397 lines
12 KiB
C
397 lines
12 KiB
C
/***********************************************************************/
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/* */
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/* Objective Caml */
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/* */
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/* Damien Doligez, projet Para, INRIA Rocquencourt */
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/* */
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/* Copyright 1996 Institut National de Recherche en Informatique et */
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/* en Automatique. All rights reserved. This file is distributed */
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/* under the terms of the GNU Library General Public License. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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#include "alloc.h"
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#include "compact.h"
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#include "custom.h"
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#include "finalise.h"
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#include "gc.h"
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#include "gc_ctrl.h"
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#include "major_gc.h"
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#include "minor_gc.h"
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#include "misc.h"
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#include "mlvalues.h"
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#include "stacks.h"
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#ifndef NATIVE_CODE
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extern unsigned long max_stack_size; /* defined in stacks.c */
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#endif
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long stat_minor_words = 0,
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stat_promoted_words = 0,
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stat_major_words = 0,
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stat_minor_collections = 0,
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stat_major_collections = 0,
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stat_heap_size = 0, /* bytes */
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stat_compactions = 0;
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extern asize_t major_heap_increment; /* bytes; see major_gc.c */
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extern unsigned long percent_free; /* see major_gc.c */
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extern unsigned long percent_max; /* see compact.c */
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#define Next(hp) ((hp) + Bhsize_hp (hp))
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#ifdef DEBUG
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/* Check that [v]'s header looks good. [v] must be a block in the heap. */
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static void check_head (value v)
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{
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Assert (Is_block (v) && Is_in_heap (v));
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Assert (Wosize_val (v) != 0);
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Assert (Color_hd (Hd_val (v)) != Caml_blue);
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Assert (Is_in_heap (v));
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if (Tag_val (v) == Infix_tag){
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int offset = Wsize_bsize (Infix_offset_val (v));
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value trueval = Val_op (&Field (v, -offset));
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Assert (Tag_val (trueval) == Closure_tag);
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Assert (Wosize_val (trueval) > offset);
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Assert (Is_in_heap (&Field (trueval, Wosize_val (trueval) - 1)));
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}else{
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Assert (Is_in_heap (&Field (v, Wosize_val (v) - 1)));
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}
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if (Tag_val (v) == Double_tag){
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Assert (Wosize_val (v) == Double_wosize);
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}else if (Tag_val (v) == Double_array_tag){
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Assert (Wosize_val (v) % Double_wosize == 0);
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}
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}
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static void check_block (char *hp)
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{
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mlsize_t nfields = Wosize_hp (hp);
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mlsize_t i;
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value v = Val_hp (hp);
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value f;
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mlsize_t lastbyte;
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check_head (v);
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switch (Tag_hp (hp)){
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case Abstract_tag: break;
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case String_tag:
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/* not true when check_urgent_gc is called by alloc or alloc_string:
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lastbyte = Bosize_val (v) - 1;
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i = Byte (v, lastbyte);
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Assert (i >= 0 && i < sizeof (value));
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Assert (Byte (v, lastbyte - i) == 0);
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*/
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break;
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case Double_tag:
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Assert (Wosize_val (v) == Double_wosize);
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break;
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case Double_array_tag:
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Assert (Wosize_val (v) % Double_wosize == 0);
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break;
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case Custom_tag:
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Assert (!Is_in_heap (Custom_ops_val (v)));
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break;
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case Infix_tag:
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Assert (0);
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break;
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default:
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Assert (Tag_hp (hp) < No_scan_tag);
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for (i = 0; i < Wosize_hp (hp); i++){
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f = Field (v, i);
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if (Is_block (f) && Is_in_heap (f)) check_head (f);
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}
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}
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}
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#endif /* DEBUG */
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/* Check the heap structure (if compiled in debug mode) and
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gather statistics; return the stats if [returnstats] is true,
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otherwise return [Val_unit].
