NUM_FLUSH_BLOCKS
cache_ent *ents[NUM_FLUSH_BLOCKS];
if (cur >= NUM_FLUSH_BLOCKS) {
cache_ent *ents[NUM_FLUSH_BLOCKS];
if (cur >= NUM_FLUSH_BLOCKS) {
if (cur >= NUM_FLUSH_BLOCKS) {
cache_ent *ents[NUM_FLUSH_BLOCKS];
if (cur >= NUM_FLUSH_BLOCKS) {
cache_ent *ents[NUM_FLUSH_BLOCKS];
cur_nblocks < num_blocks && cur_nblocks < NUM_FLUSH_BLOCKS;
get_ents(ents, num_needed, NUM_FLUSH_BLOCKS, &real_nblocks, bsize);
cache_ent *ents[NUM_FLUSH_BLOCKS];
if (count >= NUM_FLUSH_BLOCKS) {
if (count < NUM_FLUSH_BLOCKS) {
if (count >= NUM_FLUSH_BLOCKS) {
iovec_pool[0] = (struct iovec *)malloc(sizeof(struct iovec)*NUM_FLUSH_BLOCKS);
iovec_pool[1] = (struct iovec *)malloc(sizeof(struct iovec)*NUM_FLUSH_BLOCKS);
iovec_pool[i] = (struct iovec *)malloc(sizeof(struct iovec)*NUM_FLUSH_BLOCKS);
static cache_ent *ents[NUM_FLUSH_BLOCKS];
for(num_ents=0; ce && num_ents < NUM_FLUSH_BLOCKS; ce=ce->next) {
if (num_ents < NUM_FLUSH_BLOCKS) {
for(; num_ents < NUM_FLUSH_BLOCKS;) {
for(j=i+1; j < n_ents && (j - i) < NUM_FLUSH_BLOCKS; j++) {