341 lines
10 KiB
C
341 lines
10 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, with */
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/* the special exception on linking described in file ../LICENSE. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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#include <stdlib.h>
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#include <string.h>
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#include "fail.h"
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#include "freelist.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 "memory.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 "signals.h"
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/* Allocate a block of the requested size, to be passed to
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[add_to_heap] later.
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[request] must be a multiple of [Page_size].
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[alloc_for_heap] returns NULL if the request cannot be satisfied.
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The returned pointer is a hp, but the header must be initialized by
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the caller.
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*/
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header_t *alloc_for_heap (asize_t request)
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{
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char *mem;
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void *block;
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Assert (request % Page_size == 0);
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mem = aligned_malloc (request + sizeof (heap_chunk_head),
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sizeof (heap_chunk_head), &block);
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if (mem == NULL) return NULL;
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mem += sizeof (heap_chunk_head);
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Chunk_size (mem) = request;
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Chunk_block (mem) = block;
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return (header_t *) mem;
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}
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/* Use this function to free a block allocated with [alloc_for_heap]
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if you don't add it with [add_to_heap].
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*/
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void free_for_heap (header_t *mem)
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{
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free (Chunk_block (mem));
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}
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/* Take a block of memory as argument, which must be the result of a
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call to [alloc_for_heap], and insert it into the heap chaining.
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The contents of the block must be a sequence of valid blocks and
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fragments: no space between blocks and no trailing garbage. If
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some blocks are blue, they must be added to the free list by the
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caller. All other blocks must have the color [allocation_color(mem)].
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The caller must update [allocated_words] if applicable.
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Return value: 0 if no error; -1 in case of error.
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*/
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int add_to_heap (header_t *mem)
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{
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asize_t i;
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char *m = (char *) mem;
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Assert (Chunk_size (m) % Page_size == 0);
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#ifdef DEBUG
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/* Should check the contents of the block. */
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#endif /* debug */
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/* Extend the page table as needed. */
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if (Page (m) < page_low){
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page_table_entry *block, *new_page_table;
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asize_t new_page_low = Page (m);
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asize_t new_size = page_high - new_page_low;
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gc_message (0x08, "Growing page table to %lu entries\n", new_size);
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block = malloc (new_size * sizeof (page_table_entry));
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if (block == NULL){
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gc_message (0x08, "No room for growing page table\n", 0);
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return -1;
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}
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new_page_table = block - new_page_low;
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for (i = new_page_low; i < page_low; i++) new_page_table [i] = Not_in_heap;
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for (i = page_low; i < page_high; i++) new_page_table [i] = page_table [i];
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free (page_table + page_low);
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page_table = new_page_table;
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page_low = new_page_low;
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}
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if (Page (m + Chunk_size (m)) > page_high){
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page_table_entry *block, *new_page_table;
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asize_t new_page_high = Page (m + Chunk_size (m));
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asize_t new_size = new_page_high - page_low;
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gc_message (0x08, "Growing page table to %lu entries\n", new_size);
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block = malloc (new_size * sizeof (page_table_entry));
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if (block == NULL){
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gc_message (0x08, "No room for growing page table\n", 0);
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return -1;
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}
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new_page_table = block - page_low;
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for (i = page_low; i < page_high; i++) new_page_table [i] = page_table [i];
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for (i = page_high; i < new_page_high; i++){
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new_page_table [i] = Not_in_heap;
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}
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free (page_table + page_low);
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page_table = new_page_table;
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page_high = new_page_high;
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}
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/* Mark the pages as being in the heap. */
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for (i = Page (m); i < Page (m + Chunk_size (m)); i++){
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page_table [i] = In_heap;
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}
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/* Chain this heap block. */
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{
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char **last = &heap_start;
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char *cur = *last;
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while (cur != NULL && cur < m){
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last = &(Chunk_next (cur));
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cur = *last;
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}
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Chunk_next (m) = cur;
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*last = m;
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}
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/* Update the heap bounds as needed. */
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/* already done: if (m < heap_start) heap_start = m; */
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if (m + Chunk_size (m) > heap_end) heap_end = m + Chunk_size (m);
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stat_heap_size += Chunk_size (m);
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return 0;
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}
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/* Allocate more memory from malloc for the heap.
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Return a blue block of at least the requested size (in words).
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The caller must insert the block into the free list.
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Return NULL when out of memory.
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*/
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static char *expand_heap (mlsize_t request)
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{
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header_t *mem;
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asize_t malloc_request;
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malloc_request = round_heap_chunk_size (Bhsize_wosize (request));
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gc_message (0x04, "Growing heap to %luk bytes\n",
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(stat_heap_size + malloc_request) / 1024);
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mem = alloc_for_heap (malloc_request);
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if (mem == NULL){
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gc_message (0x04, "No room for growing heap\n", 0);
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return NULL;
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}
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Assert (Wosize_bhsize (malloc_request) >= request);
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Hd_hp (mem) = Make_header (Wosize_bhsize (malloc_request), 0, Caml_blue);
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if (add_to_heap (mem) != 0){
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free (mem);
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return NULL;
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}
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return Bp_hp (mem);
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}
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/* Remove the heap chunk [chunk] from the heap and give the memory back
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to [free].
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*/
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void shrink_heap (char *chunk)
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{
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char **cp;
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int i;
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/* Never deallocate the first block, because heap_start is both the
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first block and the base address for page numbers, and we don't
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want to shift the page table, it's too messy (see above).
