boehm-gc/new_hblk.c - gcc - Git at Google

 /*
  * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers
  * Copyright (c) 1991-1994 by Xerox Corporation.  All rights reserved.
  * Copyright (c) 2000 by Hewlett-Packard Company.  All rights reserved.
  *
  * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
  * OR IMPLIED.  ANY USE IS AT YOUR OWN RISK.
  *
  * Permission is hereby granted to use or copy this program
  * for any purpose,  provided the above notices are retained on all copies.
  * Permission to modify the code and to distribute modified code is granted,
  * provided the above notices are retained, and a notice that the code was
  * modified is included with the above copyright notice.
  *
  * This file contains the functions:
  *	ptr_t GC_build_flXXX(h, old_fl)
  *	void GC_new_hblk(n)
  */
 /* Boehm, May 19, 1994 2:09 pm PDT */


 # include <stdio.h>
 # include "private/gc_priv.h"

 #ifndef SMALL_CONFIG
 /*
  * Build a free list for size 1 objects inside hblk h.  Set the last link to
  * be ofl.  Return a pointer tpo the first free list entry.
  */
 ptr_t GC_build_fl1(h, ofl)
 struct hblk *h;
 ptr_t ofl;
 {
     register word * p = h -> hb_body;
     register word * lim = (word *)(h + 1);

     p[0] = (word)ofl;
     p[1] = (word)(p);
     p[2] = (word)(p+1);
     p[3] = (word)(p+2);
     p += 4;
     for (; p < lim; p += 4) {
         p[0] = (word)(p-1);
         p[1] = (word)(p);
         p[2] = (word)(p+1);
         p[3] = (word)(p+2);
     };
     return((ptr_t)(p-1));
 }

 /* The same for size 2 cleared objects */
 ptr_t GC_build_fl_clear2(h, ofl)
 struct hblk *h;
 ptr_t ofl;
 {
     register word * p = h -> hb_body;
     register word * lim = (word *)(h + 1);

     p[0] = (word)ofl;
     p[1] = 0;
     p[2] = (word)p;
     p[3] = 0;
     p += 4;
     for (; p < lim; p += 4) {
         p[0] = (word)(p-2);
         p[1] = 0;
         p[2] = (word)p;
         p[3] = 0;
     };
     return((ptr_t)(p-2));
 }

 /* The same for size 3 cleared objects */
 ptr_t GC_build_fl_clear3(h, ofl)
 struct hblk *h;
 ptr_t ofl;
 {
     register word * p = h -> hb_body;
     register word * lim = (word *)(h + 1) - 2;

     p[0] = (word)ofl;
     p[1] = 0;
     p[2] = 0;
     p += 3;
     for (; p < lim; p += 3) {
         p[0] = (word)(p-3);
         p[1] = 0;
         p[2] = 0;
     };
     return((ptr_t)(p-3));
 }

 /* The same for size 4 cleared objects */
 ptr_t GC_build_fl_clear4(h, ofl)
 struct hblk *h;
 ptr_t ofl;
 {
     register word * p = h -> hb_body;
     register word * lim = (word *)(h + 1);

     p[0] = (word)ofl;
     p[1] = 0;
     p[2] = 0;
     p[3] = 0;
     p += 4;
     for (; p < lim; p += 4) {
 	PREFETCH_FOR_WRITE((ptr_t)(p+64));
         p[0] = (word)(p-4);
         p[1] = 0;
 	CLEAR_DOUBLE(p+2);
     };
     return((ptr_t)(p-4));
 }

 /* The same for size 2 uncleared objects */
 ptr_t GC_build_fl2(h, ofl)
 struct hblk *h;
 ptr_t ofl;
 {
     register word * p = h -> hb_body;
     register word * lim = (word *)(h + 1);

     p[0] = (word)ofl;
     p[2] = (word)p;
     p += 4;
     for (; p < lim; p += 4) {
         p[0] = (word)(p-2);
         p[2] = (word)p;
     };
     return((ptr_t)(p-2));
 }

