/* * %CopyrightBegin% * * Copyright Ericsson AB 1999-2009. All Rights Reserved. * * The contents of this file are subject to the Erlang Public License, * Version 1.1, (the "License"); you may not use this file except in * compliance with the License. You should have received a copy of the * Erlang Public License along with this software. If not, it can be * retrieved online at http://www.erlang.org/. * * Software distributed under the License is distributed on an "AS IS" * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See * the License for the specific language governing rights and limitations * under the License. * * %CopyrightEnd% */ /* * Code for process dictionaries. * */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "sys.h" #include "erl_vm.h" #include "global.h" #include "erl_process.h" /* Will include erl_process_dict.h */ #include "error.h" #include "erl_driver.h" #include "bif.h" #include "big.h" #include "dist.h" #include "erl_version.h" /* #define HARDDEBUG */ /* ** Utility macros */ /* Flags to pd_get_hash */ #define PD_GET_OTHER_PROCESS 1UL /* Hash constant macros */ #define MAX_HASH 1342177280UL #define INITIAL_SIZE 10 /* Hash utility macros */ #define HASH_RANGE(PDict) ((PDict)->homeSize + (PDict)->splitPosition) #define MAKE_HASH(Term) \ ((is_small(Term)) ? unsigned_val(Term) : \ ((is_atom(Term)) ? \ (atom_tab(atom_val(term))->slot.bucket.hvalue) : \ make_hash2(Term))) #define PD_SZ2BYTES(Sz) (sizeof(ProcDict) + ((Sz) - 1)*sizeof(Eterm)) /* Memory allocation macros */ #define PD_ALLOC(Sz) \ erts_alloc(ERTS_ALC_T_PROC_DICT, (Sz)) #define PD_FREE(P, Sz) \ erts_free(ERTS_ALC_T_PROC_DICT, (P)) #define PD_REALLOC(P, OSz, NSz) \ erts_realloc(ERTS_ALC_T_PROC_DICT, (P), (NSz)) #define TCAR(Term) CAR(list_val(Term)) #define TCDR(Term) CDR(list_val(Term)) /* Array access macro */ #define ARRAY_GET(PDict, Index) (((PDict)->size > (Index)) ? \ (PDict)->data[Index] : NIL) /* * Forward decalarations */ static void pd_hash_erase(Process *p, Eterm id, Eterm *ret); static void pd_hash_erase_all(Process *p); static Eterm pd_hash_get_keys(Process *p, Eterm value); static Eterm pd_hash_get_all(Process *p, ProcDict *pd); static Eterm pd_hash_put(Process *p, Eterm id, Eterm value); static void shrink(Process *p, Eterm* ret); static void grow(Process *p); static void array_shrink(ProcDict **ppd, unsigned int need); static Eterm array_put(ProcDict **ppdict, unsigned int ndx, Eterm term); static unsigned int pd_hash_value(ProcDict *pdict, Eterm term); static unsigned int next_array_size(unsigned int need); /* ** Debugging prototypes and macros */ #ifdef HARDDEBUG #include static int hdebugf(char *format, ...); static char *hdebugf_file = ""; static int hdebugf_line; #define HDEBUGF(X) ((int) hdebugf_file = __FILE__, hdebugf_line = __LINE__, \ hdebugf X) #ifndef DEBUG #define DEBUG 1 #endif #else /* !HARDDEBUG */ #define HDEBUGF(X) /* Nothing */ #endif /* HARDDEBUG (else) */ #ifdef DEBUG static void pd_check(ProcDict *pd); #define PD_CHECK(PD) pd_check(PD) #else /* !DEBUG */ #define PD_CHECK(PD) /* Nothing */ #endif /* DEBUG (else) */ /* ** External interface */ /* * Called from break handler */ void erts_dictionary_dump(int to, void *to_arg, ProcDict *pd) { unsigned int i; #ifdef DEBUG /*PD_CHECK(pd);*/ if (pd == NULL) return; erts_print(to, to_arg, "(size = %d, used = %d, homeSize = %d, " "splitPosition = %d, numElements = %d)\n", pd->size, pd->used, pd->homeSize, pd->splitPosition, (unsigned int) pd->numElements); for (i = 0; i < HASH_RANGE(pd); ++i) { erts_print(to, to_arg, "%d: %T\n", i, ARRAY_GET(pd, i)); } #else /* !DEBUG */ int written = 0; Eterm t; erts_print(to, to_arg, "["); if (pd != NULL) { for (i = 0; i < HASH_RANGE(pd); ++i) { t = ARRAY_GET(pd, i); if (is_list(t)) { for (; t != NIL; t = TCDR(t)) { erts_print(to, to_arg, written++ ? ",%T" : "%T", TCAR(t)); } } else if (is_tuple(t)) { erts_print(to, to_arg, written++ ? ",%T" : "%T", t); } } } erts_print(to, to_arg, "]"); #endif /* DEBUG (else) */ } void erts_deep_dictionary_dump(int to, void *to_arg, ProcDict* pd, void (*cb)(int, void *, Eterm)) { unsigned int i; Eterm t; if (pd != NULL) { for (i = 0; i < HASH_RANGE(pd); ++i) { t = ARRAY_GET(pd, i); if (is_list(t)) { for (; t != NIL; t = TCDR(t)) { (*cb)(to, to_arg, TCAR(t)); } } else if (is_tuple(t)) { (*cb)(to, to_arg, t); } } } } Uint erts_dicts_mem_size(Process *p) { Uint size = 0; if (p->dictionary) size += PD_SZ2BYTES(p->dictionary->size); return size; } void erts_erase_dicts(Process *p) { if (p->dictionary) { pd_hash_erase_all(p); p->dictionary = NULL; } } /* * Called from process_info/1,2. */ Eterm erts_dictionary_copy(Process *p, ProcDict *pd) { Eterm* hp; Eterm* heap_start; Eterm res = NIL; Eterm tmp, tmp2; unsigned int i, num; if (pd == NULL) { return res; } PD_CHECK(pd); num = HASH_RANGE(pd); heap_start = hp = (Eterm *) erts_alloc(ERTS_ALC_T_TMP, sizeof(Eterm) * pd->numElements * 2); for (i = 0; i < num; ++i) { tmp = ARRAY_GET(pd, i); if (is_boxed(tmp)) { ASSERT(is_tuple(tmp)); res = CONS(hp, tmp, res); hp += 2; } else if (is_list(tmp)) { while (tmp != NIL) { tmp2 = TCAR(tmp); res = CONS(hp, tmp2, res); hp += 2; tmp = TCDR(tmp); } } } res = copy_object(res, p); erts_free(ERTS_ALC_T_TMP, (void *) heap_start); return res; } /* ** BIF interface */ BIF_RETTYPE get_0(BIF_ALIST_0) { Eterm ret; PD_CHECK(BIF_P->dictionary); ret = pd_hash_get_all(BIF_P, BIF_P->dictionary); PD_CHECK(BIF_P->dictionary); BIF_RET(ret); } BIF_RETTYPE get_1(BIF_ALIST_1) { Eterm ret; PD_CHECK(BIF_P->dictionary); ret = erts_pd_hash_get(BIF_P, BIF_ARG_1); PD_CHECK(BIF_P->dictionary); BIF_RET(ret); } BIF_RETTYPE get_keys_1(BIF_ALIST_1) { Eterm ret; PD_CHECK(BIF_P->dictionary); ret = pd_hash_get_keys(BIF_P, BIF_ARG_1); PD_CHECK(BIF_P->dictionary); BIF_RET(ret); } BIF_RETTYPE put_2(BIF_ALIST_2) { Eterm ret; PD_CHECK(BIF_P->dictionary); ret = pd_hash_put(BIF_P, BIF_ARG_1, BIF_ARG_2); PD_CHECK(BIF_P->dictionary); BIF_RET(ret); } BIF_RETTYPE erase_0(BIF_ALIST_0) { Eterm ret; PD_CHECK(BIF_P->dictionary); ret = pd_hash_get_all(BIF_P, BIF_P->dictionary); pd_hash_erase_all(BIF_P); PD_CHECK(BIF_P->dictionary); BIF_RET(ret); } BIF_RETTYPE erase_1(BIF_ALIST_1) { Eterm ret; PD_CHECK(BIF_P->dictionary); pd_hash_erase(BIF_P, BIF_ARG_1, &ret); PD_CHECK(BIF_P->dictionary); BIF_RET(ret); } /* * BIF implementations */ static void pd_hash_erase(Process *p, Eterm id, Eterm *ret) { unsigned int hval; Eterm old; Eterm tmp; unsigned int range; *ret = am_undefined; if (p->dictionary == NULL) { return; } hval = pd_hash_value(p->dictionary, id); old = ARRAY_GET(p->dictionary, hval); if (is_boxed(old)) { /* Tuple */ ASSERT(is_tuple(old)); if (EQ(tuple_val(old)[1], id)) { array_put(&(p->dictionary), hval, NIL); --(p->dictionary->numElements); *ret = tuple_val(old)[2]; } } else if (is_list(old)) { /* Find cons cell for identical value */ Eterm* prev = &p->dictionary->data[hval]; for (tmp = *prev; tmp != NIL; prev = &TCDR(tmp), tmp = *prev) { if (EQ(tuple_val(TCAR(tmp))[1], id)) { *prev = TCDR(tmp); *ret = tuple_val(TCAR(tmp))[2]; --(p->dictionary->numElements); } } /* If there is only one element left in the list we must remove the list. */ old = ARRAY_GET(p->dictionary, hval); ASSERT(is_list(old)); if (is_nil(TCDR(old))) { array_put(&p->dictionary, hval, TCAR(old)); } } else if (is_not_nil(old)) { #ifdef DEBUG erts_fprintf(stderr, "Process dictionary for process %T is broken, trying to " "display term found in line %d:\n" "%T\n", p->id, __LINE__, old); #endif erl_exit(1, "Damaged process dictionary found during erase/1."); } if ((range = HASH_RANGE(p->dictionary)) > INITIAL_SIZE && range / 2 > (p->dictionary->numElements)) { shrink(p, ret); } } static void pd_hash_erase_all(Process *p) { if (p->dictionary != NULL) { PD_FREE(p->dictionary, PD_SZ2BYTES(p->dictionary->size)); p->dictionary = NULL; } } Eterm erts_pd_hash_get(Process *p, Eterm id) { unsigned int hval; Eterm tmp; ProcDict *pd = p->dictionary; if (pd == NULL) return am_undefined; hval = pd_hash_value(pd, id); tmp = ARRAY_GET(pd, hval); if (is_boxed(tmp)) { /* Tuple */ ASSERT(is_tuple(tmp)); if (EQ(tuple_val(tmp)[1], id)) { return tuple_val(tmp)[2]; } } else if (is_list(tmp)) { for (; tmp != NIL && !EQ(tuple_val(TCAR(tmp))[1], id); tmp = TCDR(tmp)) { ; } if (tmp != NIL) { return tuple_val(TCAR(tmp))[2]; } } else if (is_not_nil(tmp)) { #ifdef DEBUG erts_fprintf(stderr, "Process dictionary for process %T is broken, trying to " "display term found in line %d:\n" "%T\n", p->id, __LINE__, tmp); #endif erl_exit(1, "Damaged process dictionary found