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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [boehm-gc/] [new_hblk.c] - Rev 818
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/* * 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]); }
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