 /* The same for size 4 uncleared objects */
 ptr_t GC_build_fl4(h, ofl)
 struct hblk *h;
 ptr_t ofl;
 {
     register word * p = h -> hb_body;
     register word * lim = (word *)(h + 1);

     p[0] = (word)ofl;
     p[4] = (word)p;
     p += 8;
     for (; p < lim; p += 8) {
 	PREFETCH_FOR_WRITE((ptr_t)(p+64));
         p[0] = (word)(p-4);
         p[4] = (word)p;
     };
     return((ptr_t)(p-4));
 }

 #endif /* !SMALL_CONFIG */


 /* Build a free list for objects of size sz inside heap block h.	*/
 /* Clear objects inside h if clear is set.  Add list to the end of	*/
 /* the free list we build.  Return the new free list.			*/
 /* This could be called without the main GC lock, if we ensure that	*/
 /* there is no concurrent collection which might reclaim objects that	*/
 /* we have not yet allocated.						*/
 ptr_t GC_build_fl(h, sz, clear, list)
 struct hblk *h;
 word sz;
 GC_bool clear;
 ptr_t list;
 {
   word *p, *prev;
   word *last_object;		/* points to last object in new hblk	*/

   /* Do a few prefetches here, just because its cheap.  	*/
   /* If we were more serious about it, these should go inside	*/
   /* the loops.  But write prefetches usually don't seem to	*/
   /* matter much.						*/
     PREFETCH_FOR_WRITE((ptr_t)h);
     PREFETCH_FOR_WRITE((ptr_t)h + 128);
     PREFETCH_FOR_WRITE((ptr_t)h + 256);
     PREFETCH_FOR_WRITE((ptr_t)h + 378);
   /* Handle small objects sizes more efficiently.  For larger objects 	*/
   /* the difference is less significant.				*/
 #  ifndef SMALL_CONFIG
     switch (sz) {
         case 1: return GC_build_fl1(h, list);
         case 2: if (clear) {
         	    return GC_build_fl_clear2(h, list);
         	} else {
         	    return GC_build_fl2(h, list);
         	}
         case 3: if (clear) {
          	    return GC_build_fl_clear3(h, list);
         	} else {
         	    /* It's messy to do better than the default here. */
         	    break;
         	}
         case 4: if (clear) {
         	    return GC_build_fl_clear4(h, list);
         	} else {
         	    return GC_build_fl4(h, list);
         	}
         default:
         	break;
     }
 #  endif /* !SMALL_CONFIG */

   /* Clear the page if necessary. */
     if (clear) BZERO(h, HBLKSIZE);

   /* Add objects to free list */
     p = &(h -> hb_body[sz]);	/* second object in *h	*/
     prev = &(h -> hb_body[0]);       	/* One object behind p	*/
     last_object = (word *)((char *)h + HBLKSIZE);
     last_object -= sz;
 			    /* Last place for last object to start */

   /* make a list of all objects in *h with head as last object */
     while (p <= last_object) {
       /* current object's link points to last object */
         obj_link(p) = (ptr_t)prev;
 	prev = p;
 	p += sz;
     }
     p -= sz;			/* p now points to last object */

   /*
    * put p (which is now head of list of objects in *h) as first
    * pointer in the appropriate free list for this size.
    */
       obj_link(h -> hb_body) = list;
       return ((ptr_t)p);
 }

 /*
  * Allocate a new heapblock for small objects of size n.
  * Add all of the heapblock's objects to the free list for objects
  * of that size.
  * Set all mark bits if objects are uncollectable.
  * Will fail to do anything if we are out of memory.
  */
 void GC_new_hblk(sz, kind)
 register word sz;
 int kind;
 {
     register struct hblk *h;	/* the new heap block			*/
     register GC_bool clear = GC_obj_kinds[kind].ok_init;

 #   ifdef PRINTSTATS
 	if ((sizeof (struct hblk)) > HBLKSIZE) {
 	    ABORT("HBLK SZ inconsistency");
         }
 #   endif
   if (GC_debugging_started) clear = TRUE;

   /* Allocate a new heap block */
     h = GC_allochblk(sz, kind, 0);
     if (h == 0) return;

   /* Mark all objects if appropriate. */
       if (IS_UNCOLLECTABLE(kind)) GC_set_hdr_marks(HDR(h));