during get/1."); } return am_undefined; } static Eterm pd_hash_get_keys(Process *p, Eterm value) { Eterm *hp; Eterm res = NIL; ProcDict *pd = p->dictionary; unsigned int i, num; Eterm tmp, tmp2; if (pd == NULL) { return res; } num = HASH_RANGE(pd); for (i = 0; i < num; ++i) { tmp = ARRAY_GET(pd, i); if (is_boxed(tmp)) { ASSERT(is_tuple(tmp)); if (EQ(tuple_val(tmp)[2], value)) { hp = HAlloc(p, 2); res = CONS(hp, tuple_val(tmp)[1], res); } } else if (is_list(tmp)) { while (tmp != NIL) { tmp2 = TCAR(tmp); if (EQ(tuple_val(tmp2)[2], value)) { hp = HAlloc(p, 2); res = CONS(hp, tuple_val(tmp2)[1], res); } tmp = TCDR(tmp); } } } return res; } static Eterm pd_hash_get_all(Process *p, ProcDict *pd) { Eterm* hp; Eterm res = NIL; Eterm tmp, tmp2; unsigned int i; unsigned int num; if (pd == NULL) { return res; } num = HASH_RANGE(pd); hp = HAlloc(p, pd->numElements * 2); for (i = 0; i < num; ++i) { tmp = ARRAY_GET(pd, i); if (is_boxed(tmp)) { ASSERT(is_tuple(tmp)); res = CONS(hp, tmp, res); hp += 2; } else if (is_list(tmp)) { while (tmp != NIL) { tmp2 = TCAR(tmp); res = CONS(hp, tmp2, res); hp += 2; tmp = TCDR(tmp); } } } return res; } static Eterm pd_hash_put(Process *p, Eterm id, Eterm value) { unsigned int hval; Eterm *hp; Eterm tpl; Eterm old; Eterm tmp; int needed; int i = 0; #ifdef DEBUG Eterm *hp_limit; #endif if (p->dictionary == NULL) { /* Create it */ array_put(&(p->dictionary), INITIAL_SIZE - 1, NIL); p->dictionary->homeSize = INITIAL_SIZE; } hval = pd_hash_value(p->dictionary, id); old = ARRAY_GET(p->dictionary, hval); /* * Calculate the number of heap words needed and garbage * collect if necessary. (Might be a slight overestimation.) */ needed = 3; /* {Key,Value} tuple */ if (is_boxed(old)) { /* * We don't want to compare keys twice, so we'll always * reserve the space for two CONS cells. */ needed += 2+2; } else if (is_list(old)) { i = 0; for (tmp = old; tmp != NIL && !EQ(tuple_val(TCAR(tmp))[1], id); tmp = TCDR(tmp)) { ++i; } if (is_nil(tmp)) { i = -1; needed += 2; } else { needed += 2*(i+1); } } if (HeapWordsLeft(p) < needed) { Eterm root[3]; root[0] = id; root[1] = value; root[2] = old; BUMP_REDS(p, erts_garbage_collect(p, needed, root, 3)); id = root[0]; value = root[1]; old = root[2]; } #ifdef DEBUG hp_limit = p->htop + needed; #endif /* * Create the {Key,Value} tuple. */ hp = HeapOnlyAlloc(p, 3); tpl = TUPLE2(hp, id, value); /* * Update the dictionary. */ if (is_nil(old)) { array_put(&(p->dictionary), hval, tpl); ++(p->dictionary->numElements); } else if (is_boxed(old)) { ASSERT(is_tuple(old)); if (EQ(tuple_val(old)[1],id)) { array_put(&(p->dictionary), hval, tpl); return tuple_val(old)[2]; } else { hp = HeapOnlyAlloc(p, 4); tmp = CONS(hp, old, NIL); hp += 2; ++(p->dictionary->numElements); array_put(&(p->dictionary), hval, CONS(hp, tpl, tmp)); hp += 2; ASSERT(hp <= hp_limit); } } else if (is_list(old)) { if (i == -1) { /* * New key. Simply prepend the tuple to the beginning of the list. */ hp = HeapOnlyAlloc(p, 2); array_put(&(p->dictionary), hval, CONS(hp, tpl, old)); hp += 2; ASSERT(hp <= hp_limit); ++(p->dictionary->numElements); } else { /* * i = Number of CDRs to skip to reach the changed element in the list. * * Replace old value in list. To avoid pointers from the old generation * to the new, we must rebuild the list from the beginning up to and * including the changed element. */ Eterm nlist; int j; hp = HeapOnlyAlloc(p, (i+1)*2); /* Find the list element to change. */ for (j = 0, nlist = old; j < i; j++, nlist = TCDR(nlist)) { ; } ASSERT(EQ(tuple_val(TCAR(nlist))[1], id)); nlist = TCDR(nlist); /* Unchanged part of list. */ /* Rebuild list before the updated element. */ for (tmp = old; i-- > 0; tmp = TCDR(tmp)) { nlist = CONS(hp, TCAR(tmp), nlist); hp += 2; } ASSERT(EQ(tuple_val(TCAR(tmp))[1], id)); /* Put the updated element first in the new list. */ nlist = CONS(hp, tpl, nlist); hp += 2; ASSERT(hp <= hp_limit); array_put(&(p->dictionary), hval, nlist); return tuple_val(TCAR(tmp))[2]; } } else { #ifdef DEBUG erts_fprintf(stderr, "Process dictionary for process %T is broken, trying to " "display term found in line %d:\n" "%T\n", p->id, __LINE__, old); #endif erl_exit(1, "Damaged process dictionary found during put/2."); } if (HASH_RANGE(p->dictionary) <= p->dictionary->numElements) { grow(p); } return am_undefined; } /* * Hash table utilities, rehashing */ static void shrink(Process *p, Eterm* ret) { unsigned int range = HASH_RANGE(p->dictionary); unsigned int steps = (range*3) / 10; Eterm hi, lo, tmp; unsigned int i; Eterm *hp; #ifdef DEBUG Eterm *hp_limit; #endif if (range - steps < INITIAL_SIZE) { steps = range - INITIAL_SIZE; } for (i = 0; i < steps; ++i) { ProcDict *pd = p->dictionary; if (pd->splitPosition == 0) { pd->homeSize /= 2; pd->splitPosition = pd->homeSize; } --(pd->splitPosition); hi = ARRAY_GET(pd, (pd->splitPosition + pd->homeSize)); lo = ARRAY_GET(pd, pd->splitPosition); if (hi != NIL) { if (lo == NIL) { array_put(&(p->dictionary), pd->splitPosition, hi); } else { int needed = 4; if (is_list(hi) && is_list(lo)) { needed = 2*list_length(hi); } if (HeapWordsLeft(p) < needed) { BUMP_REDS(p, erts_garbage_collect(p, needed, ret, 1)); hi = pd->data[(pd->splitPosition + pd->homeSize)]; lo = pd->data[pd->splitPosition]; } #ifdef DEBUG hp_limit = p->htop + needed; #endif if (is_tuple(lo)) { if (is_tuple(hi)) { hp = HeapOnlyAlloc(p, 4); tmp = CONS(hp, hi, NIL); hp += 2; array_put(&(p->dictionary), pd->splitPosition, CONS(hp,lo,tmp)); hp += 2; ASSERT(hp <= hp_limit); } else { /* hi is a list */ hp = HeapOnlyAlloc(p, 2); array_put(&(p->dictionary), pd->splitPosition, CONS(hp, lo, hi)); hp += 2; ASSERT(hp <= hp_limit); } } else { /* lo is a list */ if (is_tuple(hi)) { hp = HeapOnlyAlloc(p, 2); array_put(&(p->dictionary), pd->splitPosition, CONS(hp, hi, lo)); hp += 2; ASSERT(hp <= hp_limit); } else { /* Two lists */ hp = HeapOnlyAlloc(p, needed); for (tmp = hi; tmp != NIL; tmp = TCDR(tmp)) { lo = CONS(hp, TCAR(tmp), lo); hp += 2; } ASSERT(hp <= hp_limit); array_put(&(p->dictionary), pd->splitPosition, lo); } } } } array_put(&(p->dictionary), (pd->splitPosition + pd->homeSize), NIL); } if (HASH_RANGE(p->dictionary) <= (p->dictionary->size / 4)) { array_shrink(&(p->dictionary), (HASH_RANGE(p->dictionary) * 3) / 2); } } static void grow(Process *p) { unsigned int i,j; unsigned int steps = p->dictionary->homeSize / 5; Eterm l1,l2; Eterm l; Eterm *hp; unsigned int pos; unsigned int homeSize; int needed = 0; ProcDict *pd; #ifdef DEBUG Eterm *hp_limit; #endif HDEBUGF(("grow: steps = %d", steps)); if (steps == 0) steps = 1; /* Dont grow over MAX_HASH */ if ((MAX_HASH - steps) <= HASH_RANGE(p->dictionary)) { return; } /* * Calculate total number of heap words needed, and garbage collect * if necessary. */ pd = p->dictionary; pos = pd->splitPosition; homeSize = pd->homeSize; for (i = 0; i < steps; ++i) { if (pos == homeSize) { homeSize *= 2; pos = 0; } l = ARRAY_GET(pd, pos); pos++; if (is_not_tuple(l)) { while (l != NIL) { needed += 2; l = TCDR(l); } } } if (HeapWordsLeft(p) < needed) { BUMP_REDS(p, erts_garbage_collect(p, needed, 0, 0)); } #ifdef DEBUG hp_limit = p->htop + needed; #endif /* * Now grow. */ for (i = 0; i < steps; ++i) { ProcDict *pd = p->dictionary; if (pd->splitPosition == pd->homeSize) { pd->homeSize *= 2; pd->splitPosition = 0; } pos = pd->splitPosition; ++pd->splitPosition; /* For the hashes */ l = ARRAY_GET(pd, pos); if (is_tuple(l)) { if (pd_hash_value(pd, tuple_val(l)[1]) != pos) { array_put(&(p->dictionary), pos + p->dictionary->homeSize, l); array_put(&(p->dictionary), pos, NIL); } } else { l2 = NIL; l1 = l; for (j = 0; l1 != NIL; l1 = TCDR(l1)) j += 2; hp = HeapOnlyAlloc(p, j); while (l != NIL) { if (pd_hash_value(pd, tuple_val(TCAR(l))[1]) == pos) l1 = CONS(hp, TCAR(l), l1); else l2 = CONS(hp, TCAR(l), l2); hp += 2; l = TCDR(l); } if (l1 != NIL && TCDR(l1) == NIL) l1 = TCAR(l1); if (l2 != NIL && TCDR(l2) == NIL) l2 = TCAR(l2); ASSERT(hp <= hp_limit); /* After array_put pd is no longer valid */ array_put(&(p->dictionary), pos, l1); array_put(&(p->dictionary), pos + p->dictionary->homeSize, l2); } } #ifdef HARDDEBUG dictionary_dump(p->dictionary,CERR); #endif } /* ** Array oriented operations */ static void array_shrink(ProcDict **ppd, unsigned int need) { unsigned int siz = next_array_size(need); HDEBUGF(("array_shrink: size = %d, used = %d, need = %d", (*ppd)->size, (*ppd)->used, need)); if (siz > (*ppd)->size) return; /* Only shrink */ *ppd = PD_REALLOC(((void *) *ppd), PD_SZ2BYTES((*ppd)->size), PD_SZ2BYTES(siz)); (*ppd)->size = siz; if ((*ppd)->size < (*ppd)->used) (*ppd)->used = (*ppd)->size; } static Eterm array_put(ProcDict **ppdict, unsigned int ndx, Eterm term) { unsigned int i; Eterm ret; if (*ppdict == NULL) { Uint siz = next_array_size(ndx+1); ProcDict *p; p = PD_ALLOC(PD_SZ2BYTES(siz)); for (i = 0; i < siz; ++i) p->data[i] = NIL; p->size = siz; p->homeSize = p->splitPosition = p->numElements = p->used = 0; *ppdict = p; } else if (ndx >= (*ppdict)->size) { Uint osize = (*ppdict)->size; Uint nsize = next_array_size(ndx+1); *ppdict = PD_REALLOC(((void *) *ppdict), PD_SZ2BYTES(osize), PD_SZ2BYTES(nsize)); for (i = osize; i < nsize; ++i) (*ppdict)->data[i] = NIL; (*ppdict)->size = nsize; } ret = (*ppdict)->data[ndx]; (*ppdict)->data[ndx] = term; if ((ndx + 1) > (*ppdict)->used) (*ppdict)->used = ndx + 1; #ifdef HARDDEBUG HDEBUGF(("array_put: (*ppdict)->size = %d, (*ppdict)->used = %d, ndx = %d", (*ppdict)->size, (*ppdict)->used, ndx)); erts_fprintf(stderr, "%T", term); #endif /* HARDDEBUG */ return ret; } /* ** Basic utilities */ static unsigned int pd_hash_value(ProcDict *pdict, Eterm term) { Uint hash, high; hash = MAKE_HASH(term); high = hash % (pdict->homeSize*2); if (high >= HASH_RANGE(pdict)) return hash % pdict->homeSize; return high; } static unsigned int next_array_size(unsigned int need) { static unsigned int tab[] = { 10UL, 20UL, 40UL, 80UL, 160UL, 320UL, 640UL, 1280UL, 2560UL, 5120UL, 10240UL, 20480UL, 40960UL, 81920UL, 163840UL, 327680UL, 655360UL, 1310720UL, 2621440UL, 5242880UL, 10485760UL, 20971520UL, 41943040UL, 83886080UL, 167772160UL, 335544320UL, 671088640UL, 1342177280UL, 2684354560UL }; int hi = sizeof(tab) / sizeof(Uint) - 1; int lo = 1; int cur = 4; while (hi >= lo) { if (tab[cur] >= need && tab[cur - 1] < need) return tab[cur]; if (tab[cur] > need) hi = cur - 1; else lo = cur + 1; cur = (hi + lo) / 2; } return need; } /* ** Debug functions */ #ifdef DEBUG static void pd_check(ProcDict *pd) { unsigned int i; Uint num; if (pd == NULL) return; ASSERT(pd->size >= pd->used); ASSERT(HASH_RANGE(pd) <= MAX_HASH); for (i = 0, num = 0; i < pd->used; ++i) { Eterm t = pd->data[i]; if (is_nil(t)) { continue; } else if (is_tuple(t)) { ++num; ASSERT(arityval(*tuple_val(t)) == 2); continue; } else if (is_list(t)) { while (t != NIL) { ++num; ASSERT(is_tuple(TCAR(t))); ASSERT(arityval(*(tuple_val(TCAR(t)))) == 2); t = TCDR(t); } continue; } else { erl_exit(1, "Found tag 0x%08x in process dictionary at position %d", (unsigned long) t, (int) i); } } ASSERT(num == pd->numElements); ASSERT(pd->splitPosition <= pd->homeSize); } #endif /* DEBUG */ #ifdef HARDDEBUG static int hdebugf(char *format, ...) { va_list ap; erts_fprintf(stderr, "DEBUG: %s:%d :", hdebugf_file, hdebugf_line); va_start(ap, format); erts_vfprintf(stderr, format, ap); va_end(ap); erts_fprintf(stderr, "\n"); return 0; } #endif /* HARDDEBUG */