}
void
-freeStorage (void)
+freeStorage (rtsBool free_heap)
{
stgFree(generations);
- freeAllMBlocks();
+ if (free_heap) freeAllMBlocks();
#if defined(THREADED_RTS)
closeMutex(&sm_mutex);
#endif
{
// Put this CAF on the mutable list for the old generation.
((StgIndStatic *)caf)->saved_info = NULL;
- recordMutableCap(caf, regTableToCapability(reg), oldest_gen->no);
+ if (oldest_gen->no != 0) {
+ recordMutableCap(caf, regTableToCapability(reg), oldest_gen->no);
+ }
}
}
static bdescr *
allocNursery (bdescr *tail, nat blocks)
{
- bdescr *bd;
- nat i;
+ bdescr *bd = NULL;
+ nat i, n;
- // Allocate a nursery: we allocate fresh blocks one at a time and
- // cons them on to the front of the list, not forgetting to update
- // the back pointer on the tail of the list to point to the new block.
- for (i=0; i < blocks; i++) {
- // @LDV profiling
- /*
- processNursery() in LdvProfile.c assumes that every block group in
- the nursery contains only a single block. So, if a block group is
- given multiple blocks, change processNursery() accordingly.
- */
- bd = allocBlock();
- bd->link = tail;
- // double-link the nursery: we might need to insert blocks
- if (tail != NULL) {
- tail->u.back = bd;
- }
- initBdescr(bd, g0, g0);
- bd->flags = 0;
- bd->free = bd->start;
- tail = bd;
+ // We allocate the nursery as a single contiguous block and then
+ // divide it into single blocks manually. This way we guarantee
+ // that the nursery blocks are adjacent, so that the processor's
+ // automatic prefetching works across nursery blocks. This is a
+ // tiny optimisation (~0.5%), but it's free.
+
+ while (blocks > 0) {
+ n = stg_min(blocks, BLOCKS_PER_MBLOCK);
+ blocks -= n;
+
+ bd = allocGroup(n);
+ for (i = 0; i < n; i++) {
+ initBdescr(&bd[i], g0, g0);
+
+ bd[i].blocks = 1;
+ bd[i].flags = 0;
+
+ if (i > 0) {
+ bd[i].u.back = &bd[i-1];
+ } else {
+ bd[i].u.back = NULL;
+ }
+
+ if (i+1 < n) {
+ bd[i].link = &bd[i+1];
+ } else {
+ bd[i].link = tail;
+ if (tail != NULL) {
+ tail->u.back = &bd[i];
+ }
+ }
+
+ bd[i].free = bd[i].start;
+ }
+
+ tail = &bd[0];
}
- tail->u.back = NULL;
- return tail;
+
+ return &bd[0];
}
static void