   /* Build the free list */
       GC_obj_kinds[kind].ok_freelist[sz] =
 	GC_build_fl(h, sz, clear, GC_obj_kinds[kind].ok_freelist[sz]);
 }
	/*
	* Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers
	* Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved.
	* Copyright (c) 2000 by Hewlett-Packard Company. All rights reserved.
	*
	* THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
	* OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
	*
	* Permission is hereby granted to use or copy this program
	* for any purpose, provided the above notices are retained on all copies.
	* Permission to modify the code and to distribute modified code is granted,
	* provided the above notices are retained, and a notice that the code was
	* modified is included with the above copyright notice.
	*
	* This file contains the functions:
	* ptr_t GC_build_flXXX(h, old_fl)
	* void GC_new_hblk(n)
	*/
	/* Boehm, May 19, 1994 2:09 pm PDT */


	# include <stdio.h>
	# include "private/gc_priv.h"

	#ifndef SMALL_CONFIG
	/*
	* Build a free list for size 1 objects inside hblk h. Set the last link to
	* be ofl. Return a pointer tpo the first free list entry.
	*/
	ptr_t GC_build_fl1(h, ofl)
	struct hblk *h;
	ptr_t ofl;
	{
	register word * p = h -> hb_body;
	register word * lim = (word *)(h + 1);

	p[0] = (word)ofl;
	p[1] = (word)(p);
	p[2] = (word)(p+1);
	p[3] = (word)(p+2);
	p += 4;
	for (; p < lim; p += 4) {
	p[0] = (word)(p-1);
	p[1] = (word)(p);
	p[2] = (word)(p+1);
	p[3] = (word)(p+2);
	};
	return((ptr_t)(p-1));
	}

	/* The same for size 2 cleared objects */
	ptr_t GC_build_fl_clear2(h, ofl)
	struct hblk *h;
	ptr_t ofl;
	{
	register word * p = h -> hb_body;
	register word * lim = (word *)(h + 1);

	p[0] = (word)ofl;
	p[1] = 0;
	p[2] = (word)p;
	p[3] = 0;
	p += 4;
	for (; p < lim; p += 4) {
	p[0] = (word)(p-2);
	p[1] = 0;
	p[2] = (word)p;
	p[3] = 0;
	};
	return((ptr_t)(p-2));
	}

	/* The same for size 3 cleared objects */
	ptr_t GC_build_fl_clear3(h, ofl)
	struct hblk *h;
	ptr_t ofl;
	{
	register word * p = h -> hb_body;
	register word * lim = (word *)(h + 1) - 2;

	p[0] = (word)ofl;
	p[1] = 0;
	p[2] = 0;
	p += 3;
	for (; p < lim; p += 3) {
	p[0] = (word)(p-3);
	p[1] = 0;
	p[2] = 0;
	};
	return((ptr_t)(p-3));
	}

	/* The same for size 4 cleared objects */
	ptr_t GC_build_fl_clear4(h, ofl)
	struct hblk *h;
	ptr_t ofl;
	{
	register word * p = h -> hb_body;
	register word * lim = (word *)(h + 1);

	p[0] = (word)ofl;
	p[1] = 0;
	p[2] = 0;
	p[3] = 0;
	p += 4;
	for (; p < lim; p += 4) {
	PREFETCH_FOR_WRITE((ptr_t)(p+64));
	p[0] = (word)(p-4);
	p[1] = 0;
	CLEAR_DOUBLE(p+2);
	};
	return((ptr_t)(p-4));
	}

	/* The same for size 2 uncleared objects */
	ptr_t GC_build_fl2(h, ofl)
	struct hblk *h;
	ptr_t ofl;
	{
	register word * p = h -> hb_body;
	register word * lim = (word *)(h + 1);

	p[0] = (word)ofl;
	p[2] = (word)p;
	p += 4;
	for (; p < lim; p += 4) {
	p[0] = (word)(p-2);
	p[2] = (word)p;
	};
	return((ptr_t)(p-2));
	}

