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-rw-r--r--erts/emulator/beam/arith_instrs.tab105
-rw-r--r--erts/emulator/beam/atom.names2
-rw-r--r--erts/emulator/beam/beam_debug.c21
-rw-r--r--erts/emulator/beam/beam_emu.c68
-rw-r--r--erts/emulator/beam/beam_load.c224
-rw-r--r--erts/emulator/beam/bif.c41
-rw-r--r--erts/emulator/beam/bif.tab27
-rw-r--r--erts/emulator/beam/bif_instrs.tab249
-rw-r--r--erts/emulator/beam/big.h2
-rw-r--r--erts/emulator/beam/break.c1
-rw-r--r--erts/emulator/beam/bs_instrs.tab309
-rw-r--r--erts/emulator/beam/dist.c28
-rw-r--r--erts/emulator/beam/dist.h1
-rw-r--r--erts/emulator/beam/erl_afit_alloc.c2
-rw-r--r--erts/emulator/beam/erl_alloc.c248
-rw-r--r--erts/emulator/beam/erl_alloc.h33
-rw-r--r--erts/emulator/beam/erl_alloc.types6
-rw-r--r--erts/emulator/beam/erl_alloc_util.c946
-rw-r--r--erts/emulator/beam/erl_alloc_util.h85
-rw-r--r--erts/emulator/beam/erl_ao_firstfit_alloc.c127
-rw-r--r--erts/emulator/beam/erl_ao_firstfit_alloc.h7
-rw-r--r--erts/emulator/beam/erl_arith.c970
-rw-r--r--erts/emulator/beam/erl_bestfit_alloc.c2
-rw-r--r--erts/emulator/beam/erl_bif_binary.c401
-rw-r--r--erts/emulator/beam/erl_bif_ddll.c2
-rw-r--r--erts/emulator/beam/erl_bif_guard.c540
-rw-r--r--erts/emulator/beam/erl_bif_info.c10
-rw-r--r--erts/emulator/beam/erl_bif_lists.c315
-rw-r--r--erts/emulator/beam/erl_bif_re.c64
-rw-r--r--erts/emulator/beam/erl_binary.h1
-rw-r--r--erts/emulator/beam/erl_bits.c52
-rw-r--r--erts/emulator/beam/erl_bits.h13
-rw-r--r--erts/emulator/beam/erl_db.c81
-rw-r--r--erts/emulator/beam/erl_db.h29
-rw-r--r--erts/emulator/beam/erl_db_catree.c2250
-rw-r--r--erts/emulator/beam/erl_db_catree.h133
-rw-r--r--erts/emulator/beam/erl_db_hash.c14
-rw-r--r--erts/emulator/beam/erl_db_tree.c1711
-rw-r--r--erts/emulator/beam/erl_db_tree_util.h158
-rw-r--r--erts/emulator/beam/erl_db_util.c32
-rw-r--r--erts/emulator/beam/erl_db_util.h40
-rw-r--r--erts/emulator/beam/erl_dirty_bif.tab2
-rw-r--r--erts/emulator/beam/erl_drv_nif.h4
-rw-r--r--erts/emulator/beam/erl_goodfit_alloc.c2
-rw-r--r--erts/emulator/beam/erl_init.c64
-rw-r--r--erts/emulator/beam/erl_lock_check.c100
-rw-r--r--erts/emulator/beam/erl_lock_check.h4
-rw-r--r--erts/emulator/beam/erl_lock_count.h2
-rw-r--r--erts/emulator/beam/erl_lock_flags.h6
-rw-r--r--erts/emulator/beam/erl_map.c74
-rw-r--r--erts/emulator/beam/erl_message.c4
-rw-r--r--erts/emulator/beam/erl_nif.c39
-rw-r--r--erts/emulator/beam/erl_nif.h12
-rw-r--r--erts/emulator/beam/erl_nif_api_funcs.h10
-rw-r--r--erts/emulator/beam/erl_process.c55
-rw-r--r--erts/emulator/beam/erl_process_dump.c4
-rw-r--r--erts/emulator/beam/erl_unicode.c4
-rw-r--r--erts/emulator/beam/erl_vm.h19
-rw-r--r--erts/emulator/beam/global.h7
-rw-r--r--erts/emulator/beam/instrs.tab28
-rw-r--r--erts/emulator/beam/ops.tab258
-rw-r--r--erts/emulator/beam/utils.c2
62 files changed, 6444 insertions, 3606 deletions
diff --git a/erts/emulator/beam/arith_instrs.tab b/erts/emulator/beam/arith_instrs.tab
index b828e86788..574fceec5b 100644
--- a/erts/emulator/beam/arith_instrs.tab
+++ b/erts/emulator/beam/arith_instrs.tab
@@ -19,21 +19,22 @@
// %CopyrightEnd%
//
-OUTLINED_ARITH_2(Fail, Live, Name, BIF, Op1, Op2, Dst) {
+OUTLINED_ARITH_2(Fail, Name, BIF, Op1, Op2, Dst) {
Eterm result;
- Uint live = $Live;
- HEAVY_SWAPOUT;
- reg[live] = $Op1;
- reg[live+1] = $Op2;
- result = erts_gc_$Name (c_p, reg, live);
- HEAVY_SWAPIN;
+#ifdef DEBUG
+ Eterm* orig_htop = HTOP;
+ Eterm* orig_stop = E;
+#endif
+ DEBUG_SWAPOUT;
+ result = erts_$Name (c_p, $Op1, $Op2);
+ DEBUG_SWAPIN;
+ ASSERT(orig_htop == HTOP && orig_stop == E);
ERTS_HOLE_CHECK(c_p);
if (ERTS_LIKELY(is_value(result))) {
- $REFRESH_GEN_DEST();
$Dst = result;
$NEXT0();
}
- $BIF_ERROR_ARITY_2($Fail, $BIF, reg[live], reg[live+1]);
+ $BIF_ERROR_ARITY_2($Fail, $BIF, $Op1, $Op2);
}
@@ -48,7 +49,7 @@ plus.fetch(Op1, Op2) {
PlusOp2 = $Op2;
}
-plus.execute(Fail, Live, Dst) {
+plus.execute(Fail, Dst) {
if (ERTS_LIKELY(is_both_small(PlusOp1, PlusOp2))) {
Sint i = signed_val(PlusOp1) + signed_val(PlusOp2);
if (ERTS_LIKELY(IS_SSMALL(i))) {
@@ -56,7 +57,7 @@ plus.execute(Fail, Live, Dst) {
$NEXT0();
}
}
- $OUTLINED_ARITH_2($Fail, $Live, mixed_plus, BIF_splus_2, PlusOp1, PlusOp2, $Dst);
+ $OUTLINED_ARITH_2($Fail, mixed_plus, BIF_splus_2, PlusOp1, PlusOp2, $Dst);
}
i_minus := minus.fetch.execute;
@@ -70,7 +71,7 @@ minus.fetch(Op1, Op2) {
MinusOp2 = $Op2;
}
-minus.execute(Fail, Live, Dst) {
+minus.execute(Fail, Dst) {
if (ERTS_LIKELY(is_both_small(MinusOp1, MinusOp2))) {
Sint i = signed_val(MinusOp1) - signed_val(MinusOp2);
if (ERTS_LIKELY(IS_SSMALL(i))) {
@@ -78,7 +79,7 @@ minus.execute(Fail, Live, Dst) {
$NEXT0();
}
}
- $OUTLINED_ARITH_2($Fail, $Live, mixed_minus, BIF_sminus_2, MinusOp1, MinusOp2, $Dst);
+ $OUTLINED_ARITH_2($Fail, mixed_minus, BIF_sminus_2, MinusOp1, MinusOp2, $Dst);
}
i_increment := increment.fetch.execute;
@@ -91,9 +92,8 @@ increment.fetch(Src) {
increment_reg_val = $Src;
}
-increment.execute(IncrementVal, Live, Dst) {
+increment.execute(IncrementVal, Dst) {
Eterm increment_val = $IncrementVal;
- Uint live;
Eterm result;
if (ERTS_LIKELY(is_small(increment_reg_val))) {
@@ -103,15 +103,9 @@ increment.execute(IncrementVal, Live, Dst) {
$NEXT0();
}
}
- live = $Live;
- HEAVY_SWAPOUT;
- reg[live] = increment_reg_val;
- reg[live+1] = make_small(increment_val);
- result = erts_gc_mixed_plus(c_p, reg, live);
- HEAVY_SWAPIN;
+ result = erts_mixed_plus(c_p, increment_reg_val, make_small(increment_val));
ERTS_HOLE_CHECK(c_p);
if (ERTS_LIKELY(is_value(result))) {
- $REFRESH_GEN_DEST();
$Dst = result;
$NEXT0();
}
@@ -119,19 +113,19 @@ increment.execute(IncrementVal, Live, Dst) {
goto find_func_info;
}
-i_times(Fail, Live, Op1, Op2, Dst) {
+i_times(Fail, Op1, Op2, Dst) {
Eterm op1 = $Op1;
Eterm op2 = $Op2;
- $OUTLINED_ARITH_2($Fail, $Live, mixed_times, BIF_stimes_2, op1, op2, $Dst);
+ $OUTLINED_ARITH_2($Fail, mixed_times, BIF_stimes_2, op1, op2, $Dst);
}
-i_m_div(Fail, Live, Op1, Op2, Dst) {
+i_m_div(Fail, Op1, Op2, Dst) {
Eterm op1 = $Op1;
Eterm op2 = $Op2;
- $OUTLINED_ARITH_2($Fail, $Live, mixed_div, BIF_div_2, op1, op2, $Dst);
+ $OUTLINED_ARITH_2($Fail, mixed_div, BIF_div_2, op1, op2, $Dst);
}
-i_int_div(Fail, Live, Op1, Op2, Dst) {
+i_int_div(Fail, Op1, Op2, Dst) {
Eterm op1 = $Op1;
Eterm op2 = $Op2;
if (ERTS_UNLIKELY(op2 == SMALL_ZERO)) {
@@ -144,7 +138,7 @@ i_int_div(Fail, Live, Op1, Op2, Dst) {
$NEXT0();
}
}
- $OUTLINED_ARITH_2($Fail, $Live, int_div, BIF_intdiv_2, op1, op2, $Dst);
+ $OUTLINED_ARITH_2($Fail, int_div, BIF_intdiv_2, op1, op2, $Dst);
}
i_rem := rem.fetch.execute;
@@ -158,7 +152,7 @@ rem.fetch(Src1, Src2) {
RemOp2 = $Src2;
}
-rem.execute(Fail, Live, Dst) {
+rem.execute(Fail, Dst) {
if (ERTS_UNLIKELY(RemOp2 == SMALL_ZERO)) {
c_p->freason = BADARITH;
$BIF_ERROR_ARITY_2($Fail, BIF_rem_2, RemOp1, RemOp2);
@@ -166,7 +160,7 @@ rem.execute(Fail, Live, Dst) {
$Dst = make_small(signed_val(RemOp1) % signed_val(RemOp2));
$NEXT0();
} else {
- $OUTLINED_ARITH_2($Fail, $Live, int_rem, BIF_rem_2, RemOp1, RemOp2, $Dst);
+ $OUTLINED_ARITH_2($Fail, int_rem, BIF_rem_2, RemOp1, RemOp2, $Dst);
}
}
@@ -181,7 +175,7 @@ band.fetch(Src1, Src2) {
BandOp2 = $Src2;
}
-band.execute(Fail, Live, Dst) {
+band.execute(Fail, Dst) {
if (ERTS_LIKELY(is_both_small(BandOp1, BandOp2))) {
/*
* No need to untag -- TAG & TAG == TAG.
@@ -189,10 +183,10 @@ band.execute(Fail, Live, Dst) {
$Dst = BandOp1 & BandOp2;
$NEXT0();
}
- $OUTLINED_ARITH_2($Fail, $Live, band, BIF_band_2, BandOp1, BandOp2, $Dst);
+ $OUTLINED_ARITH_2($Fail, band, BIF_band_2, BandOp1, BandOp2, $Dst);
}
-i_bor(Fail, Live, Src1, Src2, Dst) {
+i_bor(Fail, Src1, Src2, Dst) {
if (ERTS_LIKELY(is_both_small($Src1, $Src2))) {
/*
* No need to untag -- TAG | TAG == TAG.
@@ -200,10 +194,10 @@ i_bor(Fail, Live, Src1, Src2, Dst) {
$Dst = $Src1 | $Src2;
$NEXT0();
}
- $OUTLINED_ARITH_2($Fail, $Live, bor, BIF_bor_2, $Src1, $Src2, $Dst);
+ $OUTLINED_ARITH_2($Fail, bor, BIF_bor_2, $Src1, $Src2, $Dst);
}
-i_bxor(Fail, Live, Src1, Src2, Dst) {
+i_bxor(Fail, Src1, Src2, Dst) {
if (ERTS_LIKELY(is_both_small($Src1, $Src2))) {
/*
* TAG ^ TAG == 0.
@@ -214,7 +208,7 @@ i_bxor(Fail, Live, Src1, Src2, Dst) {
$Dst = ($Src1 ^ $Src2) | make_small(0);
$NEXT0();
}
- $OUTLINED_ARITH_2($Fail, $Live, bxor, BIF_bxor_2, $Src1, $Src2, $Dst);
+ $OUTLINED_ARITH_2($Fail, bxor, BIF_bxor_2, $Src1, $Src2, $Dst);
}
i_bsl := shift.setup_bsl.execute;
@@ -265,7 +259,7 @@ shift.setup_bsl(Src1, Src2) {
}
}
-shift.execute(Fail, Live, Dst) {
+shift.execute(Fail, Dst) {
Uint big_words_needed;
if (ERTS_LIKELY(is_small(Op1))) {
@@ -320,7 +314,9 @@ shift.execute(Fail, Live, Dst) {
}
{
Eterm tmp_big[2];
- Sint big_need_size = BIG_NEED_SIZE(big_words_needed+1);
+ Sint big_need_size = 1 + BIG_NEED_SIZE(big_words_needed+1);
+ Eterm* hp;
+ Eterm* hp_end;
/*
* Slightly conservative check the size to avoid
@@ -331,15 +327,16 @@ shift.execute(Fail, Live, Dst) {
if (big_need_size-8 > BIG_ARITY_MAX) {
$SYSTEM_LIMIT($Fail);
}
- $GC_TEST_PRESERVE(big_need_size+1, $Live, Op1);
+ hp = HeapFragOnlyAlloc(c_p, big_need_size);
if (is_small(Op1)) {
Op1 = small_to_big(signed_val(Op1), tmp_big);
}
- Op1 = big_lshift(Op1, shift_left_count, HTOP);
+ Op1 = big_lshift(Op1, shift_left_count, hp);
+ hp_end = hp + big_need_size;
if (is_big(Op1)) {
- HTOP += bignum_header_arity(*HTOP) + 1;
+ hp += bignum_header_arity(*hp) + 1;
}
- HEAP_SPACE_VERIFIED(0);
+ HRelease(c_p, hp_end, hp);
if (ERTS_UNLIKELY(is_nil(Op1))) {
/*
* This result must have been only slighty larger
@@ -349,7 +346,6 @@ shift.execute(Fail, Live, Dst) {
$SYSTEM_LIMIT($Fail);
}
ERTS_HOLE_CHECK(c_p);
- $REFRESH_GEN_DEST();
$Dst = Op1;
$NEXT0();
}
@@ -366,31 +362,28 @@ shift.execute(Fail, Live, Dst) {
reg[0] = Op1;
reg[1] = Op2;
SWAPOUT;
- if (IsOpCode(I[0], i_bsl_ssjtd)) {
+ if (IsOpCode(I[0], i_bsl_ssjd)) {
I = handle_error(c_p, I, reg, &bif_export[BIF_bsl_2]->info.mfa);
} else {
- ASSERT(IsOpCode(I[0], i_bsr_ssjtd));
+ ASSERT(IsOpCode(I[0], i_bsr_ssjd));
I = handle_error(c_p, I, reg, &bif_export[BIF_bsr_2]->info.mfa);
}
goto post_error_handling;
}
}
-i_int_bnot(Fail, Src, Live, Dst) {
+i_int_bnot(Fail, Src, Dst) {
Eterm bnot_val = $Src;
+ Eterm result;
+
if (ERTS_LIKELY(is_small(bnot_val))) {
- bnot_val = make_small(~signed_val(bnot_val));
+ result = make_small(~signed_val(bnot_val));
} else {
- Uint live = $Live;
- HEAVY_SWAPOUT;
- reg[live] = bnot_val;
- bnot_val = erts_gc_bnot(c_p, reg, live);
- HEAVY_SWAPIN;
+ result = erts_bnot(c_p, bnot_val);
ERTS_HOLE_CHECK(c_p);
- if (ERTS_UNLIKELY(is_nil(bnot_val))) {
- $BIF_ERROR_ARITY_1($Fail, BIF_bnot_1, reg[live]);
+ if (ERTS_UNLIKELY(is_nil(result))) {
+ $BIF_ERROR_ARITY_1($Fail, BIF_bnot_1, bnot_val);
}
- $REFRESH_GEN_DEST();
}
- $Dst = bnot_val;
+ $Dst = result;
}
diff --git a/erts/emulator/beam/atom.names b/erts/emulator/beam/atom.names
index 291bc95604..f81082a698 100644
--- a/erts/emulator/beam/atom.names
+++ b/erts/emulator/beam/atom.names
@@ -209,7 +209,6 @@ atom dirty_nif_finalizer
atom disable_trace
atom disabled
atom discard
-atom display_items
atom dist
atom dist_cmd
atom dist_ctrl_put_data
@@ -238,6 +237,7 @@ atom eof
atom eol
atom Eq='=:='
atom Eqeq='=='
+atom erl_init
atom erl_tracer
atom erlang
atom erl_signal_server
diff --git a/erts/emulator/beam/beam_debug.c b/erts/emulator/beam/beam_debug.c
index 9633de2021..f71efd708f 100644
--- a/erts/emulator/beam/beam_debug.c
+++ b/erts/emulator/beam/beam_debug.c
@@ -558,23 +558,6 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
case 'I':
case 'W':
switch (op) {
- case op_i_gc_bif1_jWstd:
- case op_i_gc_bif2_jWtssd:
- case op_i_gc_bif3_jWtssd:
- {
- const ErtsGcBif* p;
- BifFunction gcf = (BifFunction) *ap;
- for (p = erts_gc_bifs; p->bif != 0; p++) {
- if (p->gc_bif == gcf) {
- print_bif_name(to, to_arg, p->bif);
- break;
- }
- }
- if (p->bif == 0) {
- erts_print(to, to_arg, "%d", (Uint)gcf);
- }
- break;
- }
case op_i_make_fun_Wt:
if (*sign == 'W') {
ErlFunEntry* fe = (ErlFunEntry *) *ap;
@@ -786,8 +769,8 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
}
}
break;
- case op_i_put_tuple_xI:
- case op_i_put_tuple_yI:
+ case op_put_tuple2_xI:
+ case op_put_tuple2_yI:
case op_new_map_dtI:
case op_update_map_assoc_sdtI:
case op_update_map_exact_jsdtI:
diff --git a/erts/emulator/beam/beam_emu.c b/erts/emulator/beam/beam_emu.c
index e909a0b4da..4ef06464f4 100644
--- a/erts/emulator/beam/beam_emu.c
+++ b/erts/emulator/beam/beam_emu.c
@@ -206,8 +206,12 @@ void** beam_ops;
#ifdef DEBUG
# /* The stack pointer is used in an assertion. */
# define LIGHT_SWAPOUT SWAPOUT
+# define DEBUG_SWAPOUT SWAPOUT
+# define DEBUG_SWAPIN SWAPIN
#else
# define LIGHT_SWAPOUT HEAP_TOP(c_p) = HTOP
+# define DEBUG_SWAPOUT
+# define DEBUG_SWAPIN
#endif
/*
@@ -386,7 +390,6 @@ do { \
*/
static void init_emulator_finish(void) NOINLINE;
static ErtsCodeMFA *ubif2mfa(void* uf) NOINLINE;
-static ErtsCodeMFA *gcbif2mfa(void* gcf) NOINLINE;
static BeamInstr* handle_error(Process* c_p, BeamInstr* pc,
Eterm* reg, ErtsCodeMFA* bif_mfa) NOINLINE;
static BeamInstr* call_error_handler(Process* p, ErtsCodeMFA* mfa,
@@ -401,6 +404,7 @@ static BeamInstr* apply_fun(Process* p, Eterm fun,
Eterm args, Eterm* reg) NOINLINE;
static Eterm new_fun(Process* p, Eterm* reg,
ErlFunEntry* fe, int num_free) NOINLINE;
+static int is_function2(Eterm Term, Uint arity);
static Eterm erts_gc_new_map(Process* p, Eterm* reg, Uint live,
Uint n, BeamInstr* ptr) NOINLINE;
static Eterm erts_gc_new_small_map_lit(Process* p, Eterm* reg, Eterm keys_literal,
@@ -1301,18 +1305,6 @@ void erts_dirty_process_main(ErtsSchedulerData *esdp)
}
static ErtsCodeMFA *
-gcbif2mfa(void* gcf)
-{
- int i;
- for (i = 0; erts_gc_bifs[i].bif; i++) {
- if (erts_gc_bifs[i].gc_bif == gcf)
- return &bif_export[erts_gc_bifs[i].exp_ix]->info.mfa;
- }
- erts_exit(ERTS_ERROR_EXIT, "bad gc bif");
- return NULL;
-}
-
-static ErtsCodeMFA *
ubif2mfa(void* uf)
{
int i;
@@ -1320,7 +1312,7 @@ ubif2mfa(void* uf)
if (erts_u_bifs[i].bif == uf)
return &bif_export[erts_u_bifs[i].exp_ix]->info.mfa;
}
- erts_exit(ERTS_ERROR_EXIT, "bad u bif");
+ erts_exit(ERTS_ERROR_EXIT, "bad u bif: %p\n", uf);
return NULL;
}
@@ -2671,6 +2663,19 @@ new_fun(Process* p, Eterm* reg, ErlFunEntry* fe, int num_free)
return make_fun(funp);
}
+static int
+is_function2(Eterm Term, Uint arity)
+{
+ if (is_fun(Term)) {
+ ErlFunThing* funp = (ErlFunThing *) fun_val(Term);
+ return funp->arity == arity;
+ } else if (is_export(Term)) {
+ Export* exp = (Export *) (export_val(Term)[1]);
+ return exp->info.mfa.arity == arity;
+ }
+ return 0;
+}
+
static Eterm get_map_element(Eterm map, Eterm key)
{
Uint32 hx;
@@ -3062,12 +3067,14 @@ erts_gc_update_map_exact(Process* p, Eterm* reg, Uint live, Uint n, Eterm* new_p
Uint need;
flatmap_t *old_mp, *mp;
Eterm res;
+ Eterm* old_hp;
Eterm* hp;
Eterm* E;
Eterm* old_keys;
Eterm* old_vals;
Eterm new_key;
Eterm map;
+ int changed = 0;
n /= 2; /* Number of values to be updated */
ASSERT(n > 0);
@@ -3134,6 +3141,7 @@ erts_gc_update_map_exact(Process* p, Eterm* reg, Uint live, Uint n, Eterm* new_p
* Update map, keeping the old key tuple.
