path: root/byterun/memory.c

/***********************************************************************/
/*                                                                     */
/*                           Objective Caml                            */
/*                                                                     */
/*             Damien Doligez, projet Para, INRIA Rocquencourt         */
/*                                                                     */
/*  Copyright 1996 Institut National de Recherche en Informatique et   */
/*  Automatique.  Distributed only by permission.                      */
/*                                                                     */
/***********************************************************************/

/* $Id$ */

#include <string.h>
#include "fail.h"
#include "freelist.h"
#include "gc.h"
#include "gc_ctrl.h"
#include "major_gc.h"
#include "memory.h"
#include "minor_gc.h"
#include "misc.h"
#include "mlvalues.h"
#include "signals.h"

/* Allocate more memory from malloc for the heap.
   Return a block of at least the requested size (in words).
   Return NULL when out of memory.

   Faudrait nettoyer tout ca pour decoupler heap_start de heap_base
   et pour simplifier l'agrandissement de page_table.
*/
static char *expand_heap (request)
     mlsize_t request;
{
  char *mem;
  page_table_entry *new_page_table;
  asize_t new_page_table_size;
  asize_t malloc_request;
  asize_t i, more_pages;
  void *block;

  malloc_request = round_heap_chunk_size (Bhsize_wosize (request));
  gc_message ("Growing heap to %luk bytes\n",
	      (stat_heap_size + malloc_request) / 1024);
  mem = aligned_malloc (malloc_request + sizeof (heap_chunk_head),
                        sizeof (heap_chunk_head), &block);
  if (mem == NULL){
    gc_message ("No room for growing heap\n", 0);
    return NULL;
  }
  mem += sizeof (heap_chunk_head);
  Chunk_size (mem) = malloc_request;
  Chunk_block (mem) = block;
  Assert (Wosize_bhsize (malloc_request) >= request);
  Hd_hp (mem) = Make_header (Wosize_bhsize (malloc_request), 0, Blue);

  if (mem < heap_start){
    more_pages = -Page (mem);
  }else if (Page (mem + malloc_request) > page_table_size){
    more_pages = Page (mem + malloc_request) - page_table_size;
  }else{
    more_pages = 0;
  }

  if (more_pages != 0){
    new_page_table_size = page_table_size + more_pages;
    new_page_table =
      (page_table_entry *) 
        malloc(new_page_table_size * sizeof(page_table_entry));
    if (new_page_table == NULL){
      gc_message ("No room for growing page table\n", 0);
      free (mem);
      return NULL;
    }
  } else {
    new_page_table = NULL;
    new_page_table_size = 0;
  }

  if (mem < heap_start){
    Assert (more_pages != 0);
    for (i = 0; i < more_pages; i++){
      new_page_table [i] = Not_in_heap;
    }
    bcopy (page_table, new_page_table + more_pages,
           page_table_size * sizeof(page_table_entry));
    Chunk_next (mem) = heap_start;
    heap_start = mem;
  }else{
    char **last;
    char *cur;

    if (mem + malloc_request > heap_end) heap_end = mem + malloc_request;
    if (more_pages != 0){
      for (i = page_table_size; i < new_page_table_size; i++){
        new_page_table [i] = Not_in_heap;
      }
      bcopy (page_table, new_page_table, 
             page_table_size * sizeof(page_table_entry));
    }
    last = &heap_start;
    cur = *last;
    while (cur != NULL && cur < mem){
      last = &(Chunk_next (cur));
      cur = *last;
    }
    Chunk_next (mem) = cur;
    *last = mem;
  }

  if (more_pages != 0){
    free ((char *) page_table);
    page_table = new_page_table;
    page_table_size = new_page_table_size;
  }

  for (i = Page (mem); i < Page (mem + malloc_request); i++){
    page_table [i] = In_heap;
  }
  stat_heap_size += malloc_request;
  return Bp_hp (mem);
}

/* Remove the heap chunk [chunk] from the heap and give the memory back
   to [malloc].
*/
void shrink_heap (chunk)
     char *chunk;
{
  char **cp;
  int i;

  /* Never deallocate the first block, because heap_start is both the
     first block and the base address for page numbers, and we don't
     want to shift the page table, it's too messy (see above).
     It will never happen anyway, because of the way compaction works.
     (see compact.c)
  */
  if (chunk == heap_start) return;

  stat_heap_size -= Chunk_size (chunk);
  gc_message ("Shrinking heap to %luk bytes\n", stat_heap_size / 1024);

