d6f2922e91
From-SVN: r195560
228 lines
5.4 KiB
C
228 lines
5.4 KiB
C
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Central free lists.
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//
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// See malloc.h for an overview.
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//
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// The MCentral doesn't actually contain the list of free objects; the MSpan does.
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// Each MCentral is two lists of MSpans: those with free objects (c->nonempty)
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// and those that are completely allocated (c->empty).
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//
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// TODO(rsc): tcmalloc uses a "transfer cache" to split the list
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// into sections of class_to_transfercount[sizeclass] objects
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// so that it is faster to move those lists between MCaches and MCentrals.
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#include "runtime.h"
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#include "arch.h"
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#include "malloc.h"
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static bool MCentral_Grow(MCentral *c);
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static void MCentral_Free(MCentral *c, void *v);
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// Initialize a single central free list.
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void
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runtime_MCentral_Init(MCentral *c, int32 sizeclass)
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{
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c->sizeclass = sizeclass;
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runtime_MSpanList_Init(&c->nonempty);
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runtime_MSpanList_Init(&c->empty);
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}
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// Allocate up to n objects from the central free list.
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// Return the number of objects allocated.
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// The objects are linked together by their first words.
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// On return, *pstart points at the first object.
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int32
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runtime_MCentral_AllocList(MCentral *c, int32 n, MLink **pfirst)
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{
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MSpan *s;
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MLink *first, *last;
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int32 cap, avail, i;
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runtime_lock(c);
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// Replenish central list if empty.
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if(runtime_MSpanList_IsEmpty(&c->nonempty)) {
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if(!MCentral_Grow(c)) {
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runtime_unlock(c);
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*pfirst = nil;
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return 0;
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}
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}
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s = c->nonempty.next;
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cap = (s->npages << PageShift) / s->elemsize;
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avail = cap - s->ref;
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if(avail < n)
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n = avail;
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// First one is guaranteed to work, because we just grew the list.
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first = s->freelist;
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last = first;
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for(i=1; i<n; i++) {
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last = last->next;
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}
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s->freelist = last->next;
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last->next = nil;
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s->ref += n;
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c->nfree -= n;
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if(n == avail) {
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if(s->freelist != nil || s->ref != (uint32)cap) {
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runtime_throw("invalid freelist");
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}
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runtime_MSpanList_Remove(s);
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runtime_MSpanList_Insert(&c->empty, s);
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}
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runtime_unlock(c);
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*pfirst = first;
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return n;
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}
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// Free n objects back into the central free list.
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void
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runtime_MCentral_FreeList(MCentral *c, int32 n, MLink *start)
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{
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MLink *v, *next;
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// Assume next == nil marks end of list.
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// n and end would be useful if we implemented
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// the transfer cache optimization in the TODO above.
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USED(n);
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runtime_lock(c);
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for(v=start; v; v=next) {
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next = v->next;
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MCentral_Free(c, v);
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}
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runtime_unlock(c);
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}
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// Helper: free one object back into the central free list.
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static void
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MCentral_Free(MCentral *c, void *v)
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{
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MSpan *s;
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MLink *p;
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int32 size;
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// Find span for v.
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s = runtime_MHeap_Lookup(&runtime_mheap, v);
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if(s == nil || s->ref == 0)
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runtime_throw("invalid free");
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// Move to nonempty if necessary.
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if(s->freelist == nil) {
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runtime_MSpanList_Remove(s);
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runtime_MSpanList_Insert(&c->nonempty, s);
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}
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// Add v back to s's free list.
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p = v;
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p->next = s->freelist;
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s->freelist = p;
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c->nfree++;
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// If s is completely freed, return it to the heap.
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if(--s->ref == 0) {
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size = runtime_class_to_size[c->sizeclass];
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runtime_MSpanList_Remove(s);
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runtime_unmarkspan((byte*)(s->start<<PageShift), s->npages<<PageShift);
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*(uintptr*)(s->start<<PageShift) = 1; // needs zeroing
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s->freelist = nil;
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c->nfree -= (s->npages << PageShift) / size;
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runtime_unlock(c);
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runtime_MHeap_Free(&runtime_mheap, s, 0);
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runtime_lock(c);
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}
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}
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// Free n objects from a span s back into the central free list c.
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// Called from GC.
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void
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runtime_MCentral_FreeSpan(MCentral *c, MSpan *s, int32 n, MLink *start, MLink *end)
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{
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int32 size;
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runtime_lock(c);
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// Move to nonempty if necessary.
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if(s->freelist == nil) {
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runtime_MSpanList_Remove(s);
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runtime_MSpanList_Insert(&c->nonempty, s);
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}
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// Add the objects back to s's free list.
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end->next = s->freelist;
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s->freelist = start;
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s->ref -= n;
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c->nfree += n;
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// If s is completely freed, return it to the heap.
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if(s->ref == 0) {
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size = runtime_class_to_size[c->sizeclass];
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runtime_MSpanList_Remove(s);
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*(uintptr*)(s->start<<PageShift) = 1; // needs zeroing
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s->freelist = nil;
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c->nfree -= (s->npages << PageShift) / size;
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runtime_unlock(c);
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runtime_unmarkspan((byte*)(s->start<<PageShift), s->npages<<PageShift);
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runtime_MHeap_Free(&runtime_mheap, s, 0);
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} else {
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runtime_unlock(c);
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}
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}
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void
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runtime_MGetSizeClassInfo(int32 sizeclass, uintptr *sizep, int32 *npagesp, int32 *nobj)
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{
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int32 size;
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int32 npages;
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npages = runtime_class_to_allocnpages[sizeclass];
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size = runtime_class_to_size[sizeclass];
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*npagesp = npages;
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*sizep = size;
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*nobj = (npages << PageShift) / size;
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}
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// Fetch a new span from the heap and
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// carve into objects for the free list.
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static bool
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MCentral_Grow(MCentral *c)
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{
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int32 i, n, npages;
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uintptr size;
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MLink **tailp, *v;
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byte *p;
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MSpan *s;
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runtime_unlock(c);
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runtime_MGetSizeClassInfo(c->sizeclass, &size, &npages, &n);
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s = runtime_MHeap_Alloc(&runtime_mheap, npages, c->sizeclass, 0, 1);
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if(s == nil) {
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// TODO(rsc): Log out of memory
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runtime_lock(c);
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return false;
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}
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// Carve span into sequence of blocks.
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tailp = &s->freelist;
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p = (byte*)(s->start << PageShift);
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s->limit = p + size*n;
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for(i=0; i<n; i++) {
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v = (MLink*)p;
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*tailp = v;
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tailp = &v->next;
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p += size;
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}
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*tailp = nil;
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runtime_markspan((byte*)(s->start<<PageShift), size, n, size*n < (s->npages<<PageShift));
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runtime_lock(c);
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c->nfree += n;
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runtime_MSpanList_Insert(&c->nonempty, s);
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return true;
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}
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