*/
+ old_hp = p->htop;
hp = p->htop;
E = p->stop;
@@ -3156,20 +3164,26 @@ erts_gc_update_map_exact(Process* p, Eterm* reg, Uint live, Uint n, Eterm* new_p
/* Not same keys */
*hp++ = *old_vals;
} else {
- GET_TERM(new_p[1], *hp);
- hp++;
- n--;
+ GET_TERM(new_p[1], *hp);
+ if(*hp != *old_vals) changed = 1;
+ hp++;
+ n--;
if (n == 0) {
- /*
- * All updates done. Copy remaining values
- * and return the result.
- */
- for (i++, old_vals++; i < num_old; i++) {
- *hp++ = *old_vals++;
- }
- ASSERT(hp == p->htop + need);
- p->htop = hp;
- return res;
+ /*
+ * All updates done. Copy remaining values
+ * if any changed or return the original one.
+ */
+ if(changed) {
+ for (i++, old_vals++; i < num_old; i++) {
+ *hp++ = *old_vals++;
+ }
+ ASSERT(hp == p->htop + need);
+ p->htop = hp;
+ return res;
+ } else {
+ p->htop = old_hp;
+ return map;
+ }
} else {
new_p += 2;
GET_TERM(*new_p, new_key);
diff --git a/erts/emulator/beam/beam_load.c b/erts/emulator/beam/beam_load.c
index e61199a8fd..7ff55e8927 100644
--- a/erts/emulator/beam/beam_load.c
+++ b/erts/emulator/beam/beam_load.c
@@ -2868,6 +2868,7 @@ load_code(LoaderState* stp)
break;
case op_bs_put_string_WW:
case op_i_bs_match_string_xfWW:
+ case op_i_bs_match_string_yfWW:
new_string_patch(stp, ci-1);
break;
@@ -3579,38 +3580,36 @@ gen_skip_bits2(LoaderState* stp, GenOpArg Fail, GenOpArg Ms,
}
static GenOp*
-gen_increment(LoaderState* stp, GenOpArg Reg, GenOpArg Integer,
- GenOpArg Live, GenOpArg Dst)
+gen_increment(LoaderState* stp, GenOpArg Reg,
+ GenOpArg Integer, GenOpArg Dst)
{
GenOp* op;
NEW_GENOP(stp, op);
- op->op = genop_i_increment_4;
- op->arity = 4;
+ op->op = genop_i_increment_3;
+ op->arity = 3;
op->next = NULL;
op->a[0] = Reg;
op->a[1].type = TAG_u;
op->a[1].val = Integer.val;
- op->a[2] = Live;
- op->a[3] = Dst;
+ op->a[2] = Dst;
return op;
}
static GenOp*
-gen_increment_from_minus(LoaderState* stp, GenOpArg Reg, GenOpArg Integer,
- GenOpArg Live, GenOpArg Dst)
+gen_increment_from_minus(LoaderState* stp, GenOpArg Reg,
+ GenOpArg Integer, GenOpArg Dst)
{
GenOp* op;
NEW_GENOP(stp, op);
- op->op = genop_i_increment_4;
- op->arity = 4;
+ op->op = genop_i_increment_3;
+ op->arity = 3;
op->next = NULL;
op->a[0] = Reg;
op->a[1].type = TAG_u;
op->a[1].val = -Integer.val;
- op->a[2] = Live;
- op->a[3] = Dst;
+ op->a[2] = Dst;
return op;
}
@@ -4245,115 +4244,123 @@ gen_make_fun2(LoaderState* stp, GenOpArg idx)
{
ErlFunEntry* fe;
GenOp* op;
+ Uint arity, num_free;
if (idx.val >= stp->num_lambdas) {
- stp->lambda_error = "missing or short chunk 'FunT'";
- fe = 0;
+ stp->lambda_error = "missing or short chunk 'FunT'";
+ fe = 0;
+ num_free = 0;
+ arity = 0;
} else {
- fe = stp->lambdas[idx.val].fe;
+ fe = stp->lambdas[idx.val].fe;
+ num_free = stp->lambdas[idx.val].num_free;
+ arity = fe->arity;
}
NEW_GENOP(stp, op);
- op->op = genop_i_make_fun_2;
- op->arity = 2;
- op->a[0].type = TAG_u;
- op->a[0].val = (BeamInstr) fe;
- op->a[1].type = TAG_u;
- op->a[1].val = stp->lambdas[idx.val].num_free;
- op->next = NULL;
- return op;
-}
-
-static GenOp*
-translate_gc_bif(LoaderState* stp, GenOp* op, GenOpArg Bif)
-{
- const ErtsGcBif* p;
- BifFunction bf;
- bf = stp->import[Bif.val].bf;
- for (p = erts_gc_bifs; p->bif != 0; p++) {
- if (p->bif == bf) {
- op->a[1].type = TAG_u;
- op->a[1].val = (BeamInstr) p->gc_bif;
- return op;
- }
+ /*
+ * It's possible this is called before init process is started,
+ * skip the optimisation in such case.
+ */
+ if (num_free == 0 && erts_init_process_id != ERTS_INVALID_PID) {
+ Uint lit;
+ Eterm* hp;
+ ErlFunThing* funp;
+
+ lit = new_literal(stp, &hp, ERL_FUN_SIZE);
+ funp = (ErlFunThing *) hp;
+ erts_refc_inc(&fe->refc, 2);
+ funp->thing_word = HEADER_FUN;
+ funp->next = NULL;
+ funp->fe = fe;
+ funp->num_free = 0;
+ funp->creator = erts_init_process_id;
+ funp->arity = arity;
+
+ op->op = genop_move_2;
+ op->arity = 2;
+ op->a[0].type = TAG_q;
+ op->a[0].val = lit;
+ op->a[1].type = TAG_x;
+ op->a[1].val = 0;
+ } else {
+ op->op = genop_i_make_fun_2;
+ op->arity = 2;
+ op->a[0].type = TAG_u;
+ op->a[0].val = (BeamInstr) fe;
+ op->a[1].type = TAG_u;
+ op->a[1].val = num_free;
}
- op->op = genop_unsupported_guard_bif_3;
- op->arity = 3;
- op->a[0].type = TAG_a;
- op->a[0].val = stp->import[Bif.val].module;
- op->a[1].type = TAG_a;
- op->a[1].val = stp->import[Bif.val].function;
- op->a[2].type = TAG_u;
- op->a[2].val = stp->import[Bif.val].arity;
+ op->next = NULL;
return op;
}
-/*
- * Rewrite gc_bifs with one parameter (the common case).
- */
static GenOp*
-gen_guard_bif1(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
- GenOpArg Src, GenOpArg Dst)
+gen_is_function2(LoaderState* stp, GenOpArg Fail, GenOpArg Fun, GenOpArg Arity)
{
GenOp* op;
+ int literal_arity = Arity.type == TAG_i;
+ int fun_is_reg = Fun.type == TAG_x || Fun.type == TAG_y;
NEW_GENOP(stp, op);
op->next = NULL;
- op->op = genop_i_gc_bif1_5;
- op->arity = 5;
- op->a[0] = Fail;
- /* op->a[1] is set by translate_gc_bif() */
- op->a[2] = Src;
- op->a[3] = Live;
- op->a[4] = Dst;
- return translate_gc_bif(stp, op, Bif);
-}
-
-/*
- * This is used by the ops.tab rule that rewrites gc_bifs with two parameters.
- */
-static GenOp*
-gen_guard_bif2(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
- GenOpArg S1, GenOpArg S2, GenOpArg Dst)
-{
- GenOp* op;
- NEW_GENOP(stp, op);
- op->next = NULL;
- op->op = genop_i_gc_bif2_6;
- op->arity = 6;
- op->a[0] = Fail;
- /* op->a[1] is set by translate_gc_bif() */
- op->a[2] = Live;
- op->a[3] = S1;
- op->a[4] = S2;
- op->a[5] = Dst;
- return translate_gc_bif(stp, op, Bif);
-}
-
-/*
- * This is used by the ops.tab rule that rewrites gc_bifs with three parameters.
- */
-static GenOp*
-gen_guard_bif3(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
- GenOpArg S1, GenOpArg S2, GenOpArg S3, GenOpArg Dst)
-{
- GenOp* op;
-
- NEW_GENOP(stp, op);
- op->next = NULL;
- op->op = genop_ii_gc_bif3_7;
- op->arity = 7;
- op->a[0] = Fail;
- /* op->a[1] is set by translate_gc_bif() */
- op->a[2] = Live;
- op->a[3] = S1;
- op->a[4] = S2;
- op->a[5] = S3;
- op->a[6] = Dst;
- return translate_gc_bif(stp, op, Bif);
+ if (fun_is_reg &&literal_arity) {
+ /*
+ * Most common case. Fun in a register and arity
+ * is an integer literal.
+ */
+ if (Arity.val > MAX_ARG) {
+ /* Arity is negative or too big. */
+ op->op = genop_jump_1;
+ op->arity = 1;
+ op->a[0] = Fail;
+ return op;
+ } else {
+ op->op = genop_hot_is_function2_3;
+ op->arity = 3;
+ op->a[0] = Fail;
+ op->a[1] = Fun;
+ op->a[2].type = TAG_u;
+ op->a[2].val = Arity.val;
+ return op;
+ }
+ } else {
+ /*
+ * Handle extremely uncommon cases by a slower sequence.
+ */
+ GenOp* move_fun;
+ GenOp* move_arity;
+
+ NEW_GENOP(stp, move_fun);
+ NEW_GENOP(stp, move_arity);
+
+ move_fun->next = move_arity;
+ move_arity->next = op;
+
+ move_fun->arity = 2;
+ move_fun->op = genop_move_2;
+ move_fun->a[0] = Fun;
+ move_fun->a[1].type = TAG_x;
+ move_fun->a[1].val = 1022;
+
+ move_arity->arity = 2;
+ move_arity->op = genop_move_2;
+ move_arity->a[0] = Arity;
+ move_arity->a[1].type = TAG_x;
+ move_arity->a[1].val = 1023;
+
+ op->op = genop_cold_is_function2_3;
+ op->arity = 3;
+ op->a[0] = Fail;
+ op->a[1].type = TAG_x;
+ op->a[1].val = 1022;
+ op->a[2].type = TAG_x;
+ op->a[2].val = 1023;
+ return move_fun;
+ }
}
static GenOp*
@@ -4522,19 +4529,6 @@ is_empty_map(LoaderState* stp, GenOpArg Lit)
}
/*
- * Predicate to test whether the given literal is an export.
- */
-static int
-literal_is_export(LoaderState* stp, GenOpArg Lit)
-{
- Eterm term;
-
- ASSERT(Lit.type == TAG_q);
- term = stp->literals[Lit.val].term;
- return is_export(term);
-}
-
-/*
* Pseudo predicate map_key_sort that will sort the Rest operand for
* map instructions as a side effect.
*/
diff --git a/erts/emulator/beam/bif.c b/erts/emulator/beam/bif.c
index 000397e790..ff7db0e742 100644
--- a/erts/emulator/beam/bif.c
+++ b/erts/emulator/beam/bif.c
@@ -218,11 +218,8 @@ BIF_RETTYPE link_1(BIF_ALIST_1)
* We have (pending) connection.
* Setup link and enqueue link signal.
*/
-#ifdef DEBUG
- int inserted =
-#endif
- erts_link_dist_insert(&ldp->b, dep->mld);
- ASSERT(inserted);
+ int inserted = erts_link_dist_insert(&ldp->b, dep->mld);
+ ASSERT(inserted); (void)inserted;
erts_de_runlock(dep);
code = erts_dsig_send_link(&dsd, BIF_P->common.id, BIF_ARG_1);
@@ -567,12 +564,8 @@ BIF_RETTYPE monitor_2(BIF_ALIST_2)
case ERTS_DSIG_PREP_PENDING:
case ERTS_DSIG_PREP_CONNECTED: {
-#ifdef DEBUG
- int inserted =
-#endif
-
- erts_monitor_dist_insert(&mdp->target, dep->mld);
- ASSERT(inserted);
+ int inserted = erts_monitor_dist_insert(&mdp->target, dep->mld);
+ ASSERT(inserted); (void)inserted;
erts_de_runlock(dep);
code = erts_dsig_send_monitor(&dsd, BIF_P->common.id, target, ref);
@@ -1803,6 +1796,7 @@ ebif_bang_2(BIF_ALIST_2)
#define SEND_INTERNAL_ERROR (-6)
#define SEND_AWAIT_RESULT (-7)
#define SEND_YIELD_CONTINUE (-8)
+#define SEND_SYSTEM_LIMIT (-9)
static Sint remote_send(Process *p, DistEntry *dep,
@@ -1842,6 +1836,8 @@ static Sint remote_send(Process *p, DistEntry *dep,
res = SEND_YIELD_RETURN;
else if (code == ERTS_DSIG_SEND_CONTINUE)
res = SEND_YIELD_CONTINUE;
+ else if (code == ERTS_DSIG_SEND_TOO_LRG)
+ res = SEND_SYSTEM_LIMIT;
else
res = 0;
break;
@@ -2162,6 +2158,9 @@ BIF_RETTYPE send_3(BIF_ALIST_3)
case SEND_BADARG:
ERTS_BIF_PREP_ERROR(retval, p, BADARG);
break;
+ case SEND_SYSTEM_LIMIT:
+ ERTS_BIF_PREP_ERROR(retval, p, SYSTEM_LIMIT);
+ break;
case SEND_USER_ERROR:
ERTS_BIF_PREP_ERROR(retval, p, EXC_ERROR);
break;
@@ -2218,6 +2217,10 @@ static BIF_RETTYPE dsend_continue_trap_1(BIF_ALIST_1)
BUMP_ALL_REDS(BIF_P);
BIF_TRAP1(&dsend_continue_trap_export, BIF_P, BIF_ARG_1);
}
+ case ERTS_DSIG_SEND_TOO_LRG: { /*SEND_SYSTEM_LIMIT*/
+ erts_set_gc_state(BIF_P, 1);
+ BIF_ERROR(BIF_P, SYSTEM_LIMIT);
+ }
default:
erts_exit(ERTS_ABORT_EXIT, "dsend_continue_trap invalid result %d\n", (int)result);
break;
@@ -2275,6 +2278,9 @@ Eterm erl_send(Process *p, Eterm to, Eterm msg)
case SEND_BADARG:
ERTS_BIF_PREP_ERROR(retval, p, BADARG);
break;
+ case SEND_SYSTEM_LIMIT:
+ ERTS_BIF_PREP_ERROR(retval, p, SYSTEM_LIMIT);
+ break;
case SEND_USER_ERROR:
ERTS_BIF_PREP_ERROR(retval, p, EXC_ERROR);
break;
@@ -2732,9 +2738,7 @@ BIF_RETTYPE atom_to_list_1(BIF_ALIST_1)
Uint num_chars, num_built, num_eaten;
byte* err_pos;
Eterm res;
-#ifdef DEBUG
int ares;
-#endif
if (is_not_atom(BIF_ARG_1))
BIF_ERROR(BIF_P, BADARG);
@@ -2744,11 +2748,9 @@ BIF_RETTYPE atom_to_list_1(BIF_ALIST_1)
if (ap->len == 0)
BIF_RET(NIL); /* the empty atom */
-#ifdef DEBUG
ares =
-#endif
erts_analyze_utf8(ap->name, ap->len, &err_pos, &num_chars, NULL);
- ASSERT(ares == ERTS_UTF8_OK);
+ ASSERT(ares == ERTS_UTF8_OK); (void)ares;
res = erts_utf8_to_list(BIF_P, num_chars, ap->name, ap->len, ap->len,
&num_built, &num_eaten, NIL);
@@ -4514,13 +4516,6 @@ BIF_RETTYPE system_flag_2(BIF_ALIST_2)
erts_proc_lock(BIF_P, ERTS_PROC_LOCK_MAIN);
BIF_RET(old_value);
- } else if (BIF_ARG_1 == am_display_items) {
- int oval = display_items;
- if (!is_small(BIF_ARG_2) || (n = signed_val(BIF_ARG_2)) < 0) {
- goto error;
- }
- display_items = n < 32 ? 32 : n;
- BIF_RET(make_small(oval));
} else if (BIF_ARG_1 == am_debug_flags) {
BIF_RET(am_true);
} else if (BIF_ARG_1 == am_backtrace_depth) {
diff --git a/erts/emulator/beam/bif.tab b/erts/emulator/beam/bif.tab
index c96278b10c..18586b5ede 100644
--- a/erts/emulator/beam/bif.tab
+++ b/erts/emulator/beam/bif.tab
@@ -41,7 +41,7 @@
#
-gcbif erlang:abs/1
+ubif erlang:abs/1
bif erlang:adler32/1
bif erlang:adler32/2
bif erlang:adler32_combine/3
@@ -66,7 +66,7 @@ bif erlang:exit/2
bif erlang:exit_signal/2
bif erlang:external_size/1
bif erlang:external_size/2
-gcbif erlang:float/1
+ubif erlang:float/1
bif erlang:float_to_list/1
bif erlang:float_to_list/2
bif erlang:fun_info/2
@@ -84,7 +84,7 @@ bif erlang:phash2/2
ubif erlang:hd/1
bif erlang:integer_to_list/1
bif erlang:is_alive/0
-gcbif erlang:length/1
+ubif erlang:length/1
bif erlang:link/1
bif erlang:list_to_atom/1
bif erlang:list_to_binary/1
@@ -133,10 +133,10 @@ bif erlang:processes/0
bif erlang:put/2
bif erlang:register/2
bif erlang:registered/0
-gcbif erlang:round/1
+ubif erlang:round/1
ubif erlang:self/0
bif erlang:setelement/3
-gcbif erlang:size/1
+ubif erlang:size/1
bif erlang:spawn/3
bif erlang:spawn_link/3
bif erlang:split_binary/2
@@ -146,7 +146,7 @@ bif erlang:term_to_binary/2
bif erlang:throw/1
bif erlang:time/0
ubif erlang:tl/1
-gcbif erlang:trunc/1
+ubif erlang:trunc/1
bif erlang:tuple_to_list/1
bif erlang:universaltime/0
bif erlang:universaltime_to_localtime/1
@@ -481,8 +481,8 @@ bif erlang:list_to_existing_atom/1
#
ubif erlang:is_bitstring/1
ubif erlang:tuple_size/1
-gcbif erlang:byte_size/1
-gcbif erlang:bit_size/1
+ubif erlang:byte_size/1
+ubif erlang:bit_size/1
bif erlang:list_to_bitstring/1
bif erlang:bitstring_to_list/1
@@ -534,8 +534,8 @@ bif erlang:binary_to_term/2
#
# The searching/splitting/substituting thingies
#
-gcbif erlang:binary_part/2
-gcbif erlang:binary_part/3
+ubif erlang:binary_part/2
+ubif erlang:binary_part/3
bif binary:compile_pattern/1
bif binary:match/2
@@ -623,14 +623,13 @@ bif io:printable_range/0
bif re:inspect/2
ubif erlang:is_map/1
-gcbif erlang:map_size/1
+ubif erlang:map_size/1
bif maps:find/2
bif maps:get/2
bif maps:from_list/1
bif maps:is_key/2
bif maps:keys/1
bif maps:merge/2
-bif maps:new/0
bif maps:put/3
bif maps:remove/2
bif maps:update/3
@@ -672,8 +671,8 @@ bif maps:take/2
# New in 20.0
#
-gcbif erlang:floor/1
-gcbif erlang:ceil/1
+ubif erlang:floor/1
+ubif erlang:ceil/1
bif math:floor/1
bif math:ceil/1
bif math:fmod/2
diff --git a/erts/emulator/beam/bif_instrs.tab b/erts/emulator/beam/bif_instrs.tab
index 00854471a9..418bbe2b23 100644
--- a/erts/emulator/beam/bif_instrs.tab
+++ b/erts/emulator/beam/bif_instrs.tab
@@ -31,13 +31,20 @@
CALL_GUARD_BIF(BF, TmpReg, Dst) {
Eterm result;
+#ifdef DEBUG
+ Eterm* orig_htop = HTOP;
+ Eterm* orig_stop = E;
+#endif
ERTS_DBG_CHK_REDS(c_p, FCALLS);
c_p->fcalls = FCALLS;
PROCESS_MAIN_CHK_LOCKS(c_p);
ASSERT(!ERTS_PROC_IS_EXITING(c_p));
ERTS_CHK_MBUF_SZ(c_p);
+ DEBUG_SWAPOUT;
result = (*$BF)(c_p, $TmpReg, I);
+ DEBUG_SWAPIN;
+ ASSERT(orig_htop == HTOP && orig_stop == E);
ERTS_CHK_MBUF_SZ(c_p);
ASSERT(!ERTS_PROC_IS_EXITING(c_p) || is_non_value(result));
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
@@ -51,222 +58,154 @@ CALL_GUARD_BIF(BF, TmpReg, Dst) {
}
}
-// Guard BIF in head. On failure, ignore the error and jump
-// to the code for the next clause. We don't support tracing
+// Guard BIF in head. On failure, ignore the error and jump
+// to the code for the next clause. We don't support tracing
// of guard BIFs.
-bif1(Fail, Bif, Src, Dst) {
+i_bif1 := i_bif.fetch0.call;
+i_bif2 := i_bif.fetch1.fetch0.call;
+i_bif3 := i_bif.fetch2.fetch1.fetch0.call;
+
+i_bif.head() {
ErtsBifFunc bf;
- Eterm tmp_reg[1];
+ Eterm tmp_reg[3];
+}
+i_bif.fetch0(Src) {
tmp_reg[0] = $Src;
- bf = (BifFunction) $Bif;
- $CALL_GUARD_BIF(bf, tmp_reg, $Dst);
-
- $FAIL($Fail);
}
-//
-// Guard BIF in body. It can fail like any BIF. No trace support.
