OpenXM_contrib2/asir2000/gc/allchblk.c - diff

Return to allchblk.c CVS log

Up to [local] / OpenXM_contrib2 / asir2000 / gc

Diff for /OpenXM_contrib2/asir2000/gc/allchblk.c between version 1.2 and 1.3

version 1.2, 2000/04/10 08:31:30

version 1.3, 2000/12/01 09:26:10

Line 19

#include <stdio.h>

#include "gc_priv.h"

GC_bool GC_use_entire_heap = 0;

* Free heap blocks are kept on one of several free lists,

Line 229 int n;

Line 230 int n;

GC_ASSERT(HDR(GC_hblkfreelist[index]) == hhdr);

GC_hblkfreelist[index] = hhdr -> hb_next;

} else {

PHDR(hhdr) -> hb_next = hhdr -> hb_next;

hdr *phdr;

GET_HDR(hhdr -> hb_prev, phdr);

phdr -> hb_next = hhdr -> hb_next;

}

if (0 != hhdr -> hb_next) {

hdr * nhdr;

GC_ASSERT(!IS_FORWARDING_ADDR_OR_NIL(NHDR(hhdr)));

NHDR(hhdr) -> hb_prev = hhdr -> hb_prev;

GET_HDR(hhdr -> hb_next, nhdr);

nhdr -> hb_prev = hhdr -> hb_prev;

}

Line 244 struct hblk * GC_free_block_ending_at(h)

Line 249 struct hblk * GC_free_block_ending_at(h)

struct hblk *h;

{

struct hblk * p = h - 1;

hdr * phdr = HDR(p);

hdr * phdr;

GET_HDR(p, phdr);

while (0 != phdr && IS_FORWARDING_ADDR_OR_NIL(phdr)) {

p = FORWARDED_ADDR(p,phdr);

phdr = HDR(p);

}

if (0 != phdr && HBLK_IS_FREE(phdr)) return p;

if (0 != phdr) {

if(HBLK_IS_FREE(phdr)) {

return p;

} else {

return 0;

}

p = GC_prev_block(h - 1);

if (0 != p) {

phdr = HDR(p);

Line 271 hdr * hhdr;

Line 283 hdr * hhdr;

{

int index = GC_hblk_fl_from_blocks(divHBLKSZ(hhdr -> hb_sz));

struct hblk *second = GC_hblkfreelist[index];

hdr * second_hdr;

# ifdef GC_ASSERTIONS

struct hblk *next = (struct hblk *)((word)h + hhdr -> hb_sz);

hdr * nexthdr = HDR(next);

Line 283 hdr * hhdr;

Line 296 hdr * hhdr;

GC_hblkfreelist[index] = h;

hhdr -> hb_next = second;

hhdr -> hb_prev = 0;

if (0 != second) HDR(second) -> hb_prev = h;

if (0 != second) {

GET_HDR(second, second_hdr);

second_hdr -> hb_prev = h;

}

GC_invalidate_map(hhdr);

}

Line 330 void GC_merge_unmapped(void)

Line 346 void GC_merge_unmapped(void)

for (i = 0; i <= N_HBLK_FLS; ++i) {

h = GC_hblkfreelist[i];

while (h != 0) {

hhdr = HDR(h);

GET_HDR(h, hhdr);

size = hhdr->hb_sz;

next = (struct hblk *)((word)h + size);

nexthdr = HDR(next);

GET_HDR(next, nexthdr);

/* Coalesce with successor, if possible */

if (0 != nexthdr && HBLK_IS_FREE(nexthdr)) {

nextsize = nexthdr -> hb_sz;

Line 398 int index;

Line 414 int index;

GC_remove_from_fl(hhdr, index);

if (total_size == bytes) return h;

rest = (struct hblk *)((word)h + bytes);

if (!GC_install_header(rest)) return(0);

rest_hdr = GC_install_header(rest);

rest_hdr = HDR(rest);

if (0 == rest_hdr) return(0);

rest_hdr -> hb_sz = total_size - bytes;

rest_hdr -> hb_flags = 0;

