesFreed;
atomic_add((int32*)&area.heap->used_pages, -pagesFreed);
printf("used pages: %" B_PRIuSIZE "\n", area.used_pages);
printf("used pages: %" B_PRIuSIZE "\n", heap.used_pages);
return info.max_pages - info.used_pages;