-//
+i_bif.fetch1(Src) {
+ tmp_reg[1] = $Src;
+}
-bif1_body(Bif, Src, Dst) {
- ErtsBifFunc bf;
- Eterm tmp_reg[1];
+i_bif.fetch2(Src) {
+ tmp_reg[2] = $Src;
+}
- tmp_reg[0] = $Src;
+i_bif.call(Fail, Bif, Dst) {
bf = (BifFunction) $Bif;
$CALL_GUARD_BIF(bf, tmp_reg, $Dst);
- reg[0] = tmp_reg[0];
- SWAPOUT;
- I = handle_error(c_p, I, reg, ubif2mfa((void *) bf));
- goto post_error_handling;
+ $FAIL($Fail);
}
//
-// Guard bif in guard with two arguments ('and'/2, 'or'/2, 'xor'/2).
+// Guard BIF in body. It can fail like any BIF. No trace support.
//
-i_bif2(Fail, Bif, Src1, Src2, Dst) {
- Eterm tmp_reg[2];
+i_bif1_body := i_bif_body.fetch0.call;
+i_bif2_body := i_bif_body.fetch1.fetch0.call;
+i_bif3_body := i_bif_body.fetch2.fetch1.fetch0.call;
+
+i_bif_body.head() {
ErtsBifFunc bf;
+ Eterm tmp_reg[3];
+}
- tmp_reg[0] = $Src1;
- tmp_reg[1] = $Src2;
- bf = (ErtsBifFunc) $Bif;
- $CALL_GUARD_BIF(bf, tmp_reg, $Dst);
- $FAIL($Fail);
+i_bif_body.fetch0(Src) {
+ tmp_reg[0] = $Src;
}
-//
-// Guard bif in body with two arguments ('and'/2, 'or'/2, 'xor'/2).
-//
+i_bif_body.fetch1(Src) {
+ tmp_reg[1] = $Src;
+}
-i_bif2_body(Bif, Src1, Src2, Dst) {
- Eterm tmp_reg[2];
- ErtsBifFunc bf;
+i_bif_body.fetch2(Src) {
+ tmp_reg[2] = $Src;
+}
- tmp_reg[0] = $Src1;
- tmp_reg[1] = $Src2;
- bf = (ErtsBifFunc) $Bif;
+i_bif_body.call(Bif, Dst) {
+ bf = (BifFunction) $Bif;
$CALL_GUARD_BIF(bf, tmp_reg, $Dst);
+
reg[0] = tmp_reg[0];
reg[1] = tmp_reg[1];
+ reg[2] = tmp_reg[2];
SWAPOUT;
I = handle_error(c_p, I, reg, ubif2mfa((void *) bf));
goto post_error_handling;
}
//
-// Garbage-collecting BIF with one argument in either guard or body.
+// length/1 is the only guard BIF that does not execute in constant
+// time. Here follows special instructions to allow the calculation of
+// the list length to be broken in several chunks to avoid hogging
+// the scheduler for a long time.
//
-i_gc_bif1(Fail, Bif, Src, Live, Dst) {
- typedef Eterm (*GcBifFunction)(Process*, Eterm*, Uint);
- GcBifFunction bf;
- Eterm result;
- Uint live = (Uint) $Live;
+i_length_setup(Live, Src) {
+ Uint live = $Live;
+ Eterm src = $Src;
- x(live) = $Src;
- bf = (GcBifFunction) $Bif;
- ERTS_DBG_CHK_REDS(c_p, FCALLS);
- c_p->fcalls = FCALLS;
- SWAPOUT;
- PROCESS_MAIN_CHK_LOCKS(c_p);
- ERTS_UNREQ_PROC_MAIN_LOCK(c_p);
- ERTS_CHK_MBUF_SZ(c_p);
- result = (*bf)(c_p, reg, live);
- ERTS_CHK_MBUF_SZ(c_p);
- ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
- ERTS_REQ_PROC_MAIN_LOCK(c_p);
- PROCESS_MAIN_CHK_LOCKS(c_p);
- SWAPIN;
- ERTS_HOLE_CHECK(c_p);
- FCALLS = c_p->fcalls;
- ERTS_DBG_CHK_REDS(c_p, FCALLS);
- if (ERTS_LIKELY(is_value(result))) {
- $REFRESH_GEN_DEST();
- $Dst = result;
- $NEXT0();
- }
- if (ERTS_LIKELY($Fail != 0)) { /* Handle error in guard. */
- $JUMP($Fail);
- }
+ reg[live] = src;
+ reg[live+1] = make_small(0);
+ reg[live+2] = src;
- /* Handle error in body. */
- x(0) = x(live);
- I = handle_error(c_p, I, reg, gcbif2mfa((void *) bf));
- goto post_error_handling;
+ /* This instruction is always followed by i_length */
+ SET_I($NEXT_INSTRUCTION);
+ goto i_length_start__;
+ //| -no_next
}
//
-// Garbage-collecting BIF with two arguments in either guard or body.
+// This instruction can be executed one or more times. When entering
+// this instruction, the X registers have the following contents:
+//
+// reg[live+0] The remainder of the list.
+// reg[live+1] The length so far (tagged integer).
+// reg[live+2] The original list. Only used if an error is generated
+// (if the final tail of the list is not []).
//
-i_gc_bif2(Fail, Bif, Live, Src1, Src2, Dst) {
- typedef Eterm (*GcBifFunction)(Process*, Eterm*, Uint);
- GcBifFunction bf;
- Eterm result;
- Uint live = (Uint) $Live;
-
- /*
- * XXX This calling convention does not make sense. 'live'
- * should point out the first argument, not the second
- * (i.e. 'live' should not be incremented below).
- */
- x(live) = $Src1;
- x(live+1) = $Src2;
- live++;
-
- bf = (GcBifFunction) $Bif;
- ERTS_DBG_CHK_REDS(c_p, FCALLS);
- c_p->fcalls = FCALLS;
- SWAPOUT;
- PROCESS_MAIN_CHK_LOCKS(c_p);
- ERTS_UNREQ_PROC_MAIN_LOCK(c_p);
- ERTS_CHK_MBUF_SZ(c_p);
- result = (*bf)(c_p, reg, live);
- ERTS_CHK_MBUF_SZ(c_p);
- ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
- ERTS_REQ_PROC_MAIN_LOCK(c_p);
- PROCESS_MAIN_CHK_LOCKS(c_p);
- SWAPIN;
- ERTS_HOLE_CHECK(c_p);
- FCALLS = c_p->fcalls;
- ERTS_DBG_CHK_REDS(c_p, FCALLS);
- if (ERTS_LIKELY(is_value(result))) {
- $REFRESH_GEN_DEST();
- $Dst = result;
- $NEXT0();
- }
-
- if (ERTS_LIKELY($Fail != 0)) { /* Handle error in guard. */
- $JUMP($Fail);
- }
+i_length := i_length.start.execute;
- /* Handle error in body. */
- live--;
- x(0) = x(live);
- x(1) = x(live+1);
- I = handle_error(c_p, I, reg, gcbif2mfa((void *) bf));
- goto post_error_handling;
+i_length.start() {
+ i_length_start__:
+ ;
}
-//
-// Garbage-collecting BIF with three arguments in either guard or body.
-//
-
-i_gc_bif3(Fail, Bif, Live, Src2, Src3, Dst) {
- typedef Eterm (*GcBifFunction)(Process*, Eterm*, Uint);
- GcBifFunction bf;
+i_length.execute(Fail, Live, Dst) {
Eterm result;
- Uint live = (Uint) $Live;
+ Uint live;
- /*
- * XXX This calling convention does not make sense. 'live'
- * should point out the first argument, not the third
- * (i.e. 'live' should not be incremented below).
- */
- x(live) = x(SCRATCH_X_REG);
- x(live+1) = $Src2;
- x(live+2) = $Src3;
- live += 2;
-
- bf = (GcBifFunction) $Bif;
ERTS_DBG_CHK_REDS(c_p, FCALLS);
c_p->fcalls = FCALLS;
- SWAPOUT;
PROCESS_MAIN_CHK_LOCKS(c_p);
- ERTS_UNREQ_PROC_MAIN_LOCK(c_p);
+ ASSERT(!ERTS_PROC_IS_EXITING(c_p));
ERTS_CHK_MBUF_SZ(c_p);
- result = (*bf)(c_p, reg, live);
+ DEBUG_SWAPOUT;
+
+ live = $Live;
+ result = erts_trapping_length_1(c_p, reg+live);
+
+ DEBUG_SWAPIN;
ERTS_CHK_MBUF_SZ(c_p);
+ ASSERT(!ERTS_PROC_IS_EXITING(c_p) || is_non_value(result));
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
- ERTS_REQ_PROC_MAIN_LOCK(c_p);
PROCESS_MAIN_CHK_LOCKS(c_p);
- SWAPIN;
ERTS_HOLE_CHECK(c_p);
FCALLS = c_p->fcalls;
ERTS_DBG_CHK_REDS(c_p, FCALLS);
if (ERTS_LIKELY(is_value(result))) {
+ /* Successful calculation of the list length. */
$REFRESH_GEN_DEST();
$Dst = result;
$NEXT0();
+ } else if (c_p->freason == TRAP) {
+ /*
+ * Good so far, but there is more work to do. Yield.
+ */
+ $SET_CP_I_ABS(I);
+ SWAPOUT;
+ c_p->arity = live + 3;
+ c_p->current = NULL;
+ goto context_switch3;
+ } else {
+ /* Error. */
+ $BIF_ERROR_ARITY_1($Fail, BIF_length_1, reg[live+2]);
}
-
- /* Handle error in guard. */
- if (ERTS_LIKELY($Fail != 0)) {
- $JUMP($Fail);
- }
-
- /* Handle error in body. */
- live -= 2;
- x(0) = x(live);
- x(1) = x(live+1);
- x(2) = x(live+2);
- I = handle_error(c_p, I, reg, gcbif2mfa((void *) bf));
- goto post_error_handling;
+ //| -no_next
}
//
diff --git a/erts/emulator/beam/big.h b/erts/emulator/beam/big.h
index 6e6d7b5a4b..da4dc84d10 100644
--- a/erts/emulator/beam/big.h
+++ b/erts/emulator/beam/big.h
@@ -42,7 +42,7 @@ typedef Uint16 ErtsHalfDigit;
#undef BIG_HAVE_DOUBLE_DIGIT
typedef Uint32 ErtsHalfDigit;
#else
-#error "can not determine machine size"
+#error "cannot determine machine size"
#endif
typedef Uint dsize_t; /* Vector size type */
diff --git a/erts/emulator/beam/break.c b/erts/emulator/beam/break.c
index 92009c2345..273b598562 100644
--- a/erts/emulator/beam/break.c
+++ b/erts/emulator/beam/break.c
@@ -108,6 +108,7 @@ process_killer(void)
erts_exit(0, "");
switch(j) {
case 'k':
+ ASSERT(erts_init_process_id != ERTS_INVALID_PID);
/* Send a 'kill' exit signal from init process */
erts_proc_sig_send_exit(NULL, erts_init_process_id,
rp->common.id, am_kill, NIL,
diff --git a/erts/emulator/beam/bs_instrs.tab b/erts/emulator/beam/bs_instrs.tab
index 61eb02a7a2..2dde70c2e1 100644
--- a/erts/emulator/beam/bs_instrs.tab
+++ b/erts/emulator/beam/bs_instrs.tab
@@ -102,6 +102,7 @@ i_bs_get_binary_all2(Fail, Ms, Live, Unit, Dst) {
LIGHT_SWAPIN;
HEAP_SPACE_VERIFIED(0);
ASSERT(is_value(_result));
+ $REFRESH_GEN_DEST();
$Dst = _result;
} else {
HEAP_SPACE_VERIFIED(0);
@@ -123,6 +124,7 @@ i_bs_get_binary2(Fail, Ms, Live, Sz, Flags, Dst) {
if (is_non_value(_result)) {
$FAIL($Fail);
} else {
+ $REFRESH_GEN_DEST();
$Dst = _result;
}
}
@@ -139,6 +141,7 @@ i_bs_get_binary_imm2(Fail, Ms, Live, Sz, Flags, Dst) {
if (is_non_value(_result)) {
$FAIL($Fail);
} else {
+ $REFRESH_GEN_DEST();
$Dst = _result;
}
}
@@ -161,6 +164,7 @@ i_bs_get_float2(Fail, Ms, Live, Sz, Flags, Dst) {
if (is_non_value(_result)) {
$FAIL($Fail);
} else {
+ $REFRESH_GEN_DEST();
$Dst = _result;
}
}
@@ -724,26 +728,34 @@ bs_start_match.execute(Fail, Live, Slots, Dst) {
$FAIL($Fail);
}
header = *boxed_val(context);
- slots = $Slots;
+
+ /* Reserve a slot for the start position. */
+ slots = $Slots + 1;
live = $Live;
+
if (header_is_bin_matchstate(header)) {
ErlBinMatchState* ms = (ErlBinMatchState *) boxed_val(context);
Uint actual_slots = HEADER_NUM_SLOTS(header);
+
+ /* We're not compatible with contexts created by bs_start_match3. */
+ ASSERT(actual_slots >= 1);
+
ms->save_offset[0] = ms->mb.offset;
- if (actual_slots < slots) {
- ErlBinMatchState* dst;
+ if (ERTS_UNLIKELY(actual_slots < slots)) {
+ ErlBinMatchState* expanded;
Uint live = $Live;
Uint wordsneeded = ERL_BIN_MATCHSTATE_SIZE(slots);
-
$GC_TEST_PRESERVE(wordsneeded, live, context);
ms = (ErlBinMatchState *) boxed_val(context);
- dst = (ErlBinMatchState *) HTOP;
- *dst = *ms;
+ expanded = (ErlBinMatchState *) HTOP;
+ *expanded = *ms;
*HTOP = HEADER_BIN_MATCHSTATE(slots);
HTOP += wordsneeded;
HEAP_SPACE_VERIFIED(0);
- $Dst = make_matchstate(dst);
+ context = make_matchstate(expanded);
+ $REFRESH_GEN_DEST();
}
+ $Dst = context;
} else if (is_binary_header(header)) {
Eterm result;
Uint wordsneeded = ERL_BIN_MATCHSTATE_SIZE(slots);
@@ -758,6 +770,7 @@ bs_start_match.execute(Fail, Live, Slots, Dst) {
if (is_non_value(result)) {
$FAIL($Fail);
}
+ $REFRESH_GEN_DEST();
$Dst = result;
} else {
$FAIL($Fail);
@@ -906,6 +919,7 @@ i_bs_get_integer(Fail, Live, FlagsAndUnit, Ms, Sz, Dst) {
}
wordsneeded = 1+WSIZE(NBYTES((Uint) size));
$GC_TEST_PRESERVE(wordsneeded, $Live, ms);
+ $REFRESH_GEN_DEST();
}
mb = ms_matchbuffer(ms);
LIGHT_SWAPOUT;
@@ -939,6 +953,7 @@ i_bs_get_utf8(Ctx, Fail, Dst) {
if (is_non_value(result)) {
$FAIL($Fail);
}
+ $REFRESH_GEN_DEST();
$Dst = result;
}
@@ -949,6 +964,7 @@ i_bs_get_utf16(Ctx, Fail, Flags, Dst) {
if (is_non_value(result)) {
$FAIL($Fail);
}
+ $REFRESH_GEN_DEST();
$Dst = result;
}
@@ -1029,10 +1045,289 @@ i_bs_match_string(Ctx, Fail, Bits, Ptr) {
i_bs_save2(Src, Slot) {
ErlBinMatchState* _ms = (ErlBinMatchState*) boxed_val((Eterm) $Src);
+ ASSERT(HEADER_NUM_SLOTS(_ms->thing_word) > $Slot);
_ms->save_offset[$Slot] = _ms->mb.offset;
}
i_bs_restore2(Src, Slot) {
ErlBinMatchState* _ms = (ErlBinMatchState*) boxed_val((Eterm) $Src);
+ ASSERT(HEADER_NUM_SLOTS(_ms->thing_word) > $Slot);
_ms->mb.offset = _ms->save_offset[$Slot];
}
+
+bs_get_tail(Src, Dst, Live) {
+ ErlBinMatchBuffer* mb;
+ Uint size, offs;
+ ErlSubBin* sb;
+ Eterm context;
+
+ context = $Src;
+
+ ASSERT(header_is_bin_matchstate(*boxed_val(context)));
+
+ $GC_TEST_PRESERVE(ERL_SUB_BIN_SIZE, $Live, context);
+
+ mb = ms_matchbuffer(context);
+
+ offs = mb->offset;
+ size = mb->size - offs;
+
+ sb = (ErlSubBin *) HTOP;
+ HTOP += ERL_SUB_BIN_SIZE;
+
+ sb->thing_word = HEADER_SUB_BIN;
+ sb->size = BYTE_OFFSET(size);
+ sb->bitsize = BIT_OFFSET(size);
+ sb->offs = BYTE_OFFSET(offs);
+ sb->bitoffs = BIT_OFFSET(offs);
+ sb->is_writable = 0;
+ sb->orig = mb->orig;
+
+ $REFRESH_GEN_DEST();
+ $Dst = make_binary(sb);
+}
+
+
+%if ARCH_64
+
+i_bs_start_match3_gp(Src, Live, Fail, Dst, Pos) {
+ Eterm context, header;
+ Uint position, live;
+
+ context = $Src;
+ live = $Live;
+
+ if (!is_boxed(context)) {
+ $FAIL($Fail);
+ }
+
+ header = *boxed_val(context);
+
+ if (header_is_bin_matchstate(header)) {
+ ErlBinMatchBuffer *mb;
+
+ ASSERT(HEADER_NUM_SLOTS(header) == 0);
+
+ mb = ms_matchbuffer(context);
+ position = mb->offset;
+
+ $Dst = context;
+ } else if (is_binary_header(header)) {
+ ErlBinMatchState *ms;
+
+ $GC_TEST_PRESERVE(ERL_BIN_MATCHSTATE_SIZE(0), live, context);
+ HEAP_TOP(c_p) = HTOP;
+#ifdef DEBUG
+ c_p->stop = E; /* Needed for checking in HeapOnlyAlloc(). */
+#endif
+ ms = erts_bs_start_match_3(c_p, context);
+ HTOP = HEAP_TOP(c_p);
+ HEAP_SPACE_VERIFIED(0);
+
+ if (ms == NULL) {
+ $FAIL($Fail);
+ }
+
+ $REFRESH_GEN_DEST();
+ $Dst = make_matchstate(ms);
+ position = ms->mb.offset;
+ } else {
+ $FAIL($Fail);
+ }
+
+ ASSERT(IS_USMALL(0, position));
+ $Pos = make_small(position);
+}
+
+i_bs_start_match3(Src, Live, Fail, Dst) {
+ Eterm context, header;
+ Uint live;
+
+ context = $Src;
+ live = $Live;
+
+ if (!is_boxed(context)) {
+ $FAIL($Fail);
+ }
+
+ header = *boxed_val(context);
+
+ if (header_is_bin_matchstate(header)) {
+ ASSERT(HEADER_NUM_SLOTS(header) == 0);
+ $Dst = context;
+ } else if (is_binary_header(header)) {
+ ErlBinMatchState *ms;
+
+ $GC_TEST_PRESERVE(ERL_BIN_MATCHSTATE_SIZE(0), live, context);
+ HEAP_TOP(c_p) = HTOP;
+#ifdef DEBUG
+ c_p->stop = E; /* Needed for checking in HeapOnlyAlloc(). */
+#endif
+ ms = erts_bs_start_match_3(c_p, context);
+ HTOP = HEAP_TOP(c_p);
+ HEAP_SPACE_VERIFIED(0);
+
+ if (ms == NULL) {
+ $FAIL($Fail);
+ }
+
+ $REFRESH_GEN_DEST();
+ $Dst = make_matchstate(ms);
+ } else {
+ $FAIL($Fail);
+ }
+}
+
+bs_set_position(Ctx, Pos) {
+ ErlBinMatchBuffer* mb;
+ Eterm context;
+
+ context = $Ctx;
+ ASSERT(header_is_bin_matchstate(*boxed_val(context)));
+
+ mb = ms_matchbuffer(context);
+ mb->offset = unsigned_val($Pos);
+}
+
+i_bs_get_position(Ctx, Dst) {
+ ErlBinMatchBuffer* mb;
+ Eterm context;
+
+ context = $Ctx;
+ ASSERT(header_is_bin_matchstate(*boxed_val(context)));
+
+ mb = ms_matchbuffer(context);
+ $Dst = make_small(mb->offset);
+}
+
+%else
+
+#
+# Unlike their 64-bit counterparts, the 32-bit position instructions operate on
+# an offset from the "base position" of the context because storing raw
+# positions would lead to the creation of far too many bigints.
+#
+# When a match context is reused we check whether its position fits into an
+# immediate, and create a new match context if it does not. This means we only
+# have to allocate stuff roughly once every 16MB rather than every time we
+# match at a position beyond 16MB.