#ifdef DEBUG
  {
    mlsize_t i;
    for (i = 0; i < Wsize_bsize (Chunk_size (chunk)); i++){
      ((value *) chunk) [i] = not_random ();
    }
  }
#endif

  /* Remove [chunk] from the list of chunks. */
  cp = &heap_start;
  while (*cp != chunk) cp = &(Chunk_next (*cp));
  *cp = Chunk_next (chunk);

  /* Remove the pages of [chunk] from the page table. */
  for (i = Page (chunk); i < Page (chunk + Chunk_size (chunk)); i++){
    page_table [i] = Not_in_heap;
  }

  /* Free the [malloc]ed block that contains [chunk]. */
  free (Chunk_block (chunk));
}

value alloc_shr (wosize, tag)
     mlsize_t wosize;
     tag_t tag;
{
  char *hp, *new_block;

  hp = fl_allocate (wosize);
  if (hp == NULL){
    new_block = expand_heap (wosize);
    if (new_block == NULL) {
      if (in_minor_collection)
        fatal_error ("Fatal error: out of memory.\n");
      else
        raise_out_of_memory ();
    }
    fl_add_block (new_block);
    hp = fl_allocate (wosize);
  }

  Assert (Is_in_heap (Val_hp (hp)));

  if (gc_phase == Phase_mark
      || (gc_phase == Phase_sweep && (addr)hp >= (addr)gc_sweep_hp)){
    Hd_hp (hp) = Make_header (wosize, tag, Black);
  }else{
    Assert (gc_phase == Phase_idle
	    || (gc_phase == Phase_sweep && (addr)hp < (addr)gc_sweep_hp));
    Hd_hp (hp) = Make_header (wosize, tag, White);
  }
  allocated_words += Whsize_wosize (wosize);
  if (allocated_words > Wsize_bsize (minor_heap_size)) urge_major_slice ();
  return Val_hp (hp);
}

/* Use this function to tell the major GC to speed up when you use
   finalized objects to automatically deallocate extra-heap objects.
   The GC will do at least one cycle every [max] allocated words;
   [mem] is the number of words allocated this time.
   Note that only [mem/max] is relevant.  You can use numbers of bytes
   (or kilobytes, ...) instead of words.  You can change units between
   calls to [adjust_collector_speed].
*/
void adjust_gc_speed (mem, max)
     mlsize_t mem, max;
{
  if (max == 0) max = 1;
  if (mem > max) mem = max;
  extra_heap_memory += ((float) mem / max) * stat_heap_size;
  if (extra_heap_memory > stat_heap_size){
    extra_heap_memory = stat_heap_size;
  }
  if (extra_heap_memory > Wsize_bsize (minor_heap_size) / 2) 
    urge_major_slice ();
}

/* You must use [initialize] to store the initial value in a field of
   a shared block, unless you are sure the value is not a young block.
   A block value [v] is a shared block if and only if [Is_in_heap (v)]
   is true.
*/
/* [initialize] never calls the GC, so you may call it while an object is
   unfinished (i.e. just after a call to [alloc_shr].) */
void initialize (fp, val)
     value *fp;
     value val;
{
  *fp = val;
  Assert (Is_in_heap (fp));
  if (Is_block (val) && Is_young (val)){
    *ref_table_ptr++ = fp;
    if (ref_table_ptr >= ref_table_limit){
      realloc_ref_table ();
    }
  }
}

/* You must use [modify] to change a field of an existing shared block,
   unless you are sure the value being overwritten is not a shared block and
   the value being written is not a young block. */
/* [modify] never calls the GC. */
void modify (fp, val)
     value *fp;
     value val;
{
  Modify (fp, val);
}

char *stat_alloc (sz)
     asize_t sz;
{
  char *result = (char *) malloc (sz);

  if (result == NULL) raise_out_of_memory ();
  return result;
}

void stat_free (blk)
     char * blk;
{
  free (blk);
}

char *stat_resize (blk, sz)
     char *blk;
     asize_t sz;
{
  char *result = (char *) realloc (blk, sz);

  if (result == NULL) raise_out_of_memory ();
  return result;
}