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It will never happen anyway, because of the way compaction works.
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(see compact.c)
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*/
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if (chunk == heap_start) return;
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stat_heap_size -= Chunk_size (chunk);
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gc_message (0x04, "Shrinking heap to %luk bytes\n", stat_heap_size / 1024);
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#ifdef DEBUG
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{
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mlsize_t i;
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for (i = 0; i < Wsize_bsize (Chunk_size (chunk)); i++){
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((value *) chunk) [i] = Debug_free_shrink;
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}
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}
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#endif
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/* Remove [chunk] from the list of chunks. */
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cp = &heap_start;
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while (*cp != chunk) cp = &(Chunk_next (*cp));
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*cp = Chunk_next (chunk);
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/* Remove the pages of [chunk] from the page table. */
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for (i = Page (chunk); i < Page (chunk + Chunk_size (chunk)); i++){
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page_table [i] = Not_in_heap;
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}
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/* Free the [malloc]ed block that contains [chunk]. */
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free (Chunk_block (chunk));
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}
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color_t allocation_color (void *hp)
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{
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if (gc_phase == Phase_mark
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|| (gc_phase == Phase_sweep && (addr)hp >= (addr)gc_sweep_hp)){
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return Caml_black;
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}else{
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Assert (gc_phase == Phase_idle
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|| (gc_phase == Phase_sweep && (addr)hp < (addr)gc_sweep_hp));
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return Caml_white;
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}
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}
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value alloc_shr (mlsize_t wosize, tag_t tag)
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{
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char *hp, *new_block;
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if (wosize > Max_wosize) raise_out_of_memory ();
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hp = fl_allocate (wosize);
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if (hp == NULL){
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new_block = expand_heap (wosize);
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if (new_block == NULL) {
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if (in_minor_collection)
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fatal_error ("Fatal error: out of memory.\n");
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else
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raise_out_of_memory ();
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}
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fl_add_block (new_block);
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hp = fl_allocate (wosize);
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}
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Assert (Is_in_heap (Val_hp (hp)));
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/* Inline expansion of allocation_color. */
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if (gc_phase == Phase_mark
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|| (gc_phase == Phase_sweep && (addr)hp >= (addr)gc_sweep_hp)){
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Hd_hp (hp) = Make_header (wosize, tag, Caml_black);
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}else{
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Assert (gc_phase == Phase_idle
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|| (gc_phase == Phase_sweep && (addr)hp < (addr)gc_sweep_hp));
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Hd_hp (hp) = Make_header (wosize, tag, Caml_white);
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}
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Assert (Hd_hp (hp) == Make_header (wosize, tag, allocation_color (hp)));
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allocated_words += Whsize_wosize (wosize);
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if (allocated_words > Wsize_bsize (minor_heap_size)) urge_major_slice ();
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#ifdef DEBUG
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{
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unsigned long i;
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for (i = 0; i < wosize; i++){
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Field (Val_hp (hp), i) = Debug_uninit_major;
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}
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}
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#endif
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return Val_hp (hp);
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}
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/* Use this function to tell the major GC to speed up when you use
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finalized blocks to automatically deallocate extra-heap stuff.
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The GC will do at least one cycle every [max] allocated words;
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[mem] is the number of words allocated this time.
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Note that only [mem/max] is relevant. You can use numbers of bytes
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(or kilobytes, ...) instead of words. You can change units between
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calls to [adjust_gc_speed].
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*/
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void adjust_gc_speed (mlsize_t mem, mlsize_t max)
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{
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if (max == 0) max = 1;
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if (mem > max) mem = max;
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extra_heap_memory += (double) mem / (double) max;
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if (extra_heap_memory > 1.0){
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extra_heap_memory = 1.0;
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urge_major_slice ();
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}
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if (extra_heap_memory > (double) Wsize_bsize (minor_heap_size)
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/ 2.0 / (double) stat_heap_size) {
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urge_major_slice ();
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}
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}
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/* You must use [initialize] to store the initial value in a field of
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a shared block, unless you are sure the value is not a young block.
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A block value [v] is a shared block if and only if [Is_in_heap (v)]
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is true.
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*/
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/* [initialize] never calls the GC, so you may call it while an block is
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unfinished (i.e. just after a call to [alloc_shr].) */
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void initialize (value *fp, value val)
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{
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*fp = val;
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if (Is_block (val) && Is_young (val) && Is_in_heap (fp)){
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*ref_table_ptr++ = fp;
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if (ref_table_ptr >= ref_table_limit){
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realloc_ref_table ();
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}
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}
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}
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/* You must use [modify] to change a field of an existing shared block,
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unless you are sure the value being overwritten is not a shared block and
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the value being written is not a young block. */
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/* [modify] never calls the GC. */
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void modify (value *fp, value val)
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{
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Modify (fp, val);
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}
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void * stat_alloc (asize_t sz)
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{
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void * result = malloc (sz);
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/* malloc() may return NULL if size is 0 */
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if (result == NULL && sz != 0) raise_out_of_memory ();
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#ifdef DEBUG
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memset (result, Debug_uninit_stat, sz);
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#endif
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return result;
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}
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void stat_free (void * blk)
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{
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free (blk);
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}
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void * stat_resize (void * blk, asize_t sz)
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{
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void * result = realloc (blk, sz);
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if (result == NULL) raise_out_of_memory ();
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return result;
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}
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