+#
+
+bs_set_position(Ctx, Pos) {
+ Eterm context, position;
+ ErlBinMatchState *ms;
+
+ context = $Ctx;
+ position = $Pos;
+
+ ASSERT(header_is_bin_matchstate(*boxed_val(context)));
+ ms = (ErlBinMatchState*)boxed_val(context);
+
+ if (ERTS_LIKELY(is_small(position))) {
+ ms->mb.offset = ms->save_offset[0] + unsigned_val(position);
+ } else {
+ ASSERT(is_big(position));
+ ms->mb.offset = ms->save_offset[0] + *BIG_V(big_val(position));
+ }
+}
+
+bs_get_position(Ctx, Dst, Live) {
+ ErlBinMatchState *ms;
+ Eterm context;
+ Uint position;
+
+ context = $Ctx;
+
+ ASSERT(header_is_bin_matchstate(*boxed_val(context)));
+ ms = (ErlBinMatchState*)boxed_val(context);
+
+ position = ms->mb.offset - ms->save_offset[0];
+
+ if (ERTS_LIKELY(IS_USMALL(0, position))) {
+ $Dst = make_small(position);
+ } else {
+ Eterm *hp;
+
+ $GC_TEST_PRESERVE(BIG_UINT_HEAP_SIZE, $Live, context);
+
+ hp = HTOP;
+ HTOP += BIG_UINT_HEAP_SIZE;
+
+ *hp = make_pos_bignum_header(1);
+ BIG_DIGIT(hp, 0) = position;
+
+ $REFRESH_GEN_DEST();
+ $Dst = make_big(hp);
+ }
+}
+
+i_bs_start_match3(Src, Live, Fail, Dst) {
+ Eterm context, header;
+ Uint live;
+
+ context = $Src;
+ live = $Live;
+
+ if (!is_boxed(context)) {
+ $FAIL($Fail);
+ }
+
+ header = *boxed_val(context);
+
+ if (header_is_bin_matchstate(header)) {
+ ErlBinMatchState *current_ms;
+ Uint position;
+
+ ASSERT(HEADER_NUM_SLOTS(header) == 1);
+
+ current_ms = (ErlBinMatchState*)boxed_val(context);
+ position = current_ms->mb.offset - current_ms->save_offset[0];
+
+ if (ERTS_LIKELY(IS_USMALL(0, position))) {
+ $Dst = context;
+ } else {
+ ErlBinMatchState *new_ms;
+
+ $GC_TEST_PRESERVE(ERL_BIN_MATCHSTATE_SIZE(1), live, context);
+ current_ms = (ErlBinMatchState*)boxed_val(context);
+
+ new_ms = (ErlBinMatchState*)HTOP;
+ HTOP += ERL_BIN_MATCHSTATE_SIZE(1);
+
+ new_ms->thing_word = HEADER_BIN_MATCHSTATE(1);
+ new_ms->save_offset[0] = current_ms->mb.offset;
+ new_ms->mb = current_ms->mb;
+
+ $REFRESH_GEN_DEST();
+ $Dst = make_matchstate(new_ms);
+ }
+ } else if (is_binary_header(header)) {
+ Eterm result;
+
+ $GC_TEST_PRESERVE(ERL_BIN_MATCHSTATE_SIZE(1), live, context);
+ HEAP_TOP(c_p) = HTOP;
+
+#ifdef DEBUG
+ c_p->stop = E; /* Needed for checking in HeapOnlyAlloc(). */
+#endif
+
+ /* We intentionally use erts_bs_start_match_2 so that we can use
+ * save_offset as a base for all saved positions on this context,
+ * allowing us to avoid bigints for much longer. */
+ result = erts_bs_start_match_2(c_p, context, 1);
+
+ HTOP = HEAP_TOP(c_p);
+ HEAP_SPACE_VERIFIED(0);
+
+ if (is_non_value(result)) {
+ $FAIL($Fail);
+ }
+
+ $REFRESH_GEN_DEST();
+ $Dst = result;
+ } else {
+ $FAIL($Fail);
+ }
+}
+
+%endif
diff --git a/erts/emulator/beam/dist.c b/erts/emulator/beam/dist.c
index 0633bff3c2..15642e1669 100644
--- a/erts/emulator/beam/dist.c
+++ b/erts/emulator/beam/dist.c
@@ -574,9 +574,7 @@ int erts_do_net_exits(DistEntry *dep, Eterm reason)
}
if (dep->state == ERTS_DE_STATE_EXITING) {
-#ifdef DEBUG
ASSERT(erts_atomic32_read_nob(&dep->qflgs) & ERTS_DE_QFLG_EXIT);
-#endif
}
else {
dep->state = ERTS_DE_STATE_EXITING;
@@ -1343,10 +1341,7 @@ int erts_net_message(Port *prt,
from, to);
ASSERT(ldp->a.other.item == to);
ASSERT(eq(ldp->b.other.item, from));
-#ifdef DEBUG
- code =
-#endif
- erts_link_dist_insert(&ldp->a, dep->mld);
+ code = erts_link_dist_insert(&ldp->a, dep->mld);
ASSERT(code);
if (erts_proc_sig_send_link(NULL, to, &ldp->b))
@@ -1354,10 +1349,7 @@ int erts_net_message(Port *prt,
/* Failed to send signal; cleanup and reply noproc... */
-#ifdef DEBUG
- code =
-#endif
- erts_link_dist_delete(&ldp->a);
+ code = erts_link_dist_delete(&ldp->a);
ASSERT(code);
erts_link_release_both(ldp);
}
@@ -1904,6 +1896,12 @@ erts_dsig_send(ErtsDSigData *dsdp, struct erts_dsig_send_context* ctx)
ASSERT(ctx->obuf->ext_endp <= &ctx->obuf->data[0] + ctx->data_size);
ctx->data_size = ctx->obuf->ext_endp - ctx->obuf->extp;
+ if (ctx->data_size > (Uint) INT_MAX) {
+ free_dist_obuf(ctx->obuf);
+ ctx->obuf = NULL;
+ retval = ERTS_DSIG_SEND_TOO_LRG;
+ goto done;
+ }
ctx->obuf->hopefull_flags = ctx->u.ec.hopefull_flags;
/*
@@ -3881,28 +3879,22 @@ monitor_node(Process* p, Eterm Node, Eterm Bool, Eterm Options)
Node);
mdep = (ErtsMonitorDataExtended *) erts_monitor_to_data(mon);
if (created) {
-#ifdef DEBUG
int inserted =
-#endif
erts_monitor_dist_insert(&mdep->md.target, dep->mld);
- ASSERT(inserted);
+ ASSERT(inserted); (void)inserted;
ASSERT(mdep->dist->connection_id == dep->connection_id);
}
else if (mdep->dist->connection_id != dep->connection_id) {
ErtsMonitorDataExtended *mdep2;
ErtsMonitor *mon2;
-#ifdef DEBUG
int inserted;
-#endif
mdep2 = ((ErtsMonitorDataExtended *)
erts_monitor_create(ERTS_MON_TYPE_NODE, NIL,
p->common.id, Node, NIL));
mon2 = &mdep2->md.origin;
-#ifdef DEBUG
inserted =
-#endif
erts_monitor_dist_insert(&mdep->md.target, dep->mld);
- ASSERT(inserted);
+ ASSERT(inserted); (void)inserted;
ASSERT(mdep2->dist->connection_id == dep->connection_id);
mdep2->uptr.node_monitors = mdep->uptr.node_monitors;
diff --git a/erts/emulator/beam/dist.h b/erts/emulator/beam/dist.h
index d4d7874a70..845fab229a 100644
--- a/erts/emulator/beam/dist.h
+++ b/erts/emulator/beam/dist.h
@@ -378,6 +378,7 @@ typedef struct {
#define ERTS_DSIG_SEND_OK 0
#define ERTS_DSIG_SEND_YIELD 1
#define ERTS_DSIG_SEND_CONTINUE 2
+#define ERTS_DSIG_SEND_TOO_LRG 3
extern int erts_dsig_send_link(ErtsDSigData *, Eterm, Eterm);
extern int erts_dsig_send_msg(Eterm, Eterm, ErtsSendContext*);
diff --git a/erts/emulator/beam/erl_afit_alloc.c b/erts/emulator/beam/erl_afit_alloc.c
index 38289ea78a..f07137c883 100644
--- a/erts/emulator/beam/erl_afit_alloc.c
+++ b/erts/emulator/beam/erl_afit_alloc.c
@@ -102,6 +102,8 @@ erts_afalc_start(AFAllctr_t *afallctr,
allctr->add_mbc = NULL;
allctr->remove_mbc = NULL;
allctr->largest_fblk_in_mbc = NULL;
+ allctr->first_fblk_in_mbc = NULL;
+ allctr->next_fblk_in_mbc = NULL;
allctr->init_atoms = init_atoms;
#ifdef ERTS_ALLOC_UTIL_HARD_DEBUG
diff --git a/erts/emulator/beam/erl_alloc.c b/erts/emulator/beam/erl_alloc.c
index 9e36d5e0d1..e6169ebeaa 100644
--- a/erts/emulator/beam/erl_alloc.c
+++ b/erts/emulator/beam/erl_alloc.c
@@ -64,9 +64,6 @@
# error "Too many schedulers; cannot create that many pref alloc instances"
#endif
-#define ERTS_ALC_FIX_TYPE_IX(T) \
- (ERTS_ALC_T2N((T)) - ERTS_ALC_N_MIN_A_FIXED_SIZE)
-
#define ERTS_ALC_DEFAULT_MAX_THR_PREF ERTS_MAX_NO_OF_SCHEDULERS
#if defined(SMALL_MEMORY) || defined(PURIFY) || defined(VALGRIND)
@@ -156,20 +153,13 @@ ERTS_SCHED_PREF_QUICK_ALLOC_IMPL(aireq,
ErtsAlcType_t erts_fix_core_allocator_ix;
-enum allctr_type {
- GOODFIT,
- BESTFIT,
- AFIT,
- FIRSTFIT
-};
-
struct au_init {
int enable;
int thr_spec;
int disable_allowed;
int thr_spec_allowed;
int carrier_migration_allowed;
- enum allctr_type atype;
+ ErtsAlcStrat_t astrat;
struct {
AllctrInit_t util;
GFAllctrInit_t gf;
@@ -219,7 +209,9 @@ typedef struct {
struct au_init test_alloc;
} erts_alc_hndl_args_init_t;
-#define ERTS_AU_INIT__ {0, 0, 1, 1, 1, GOODFIT, DEFAULT_ALLCTR_INIT, {1,1,1,1}}
+#define ERTS_AU_INIT__ {0, 0, 1, 1, 1, \
+ ERTS_ALC_S_GOODFIT, DEFAULT_ALLCTR_INIT, \
+ {1,1,1,1}}
#define SET_DEFAULT_ALLOC_OPTS(IP) \
do { \
@@ -233,7 +225,7 @@ set_default_sl_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = GOODFIT;
+ ip->astrat = ERTS_ALC_S_GOODFIT;
ip->init.util.name_prefix = "sl_";
ip->init.util.alloc_no = ERTS_ALC_A_SHORT_LIVED;
#ifndef SMALL_MEMORY
@@ -252,7 +244,7 @@ set_default_std_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.util.name_prefix = "std_";
ip->init.util.alloc_no = ERTS_ALC_A_STANDARD;
#ifndef SMALL_MEMORY
@@ -270,7 +262,7 @@ set_default_ll_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 0;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.bf.ao = 1;
ip->init.util.ramv = 0;
ip->init.util.mmsbc = 0;
@@ -299,7 +291,7 @@ set_default_literal_alloc_opts(struct au_init *ip)
ip->disable_allowed = 0;
ip->thr_spec_allowed = 0;
ip->carrier_migration_allowed = 0;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.bf.ao = 1;
ip->init.util.ramv = 0;
ip->init.util.mmsbc = 0;
@@ -349,7 +341,7 @@ set_default_exec_alloc_opts(struct au_init *ip)
ip->disable_allowed = 0;
ip->thr_spec_allowed = 0;
ip->carrier_migration_allowed = 0;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.bf.ao = 1;
ip->init.util.ramv = 0;
ip->init.util.mmsbc = 0;
@@ -378,7 +370,7 @@ set_default_temp_alloc_opts(struct au_init *ip)
ip->thr_spec = 1;
ip->disable_allowed = 0;
ip->carrier_migration_allowed = 0;
- ip->atype = AFIT;
+ ip->astrat = ERTS_ALC_S_AFIT;
ip->init.util.name_prefix = "temp_";
ip->init.util.alloc_no = ERTS_ALC_A_TEMPORARY;
#ifndef SMALL_MEMORY
@@ -397,7 +389,7 @@ set_default_eheap_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = GOODFIT;
+ ip->astrat = ERTS_ALC_S_GOODFIT;
ip->init.util.name_prefix = "eheap_";
ip->init.util.alloc_no = ERTS_ALC_A_EHEAP;
#ifndef SMALL_MEMORY
@@ -416,7 +408,7 @@ set_default_binary_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.util.name_prefix = "binary_";
ip->init.util.alloc_no = ERTS_ALC_A_BINARY;
#ifndef SMALL_MEMORY
@@ -435,7 +427,7 @@ set_default_ets_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.util.name_prefix = "ets_";
ip->init.util.alloc_no = ERTS_ALC_A_ETS;
#ifndef SMALL_MEMORY
@@ -453,7 +445,7 @@ set_default_driver_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.util.name_prefix = "driver_";
ip->init.util.alloc_no = ERTS_ALC_A_DRIVER;
#ifndef SMALL_MEMORY
@@ -473,7 +465,7 @@ set_default_fix_alloc_opts(struct au_init *ip,
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = AU_ALLOC_DEFAULT_ENABLE(1);
ip->thr_spec = 1;
- ip->atype = BESTFIT;
+ ip->astrat = ERTS_ALC_S_BESTFIT;
ip->init.bf.ao = 1;
ip->init.util.name_prefix = "fix_";
ip->init.util.fix_type_size = fix_type_sizes;
@@ -493,7 +485,7 @@ set_default_test_alloc_opts(struct au_init *ip)
SET_DEFAULT_ALLOC_OPTS(ip);
ip->enable = 0; /* Disabled by default */
ip->thr_spec = -1 * erts_no_schedulers;
- ip->atype = FIRSTFIT;
+ ip->astrat = ERTS_ALC_S_FIRSTFIT;
ip->init.aoff.crr_order = FF_AOFF;
ip->init.aoff.blk_order = FF_BF;
ip->init.util.name_prefix = "test_";
@@ -552,8 +544,8 @@ start_au_allocator(ErtsAlcType_t alctr_n,
static void
refuse_af_strategy(struct au_init *init)
{
- if (init->atype == AFIT)
- init->atype = GOODFIT;
+ if (init->astrat == ERTS_ALC_S_AFIT)
+ init->astrat = ERTS_ALC_S_GOODFIT;
}
#ifdef HARD_DEBUG
@@ -576,7 +568,10 @@ static void adjust_fix_alloc_sizes(UWord extra_block_size)
for (i=0; i < tspec->size; i++) {
Allctr_t* allctr = tspec->allctr[i];
for (j=0; j < ERTS_ALC_NO_FIXED_SIZES; ++j) {
- allctr->fix[j].type_size += extra_block_size;
+ size_t size = allctr->fix[j].type_size;
+ size = MAX(size + extra_block_size,
+ sizeof(ErtsAllctrDDBlock_t));
+ allctr->fix[j].type_size = size;
}
}
}
@@ -584,8 +579,11 @@ static void adjust_fix_alloc_sizes(UWord extra_block_size)
{
Allctr_t* allctr = erts_allctrs_info[ERTS_ALC_A_FIXED_SIZE].extra;
for (j=0; j < ERTS_ALC_NO_FIXED_SIZES; ++j) {
- allctr->fix[j].type_size += extra_block_size;
- }
+ size_t size = allctr->fix[j].type_size;
+ size = MAX(size + extra_block_size,
+ sizeof(ErtsAllctrDDBlock_t));
+ allctr->fix[j].type_size = size;
+ }
}
}
}
@@ -597,7 +595,7 @@ strategy_support_carrier_migration(struct au_init *auip)
* Currently only aoff* and ageff* support carrier
* migration, i.e, type AOFIRSTFIT.
*/
- return auip->atype == FIRSTFIT;
+ return auip->astrat == ERTS_ALC_S_FIRSTFIT;
}
static ERTS_INLINE void
@@ -612,7 +610,7 @@ adjust_carrier_migration_support(struct au_init *auip)
*/
if (!strategy_support_carrier_migration(auip)) {
/* Default to aoffcbf */
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AOFF;
auip->init.aoff.blk_order = FF_BF;
}
@@ -1018,7 +1016,7 @@ start_au_allocator(ErtsAlcType_t alctr_n,
int i;
int size = 1;
void *as0;
- enum allctr_type atype;
+ ErtsAlcStrat_t astrat;
ErtsAllocatorFunctions_t *af = &erts_allctrs[alctr_n];
ErtsAllocatorInfo_t *ai = &erts_allctrs_info[alctr_n];
ErtsAllocatorThrSpec_t *tspec = &erts_allctr_thr_spec[alctr_n];
@@ -1077,7 +1075,7 @@ start_au_allocator(ErtsAlcType_t alctr_n,
for (i = 0; i < size; i++) {
Allctr_t *as;
- atype = init->atype;
+ astrat = init->astrat;
if (!init->thr_spec)
as0 = state;
@@ -1094,8 +1092,8 @@ start_au_allocator(ErtsAlcType_t alctr_n,
if (i != 0)
init->init.util.ts = 0;
else {
- if (atype == AFIT)
- atype = GOODFIT;
+ if (astrat == ERTS_ALC_S_AFIT)
+ astrat = ERTS_ALC_S_GOODFIT;
init->init.util.ts = 1;
}
init->init.util.tspec = init->thr_spec + 1;
@@ -1109,25 +1107,26 @@ start_au_allocator(ErtsAlcType_t alctr_n,
(((char *) fix_lists) + fix_list_size));
}
+ init->init.util.alloc_strat = astrat;
init->init.util.ix = i;
- switch (atype) {
- case GOODFIT:
+ switch (astrat) {
+ case ERTS_ALC_S_GOODFIT:
as = erts_gfalc_start((GFAllctr_t *) as0,
&init->init.gf,
&init->init.util);
break;
- case BESTFIT:
+ case ERTS_ALC_S_BESTFIT:
as = erts_bfalc_start((BFAllctr_t *) as0,
&init->init.bf,
&init->init.util);
break;
- case AFIT:
+ case ERTS_ALC_S_AFIT:
as = erts_afalc_start((AFAllctr_t *) as0,
&init->init.af,
&init->init.util);
break;
- case FIRSTFIT:
+ case ERTS_ALC_S_FIRSTFIT:
as = erts_aoffalc_start((AOFFAllctr_t *) as0,
&init->init.aoff,
&init->init.util);
@@ -1363,51 +1362,59 @@ handle_au_arg(struct au_init *auip,
else if(has_prefix("as", sub_param)) {
char *alg = get_value(sub_param + 2, argv, ip);
if (sys_strcmp("bf", alg) == 0) {
- auip->atype = BESTFIT;
+ auip->astrat = ERTS_ALC_S_BESTFIT;
auip->init.bf.ao = 0;
}
else if (sys_strcmp("aobf", alg) == 0) {
- auip->atype = BESTFIT;
+ auip->astrat = ERTS_ALC_S_BESTFIT;
auip->init.bf.ao = 1;
}
else if (sys_strcmp("gf", alg) == 0) {
- auip->atype = GOODFIT;
+ auip->astrat = ERTS_ALC_S_GOODFIT;
}
else if (sys_strcmp("af", alg) == 0) {
- auip->atype = AFIT;
+ auip->astrat = ERTS_ALC_S_AFIT;
}
else if (sys_strcmp("aoff", alg) == 0) {
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AOFF;
auip->init.aoff.blk_order = FF_AOFF;
}
else if (sys_strcmp("aoffcbf", alg) == 0) {
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AOFF;
auip->init.aoff.blk_order = FF_BF;
}
else if (sys_strcmp("aoffcaobf", alg) == 0) {
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AOFF;
auip->init.aoff.blk_order = FF_AOBF;
}
else if (sys_strcmp("ageffcaoff", alg) == 0) {
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AGEFF;
auip->init.aoff.blk_order = FF_AOFF;
}
else if (sys_strcmp("ageffcbf", alg) == 0) {
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AGEFF;
auip->init.aoff.blk_order = FF_BF;
}
else if (sys_strcmp("ageffcaobf", alg) == 0) {
- auip->atype = FIRSTFIT;
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
auip->init.aoff.crr_order = FF_AGEFF;
auip->init.aoff.blk_order = FF_AOBF;
}
else {
- bad_value(param, sub_param + 1, alg);
+ if (auip->init.util.alloc_no == ERTS_ALC_A_TEST
+ && sys_strcmp("chaosff", alg) == 0) {
+ auip->astrat = ERTS_ALC_S_FIRSTFIT;
+ auip->init.aoff.crr_order = FF_CHAOS;
+ auip->init.aoff.blk_order = FF_CHAOS;
+ }
+ else {
+ bad_value(param, sub_param + 1, alg);
+ }
}
if (!strategy_support_carrier_migration(auip))