	/* The same for size 4 uncleared objects */
	ptr_t GC_build_fl4(h, ofl)
	struct hblk *h;
	ptr_t ofl;
	{
	register word * p = h -> hb_body;
	register word * lim = (word *)(h + 1);

	p[0] = (word)ofl;
	p[4] = (word)p;
	p += 8;
	for (; p < lim; p += 8) {
	PREFETCH_FOR_WRITE((ptr_t)(p+64));
	p[0] = (word)(p-4);
	p[4] = (word)p;
	};
	return((ptr_t)(p-4));
	}

	#endif /* !SMALL_CONFIG */


	/* Build a free list for objects of size sz inside heap block h. */
	/* Clear objects inside h if clear is set. Add list to the end of */
	/* the free list we build. Return the new free list. */
	/* This could be called without the main GC lock, if we ensure that */
	/* there is no concurrent collection which might reclaim objects that */
	/* we have not yet allocated. */
	ptr_t GC_build_fl(h, sz, clear, list)
	struct hblk *h;
	word sz;
	GC_bool clear;
	ptr_t list;
	{
	word p, prev;
	word last_object; / points to last object in new hblk */

	/* Do a few prefetches here, just because its cheap. */
	/* If we were more serious about it, these should go inside */
	/* the loops. But write prefetches usually don't seem to */
	/* matter much. */
	PREFETCH_FOR_WRITE((ptr_t)h);
	PREFETCH_FOR_WRITE((ptr_t)h + 128);
	PREFETCH_FOR_WRITE((ptr_t)h + 256);
	PREFETCH_FOR_WRITE((ptr_t)h + 378);
	/* Handle small objects sizes more efficiently. For larger objects */
	/* the difference is less significant. */
	# ifndef SMALL_CONFIG
	switch (sz) {
	case 1: return GC_build_fl1(h, list);
	case 2: if (clear) {
	return GC_build_fl_clear2(h, list);
	} else {
	return GC_build_fl2(h, list);
	}
	case 3: if (clear) {
	return GC_build_fl_clear3(h, list);
	} else {
	/* It's messy to do better than the default here. */
	break;
	}
	case 4: if (clear) {
	return GC_build_fl_clear4(h, list);
	} else {
	return GC_build_fl4(h, list);
	}
	default:
	break;
	}
	# endif /* !SMALL_CONFIG */

	/* Clear the page if necessary. */
	if (clear) BZERO(h, HBLKSIZE);

	/* Add objects to free list */
	p = &(h -> hb_body[sz]); /* second object in h /
	prev = &(h -> hb_body[0]); /* One object behind p */
	last_object = (word )((char )h + HBLKSIZE);
	last_object -= sz;
	/* Last place for last object to start */

	/* make a list of all objects in h with head as last object /
	while (p <= last_object) {
	/* current object's link points to last object */
	obj_link(p) = (ptr_t)prev;
	prev = p;
	p += sz;
	}
	p -= sz; /* p now points to last object */

	/*
	* put p (which is now head of list of objects in *h) as first
	* pointer in the appropriate free list for this size.
	*/
	obj_link(h -> hb_body) = list;
	return ((ptr_t)p);
	}

	/*
	* Allocate a new heapblock for small objects of size n.
	* Add all of the heapblock's objects to the free list for objects
	* of that size.
	* Set all mark bits if objects are uncollectable.
	* Will fail to do anything if we are out of memory.
	*/
	void GC_new_hblk(sz, kind)
	register word sz;
	int kind;
	{
	register struct hblk h; / the new heap block */
	register GC_bool clear = GC_obj_kinds[kind].ok_init;

	# ifdef PRINTSTATS
	if ((sizeof (struct hblk)) > HBLKSIZE) {
	ABORT("HBLK SZ inconsistency");
	}
	# endif
	if (GC_debugging_started) clear = TRUE;

	/* Allocate a new heap block */
	h = GC_allochblk(sz, kind, 0);
	if (h == 0) return;

	/* Mark all objects if appropriate. */
	if (IS_UNCOLLECTABLE(kind)) GC_set_hdr_marks(HDR(h));

	/* Build the free list */
	GC_obj_kinds[kind].ok_freelist[sz] =
	GC_build_fl(h, sz, clear, GC_obj_kinds[kind].ok_freelist[sz]);
	}