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*/
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static value heap_stats (int returnstats)
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{
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long live_words = 0, live_blocks = 0,
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free_words = 0, free_blocks = 0, largest_free = 0,
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fragments = 0, heap_chunks = 0;
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char *chunk = heap_start, *chunk_end;
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char *cur_hp, *prev_hp;
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header_t cur_hd;
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#ifdef DEBUG
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gc_message (-1, "### O'Caml runtime: heap check ###\n", 0);
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#endif
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while (chunk != NULL){
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++ heap_chunks;
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chunk_end = chunk + Chunk_size (chunk);
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prev_hp = NULL;
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cur_hp = chunk;
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while (cur_hp < chunk_end){
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cur_hd = Hd_hp (cur_hp);
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Assert (Next (cur_hp) <= chunk_end);
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switch (Color_hd (cur_hd)){
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case Caml_white:
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if (Wosize_hd (cur_hd) == 0){
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++fragments;
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Assert (prev_hp == NULL
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|| (Color_hp (prev_hp) != Caml_blue
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&& Wosize_hp (prev_hp) > 0)
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|| cur_hp == gc_sweep_hp);
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Assert (Next (cur_hp) == chunk_end
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|| (Color_hp (Next (cur_hp)) != Caml_blue
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&& Wosize_hp (Next (cur_hp)) > 0)
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|| Next (cur_hp) == gc_sweep_hp);
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}else{
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if (gc_phase == Phase_mark || gc_phase == Phase_idle){
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++ live_blocks;
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live_words += Whsize_hd (cur_hd);
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#ifdef DEBUG
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check_block (cur_hp);
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#endif
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}
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}
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break;
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case Caml_gray: case Caml_black:
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Assert (Wosize_hd (cur_hd) > 0);
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++ live_blocks;
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live_words += Whsize_hd (cur_hd);
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#ifdef DEBUG
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check_block (cur_hp);
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#endif
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break;
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case Caml_blue:
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Assert (Wosize_hd (cur_hd) > 0);
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++ free_blocks;
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free_words += Whsize_hd (cur_hd);
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if (Whsize_hd (cur_hd) > largest_free){
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largest_free = Whsize_hd (cur_hd);
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}
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Assert (prev_hp == NULL
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|| (Color_hp (prev_hp) != Caml_blue && Wosize_hp (prev_hp) > 0)
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|| cur_hp == gc_sweep_hp);
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Assert (Next (cur_hp) == chunk_end
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|| (Color_hp (Next (cur_hp)) != Caml_blue
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&& Wosize_hp (Next (cur_hp)) > 0)
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|| Next (cur_hp) == gc_sweep_hp);
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break;
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}
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prev_hp = cur_hp;
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cur_hp = Next (cur_hp);
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} Assert (cur_hp == chunk_end);
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chunk = Chunk_next (chunk);
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}
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Assert (live_words + free_words + fragments == Wsize_bsize (stat_heap_size));
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if (returnstats){
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value res = alloc_small (14, 0);
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Field (res, 0) = Val_long (stat_minor_words
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+ Wsize_bsize (young_end - young_ptr));
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Field (res, 1) = Val_long (stat_promoted_words);
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Field (res, 2) = Val_long (stat_major_words + allocated_words);
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Field (res, 3) = Val_long (stat_minor_collections);
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Field (res, 4) = Val_long (stat_major_collections);
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Field (res, 5) = Val_long (Wsize_bsize (stat_heap_size));
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Field (res, 6) = Val_long (heap_chunks);
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Field (res, 7) = Val_long (live_words);
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Field (res, 8) = Val_long (live_blocks);
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Field (res, 9) = Val_long (free_words);
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Field (res, 10) = Val_long (free_blocks);
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Field (res, 11) = Val_long (largest_free);
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Field (res, 12) = Val_long (fragments);
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Field (res, 13) = Val_long (stat_compactions);
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return res;
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}else{
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return Val_unit;
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}
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}
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#ifdef DEBUG
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void heap_check (void)
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{
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heap_stats (0);
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}
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#endif
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value gc_stat(value v) /* ML */
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{
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Assert (v == Val_unit);
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return heap_stats (1);
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}
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value gc_counters(value v) /* ML */
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{
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CAMLparam1 (v);
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CAMLlocal1 (res);
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Assert (v == Val_unit);
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res = alloc_small (3, 0);
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Field (res, 0) = Val_long (stat_minor_words
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+ Wsize_bsize (young_end - young_ptr));
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Field (res, 1) = Val_long (stat_promoted_words);
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Field (res, 2) = Val_long (stat_major_words + allocated_words);
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CAMLreturn (res);
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}
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value gc_get(value v) /* ML */
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{
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value res;
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Assert (v == Val_unit);
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res = alloc_small (6, 0);
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Field (res, 0) = Wsize_bsize (Val_long (minor_heap_size)); /* s */
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Field (res, 1) = Wsize_bsize (Val_long (major_heap_increment)); /* i */
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Field (res, 2) = Val_long (percent_free); /* o */
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Field (res, 3) = Val_long (verb_gc); /* v */