auip->init.util.acul = 0;
@@ -2030,33 +2037,55 @@ erts_realloc_n_enomem(ErtsAlcType_t n, void *ptr, Uint size)
}
static ERTS_INLINE UWord
-alcu_size(ErtsAlcType_t ai, ErtsAlcUFixInfo_t *fi, int fisz)
+alcu_size(ErtsAlcType_t alloc_no, ErtsAlcUFixInfo_t *fi, int fisz)
{
- UWord res = 0;
+ UWord res;
+ int ai;
- ASSERT(erts_allctrs_info[ai].enabled);
- ASSERT(erts_allctrs_info[ai].alloc_util);
+ if (!erts_allctrs_info[alloc_no].thr_spec) {
+ AllctrSize_t size;
+ Allctr_t *allctr;
- if (!erts_allctrs_info[ai].thr_spec) {
- Allctr_t *allctr = erts_allctrs_info[ai].extra;
- AllctrSize_t asize;
- erts_alcu_current_size(allctr, &asize, fi, fisz);
- res += asize.blocks;
+ allctr = erts_allctrs_info[alloc_no].extra;
+ erts_alcu_current_size(allctr, &size, fi, fisz);
+
+ return size.blocks;
}
- else {
- ErtsAllocatorThrSpec_t *tspec = &erts_allctr_thr_spec[ai];
- int i;
- ASSERT(tspec->enabled);
+ res = 0;
- for (i = tspec->size - 1; i >= 0; i--) {
- Allctr_t *allctr = tspec->allctr[i];
- AllctrSize_t asize;
- if (allctr) {
- erts_alcu_current_size(allctr, &asize, fi, fisz);
- res += asize.blocks;
- }
- }
+ /* Thread-specific allocators can migrate carriers across types, so we have
+ * to visit every allocator type to gather information on blocks that were
+ * allocated by us. */
+ for (ai = ERTS_ALC_A_MIN; ai < ERTS_ALC_A_MAX; ai++) {
+ ErtsAllocatorThrSpec_t *tspec;
+ Allctr_t *allctr;
+ int i;
+
+ if (!erts_allctrs_info[ai].thr_spec) {
+ continue;
+ }
+
+ tspec = &erts_allctr_thr_spec[ai];
+ ASSERT(tspec->enabled);
+
+ for (i = tspec->size - 1; i >= 0; i--) {
+ allctr = tspec->allctr[i];
+
+ if (allctr) {
+ AllctrSize_t size;
+
+ if (ai == alloc_no) {
+ erts_alcu_current_size(allctr, &size, fi, fisz);
+ } else {
+ erts_alcu_foreign_size(allctr, alloc_no, &size);
+ }
+
+ ASSERT(((SWord)size.blocks) >= 0);
+
+ res += size.blocks;
+ }
+ }
}
return res;
@@ -2400,6 +2429,7 @@ erts_memory(fmtfn_t *print_to_p, void *print_to_arg, void *proc, Eterm earg)
}
if (want_tot_or_sys) {
+ ASSERT(size.total >= size.processes);
size.system = size.total - size.processes;
}
@@ -3459,29 +3489,29 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
switch (op) {
case 0xf00:
if (((Allctr_t *) a1)->thread_safe)
- return (UWord) erts_alcu_alloc_ts(ERTS_ALC_T_UNDEF,
+ return (UWord) erts_alcu_alloc_ts(ERTS_ALC_T_TEST,
(void *) a1,
(Uint) a2);
else
- return (UWord) erts_alcu_alloc(ERTS_ALC_T_UNDEF,
+ return (UWord) erts_alcu_alloc(ERTS_ALC_T_TEST,
(void *) a1,
(Uint) a2);
case 0xf01:
if (((Allctr_t *) a1)->thread_safe)
- return (UWord) erts_alcu_realloc_ts(ERTS_ALC_T_UNDEF,
+ return (UWord) erts_alcu_realloc_ts(ERTS_ALC_T_TEST,
(void *) a1,
(void *) a2,
(Uint) a3);
else
- return (UWord) erts_alcu_realloc(ERTS_ALC_T_UNDEF,
+ return (UWord) erts_alcu_realloc(ERTS_ALC_T_TEST,
(void *) a1,
(void *) a2,
(Uint) a3);
case 0xf02:
if (((Allctr_t *) a1)->thread_safe)
- erts_alcu_free_ts(ERTS_ALC_T_UNDEF, (void *) a1, (void *) a2);
+ erts_alcu_free_ts(ERTS_ALC_T_TEST, (void *) a1, (void *) a2);
else
- erts_alcu_free(ERTS_ALC_T_UNDEF, (void *) a1, (void *) a2);
+ erts_alcu_free(ERTS_ALC_T_TEST, (void *) a1, (void *) a2);
return 0;
case 0xf03: {
Allctr_t *allctr;
@@ -3489,8 +3519,10 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
SET_DEFAULT_ALLOC_OPTS(&init);
init.enable = 1;
- init.atype = GOODFIT;
+ init.astrat = ERTS_ALC_S_GOODFIT;
init.init.util.name_prefix = (char *) a1;
+ init.init.util.alloc_no = ERTS_ALC_A_TEST;
+ init.init.util.alloc_strat = init.astrat;
init.init.util.ts = 1;
if ((char **) a3) {
char **argv = (char **) a3;
@@ -3504,31 +3536,31 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
}
}
- switch (init.atype) {
- case GOODFIT:
+ switch (init.astrat) {
+ case ERTS_ALC_S_GOODFIT:
allctr = erts_gfalc_start((GFAllctr_t *)
- erts_alloc(ERTS_ALC_T_UNDEF,
+ erts_alloc(ERTS_ALC_T_TEST,
sizeof(GFAllctr_t)),
&init.init.gf,
&init.init.util);
break;
- case BESTFIT:
+ case ERTS_ALC_S_BESTFIT:
allctr = erts_bfalc_start((BFAllctr_t *)
- erts_alloc(ERTS_ALC_T_UNDEF,
+ erts_alloc(ERTS_ALC_T_TEST,
sizeof(BFAllctr_t)),
&init.init.bf,
&init.init.util);
break;
- case AFIT:
+ case ERTS_ALC_S_AFIT:
allctr = erts_afalc_start((AFAllctr_t *)
- erts_alloc(ERTS_ALC_T_UNDEF,
+ erts_alloc(ERTS_ALC_T_TEST,
sizeof(AFAllctr_t)),
&init.init.af,
&init.init.util);
break;
- case FIRSTFIT:
+ case ERTS_ALC_S_FIRSTFIT:
allctr = erts_aoffalc_start((AOFFAllctr_t *)
- erts_alloc(ERTS_ALC_T_UNDEF,
+ erts_alloc(ERTS_ALC_T_TEST,
sizeof(AOFFAllctr_t)),
&init.init.aoff,
&init.init.util);
@@ -3544,7 +3576,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
}
case 0xf04:
erts_alcu_stop((Allctr_t *) a1);
- erts_free(ERTS_ALC_T_UNDEF, (void *) a1);
+ erts_free(ERTS_ALC_T_TEST, (void *) a1);
break;
case 0xf05: return (UWord) 1;
case 0xf06: return (UWord) ((Allctr_t *) a1)->thread_safe;
@@ -3554,7 +3586,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
case 0xf07: return (UWord) ((Allctr_t *) a1)->thread_safe;
#endif
case 0xf08: {
- ethr_mutex *mtx = erts_alloc(ERTS_ALC_T_UNDEF, sizeof(ethr_mutex));
+ ethr_mutex *mtx = erts_alloc(ERTS_ALC_T_TEST, sizeof(ethr_mutex));
if (ethr_mutex_init(mtx) != 0)
ERTS_ALC_TEST_ABORT;
return (UWord) mtx;
@@ -3563,7 +3595,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
ethr_mutex *mtx = (ethr_mutex *) a1;
if (ethr_mutex_destroy(mtx) != 0)
ERTS_ALC_TEST_ABORT;
- erts_free(ERTS_ALC_T_UNDEF, (void *) mtx);
+ erts_free(ERTS_ALC_T_TEST, (void *) mtx);
break;
}
case 0xf0a:
@@ -3573,7 +3605,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
ethr_mutex_unlock((ethr_mutex *) a1);
break;
case 0xf0c: {
- ethr_cond *cnd = erts_alloc(ERTS_ALC_T_UNDEF, sizeof(ethr_cond));
+ ethr_cond *cnd = erts_alloc(ERTS_ALC_T_TEST, sizeof(ethr_cond));
if (ethr_cond_init(cnd) != 0)
ERTS_ALC_TEST_ABORT;
return (UWord) cnd;
@@ -3582,7 +3614,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
ethr_cond *cnd = (ethr_cond *) a1;
if (ethr_cond_destroy(cnd) != 0)
ERTS_ALC_TEST_ABORT;
- erts_free(ERTS_ALC_T_UNDEF, (void *) cnd);
+ erts_free(ERTS_ALC_T_TEST, (void *) cnd);
break;
}
case 0xf0e:
@@ -3596,7 +3628,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
break;
}
case 0xf10: {
- ethr_tid *tid = erts_alloc(ERTS_ALC_T_UNDEF, sizeof(ethr_tid));
+ ethr_tid *tid = erts_alloc(ERTS_ALC_T_TEST, sizeof(ethr_tid));
if (ethr_thr_create(tid,
(void * (*)(void *)) a1,
(void *) a2,
@@ -3608,7 +3640,7 @@ UWord erts_alc_test(UWord op, UWord a1, UWord a2, UWord a3)
ethr_tid *tid = (ethr_tid *) a1;
if (ethr_thr_join(*tid, NULL) != 0)
ERTS_ALC_TEST_ABORT;
- erts_free(ERTS_ALC_T_UNDEF, (void *) tid);
+ erts_free(ERTS_ALC_T_TEST, (void *) tid);
break;
}
case 0xf12:
@@ -3960,9 +3992,10 @@ check_memory_fence(void *ptr, Uint *size, ErtsAlcType_t n, int func)
static ErtsAllocatorFunctions_t real_allctrs[ERTS_ALC_A_MAX+1];
static void *
-debug_alloc(ErtsAlcType_t n, void *extra, Uint size)
+debug_alloc(ErtsAlcType_t type, void *extra, Uint size)
{
ErtsAllocatorFunctions_t *real_af = (ErtsAllocatorFunctions_t *) extra;
+ ErtsAlcType_t n;
Uint dsize;
void *res;
@@ -3970,9 +4003,11 @@ debug_alloc(ErtsAlcType_t n, void *extra, Uint size)
erts_hdbg_chk_blks();
#endif
+ n = ERTS_ALC_T2N(type);
+
ASSERT(ERTS_ALC_N_MIN <= n && n <= ERTS_ALC_N_MAX);
dsize = size + FENCE_SZ;
- res = (*real_af->alloc)(n, real_af->extra, dsize);
+ res = (*real_af->alloc)(type, real_af->extra, dsize);
res = set_memory_fence(res, size, n);
@@ -3986,14 +4021,17 @@ debug_alloc(ErtsAlcType_t n, void *extra, Uint size)
static void *
-debug_realloc(ErtsAlcType_t n, void *extra, void *ptr, Uint size)
+debug_realloc(ErtsAlcType_t type, void *extra, void *ptr, Uint size)
{
ErtsAllocatorFunctions_t *real_af = (ErtsAllocatorFunctions_t *) extra;
+ ErtsAlcType_t n;
Uint dsize;
Uint old_size;
void *dptr;
void *res;
+ n = ERTS_ALC_T2N(type);
+
ASSERT(ERTS_ALC_N_MIN <= n && n <= ERTS_ALC_N_MAX);
dsize = size + FENCE_SZ;
@@ -4003,12 +4041,12 @@ debug_realloc(ErtsAlcType_t n, void *extra, void *ptr, Uint size)
erts_hdbg_chk_blks();
#endif
- if (old_size > size)
+ if (ptr && old_size > size)
sys_memset((void *) (((char *) ptr) + size),
0xf,
sizeof(Uint) + old_size - size);
- res = (*real_af->realloc)(n, real_af->extra, dptr, dsize);
+ res = (*real_af->realloc)(type, real_af->extra, dptr, dsize);
res = set_memory_fence(res, size, n);
@@ -4021,12 +4059,16 @@ debug_realloc(ErtsAlcType_t n, void *extra, void *ptr, Uint size)
}
static void
-debug_free(ErtsAlcType_t n, void *extra, void *ptr)
+debug_free(ErtsAlcType_t type, void *extra, void *ptr)
{
ErtsAllocatorFunctions_t *real_af = (ErtsAllocatorFunctions_t *) extra;
+ ErtsAlcType_t n;
void *dptr;
Uint size;
- int free_pattern = n;
+ int free_pattern;
+
+ n = ERTS_ALC_T2N(type);
+ free_pattern = n;
ASSERT(ERTS_ALC_N_MIN <= n && n <= ERTS_ALC_N_MAX);
@@ -4044,7 +4086,7 @@ debug_free(ErtsAlcType_t n, void *extra, void *ptr)
#endif
sys_memset((void *) dptr, free_pattern, size + FENCE_SZ);
- (*real_af->free)(n, real_af->extra, dptr);
+ (*real_af->free)(type, real_af->extra, dptr);
#ifdef PRINT_OPS
fprintf(stderr, "free(%s, 0x%lx)\r\n", ERTS_ALC_N2TD(n), (Uint) ptr);
diff --git a/erts/emulator/beam/erl_alloc.h b/erts/emulator/beam/erl_alloc.h
index fcb58ff58a..c13cf3f5b0 100644
--- a/erts/emulator/beam/erl_alloc.h
+++ b/erts/emulator/beam/erl_alloc.h
@@ -26,10 +26,23 @@
#define ERL_THR_PROGRESS_TSD_TYPE_ONLY
#include "erl_thr_progress.h"
#undef ERL_THR_PROGRESS_TSD_TYPE_ONLY
-#include "erl_alloc_util.h"
#include "erl_threads.h"
#include "erl_mmap.h"
+typedef enum {
+ ERTS_ALC_S_INVALID = 0,
+
+ ERTS_ALC_S_GOODFIT,
+ ERTS_ALC_S_BESTFIT,
+ ERTS_ALC_S_AFIT,
+ ERTS_ALC_S_FIRSTFIT,
+
+ ERTS_ALC_S_MIN = ERTS_ALC_S_GOODFIT,
+ ERTS_ALC_S_MAX = ERTS_ALC_S_FIRSTFIT
+} ErtsAlcStrat_t;
+
+#include "erl_alloc_util.h"
+
#ifdef DEBUG
# undef ERTS_ALC_WANT_INLINE
# define ERTS_ALC_WANT_INLINE 0
@@ -52,6 +65,14 @@
#define ERTS_ALC_NO_FIXED_SIZES \
(ERTS_ALC_N_MAX_A_FIXED_SIZE - ERTS_ALC_N_MIN_A_FIXED_SIZE + 1)
+#define ERTS_ALC_IS_FIX_TYPE(T) \
+ (ERTS_ALC_T2N(T) >= ERTS_ALC_N_MIN_A_FIXED_SIZE && \
+ ERTS_ALC_T2N(T) <= ERTS_ALC_N_MAX_A_FIXED_SIZE)
+
+#define ERTS_ALC_FIX_TYPE_IX(T) \
+ (ASSERT(ERTS_ALC_IS_FIX_TYPE(T)), \
+ ERTS_ALC_T2N((T)) - ERTS_ALC_N_MIN_A_FIXED_SIZE)
+
void erts_sys_alloc_init(void);
void *erts_sys_alloc(ErtsAlcType_t, void *, Uint);
void *erts_sys_realloc(ErtsAlcType_t, void *, void *, Uint);
@@ -228,7 +249,7 @@ void *erts_alloc(ErtsAlcType_t type, Uint size)
void *res;
ERTS_MSACC_PUSH_AND_SET_STATE_X(ERTS_MSACC_STATE_ALLOC);
res = (*erts_allctrs[ERTS_ALC_T2A(type)].alloc)(
- ERTS_ALC_T2N(type),
+ type,
erts_allctrs[ERTS_ALC_T2A(type)].extra,
size);
if (!res)
@@ -243,7 +264,7 @@ void *erts_realloc(ErtsAlcType_t type, void *ptr, Uint size)
void *res;
ERTS_MSACC_PUSH_AND_SET_STATE_X(ERTS_MSACC_STATE_ALLOC);
res = (*erts_allctrs[ERTS_ALC_T2A(type)].realloc)(
- ERTS_ALC_T2N(type),
+ type,
erts_allctrs[ERTS_ALC_T2A(type)].extra,
ptr,
size);
@@ -258,7 +279,7 @@ void erts_free(ErtsAlcType_t type, void *ptr)
{
ERTS_MSACC_PUSH_AND_SET_STATE_X(ERTS_MSACC_STATE_ALLOC);
(*erts_allctrs[ERTS_ALC_T2A(type)].free)(
- ERTS_ALC_T2N(type),
+ type,
erts_allctrs[ERTS_ALC_T2A(type)].extra,
ptr);
ERTS_MSACC_POP_STATE_X();
@@ -271,7 +292,7 @@ void *erts_alloc_fnf(ErtsAlcType_t type, Uint size)
void *res;
ERTS_MSACC_PUSH_AND_SET_STATE_X(ERTS_MSACC_STATE_ALLOC);
res = (*erts_allctrs[ERTS_ALC_T2A(type)].alloc)(
- ERTS_ALC_T2N(type),
+ type,
erts_allctrs[ERTS_ALC_T2A(type)].extra,
size);
ERTS_MSACC_POP_STATE_X();
@@ -285,7 +306,7 @@ void *erts_realloc_fnf(ErtsAlcType_t type, void *ptr, Uint size)
void *res;
ERTS_MSACC_PUSH_AND_SET_STATE_X(ERTS_MSACC_STATE_ALLOC);
res = (*erts_allctrs[ERTS_ALC_T2A(type)].realloc)(
- ERTS_ALC_T2N(type),
+ type,
erts_allctrs[ERTS_ALC_T2A(type)].extra,
ptr,
size);
diff --git a/erts/emulator/beam/erl_alloc.types b/erts/emulator/beam/erl_alloc.types
index 4f03a34390..08dcc5ea9a 100644
--- a/erts/emulator/beam/erl_alloc.types
+++ b/erts/emulator/beam/erl_alloc.types
@@ -30,10 +30,10 @@
# name space).
# * Types, allocators, classes, and descriptions have different name
# spaces.
-# * The type, allocator, and class names INVALID are reserved and can
-# not be used.
+# * The type, allocator, and class names INVALID are reserved and
+# cannot be used.
# * The descriptions invalid_allocator, invalid_class, and invalid_type
-# are reserved and can not be used.
+# are reserved and cannot be used.
# * Declarations can be done conditionally by use of a
# +if <boolean_variable>
#
diff --git a/erts/emulator/beam/erl_alloc_util.c b/erts/emulator/beam/erl_alloc_util.c
index 0be4562785..d238d38d27 100644
--- a/erts/emulator/beam/erl_alloc_util.c
+++ b/erts/emulator/beam/erl_alloc_util.c
@@ -42,6 +42,7 @@
#include "global.h"
#include "big.h"
+#include "erl_mmap.h"
#include "erl_mtrace.h"
#define GET_ERL_ALLOC_UTIL_IMPL
#include "erl_alloc_util.h"
@@ -90,15 +91,18 @@ static int initialized = 0;
#define SYS_ALLOC_CARRIER_FLOOR(X) ((X) & SYS_ALLOC_CARRIER_MASK)
#define SYS_ALLOC_CARRIER_CEILING(X) \
SYS_ALLOC_CARRIER_FLOOR((X) + INV_SYS_ALLOC_CARRIER_MASK)
+#define SYS_PAGE_SIZE (sys_page_size)
+#define SYS_PAGE_SZ_MASK ((UWord)(SYS_PAGE_SIZE - 1))
#if 0
/* Can be useful for debugging */
#define MBC_REALLOC_ALWAYS_MOVES
#endif
-
/* alloc_util global parameters */
static Uint sys_alloc_carrier_size;
+static Uint sys_page_size;
+
#if HAVE_ERTS_MSEG
static Uint max_mseg_carriers;
#endif
@@ -113,32 +117,38 @@ static int allow_sys_alloc_carriers;
#define DEC_CC(CC) ((CC)--)
-/* Multi block carrier (MBC) memory layout in R16:
+/* Multi block carrier (MBC) memory layout in OTP 22:
Empty MBC:
-[Carrier_t|pad|Block_t L0T|fhdr| free... ]
+[Carrier_t|pad|Block_t L0T0|fhdr| free... ]
MBC after allocating first block:
-[Carrier_t|pad|Block_t 000| udata |pad|Block_t L0T|fhdr| free... ]
+[Carrier_t|pad|Block_t 0000| udata |pad|Block_t L0T0|fhdr| free... ]
MBC after allocating second block:
-[Carrier_t|pad|Block_t 000| udata |pad|Block_t 000| udata |pad|Block_t L0T|fhdr| free... ]
+[Carrier_t|pad|Block_t 0000| udata |pad|Block_t 0000| udata |pad|Block_t L0T0|fhdr| free... ]
MBC after deallocating first block:
-[Carrier_t|pad|Block_t 00T|fhdr| free |FreeBlkFtr_t|Block_t 0P0| udata |pad|Block_t L0T|fhdr| free... ]
+[Carrier_t|pad|Block_t 00T0|fhdr| free |FreeBlkFtr_t|Block_t 0P00| udata |pad|Block_t L0T0|fhdr| free... ]
+MBC after allocating first block, with allocation tagging enabled:
+[Carrier_t|pad|Block_t 000A| udata |atag|pad|Block_t L0T0|fhdr| free... ]
udata = Allocated user data
+ atag = A tag with basic metadata about this allocation
pad = Padding to ensure correct alignment for user data
fhdr = Allocator specific header to keep track of free block
free = Unused free memory
T = This block is free (THIS_FREE_BLK_HDR_FLG)
P = Previous block is free (PREV_FREE_BLK_HDR_FLG)
L = Last block in carrier (LAST_BLK_HDR_FLG)
+ A = Block has an allocation tag footer, only valid for allocated blocks
+ (ATAG_BLK_HDR_FLG)
*/
/* Single block carrier (SBC):
-[Carrier_t|pad|Block_t 111| udata... ]
+[Carrier_t|pad|Block_t 1110| udata... ]
+[Carrier_t|pad|Block_t 111A| udata | atag]
*/
/* Allocation tags ...