# ifdef GC_ASSERTIONS

Line 506 int n;

Line 522 int n;

/* search for a big enough block in free list */

hbp = GC_hblkfreelist[n];

hhdr = HDR(hbp);

for(; 0 != hbp; hbp = hhdr -> hb_next) {

for(; 0 != hbp; hbp = hhdr -> hb_next, hhdr = HDR(hbp)) {

GET_HDR(hbp, hhdr);

size_avail = hhdr->hb_sz;

if (size_avail < size_needed) continue;

# ifdef PRESERVE_LAST

if (!GC_use_entire_heap) {

if (size_avail != size_needed

&& USED_HEAP_SIZE >= GC_requested_heapsize

&& !GC_incremental && GC_should_collect()) {

continue;

}

# endif

}

/* If the next heap block is obviously better, go on. */

/* This prevents us from disassembling a single large block */

/* to get tiny blocks. */

Line 524 int n;

Line 541 int n;

thishbp = hhdr -> hb_next;

if (thishbp != 0) {

thishdr = HDR(thishbp);

GET_HDR(thishbp, thishdr);

next_size = (signed_word)(thishdr -> hb_sz);

if (next_size < size_avail

&& next_size >= size_needed

Line 551 int n;

Line 568 int n;

size_avail -= (ptr_t)lasthbp - (ptr_t)hbp;

thishbp = lasthbp;

if (size_avail >= size_needed) {

if (thishbp != hbp && GC_install_header(thishbp)) {

if (thishbp != hbp &&

0 != (thishdr = GC_install_header(thishbp))) {

/* Make sure it's mapped before we mangle it. */

# ifdef USE_MUNMAP

if (!IS_MAPPED(hhdr)) {

GC_remap((ptr_t)hbp, size_avail);

GC_remap((ptr_t)hbp, hhdr -> hb_sz);

hhdr -> hb_flags &= ~WAS_UNMAPPED;

}

# endif

/* Split the block at thishbp */

thishdr = HDR(thishbp);

GC_split_block(hbp, hhdr, thishbp, thishdr, n);

/* Advance to thishbp */

hbp = thishbp;

Line 598 int n;

Line 615 int n;

GC_large_free_bytes -= total_size;

GC_remove_from_fl(hhdr, n);

for (h = hbp; h < limit; h++) {

if (h == hbp || GC_install_header(h)) {

if (h == hbp || 0 != (hhdr = GC_install_header(h))) {

hhdr = HDR(h);

(void) setup_header(

hhdr,

BYTES_TO_WORDS(HBLKSIZE - HDR_BYTES),

Line 622 int n;

Line 638 int n;

if( size_avail >= size_needed ) {

# ifdef USE_MUNMAP

if (!IS_MAPPED(hhdr)) {

GC_remap((ptr_t)hbp, size_avail);

GC_remap((ptr_t)hbp, hhdr -> hb_sz);

hhdr -> hb_flags &= ~WAS_UNMAPPED;

}

# endif

Line 686 hdr *hhdr, *prevhdr, *nexthdr;

Line 702 hdr *hhdr, *prevhdr, *nexthdr;

signed_word size;

hhdr = HDR(hbp);

GET_HDR(hbp, hhdr);

size = hhdr->hb_sz;

size = HBLKSIZE * OBJ_SZ_TO_BLOCKS(size);

GC_remove_counts(hbp, (word)size);

Line 701 signed_word size;

Line 717 signed_word size;

GC_ASSERT(IS_MAPPED(hhdr));

GC_invalidate_map(hhdr);

next = (struct hblk *)((word)hbp + size);

nexthdr = HDR(next);

GET_HDR(next, nexthdr);

prev = GC_free_block_ending_at(hbp);

/* Coalesce with successor, if possible */

if(0 != nexthdr && HBLK_IS_FREE(nexthdr) && IS_MAPPED(nexthdr)) {

FreeBSD-CVSweb <freebsd-cvsweb@FreeBSD.org>