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Field (res, 4) = Val_long (percent_max); /* O */
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#ifndef NATIVE_CODE
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Field (res, 5) = Val_long (max_stack_size); /* l */
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#else
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Field (res, 5) = 0;
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#endif
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return res;
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}
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#define Max(x,y) ((x) < (y) ? (y) : (x))
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static unsigned long norm_pfree (long unsigned int p)
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{
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return Max (p, 1);
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}
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static unsigned long norm_pmax (long unsigned int p)
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{
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return p;
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}
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static long norm_heapincr (long unsigned int i)
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{
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#define Psv (Wsize_bsize (Page_size))
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i = ((i + Psv - 1) / Psv) * Psv;
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if (i < Heap_chunk_min) i = Heap_chunk_min;
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if (i > Heap_chunk_max) i = Heap_chunk_max;
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return i;
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}
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static long norm_minsize (long int s)
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{
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if (s < Minor_heap_min) s = Minor_heap_min;
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if (s > Minor_heap_max) s = Minor_heap_max;
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return s;
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}
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value gc_set(value v) /* ML */
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{
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unsigned long newpf, newpm;
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asize_t newheapincr;
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asize_t newminsize;
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verb_gc = Long_val (Field (v, 3));
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#ifndef NATIVE_CODE
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change_max_stack_size (Long_val (Field (v, 5)));
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#endif
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newpf = norm_pfree (Long_val (Field (v, 2)));
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if (newpf != percent_free){
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percent_free = newpf;
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gc_message (0x20, "New space overhead: %d%%\n", percent_free);
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}
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newpm = norm_pmax (Long_val (Field (v, 4)));
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if (newpm != percent_max){
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percent_max = newpm;
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gc_message (0x20, "New max overhead: %d%%\n", percent_max);
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}
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newheapincr = norm_heapincr (Bsize_wsize (Long_val (Field (v, 1))));
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if (newheapincr != major_heap_increment){
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major_heap_increment = newheapincr;
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gc_message (0x20, "New heap increment size: %luk bytes\n",
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major_heap_increment/1024);
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}
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/* Minor heap size comes last because it will trigger a minor collection
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(thus invalidating [v]) and it can raise [Out_of_memory]. */
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newminsize = norm_minsize (Bsize_wsize (Long_val (Field (v, 0))));
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if (newminsize != minor_heap_size){
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gc_message (0x20, "New minor heap size: %luk bytes\n", newminsize/1024);
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set_minor_heap_size (newminsize);
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}
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return Val_unit;
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}
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value gc_minor(value v) /* ML */
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{ Assert (v == Val_unit);
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minor_collection ();
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return Val_unit;
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}
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value gc_major(value v) /* ML */
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{ Assert (v == Val_unit);
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empty_minor_heap ();
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finish_major_cycle ();
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final_do_calls ();
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return Val_unit;
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}
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value gc_full_major(value v) /* ML */
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{ Assert (v == Val_unit);
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empty_minor_heap ();
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finish_major_cycle ();
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final_do_calls ();
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empty_minor_heap ();
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finish_major_cycle ();
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final_do_calls ();
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return Val_unit;
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}
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value gc_compaction(value v) /* ML */
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{ Assert (v == Val_unit);
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empty_minor_heap ();
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finish_major_cycle ();
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finish_major_cycle ();
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compact_heap ();
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return Val_unit;
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}
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void init_gc (unsigned long minor_size, unsigned long major_size,
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unsigned long major_incr, unsigned long percent_fr,
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unsigned long percent_m, unsigned long verb)
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{
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unsigned long major_heap_size = Bsize_wsize (norm_heapincr (major_size));
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#ifdef DEBUG
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gc_message (-1, "### O'Caml runtime: debug mode "
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#ifdef CPU_TYPE_STRING
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"(" CPU_TYPE_STRING ") "
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#endif
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"###\n", 0);
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#endif /* DEBUG */
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/* FIXME remove comments in preprocessor lines (ANSI C wart) */
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verb_gc = verb;
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set_minor_heap_size (Bsize_wsize (norm_minsize (minor_size)));
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major_heap_increment = Bsize_wsize (norm_heapincr (major_incr));
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percent_free = norm_pfree (percent_fr);
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percent_max = norm_pmax (percent_m);
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init_major_heap (major_heap_size);
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gc_message (0x20, "Initial minor heap size: %luk bytes\n",
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minor_heap_size / 1024);
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gc_message (0x20, "Initial major heap size: %luk bytes\n",
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major_heap_size / 1024);
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gc_message (0x20, "Initial space overhead: %lu%%\n", percent_free);
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gc_message (0x20, "Initial max overhead: %lu%%\n", percent_max);
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gc_message (0x20, "Initial heap increment: %luk bytes\n",
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major_heap_increment / 1024);
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}
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