@@ -154,20 +164,20 @@ MBC after deallocating first block:
typedef UWord alcu_atag_t;
-#define MAKE_ATAG(IdAtom, Type) \
- (ASSERT((Type) >= ERTS_ALC_N_MIN && (Type) <= ERTS_ALC_N_MAX), \
+#define MAKE_ATAG(IdAtom, TypeNum) \
+ (ASSERT((TypeNum) >= ERTS_ALC_N_MIN && (TypeNum) <= ERTS_ALC_N_MAX), \
ASSERT(atom_val(IdAtom) <= MAX_ATAG_ATOM_ID), \
- (atom_val(IdAtom) << ERTS_ALC_N_BITS) | (Type))
+ (atom_val(IdAtom) << ERTS_ALC_N_BITS) | (TypeNum))
#define ATAG_ID(AT) (make_atom((AT) >> ERTS_ALC_N_BITS))
#define ATAG_TYPE(AT) ((AT) & ERTS_ALC_N_MASK)
#define MAX_ATAG_ATOM_ID (ERTS_UWORD_MAX >> ERTS_ALC_N_BITS)
-#define DBG_IS_VALID_ATAG(Allocator, AT) \
+#define DBG_IS_VALID_ATAG(AT) \
(ATAG_TYPE(AT) >= ERTS_ALC_N_MIN && \
ATAG_TYPE(AT) <= ERTS_ALC_N_MAX && \
- (Allocator)->alloc_no == ERTS_ALC_T2A(ERTS_ALC_N2T(ATAG_TYPE(AT))))
+ ATAG_ID(AT) <= MAX_ATAG_ATOM_ID)
/* Blocks ... */
@@ -182,10 +192,15 @@ typedef UWord alcu_atag_t;
#endif
#define FBLK_FTR_SZ (sizeof(FreeBlkFtr_t))
+#define BLK_HAS_ATAG(B) \
+ (!!((B)->bhdr & ATAG_BLK_HDR_FLG))
+
#define GET_BLK_ATAG(B) \
- (((alcu_atag_t *) (((char *) (B)) + (BLK_SZ(B))))[-1])
+ (ASSERT(BLK_HAS_ATAG(B)), \
+ ((alcu_atag_t *) (((char *) (B)) + (BLK_SZ(B))))[-1])
#define SET_BLK_ATAG(B, T) \
- (((alcu_atag_t *) (((char *) (B)) + (BLK_SZ(B))))[-1] = (T))
+ ((B)->bhdr |= ATAG_BLK_HDR_FLG, \
+ ((alcu_atag_t *) (((char *) (B)) + (BLK_SZ(B))))[-1] = (T))
#define BLK_ATAG_SZ(AP) ((AP)->atags ? sizeof(alcu_atag_t) : 0)
@@ -203,13 +218,13 @@ typedef UWord alcu_atag_t;
(((FreeBlkFtr_t *) (((char *) (B)) + (SZ)))[-1] = (SZ))
#define SET_MBC_ABLK_SZ(B, SZ) \
- (ASSERT(((SZ) & FLG_MASK) == 0), \
+ (ASSERT(((SZ) & BLK_FLG_MASK) == 0), \
(B)->bhdr = (((B)->bhdr) & ~MBC_ABLK_SZ_MASK) | (SZ))
#define SET_MBC_FBLK_SZ(B, SZ) \
- (ASSERT(((SZ) & FLG_MASK) == 0), \
+ (ASSERT(((SZ) & BLK_FLG_MASK) == 0), \
(B)->bhdr = (((B)->bhdr) & ~MBC_FBLK_SZ_MASK) | (SZ))
#define SET_SBC_BLK_SZ(B, SZ) \
- (ASSERT(((SZ) & FLG_MASK) == 0), \
+ (ASSERT(((SZ) & BLK_FLG_MASK) == 0), \
(B)->bhdr = (((B)->bhdr) & ~SBC_BLK_SZ_MASK) | (SZ))
#define SET_PREV_BLK_FREE(AP,B) \
(ASSERT(!IS_MBC_FIRST_BLK(AP,B)), \
@@ -235,12 +250,12 @@ typedef UWord alcu_atag_t;
# define SET_MBC_ABLK_HDR(B, Sz, F, C) \
(ASSERT(((Sz) & ~MBC_ABLK_SZ_MASK) == 0), \
- ASSERT(!((UWord)(F) & (~FLG_MASK|THIS_FREE_BLK_HDR_FLG))), \
+ ASSERT(!((UWord)(F) & (~BLK_FLG_MASK|THIS_FREE_BLK_HDR_FLG))), \
(B)->bhdr = ((Sz) | (F) | (BLK_CARRIER_OFFSET(B,C) << MBC_ABLK_OFFSET_SHIFT)))
# define SET_MBC_FBLK_HDR(B, Sz, F, C) \
(ASSERT(((Sz) & ~MBC_FBLK_SZ_MASK) == 0), \
- ASSERT(((UWord)(F) & (~FLG_MASK|THIS_FREE_BLK_HDR_FLG|PREV_FREE_BLK_HDR_FLG)) == THIS_FREE_BLK_HDR_FLG), \
+ ASSERT(((UWord)(F) & (~BLK_FLG_MASK|THIS_FREE_BLK_HDR_FLG|PREV_FREE_BLK_HDR_FLG)) == THIS_FREE_BLK_HDR_FLG), \
(B)->bhdr = ((Sz) | (F)), \
(B)->u.carrier = (C))
@@ -257,8 +272,8 @@ typedef UWord alcu_atag_t;
# define SET_BLK_FREE(B) \
(ASSERT(!IS_PREV_BLK_FREE(B)), \
(B)->u.carrier = ABLK_TO_MBC(B), \
- (B)->bhdr |= THIS_FREE_BLK_HDR_FLG, \
- (B)->bhdr &= (MBC_ABLK_SZ_MASK|FLG_MASK))
+ (B)->bhdr &= (MBC_ABLK_SZ_MASK|LAST_BLK_HDR_FLG), \
+ (B)->bhdr |= THIS_FREE_BLK_HDR_FLG)
# define SET_BLK_ALLOCED(B) \
(ASSERT(((B)->bhdr & (MBC_ABLK_OFFSET_MASK|THIS_FREE_BLK_HDR_FLG)) == THIS_FREE_BLK_HDR_FLG), \
@@ -270,15 +285,16 @@ typedef UWord alcu_atag_t;
# define MBC_SZ_MAX_LIMIT ((UWord)~0)
# define SET_MBC_ABLK_HDR(B, Sz, F, C) \
- (ASSERT(((Sz) & FLG_MASK) == 0), \
- ASSERT(!((UWord)(F) & (~FLG_MASK|THIS_FREE_BLK_HDR_FLG))), \
- ASSERT((UWord)(F) < SBC_BLK_HDR_FLG), \
+ (ASSERT(((Sz) & BLK_FLG_MASK) == 0), \
+ ASSERT(((F) & ~BLK_FLG_MASK) == 0), \
+ ASSERT(!((UWord)(F) & (~BLK_FLG_MASK|THIS_FREE_BLK_HDR_FLG))), \
(B)->bhdr = ((Sz) | (F)), \
(B)->carrier = (C))
# define SET_MBC_FBLK_HDR(B, Sz, F, C) \
- (ASSERT(((Sz) & FLG_MASK) == 0), \
- ASSERT(((UWord)(F) & (~FLG_MASK|THIS_FREE_BLK_HDR_FLG|PREV_FREE_BLK_HDR_FLG)) == THIS_FREE_BLK_HDR_FLG), \
+ (ASSERT(((Sz) & BLK_FLG_MASK) == 0), \
+ ASSERT(((F) & ~BLK_FLG_MASK) == 0), \
+ ASSERT(((UWord)(F) & (~BLK_FLG_MASK|THIS_FREE_BLK_HDR_FLG|PREV_FREE_BLK_HDR_FLG)) == THIS_FREE_BLK_HDR_FLG), \
(B)->bhdr = ((Sz) | (F)), \
(B)->carrier = (C))
@@ -297,7 +313,7 @@ typedef UWord alcu_atag_t;
#endif /* !MBC_ABLK_OFFSET_BITS */
#define SET_SBC_BLK_HDR(B, Sz) \
- (ASSERT(((Sz) & FLG_MASK) == 0), (B)->bhdr = ((Sz) | (SBC_BLK_HDR_FLG)))
+ (ASSERT(((Sz) & BLK_FLG_MASK) == 0), (B)->bhdr = ((Sz) | (SBC_BLK_HDR_FLG)))
#define BLK_UMEM_SZ(B) \
@@ -320,7 +336,7 @@ typedef UWord alcu_atag_t;
#define GET_PREV_FREE_BLK_HDR_FLG(B) \
((B)->bhdr & PREV_FREE_BLK_HDR_FLG)
#define GET_BLK_HDR_FLGS(B) \
- ((B)->bhdr & FLG_MASK)
+ ((B)->bhdr & BLK_FLG_MASK)
#define NXT_BLK(B) \
(ASSERT(IS_MBC_BLK(B)), \
@@ -419,7 +435,7 @@ do { \
#define SCH_SBC SBC_CARRIER_HDR_FLAG
#define SET_CARRIER_HDR(C, Sz, F, AP) \
- (ASSERT(((Sz) & FLG_MASK) == 0), (C)->chdr = ((Sz) | (F)), \
+ (ASSERT(((Sz) & CRR_FLG_MASK) == 0), (C)->chdr = ((Sz) | (F)), \
erts_atomic_init_nob(&(C)->allctr, (erts_aint_t) (AP)))
#define BLK_TO_SBC(B) \
@@ -444,8 +460,8 @@ do { \
(!IS_SB_CARRIER((C)))
#define SET_CARRIER_SZ(C, SZ) \
- (ASSERT(((SZ) & FLG_MASK) == 0), \
- ((C)->chdr = ((C)->chdr & FLG_MASK) | (SZ)))
+ (ASSERT(((SZ) & CRR_FLG_MASK) == 0), \
+ ((C)->chdr = ((C)->chdr & CRR_FLG_MASK) | (SZ)))
#define CFLG_SBC (1 << 0)
#define CFLG_MBC (1 << 1)
@@ -575,10 +591,12 @@ do { \
STAT_MSEG_MBC_ALLOC((AP), csz__); \
else \
STAT_SYS_ALLOC_MBC_ALLOC((AP), csz__); \
- (AP)->mbcs.blocks.curr.no += (CRR)->cpool.blocks; \
+ set_new_allctr_abandon_limit(AP); \
+ (AP)->mbcs.blocks.curr.no += (CRR)->cpool.blocks[(AP)->alloc_no]; \
if ((AP)->mbcs.blocks.max.no < (AP)->mbcs.blocks.curr.no) \
(AP)->mbcs.blocks.max.no = (AP)->mbcs.blocks.curr.no; \
- (AP)->mbcs.blocks.curr.size += (CRR)->cpool.blocks_size; \
+ (AP)->mbcs.blocks.curr.size += \
+ (CRR)->cpool.blocks_size[(AP)->alloc_no]; \
if ((AP)->mbcs.blocks.max.size < (AP)->mbcs.blocks.curr.size) \
(AP)->mbcs.blocks.max.size = (AP)->mbcs.blocks.curr.size; \
} while (0)
@@ -601,25 +619,33 @@ do { \
DEBUG_CHECK_CARRIER_NO_SZ((AP)); \
} while (0)
-#define STAT_MBC_ABANDON(AP, CRR) \
-do { \
- UWord csz__ = CARRIER_SZ((CRR)); \
- if (IS_MSEG_CARRIER((CRR))) \
- STAT_MSEG_MBC_FREE((AP), csz__); \
- else \
- STAT_SYS_ALLOC_MBC_FREE((AP), csz__); \
- ERTS_ALC_CPOOL_ASSERT((AP)->mbcs.blocks.curr.no \
- >= (CRR)->cpool.blocks); \
- (AP)->mbcs.blocks.curr.no -= (CRR)->cpool.blocks; \
- ERTS_ALC_CPOOL_ASSERT((AP)->mbcs.blocks.curr.size \
- >= (CRR)->cpool.blocks_size); \
- (AP)->mbcs.blocks.curr.size -= (CRR)->cpool.blocks_size; \
+#define STAT_MBC_FREE(AP, CRR) \
+do { \
+ UWord csz__ = CARRIER_SZ((CRR)); \
+ if (IS_MSEG_CARRIER((CRR))) { \
+ STAT_MSEG_MBC_FREE((AP), csz__); \
+ } else { \
+ STAT_SYS_ALLOC_MBC_FREE((AP), csz__); \
+ } \
+ set_new_allctr_abandon_limit(AP); \
} while (0)
-#define STAT_MBC_BLK_ALLOC_CRR(CRR, BSZ) \
+#define STAT_MBC_ABANDON(AP, CRR) \
+do { \
+ STAT_MBC_FREE(AP, CRR); \
+ ERTS_ALC_CPOOL_ASSERT((AP)->mbcs.blocks.curr.no \
+ >= (CRR)->cpool.blocks[(AP)->alloc_no]); \
+ (AP)->mbcs.blocks.curr.no -= (CRR)->cpool.blocks[(AP)->alloc_no]; \
+ ERTS_ALC_CPOOL_ASSERT((AP)->mbcs.blocks.curr.size \
+ >= (CRR)->cpool.blocks_size[(AP)->alloc_no]); \
+ (AP)->mbcs.blocks.curr.size -= (CRR)->cpool.blocks_size[(AP)->alloc_no]; \
+} while (0)
+
+#define STAT_MBC_BLK_ALLOC_CRR(AP, CRR, BSZ) \
do { \
- (CRR)->cpool.blocks++; \
- (CRR)->cpool.blocks_size += (BSZ); \
+ (CRR)->cpool.blocks[(AP)->alloc_no]++; \
+ (CRR)->cpool.blocks_size[(AP)->alloc_no] += (BSZ); \
+ (CRR)->cpool.total_blocks_size += (BSZ); \
} while (0)
#define STAT_MBC_BLK_ALLOC(AP, CRR, BSZ, FLGS) \
@@ -631,50 +657,67 @@ do { \
cstats__->blocks.curr.size += (BSZ); \
if (cstats__->blocks.max.size < cstats__->blocks.curr.size) \
cstats__->blocks.max.size = cstats__->blocks.curr.size; \
- STAT_MBC_BLK_ALLOC_CRR((CRR), (BSZ)); \
+ STAT_MBC_BLK_ALLOC_CRR((AP), (CRR), (BSZ)); \
} while (0)
static ERTS_INLINE int
stat_cpool_mbc_blk_free(Allctr_t *allctr,
+ ErtsAlcType_t type,
Carrier_t *crr,
Carrier_t **busy_pcrr_pp,
UWord blksz)
{
+ Allctr_t *orig_allctr;
+ int alloc_no;
- ERTS_ALC_CPOOL_ASSERT(crr->cpool.blocks > 0);
- crr->cpool.blocks--;
- ERTS_ALC_CPOOL_ASSERT(crr->cpool.blocks_size >= blksz);
- crr->cpool.blocks_size -= blksz;
+ alloc_no = ERTS_ALC_T2A(type);
- if (!busy_pcrr_pp || !*busy_pcrr_pp)
- return 0;
+ ERTS_ALC_CPOOL_ASSERT(crr->cpool.blocks[alloc_no] > 0);
+ crr->cpool.blocks[alloc_no]--;
+ ERTS_ALC_CPOOL_ASSERT(crr->cpool.blocks_size[alloc_no] >= blksz);
+ crr->cpool.blocks_size[alloc_no] -= blksz;
+ ERTS_ALC_CPOOL_ASSERT(crr->cpool.total_blocks_size >= blksz);
+ crr->cpool.total_blocks_size -= blksz;
+
+ if (allctr->alloc_no == alloc_no && (!busy_pcrr_pp || !*busy_pcrr_pp)) {
+ /* This is a local block, so we should not update the pool
+ * statistics. */
+ return 0;
+ }
- ERTS_ALC_CPOOL_ASSERT(crr == *busy_pcrr_pp);
+ /* This is either a foreign block that's been fetched from the pool, or any
+ * block that's in the pool. The carrier's owner keeps the statistics for
+ * both pooled and foreign blocks. */
+
+ orig_allctr = crr->cpool.orig_allctr;
+
+ ERTS_ALC_CPOOL_ASSERT(alloc_no != allctr->alloc_no ||
+ (crr == *busy_pcrr_pp && allctr == orig_allctr));
#ifdef ERTS_ALC_CPOOL_DEBUG
ERTS_ALC_CPOOL_ASSERT(
- erts_atomic_dec_read_nob(&allctr->cpool.stat.no_blocks) >= 0);
+ erts_atomic_dec_read_nob(&orig_allctr->cpool.stat.no_blocks[alloc_no]) >= 0);
ERTS_ALC_CPOOL_ASSERT(
- erts_atomic_add_read_nob(&allctr->cpool.stat.blocks_size,
+ erts_atomic_add_read_nob(&orig_allctr->cpool.stat.blocks_size[alloc_no],
-((erts_aint_t) blksz)) >= 0);
#else
- erts_atomic_dec_nob(&allctr->cpool.stat.no_blocks);
- erts_atomic_add_nob(&allctr->cpool.stat.blocks_size,
+ erts_atomic_dec_nob(&orig_allctr->cpool.stat.no_blocks[alloc_no]);
+ erts_atomic_add_nob(&orig_allctr->cpool.stat.blocks_size[alloc_no],
-((erts_aint_t) blksz));
#endif
return 1;
}
-#define STAT_MBC_BLK_FREE(AP, CRR, BPCRRPP, BSZ, FLGS) \
-do { \
- if (!stat_cpool_mbc_blk_free((AP), (CRR), (BPCRRPP), (BSZ))) { \
- CarriersStats_t *cstats__ = &(AP)->mbcs; \
- ASSERT(cstats__->blocks.curr.no > 0); \
- cstats__->blocks.curr.no--; \
- ASSERT(cstats__->blocks.curr.size >= (BSZ)); \
- cstats__->blocks.curr.size -= (BSZ); \
- } \
+#define STAT_MBC_BLK_FREE(AP, TYPE, CRR, BPCRRPP, BSZ, FLGS) \
+do { \
+ if (!stat_cpool_mbc_blk_free((AP), (TYPE), (CRR), (BPCRRPP), (BSZ))) { \
+ CarriersStats_t *cstats__ = &(AP)->mbcs; \
+ ASSERT(cstats__->blocks.curr.no > 0); \
+ cstats__->blocks.curr.no--; \
+ ASSERT(cstats__->blocks.curr.size >= (BSZ)); \
+ cstats__->blocks.curr.size -= (BSZ); \
+ } \
} while (0)
/* Debug stuff... */
@@ -721,8 +764,8 @@ static void make_name_atoms(Allctr_t *allctr);
static Block_t *create_carrier(Allctr_t *, Uint, UWord);
static void destroy_carrier(Allctr_t *, Block_t *, Carrier_t **);
-static void mbc_free(Allctr_t *allctr, void *p, Carrier_t **busy_pcrr_pp);
-static void dealloc_block(Allctr_t *, void *, ErtsAlcFixList_t *, int);
+static void mbc_free(Allctr_t *allctr, ErtsAlcType_t type, void *p, Carrier_t **busy_pcrr_pp);
+static void dealloc_block(Allctr_t *, ErtsAlcType_t, Uint32, void *, ErtsAlcFixList_t *);
static alcu_atag_t determine_alloc_tag(Allctr_t *allocator, ErtsAlcType_t type)
{
@@ -764,14 +807,14 @@ static alcu_atag_t determine_alloc_tag(Allctr_t *allocator, ErtsAlcType_t type)
}
}
- return MAKE_ATAG(id, type);
+ return MAKE_ATAG(id, ERTS_ALC_T2N(type));
}
static void set_alloc_tag(Allctr_t *allocator, void *p, alcu_atag_t tag)
{
Block_t *block;
- ASSERT(DBG_IS_VALID_ATAG(allocator, tag));
+ ASSERT(DBG_IS_VALID_ATAG(tag));
ASSERT(allocator->atags && p);
(void)allocator;
@@ -1312,28 +1355,9 @@ chk_fix_list(Allctr_t *allctr, ErtsAlcFixList_t *fix, int ix, int before)
#define ERTS_DBG_CHK_FIX_LIST(A, FIX, IX, B)
#endif
+static ERTS_INLINE Allctr_t *get_pref_allctr(void *extra);
static void *mbc_alloc(Allctr_t *allctr, Uint size);
-typedef struct {
- ErtsAllctrDDBlock_t ddblock__; /* must be first */
- ErtsAlcType_t fix_type;
-} ErtsAllctrFixDDBlock_t;
-
-#define ERTS_ALC_FIX_NO_UNUSE (((ErtsAlcType_t) 1) << ERTS_ALC_N_BITS)
-
-static ERTS_INLINE void
-dealloc_fix_block(Allctr_t *allctr,
- ErtsAlcType_t type,
- void *ptr,
- ErtsAlcFixList_t *fix,
- int dec_cc_on_redirect)
-{
- /* May be redirected... */
- ASSERT((type & ERTS_ALC_FIX_NO_UNUSE) == 0);
- ((ErtsAllctrFixDDBlock_t *) ptr)->fix_type = type | ERTS_ALC_FIX_NO_UNUSE;
- dealloc_block(allctr, ptr, fix, dec_cc_on_redirect);
-}
-
static ERTS_INLINE void
sched_fix_shrink(Allctr_t *allctr, int on)
{
@@ -1375,7 +1399,7 @@ fix_cpool_check_shrink(Allctr_t *allctr,
if (fix->u.cpool.min_list_size > fix->list_size)
fix->u.cpool.min_list_size = fix->list_size;
- dealloc_fix_block(allctr, type, p, fix, 0);
+ dealloc_block(allctr, type, DEALLOC_FLG_FIX_SHRINK, p, fix);
}
}
}
@@ -1386,11 +1410,9 @@ fix_cpool_alloc(Allctr_t *allctr, ErtsAlcType_t type, Uint size)
void *res;
ErtsAlcFixList_t *fix;
- ASSERT(ERTS_ALC_N_MIN_A_FIXED_SIZE <= type
- && type <= ERTS_ALC_N_MAX_A_FIXED_SIZE);
-
- fix = &allctr->fix[type - ERTS_ALC_N_MIN_A_FIXED_SIZE];
- ASSERT(size == fix->type_size);
+ fix = &allctr->fix[ERTS_ALC_FIX_TYPE_IX(type)];
+ ASSERT(type == fix->type && size == fix->type_size);
+ ASSERT(size >= sizeof(ErtsAllctrDDBlock_t));
res = fix->list;
if (res) {
@@ -1419,21 +1441,39 @@ fix_cpool_alloc(Allctr_t *allctr, ErtsAlcType_t type, Uint size)
static ERTS_INLINE void
fix_cpool_free(Allctr_t *allctr,
ErtsAlcType_t type,
+ Uint32 flags,
void *p,
- Carrier_t **busy_pcrr_pp,
- int unuse)
+ Carrier_t **busy_pcrr_pp)
{
ErtsAlcFixList_t *fix;
+ Allctr_t *fix_allctr;
- ASSERT(ERTS_ALC_N_MIN_A_FIXED_SIZE <= type
- && type <= ERTS_ALC_N_MAX_A_FIXED_SIZE);
+ /* If this isn't a fix allocator we need to update the fix list of our
+ * neighboring fix_alloc to keep the statistics consistent. */
+ if (!allctr->fix) {
+ ErtsAllocatorThrSpec_t *tspec = &erts_allctr_thr_spec[ERTS_ALC_A_FIXED_SIZE];
+ fix_allctr = get_pref_allctr(tspec);
+ ASSERT(!fix_allctr->thread_safe);
+ ASSERT(allctr != fix_allctr);
+ }
+ else {
+ fix_allctr = allctr;
+ }
- fix = &allctr->fix[type - ERTS_ALC_N_MIN_A_FIXED_SIZE];
+ ASSERT(ERTS_ALC_IS_CPOOL_ENABLED(fix_allctr));
+ ASSERT(ERTS_ALC_IS_CPOOL_ENABLED(allctr));
- if (unuse)
- fix->u.cpool.used--;
+ fix = &fix_allctr->fix[ERTS_ALC_FIX_TYPE_IX(type)];
+ ASSERT(type == fix->type);
+
+ if (!(flags & DEALLOC_FLG_FIX_SHRINK)) {
+ fix->u.cpool.used--;
+ }
- if ((!busy_pcrr_pp || !*busy_pcrr_pp)
+ /* We don't want foreign blocks to be long-lived, so we skip recycling if
+ * allctr != fix_allctr. */
+ if (allctr == fix_allctr
+ && (!busy_pcrr_pp || !*busy_pcrr_pp)
&& !fix->u.cpool.shrink_list
&& fix->list_size < ERTS_ALCU_FIX_MAX_LIST_SZ) {
*((void **) p) = fix->list;
@@ -1446,7 +1486,7 @@ fix_cpool_free(Allctr_t *allctr,
if (IS_SBC_BLK(blk))
destroy_carrier(allctr, blk, NULL);
else
- mbc_free(allctr, p, busy_pcrr_pp);
+ mbc_free(allctr, type, p, busy_pcrr_pp);
fix->u.cpool.allocated--;
fix_cpool_check_shrink(allctr, type, fix, busy_pcrr_pp);
}
@@ -1473,7 +1513,7 @@ fix_cpool_alloc_shrink(Allctr_t *allctr, erts_aint32_t flgs)
fix->u.cpool.shrink_list = fix->u.cpool.min_list_size;
fix->u.cpool.min_list_size = fix->list_size;
}
- type = (ErtsAlcType_t) (ix + ERTS_ALC_N_MIN_A_FIXED_SIZE);
+ type = ERTS_ALC_N2T((ErtsAlcType_t) (ix + ERTS_ALC_N_MIN_A_FIXED_SIZE));
for (o = 0; o < ERTS_ALC_FIX_MAX_SHRINK_OPS || flush; o++) {
void *ptr;
@@ -1487,7 +1527,7 @@ fix_cpool_alloc_shrink(Allctr_t *allctr, erts_aint32_t flgs)
fix->list = *((void **) ptr);
fix->list_size--;
fix->u.cpool.shrink_list--;
- dealloc_fix_block(allctr, type, ptr, fix, 0);
+ dealloc_block(allctr, type, DEALLOC_FLG_FIX_SHRINK, ptr, fix);
}
if (fix->u.cpool.min_list_size > fix->list_size)
fix->u.cpool.min_list_size = fix->list_size;
@@ -1513,11 +1553,9 @@ fix_nocpool_alloc(Allctr_t *allctr, ErtsAlcType_t type, Uint size)
ErtsAlcFixList_t *fix;
void *res;
- ASSERT(ERTS_ALC_N_MIN_A_FIXED_SIZE <= type
- && type <= ERTS_ALC_N_MAX_A_FIXED_SIZE);
-
- fix = &allctr->fix[type - ERTS_ALC_N_MIN_A_FIXED_SIZE];
- ASSERT(size == fix->type_size);
+ fix = &allctr->fix[ERTS_ALC_FIX_TYPE_IX(type)];
+ ASSERT(type == fix->type && size == fix->type_size);
+ ASSERT(size >= sizeof(ErtsAllctrDDBlock_t));
ERTS_DBG_CHK_FIX_LIST(allctr, fix, ix, 1);
fix->u.nocpool.used++;
@@ -1534,7 +1572,7 @@ fix_nocpool_alloc(Allctr_t *allctr, ErtsAlcType_t type, Uint size)
if (IS_SBC_BLK(blk))
destroy_carrier(allctr, blk, NULL);
else
- mbc_free(allctr, p, NULL);
+ mbc_free(allctr, type, p, NULL);
fix->u.nocpool.allocated--;
}
ERTS_DBG_CHK_FIX_LIST(allctr, fix, ix, 0);
@@ -1569,10 +1607,8 @@ fix_nocpool_free(Allctr_t *allctr,
Block_t *blk;
ErtsAlcFixList_t *fix;
- ASSERT(ERTS_ALC_N_MIN_A_FIXED_SIZE <= type
- && type <= ERTS_ALC_N_MAX_A_FIXED_SIZE);
-
- fix = &allctr->fix[type - ERTS_ALC_N_MIN_A_FIXED_SIZE];
+ fix = &allctr->fix[ERTS_ALC_T2N(type) - ERTS_ALC_N_MIN_A_FIXED_SIZE];
+ ASSERT(fix->type == type);
ERTS_DBG_CHK_FIX_LIST(allctr, fix, ix, 1);
fix->u.nocpool.used--;
@@ -1591,7 +1627,7 @@ fix_nocpool_free(Allctr_t *allctr,
if (IS_SBC_BLK(blk))
destroy_carrier(allctr, blk, NULL);
else
- mbc_free(allctr, p, NULL);
+ mbc_free(allctr, type, p, NULL);
p = fix->list;
fix->list = *((void **) p);
fix->list_size--;
@@ -1602,7 +1638,7 @@ fix_nocpool_free(Allctr_t *allctr,
if (IS_SBC_BLK(blk))
destroy_carrier(allctr, blk, NULL);
else
- mbc_free(allctr, p, NULL);
+ mbc_free(allctr, type, p, NULL);
ERTS_DBG_CHK_FIX_LIST(allctr, fix, ix, 0);
}
@@ -1643,7 +1679,7 @@ fix_nocpool_alloc_shrink(Allctr_t *allctr, erts_aint32_t flgs)
ptr = fix->list;
fix->list = *((void **) ptr);
fix->list_size--;
- dealloc_block(allctr, ptr, NULL, 0);
+ dealloc_block(allctr, fix->type, 0, ptr, NULL);
fix->u.nocpool.allocated--;
}
if (fix->list_size != 0) {
@@ -1685,6 +1721,7 @@ dealloc_mbc(Allctr_t *allctr, Carrier_t *crr)
}
+static UWord allctr_abandon_limit(Allctr_t *allctr);
static void set_new_allctr_abandon_limit(Allctr_t*);
static void abandon_carrier(Allctr_t*, Carrier_t*);
static void poolify_my_carrier(Allctr_t*, Carrier_t*);
@@ -1806,7 +1843,7 @@ get_used_allctr(Allctr_t *pref_allctr, int pref_lock, void *p, UWord *sizep,
static void
init_dd_queue(ErtsAllctrDDQueue_t *ddq)
{
- erts_atomic_init_nob(&ddq->tail.data.marker.atmc_next, ERTS_AINT_NULL);
+ erts_atomic_init_nob(&ddq->tail.data.marker.u.atmc_next, ERTS_AINT_NULL);
erts_atomic_init_nob(&ddq->tail.data.last,
(erts_aint_t) &ddq->tail.data.marker);
erts_atomic_init_nob(&ddq->tail.data.um_refc[0], 0);
@@ -1827,17 +1864,17 @@ ddq_managed_thread_enqueue(ErtsAllctrDDQueue_t *ddq, void *ptr, int cinit)
erts_aint_t itmp;
ErtsAllctrDDBlock_t *enq, *this = ptr;
- erts_atomic_init_nob(&this->atmc_next, ERTS_AINT_NULL);
+ erts_atomic_init_nob(&this->u.atmc_next, ERTS_AINT_NULL);
/* Enqueue at end of list... */
enq = (ErtsAllctrDDBlock_t *) erts_atomic_read_nob(&ddq->tail.data.last);
- itmp = erts_atomic_cmpxchg_relb(&enq->atmc_next,
+ itmp = erts_atomic_cmpxchg_relb(&enq->u.atmc_next,
(erts_aint_t) this,
ERTS_AINT_NULL);
if (itmp == ERTS_AINT_NULL) {
/* We are required to move last pointer */
#ifdef DEBUG
- ASSERT(ERTS_AINT_NULL == erts_atomic_read_nob(&this->atmc_next));
+ ASSERT(ERTS_AINT_NULL == erts_atomic_read_nob(&this->u.atmc_next));
ASSERT(((erts_aint_t) enq)
== erts_atomic_xchg_relb(&ddq->tail.data.last,
(erts_aint_t) this));
@@ -1855,8 +1892,8 @@ ddq_managed_thread_enqueue(ErtsAllctrDDQueue_t *ddq, void *ptr, int cinit)
while (1) {
erts_aint_t itmp2;
- erts_atomic_set_nob(&this->atmc_next, itmp);
- itmp2 = erts_atomic_cmpxchg_relb(&enq->atmc_next,
+ erts_atomic_set_nob(&this->u.atmc_next, itmp);
+ itmp2 = erts_atomic_cmpxchg_relb(&enq->u.atmc_next,
(erts_aint_t) this,
itmp);
if (itmp == itmp2)
@@ -1865,7 +1902,7 @@ ddq_managed_thread_enqueue(ErtsAllctrDDQueue_t *ddq, void *ptr, int cinit)
itmp = itmp2;
else {
enq = (ErtsAllctrDDBlock_t *) itmp2;
- itmp = erts_atomic_read_acqb(&enq->atmc_next);
+ itmp = erts_atomic_read_acqb(&enq->u.atmc_next);
ASSERT(itmp != ERTS_AINT_NULL);
}
i++;
@@ -1881,8 +1918,8 @@ check_insert_marker(ErtsAllctrDDQueue_t *ddq, erts_aint_t ilast)
erts_aint_t itmp;
ErtsAllctrDDBlock_t *last = (ErtsAllctrDDBlock_t *) ilast;
- erts_atomic_init_nob(&ddq->tail.data.marker.atmc_next, ERTS_AINT_NULL);
- itmp = erts_atomic_cmpxchg_relb(&last->atmc_next,
+ erts_atomic_init_nob(&ddq->tail.data.marker.u.atmc_next, ERTS_AINT_NULL);
+ itmp = erts_atomic_cmpxchg_relb(&last->u.atmc_next,
(erts_aint_t) &ddq->tail.data.marker,
ERTS_AINT_NULL);
if (itmp == ERTS_AINT_NULL) {
@@ -1933,7 +1970,7 @@ ddq_dequeue(ErtsAllctrDDQueue_t *ddq)
ASSERT(ddq->head.used_marker);
ddq->head.used_marker = 0;
blk = ((ErtsAllctrDDBlock_t *)
- erts_atomic_read_nob(&blk->atmc_next));
+ erts_atomic_read_nob(&blk->u.atmc_next));
if (blk == ddq->head.unref_end) {
ddq->head.first = blk;
return NULL;
@@ -1941,7 +1978,7 @@ ddq_dequeue(ErtsAllctrDDQueue_t *ddq)
}
ddq->head.first = ((ErtsAllctrDDBlock_t *)
- erts_atomic_read_nob(&blk->atmc_next));
+ erts_atomic_read_nob(&blk->u.atmc_next));
ASSERT(ddq->head.first);
@@ -2003,19 +2040,13 @@ check_pending_dealloc_carrier(Allctr_t *allctr,
int *need_more_work);
static void
-handle_delayed_fix_dealloc(Allctr_t *allctr, void *ptr)
+handle_delayed_fix_dealloc(Allctr_t *allctr, ErtsAlcType_t type, Uint32 flags,
+ void *ptr)
{
- ErtsAlcType_t type;
-
- type = ((ErtsAllctrFixDDBlock_t *) ptr)->fix_type;
-
- ASSERT(ERTS_ALC_N_MIN_A_FIXED_SIZE
- <= (type & ~ERTS_ALC_FIX_NO_UNUSE));
- ASSERT((type & ~ERTS_ALC_FIX_NO_UNUSE)
- <= ERTS_ALC_N_MAX_A_FIXED_SIZE);
+ ASSERT(ERTS_ALC_IS_FIX_TYPE(type));
if (!ERTS_ALC_IS_CPOOL_ENABLED(allctr))
- fix_nocpool_free(allctr, (type & ~ERTS_ALC_FIX_NO_UNUSE), ptr);
+ fix_nocpool_free(allctr, type, ptr);
else {
Block_t *blk = UMEM2BLK(ptr);
Carrier_t *busy_pcrr_p;
@@ -2030,20 +2061,24 @@ handle_delayed_fix_dealloc(Allctr_t *allctr, void *ptr)
NULL, &busy_pcrr_p);
if (used_allctr == allctr) {
doit:
- fix_cpool_free(allctr, (type & ~ERTS_ALC_FIX_NO_UNUSE),
- ptr, &busy_pcrr_p,
- !(type & ERTS_ALC_FIX_NO_UNUSE));
+ fix_cpool_free(allctr, type, flags, ptr, &busy_pcrr_p);
clear_busy_pool_carrier(allctr, busy_pcrr_p);
}
else {
/* Carrier migrated; need to redirect block to new owner... */
- int cinit = used_allctr->dd.ix - allctr->dd.ix;
+ ErtsAllctrDDBlock_t *dd_block;
+ int cinit;
+
+ dd_block = (ErtsAllctrDDBlock_t*)ptr;
+ dd_block->flags = flags;
+ dd_block->type = type;
ERTS_ALC_CPOOL_ASSERT(!busy_pcrr_p);
DEC_CC(allctr->calls.this_free);
- ((ErtsAllctrFixDDBlock_t *) ptr)->fix_type = type;
+ cinit = used_allctr->dd.ix - allctr->dd.ix;
+
if (ddq_enqueue(&used_allctr->dd.q, ptr, cinit))
erts_alloc_notify_delayed_dealloc(used_allctr->ix);
}
@@ -2067,7 +2102,6 @@ handle_delayed_dealloc(Allctr_t *allctr,
int need_mr_wrk = 0;
int have_checked_incoming = 0;
int ops = 0;
- ErtsAlcFixList_t *fix;
int res;
ErtsAllctrDDQueue_t *ddq;
@@ -2076,8 +2110,6 @@ handle_delayed_dealloc(Allctr_t *allctr,
ERTS_ALCU_DBG_CHK_THR_ACCESS(allctr);
- fix = allctr->fix;
-
ddq = &allctr->dd.q;
res = 0;
@@ -2166,16 +2198,27 @@ handle_delayed_dealloc(Allctr_t *allctr,
}
}
else {
+ ErtsAllctrDDBlock_t *dd_block;
+ ErtsAlcType_t type;
+ Uint32 flags;
+
+ dd_block = (ErtsAllctrDDBlock_t*)ptr;
+ flags = dd_block->flags;
+ type = dd_block->type;
+
+ flags |= DEALLOC_FLG_REDIRECTED;
+
ASSERT(IS_SBC_BLK(blk) || (ABLK_TO_MBC(blk) !=
ErtsContainerStruct(blk, Carrier_t,
cpool.homecoming_dd.blk)));
INC_CC(allctr->calls.this_free);
- if (fix)
- handle_delayed_fix_dealloc(allctr, ptr);
- else
- dealloc_block(allctr, ptr, NULL, 1);
+ if (ERTS_ALC_IS_FIX_TYPE(type)) {
+ handle_delayed_fix_dealloc(allctr, type, flags, ptr);
+ } else {
+ dealloc_block(allctr, type, flags, ptr, NULL);
+ }
}
}
@@ -2203,8 +2246,10 @@ enqueue_dealloc_other_instance(ErtsAlcType_t type,
void *ptr,
int cinit)
{
- if (allctr->fix)
- ((ErtsAllctrFixDDBlock_t*) ptr)->fix_type = type;
+ ErtsAllctrDDBlock_t *dd_block = ((ErtsAllctrDDBlock_t*)ptr);
+
+ dd_block->type = type;
+ dd_block->flags = 0;
if (ddq_enqueue(&allctr->dd.q, ptr, cinit))
erts_alloc_notify_delayed_dealloc(allctr->ix);
@@ -2234,10 +2279,7 @@ check_abandon_carrier(Allctr_t *allctr, Block_t *fblk, Carrier_t **busy_pcrr_pp)
if (!ERTS_ALC_IS_CPOOL_ENABLED(allctr))
return;
- allctr->cpool.check_limit_count--;
- if (--allctr->cpool.check_limit_count <= 0)
- set_new_allctr_abandon_limit(allctr);
-
+ ASSERT(allctr->cpool.abandon_limit == allctr_abandon_limit(allctr));
ASSERT(erts_thr_progress_is_managed_thread());
if (allctr->cpool.disable_abandon)
@@ -2255,7 +2297,7 @@ check_abandon_carrier(Allctr_t *allctr, Block_t *fblk, Carrier_t **busy_pcrr_pp)
if (allctr->main_carrier == crr)
return;
- if (crr->cpool.blocks_size > crr->cpool.abandon_limit)
+ if (crr->cpool.total_blocks_size > crr->cpool.abandon_limit)
return;
if (crr->cpool.thr_prgr != ERTS_THR_PRGR_INVALID
@@ -2291,24 +2333,26 @@ erts_alcu_check_delayed_dealloc(Allctr_t *allctr,
ERTS_ALCU_DD_OPS_LIM_LOW, NULL, NULL, NULL)
static void
-dealloc_block(Allctr_t *allctr, void *ptr, ErtsAlcFixList_t *fix, int dec_cc_on_redirect)
+dealloc_block(Allctr_t *allctr, ErtsAlcType_t type, Uint32 flags, void *ptr,
+ ErtsAlcFixList_t *fix)
{
Block_t *blk = UMEM2BLK(ptr);
+ ASSERT(!fix || type == fix->type);
+
ERTS_LC_ASSERT(!allctr->thread_safe
|| erts_lc_mtx_is_locked(&allctr->mutex));
if (IS_SBC_BLK(blk)) {
destroy_carrier(allctr, blk, NULL);
if (fix && ERTS_ALC_IS_CPOOL_ENABLED(allctr)) {
- ErtsAlcType_t type = ((ErtsAllctrFixDDBlock_t *) ptr)->fix_type;
- if (!(type & ERTS_ALC_FIX_NO_UNUSE))
+ if (!(flags & DEALLOC_FLG_FIX_SHRINK))
fix->u.cpool.used--;
fix->u.cpool.allocated--;
}
}
else if (!ERTS_ALC_IS_CPOOL_ENABLED(allctr))
- mbc_free(allctr, ptr, NULL);
+ mbc_free(allctr, type, ptr, NULL);
else {
Carrier_t *busy_pcrr_p;
Allctr_t *used_allctr;
@@ -2317,22 +2361,29 @@ dealloc_block(Allctr_t *allctr, void *ptr, ErtsAlcFixList_t *fix, int dec_cc_on_
NULL, &busy_pcrr_p);
if (used_allctr == allctr) {
if (fix) {
- ErtsAlcType_t type = ((ErtsAllctrFixDDBlock_t *) ptr)->fix_type;
- if (!(type & ERTS_ALC_FIX_NO_UNUSE))
+ if (!(flags & DEALLOC_FLG_FIX_SHRINK))
fix->u.cpool.used--;
fix->u.cpool.allocated--;
}
- mbc_free(allctr, ptr, &busy_pcrr_p);
+ mbc_free(allctr, type, ptr, &busy_pcrr_p);
clear_busy_pool_carrier(allctr, busy_pcrr_p);
}
else {
/* Carrier migrated; need to redirect block to new owner... */
- int cinit = used_allctr->dd.ix - allctr->dd.ix;
+ ErtsAllctrDDBlock_t *dd_block;
+ int cinit;
+
+ dd_block = (ErtsAllctrDDBlock_t*)ptr;
+ dd_block->flags = flags;
+ dd_block->type = type;
ERTS_ALC_CPOOL_ASSERT(!busy_pcrr_p);
- if (dec_cc_on_redirect)
+ if (flags & DEALLOC_FLG_REDIRECTED)
DEC_CC(allctr->calls.this_free);
+
+ cinit = used_allctr->dd.ix - allctr->dd.ix;
+
if (ddq_enqueue(&used_allctr->dd.q, ptr, cinit))
erts_alloc_notify_delayed_dealloc(used_allctr->ix);
}
@@ -2498,9 +2549,155 @@ mbc_alloc(Allctr_t *allctr, Uint size)
return BLK2UMEM(blk);
}
+typedef struct {
+ char *ptr;
+ UWord size;
+} ErtsMemDiscardRegion;
+
+/* Construct a discard region for the user memory of a free block, letting the
+ * OS reclaim its physical memory when required.
+ *
+ * Note that we're ignoring both the footer and everything that comes before
+ * the minimum block size as the allocator uses those areas to manage the
+ * block. */
+static void ERTS_INLINE
+mem_discard_start(Allctr_t *allocator, Block_t *block,
+ ErtsMemDiscardRegion *out)
+{
+ UWord size = BLK_SZ(block);
+
+ ASSERT(size >= allocator->min_block_size);
+
+ if (size > (allocator->min_block_size + FBLK_FTR_SZ)) {
+ out->size = size - allocator->min_block_size - FBLK_FTR_SZ;
+ } else {
+ out->size = 0;
+ }
+
+ out->ptr = (char*)block + allocator->min_block_size;
+}
+
+/* Expands a discard region into a neighboring free block, allowing us to
+ * discard the block header and first page.
+ *
+ * This is very important in small-allocation scenarios where no single block
+ * is large enough to be discarded on its own. */
+static void ERTS_INLINE
+mem_discard_coalesce(Allctr_t *allocator, Block_t *neighbor,
+ ErtsMemDiscardRegion *region)
+{
+ char *neighbor_start;
+
+ ASSERT(IS_FREE_BLK(neighbor));
+
+ neighbor_start = (char*)neighbor;
+
+ if (region->ptr >= neighbor_start) {
+ char *region_start_page;
+
+ region_start_page = region->ptr - SYS_PAGE_SIZE;
+ region_start_page = (char*)((UWord)region_start_page & ~SYS_PAGE_SZ_MASK);
+
+ /* Expand if our first page begins within the previous free block's
+ * unused data. */
+ if (region_start_page >= (neighbor_start + allocator->min_block_size)) {
+ region->size += (region->ptr - region_start_page) - FBLK_FTR_SZ;
+ region->ptr = region_start_page;
+ }
+ } else {
+ char *region_end_page;
+ UWord neighbor_size;
+
+ ASSERT(region->ptr <= neighbor_start);
+
+ region_end_page = region->ptr + region->size + SYS_PAGE_SIZE;
+ region_end_page = (char*)((UWord)region_end_page & ~SYS_PAGE_SZ_MASK);
+
+ neighbor_size = BLK_SZ(neighbor) - FBLK_FTR_SZ;
+
+ /* Expand if our last page ends anywhere within the next free block,
+ * sans the footer we'll inherit. */
+ if (region_end_page < neighbor_start + neighbor_size) {
+ region->size += region_end_page - (region->ptr + region->size);
+ }
+ }
+}
+
+static void ERTS_INLINE
+mem_discard_finish(Allctr_t *allocator, Block_t *block,
+ ErtsMemDiscardRegion *region)
+{
+#ifdef DEBUG
+ char *block_start, *block_end;
+ UWord block_size;
+
+ block_size = BLK_SZ(block);
+
+ /* Ensure that the region is completely covered by the legal area of the
+ * free block. This must hold even when the region is too small to be
+ * discarded. */
+ if (region->size > 0) {
+ ASSERT(block_size > allocator->min_block_size + FBLK_FTR_SZ);
+
+ block_start = (char*)block + allocator->min_block_size;
+ block_end = (char*)block + block_size - FBLK_FTR_SZ;
+
+ ASSERT(region->size == 0 ||
+ (region->ptr + region->size <= block_end &&
+ region->ptr >= block_start &&
+ region->size <= block_size));
+ }
+#else
+ (void)allocator;
+ (void)block;
+#endif
+
+ if (region->size > SYS_PAGE_SIZE) {
+ UWord align_offset, size;
+ char *ptr;
+
+ align_offset = SYS_PAGE_SIZE - ((UWord)region->ptr & SYS_PAGE_SZ_MASK);
+
+ size = (region->size - align_offset) & ~SYS_PAGE_SZ_MASK;
+ ptr = region->ptr + align_offset;
+
+ if (size > 0) {
+ ASSERT(!((UWord)ptr & SYS_PAGE_SZ_MASK));
+ ASSERT(!(size & SYS_PAGE_SZ_MASK));
+
+ erts_mem_discard(ptr, size);
+ }
+ }
+}
+
static void
-mbc_free(Allctr_t *allctr, void *p, Carrier_t **busy_pcrr_pp)
+carrier_mem_discard_free_blocks(Allctr_t *allocator, Carrier_t *carrier)
{
+ static const int MAX_BLOCKS_TO_DISCARD = 100;
+ Block_t *block;
+ int i;
+
+ block = allocator->first_fblk_in_mbc(allocator, carrier);
+ i = 0;
+
+ while (block != NULL && i < MAX_BLOCKS_TO_DISCARD) {
+ ErtsMemDiscardRegion region;
+
+ ASSERT(IS_FREE_BLK(block));
+
+ mem_discard_start(allocator, block, &region);
+ mem_discard_finish(allocator, block, &region);
+
+ block = allocator->next_fblk_in_mbc(allocator, carrier, block);
+ i++;
+ }
+}
+
+static void
+mbc_free(Allctr_t *allctr, ErtsAlcType_t type, void *p, Carrier_t **busy_pcrr_pp)
+{
+ ErtsMemDiscardRegion discard_region = {0};
+ int discard;
Uint is_first_blk;
Uint is_last_blk;
Uint blk_sz;
@@ -2516,12 +2713,28 @@ mbc_free(Allctr_t *allctr, void *p, Carrier_t **busy_pcrr_pp)
ASSERT(IS_MBC_BLK(blk));
ASSERT(blk_sz >= allctr->min_block_size);
+#ifndef DEBUG
+ /* We want to mark freed blocks as reclaimable to the OS, but it's a fairly
+ * expensive operation which doesn't do much good if we use it again soon
+ * after, so we limit it to deallocations on pooled carriers. */
+ discard = busy_pcrr_pp && *busy_pcrr_pp;
+#else
+ /* Always discard in debug mode, regardless of whether we're in the pool or
+ * not. */
+ discard = 1;
+#endif
+
+ if (discard) {
+ mem_discard_start(allctr, blk, &discard_region);
+ }
+
HARD_CHECK_BLK_CARRIER(allctr, blk);
crr = ABLK_TO_MBC(blk);
ERTS_ALC_CPOOL_FREE_OP(allctr);
- STAT_MBC_BLK_FREE(allctr, crr, busy_pcrr_pp, blk_sz, alcu_flgs);
+
+ STAT_MBC_BLK_FREE(allctr, type, crr, busy_pcrr_pp, blk_sz, alcu_flgs);
is_first_blk = IS_MBC_FIRST_ABLK(allctr, blk);
is_last_blk = IS_LAST_BLK(blk);
@@ -2532,6 +2745,10 @@ mbc_free(Allctr_t *allctr, void *p, Carrier_t **busy_pcrr_pp)
blk = PREV_BLK(blk);
(*allctr->unlink_free_block)(allctr, blk);
+ if (discard) {
+ mem_discard_coalesce(allctr, blk, &discard_region);
+ }
+
blk_sz += MBC_FBLK_SZ(blk);
is_first_blk = IS_MBC_FIRST_FBLK(allctr, blk);
SET_MBC_FBLK_SZ(blk, blk_sz);
@@ -2547,6 +2764,11 @@ mbc_free(Allctr_t *allctr, void *p, Carrier_t **busy_pcrr_pp)
if (IS_FREE_BLK(nxt_blk)) {
/* Coalesce with next block... */
(*allctr->unlink_free_block)(allctr, nxt_blk);
+
+ if (discard) {
+ mem_discard_coalesce(allctr, nxt_blk, &discard_region);
+ }
+
blk_sz += MBC_FBLK_SZ(nxt_blk);
SET_MBC_FBLK_SZ(blk, blk_sz);
@@ -2582,16 +2804,22 @@ mbc_free(Allctr_t *allctr, void *p, Carrier_t **busy_pcrr_pp)
else {
(*allctr->link_free_block)(allctr, blk);
HARD_CHECK_BLK_CARRIER(allctr, blk);
- if (busy_pcrr_pp && *busy_pcrr_pp)
+
+ if (discard) {
+ mem_discard_finish(allctr, blk, &discard_region);
+ }
+
+ if (busy_pcrr_pp && *busy_pcrr_pp) {
update_pooled_tree(allctr, crr, blk_sz);
- else
+ } else {
check_abandon_carrier(allctr, blk, busy_pcrr_pp);
+ }
}
}
static void *
-mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
- Carrier_t **busy_pcrr_pp)
+mbc_realloc(Allctr_t *allctr, ErtsAlcType_t type, void *p, Uint size,
+ Uint32 alcu_flgs, Carrier_t **busy_pcrr_pp)
{
void *new_p;
Uint old_blk_sz;
@@ -2629,7 +2857,7 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
new_blk = UMEM2BLK(new_p);
ASSERT(!(IS_MBC_BLK(new_blk) && ABLK_TO_MBC(new_blk) == *busy_pcrr_pp));
sys_memcpy(new_p, p, MIN(size, old_blk_sz - ABLK_HDR_SZ));
- mbc_free(allctr, p, busy_pcrr_pp);
+ mbc_free(allctr, type, p, busy_pcrr_pp);
return new_p;
}
@@ -2706,7 +2934,7 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
crr = ABLK_TO_MBC(blk);
ERTS_ALC_CPOOL_REALLOC_OP(allctr);
- STAT_MBC_BLK_FREE(allctr, crr, NULL, old_blk_sz, alcu_flgs);
+ STAT_MBC_BLK_FREE(allctr, type, crr, NULL, old_blk_sz, alcu_flgs);
STAT_MBC_BLK_ALLOC(allctr, crr, blk_sz, alcu_flgs);
ASSERT(MBC_BLK_SZ(blk) >= allctr->min_block_size);
@@ -2810,7 +3038,7 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
}
ERTS_ALC_CPOOL_REALLOC_OP(allctr);
- STAT_MBC_BLK_FREE(allctr, crr, NULL, old_blk_sz, alcu_flgs);
+ STAT_MBC_BLK_FREE(allctr, type, crr, NULL, old_blk_sz, alcu_flgs);
STAT_MBC_BLK_ALLOC(allctr, crr, blk_sz, alcu_flgs);
ASSERT(IS_ALLOCED_BLK(blk));
@@ -2871,7 +3099,7 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
if (!new_p)
return NULL;
sys_memcpy(new_p, p, MIN(size, old_blk_sz - ABLK_HDR_SZ));
- mbc_free(allctr, p, busy_pcrr_pp);
+ mbc_free(allctr, type, p, busy_pcrr_pp);
return new_p;
@@ -2901,7 +3129,7 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
1);
new_p = BLK2UMEM(new_blk);
sys_memcpy(new_p, p, MIN(size, old_blk_sz - ABLK_HDR_SZ));
- mbc_free(allctr, p, NULL);
+ mbc_free(allctr, type, p, NULL);
return new_p;
}
else {
@@ -2958,7 +3186,7 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
0);
ERTS_ALC_CPOOL_FREE_OP(allctr);
- STAT_MBC_BLK_FREE(allctr, crr, NULL, old_blk_sz, alcu_flgs);
+ STAT_MBC_BLK_FREE(allctr, type, crr, NULL, old_blk_sz, alcu_flgs);
return new_p;
}
@@ -2969,7 +3197,6 @@ mbc_realloc(Allctr_t *allctr, void *p, Uint size, Uint32 alcu_flgs,
#define ERTS_ALC_MAX_DEALLOC_CARRIER 10
#define ERTS_ALC_CPOOL_MAX_FETCH_INSPECT 100
-#define ERTS_ALC_CPOOL_CHECK_LIMIT_COUNT 100
#define ERTS_ALC_CPOOL_MAX_FAILED_STAT_READS 3
#define ERTS_ALC_CPOOL_PTR_MOD_MRK (((erts_aint_t) 1) << 0)
@@ -2996,14 +3223,11 @@ typedef union {
# error "Carrier pool implementation assumes ERTS_ALC_A_MIN > ERTS_ALC_A_INVALID"
#endif
-/*
- * The pool is only allowed to be manipulated by managed
- * threads except in the alloc_SUITE:cpool case. In this
- * test case carrier_pool[ERTS_ALC_A_INVALID] will be
- * used.
- */
+/* The pools are only allowed to be manipulated by managed threads except in
+ * the alloc_SUITE:cpool test, where only test_carrier_pool is used. */
-static ErtsAlcCrrPool_t carrier_pool[ERTS_ALC_A_MAX+1] erts_align_attribute(ERTS_CACHE_LINE_SIZE);
+static ErtsAlcCrrPool_t firstfit_carrier_pool;
+static ErtsAlcCrrPool_t test_carrier_pool;
#define ERTS_ALC_CPOOL_MAX_BACKOFF (1 << 8)
@@ -3024,12 +3248,12 @@ backoff(int n)
static int
cpool_dbg_is_in_pool(Allctr_t *allctr, Carrier_t *crr)
{
- ErtsAlcCPoolData_t *sentinel = &carrier_pool[allctr->alloc_no].sentinel;
+ ErtsAlcCPoolData_t *sentinel = allctr->cpool.sentinel;
ErtsAlcCPoolData_t *cpdp = sentinel;
Carrier_t *tmp_crr;
while (1) {
- cpdp = (ErtsAlcCPoolData_t *) (erts_atomic_read_ddrb(&cpdp->next) & ~FLG_MASK);
+ cpdp = (ErtsAlcCPoolData_t *) (erts_atomic_read_ddrb(&cpdp->next) & ~CRR_FLG_MASK);
if (cpdp == sentinel)
return 0;
tmp_crr = (Carrier_t *) (((char *) cpdp) - offsetof(Carrier_t, cpool));
@@ -3041,7 +3265,7 @@ cpool_dbg_is_in_pool(Allctr_t *allctr, Carrier_t *crr)
static int
cpool_is_empty(Allctr_t *allctr)
{
- ErtsAlcCPoolData_t *sentinel = &carrier_pool[allctr->alloc_no].sentinel;
+ ErtsAlcCPoolData_t *sentinel = allctr->cpool.sentinel;
return ((erts_atomic_read_rb(&sentinel->next) == (erts_aint_t) sentinel)
&& (erts_atomic_read_rb(&sentinel->prev) == (erts_aint_t) sentinel));
}
@@ -3131,16 +3355,31 @@ cpool_insert(Allctr_t *allctr, Carrier_t *crr)
{
ErtsAlcCPoolData_t *cpd1p, *cpd2p;
erts_aint_t val;
- ErtsAlcCPoolData_t *sentinel = &carrier_pool[allctr->alloc_no].sentinel;
+ ErtsAlcCPoolData_t *sentinel = allctr->cpool.sentinel;
Allctr_t *orig_allctr = crr->cpool.orig_allctr;
- ERTS_ALC_CPOOL_ASSERT(allctr->alloc_no == ERTS_ALC_A_INVALID /* testcase */
+ ERTS_ALC_CPOOL_ASSERT(allctr->alloc_no == ERTS_ALC_A_TEST /* testcase */
|| erts_thr_progress_is_managed_thread());
- erts_atomic_add_nob(&orig_allctr->cpool.stat.blocks_size,
- (erts_aint_t) crr->cpool.blocks_size);
- erts_atomic_add_nob(&orig_allctr->cpool.stat.no_blocks,
- (erts_aint_t) crr->cpool.blocks);
+ {
+ int alloc_no = allctr->alloc_no;
+
+ ERTS_ALC_CPOOL_ASSERT(
+ erts_atomic_read_nob(&orig_allctr->cpool.stat.blocks_size[alloc_no]) >= 0 &&
+ crr->cpool.blocks_size[alloc_no] >= 0);
+
+ ERTS_ALC_CPOOL_ASSERT(
+ erts_atomic_read_nob(&orig_allctr->cpool.stat.no_blocks[alloc_no]) >= 0 &&
+ crr->cpool.blocks[alloc_no] >= 0);
+
+ /* We only modify the counter for our current type since the others are
+ * conceptually still in the pool. */
+ erts_atomic_add_nob(&orig_allctr->cpool.stat.blocks_size[alloc_no],
+ ((erts_aint_t) crr->cpool.blocks_size[alloc_no]));
+ erts_atomic_add_nob(&orig_allctr->cpool.stat.no_blocks[alloc_no],
+ ((erts_aint_t) crr->cpool.blocks[alloc_no]));
+ }
+
erts_atomic_add_nob(&orig_allctr->cpool.stat.carriers_size,
(erts_aint_t) CARRIER_SZ(crr));
erts_atomic_inc_nob(&orig_allctr->cpool.stat.no_carriers);
@@ -3213,10 +3452,10 @@ cpool_delete(Allctr_t *allctr, Allctr_t *prev_allctr, Carrier_t *crr)
ErtsAlcCPoolData_t *cpd1p, *cpd2p;
erts_aint_t val;
#ifdef ERTS_ALC_CPOOL_DEBUG
- ErtsAlcCPoolData_t *sentinel = &carrier_pool[allctr->alloc_no].sentinel;
+ ErtsAlcCPoolData_t *sentinel = allctr->cpool.sentinel;
#endif
- ERTS_ALC_CPOOL_ASSERT(allctr->alloc_no == ERTS_ALC_A_INVALID /* testcase */
+ ERTS_ALC_CPOOL_ASSERT(allctr->alloc_no == ERTS_ALC_A_TEST /* testcase */
|| erts_thr_progress_is_managed_thread());
ERTS_ALC_CPOOL_ASSERT(sentinel != &crr->cpool);
@@ -3292,28 +3531,43 @@ cpool_delete(Allctr_t *allctr, Allctr_t *prev_allctr, Carrier_t *crr)
crr->cpool.thr_prgr = erts_thr_progress_later(NULL);
- erts_atomic_add_nob(&prev_allctr->cpool.stat.blocks_size,
- -((erts_aint_t) crr->cpool.blocks_size));
- erts_atomic_add_nob(&prev_allctr->cpool.stat.no_blocks,
- -((erts_aint_t) crr->cpool.blocks));
- erts_atomic_add_nob(&prev_allctr->cpool.stat.carriers_size,
+ {
+ Allctr_t *orig_allctr = crr->cpool.orig_allctr;
+ int alloc_no = allctr->alloc_no;
+
+ ERTS_ALC_CPOOL_ASSERT(orig_allctr == prev_allctr);
+
+ ERTS_ALC_CPOOL_ASSERT(crr->cpool.blocks_size[alloc_no] <=
+ erts_atomic_read_nob(&orig_allctr->cpool.stat.blocks_size[alloc_no]));
+
+ ERTS_ALC_CPOOL_ASSERT(crr->cpool.blocks[alloc_no] <=
+ erts_atomic_read_nob(&orig_allctr->cpool.stat.no_blocks[alloc_no]));
+
+ /* We only modify the counters for our current type since the others
+ * were, conceptually, never taken out of the pool. */
+ erts_atomic_add_nob(&orig_allctr->cpool.stat.blocks_size[alloc_no],
+ -((erts_aint_t) crr->cpool.blocks_size[alloc_no]));
+ erts_atomic_add_nob(&orig_allctr->cpool.stat.no_blocks[alloc_no],
+ -((erts_aint_t) crr->cpool.blocks[alloc_no]));
+
+ erts_atomic_add_nob(&orig_allctr->cpool.stat.carriers_size,
-((erts_aint_t) CARRIER_SZ(crr)));
- erts_atomic_dec_wb(&prev_allctr->cpool.stat.no_carriers);
+ erts_atomic_dec_wb(&orig_allctr->cpool.stat.no_carriers);
+ }
}
static Carrier_t *
cpool_fetch(Allctr_t *allctr, UWord size)
{
- enum { IGNORANT, HAS_SEEN_SENTINEL, THE_LAST_ONE } loop_state;
- int i;
+ int i, seen_sentinel;
Carrier_t *crr;
Carrier_t *reinsert_crr = NULL;
ErtsAlcCPoolData_t *cpdp;
ErtsAlcCPoolData_t *cpool_entrance = NULL;
ErtsAlcCPoolData_t *sentinel;
- ERTS_ALC_CPOOL_ASSERT(allctr->alloc_no == ERTS_ALC_A_INVALID /* testcase */
+ ERTS_ALC_CPOOL_ASSERT(allctr->alloc_no == ERTS_ALC_A_TEST /* testcase */
|| erts_thr_progress_is_managed_thread());
i = ERTS_ALC_CPOOL_MAX_FETCH_INSPECT;
@@ -3415,48 +3669,39 @@ cpool_fetch(Allctr_t *allctr, UWord size)
/*
* Finally search the shared pool and try employ foreign carriers
*/
- sentinel = &carrier_pool[allctr->alloc_no].sentinel;
+ sentinel = allctr->cpool.sentinel;
if (cpool_entrance) {
/*
* We saw a pooled carried above, use it as entrance into the pool
*/
- cpdp = cpool_entrance;
}
else {
/*
- * No pooled carried seen above. Start search at cpool sentinel,
+ * No pooled carrier seen above. Start search at cpool sentinel,
* but begin by passing one element before trying to fetch.
* This in order to avoid contention with threads inserting elements.
*/
- cpool_entrance = sentinel;
- cpdp = cpool_aint2cpd(cpool_read(&cpool_entrance->prev));
- if (cpdp == sentinel)
+ cpool_entrance = cpool_aint2cpd(cpool_read(&sentinel->prev));
+ if (cpool_entrance == sentinel)
goto check_dc_list;
}
- loop_state = IGNORANT;
+ cpdp = cpool_entrance;
+ seen_sentinel = 0;
do {
erts_aint_t exp;
cpdp = cpool_aint2cpd(cpool_read(&cpdp->prev));
- if (cpdp == cpool_entrance) {
- if (cpool_entrance == sentinel) {
- cpdp = cpool_aint2cpd(cpool_read(&cpdp->prev));
- if (cpdp == sentinel)
- break;
- }
- loop_state = THE_LAST_ONE;
- }
- else if (cpdp == sentinel) {
- if (loop_state == HAS_SEEN_SENTINEL) {
+ if (cpdp == sentinel) {
+ if (seen_sentinel) {
/* We been here before. cpool_entrance must have been removed */
INC_CC(allctr->cpool.stat.entrance_removed);
break;
}
- cpdp = cpool_aint2cpd(cpool_read(&cpdp->prev));
- if (cpdp == sentinel)
- break;
- loop_state = HAS_SEEN_SENTINEL;
+ seen_sentinel = 1;
+ continue;
}
+ ASSERT(cpdp != cpool_entrance || seen_sentinel);
+
crr = ErtsContainerStruct(cpdp, Carrier_t, cpool);
exp = erts_atomic_read_rb(&crr->allctr);
@@ -3489,7 +3734,7 @@ cpool_fetch(Allctr_t *allctr, UWord size)
INC_CC(allctr->cpool.stat.fail_shared);
return NULL;
}
- }while (loop_state != THE_LAST_ONE);
+ }while (cpdp != cpool_entrance);
check_dc_list:
/* Last; check our own pending dealloc carrier list... */
@@ -3668,8 +3913,9 @@ cpool_init_carrier_data(Allctr_t *allctr, Carrier_t *crr)
crr->cpool.orig_allctr = allctr;
crr->cpool.thr_prgr = ERTS_THR_PRGR_INVALID;
erts_atomic_init_nob(&crr->cpool.max_size, 0);
- crr->cpool.blocks = 0;
- crr->cpool.blocks_size = 0;
+ sys_memset(&crr->cpool.blocks_size, 0, sizeof(crr->cpool.blocks_size));
+ sys_memset(&crr->cpool.blocks, 0, sizeof(crr->cpool.blocks));
+ crr->cpool.total_blocks_size = 0;
if (!ERTS_ALC_IS_CPOOL_ENABLED(allctr))
crr->cpool.abandon_limit = 0;
else {
@@ -3684,14 +3930,14 @@ cpool_init_carrier_data(Allctr_t *allctr, Carrier_t *crr)
crr->cpool.state = ERTS_MBC_IS_HOME;
}
-static void
-set_new_allctr_abandon_limit(Allctr_t *allctr)
+
+
+static UWord
+allctr_abandon_limit(Allctr_t *allctr)
{
UWord limit;
UWord csz;
- allctr->cpool.check_limit_count = ERTS_ALC_CPOOL_CHECK_LIMIT_COUNT;
-
csz = allctr->mbcs.curr.norm.mseg.size;
csz += allctr->mbcs.curr.norm.sys_alloc.size;
@@ -3701,7 +3947,13 @@ set_new_allctr_abandon_limit(Allctr_t *allctr)
else
limit = (csz/100)*allctr->cpool.util_limit;
- allctr->cpool.abandon_limit = limit;
+ return limit;
+}
+
+static void ERTS_INLINE
+set_new_allctr_abandon_limit(Allctr_t *allctr)
+{
+ allctr->cpool.abandon_limit = allctr_abandon_limit(allctr);
}
static void
@@ -3713,7 +3965,9 @@ abandon_carrier(Allctr_t *allctr, Carrier_t *crr)
unlink_carrier(&allctr->mbc_list, crr);
allctr->remove_mbc(allctr, crr);
- set_new_allctr_abandon_limit(allctr);
+
+ /* Mark our free blocks as unused and reclaimable to the OS. */
+ carrier_mem_discard_free_blocks(allctr, crr);
cpool_insert(allctr, crr);
@@ -3766,7 +4020,8 @@ poolify_my_carrier(Allctr_t *allctr, Carrier_t *crr)
}
static void
-cpool_read_stat(Allctr_t *allctr, UWord *nocp, UWord *cszp, UWord *nobp, UWord *bszp)
+cpool_read_stat(Allctr_t *allctr, int alloc_no,
+ UWord *nocp, UWord *cszp, UWord *nobp, UWord *bszp)
{
int i;
UWord noc = 0, csz = 0, nob = 0, bsz = 0;
@@ -3786,10 +4041,10 @@ cpool_read_stat(Allctr_t *allctr, UWord *nocp, UWord *cszp, UWord *nobp, UWord *
? erts_atomic_read_nob(&allctr->cpool.stat.carriers_size)
: 0);
tnob = (UWord) (nobp
- ? erts_atomic_read_nob(&allctr->cpool.stat.no_blocks)
+ ? erts_atomic_read_nob(&allctr->cpool.stat.no_blocks[alloc_no])
: 0);
tbsz = (UWord) (bszp
- ? erts_atomic_read_nob(&allctr->cpool.stat.blocks_size)
+ ? erts_atomic_read_nob(&allctr->cpool.stat.blocks_size[alloc_no])
: 0);
if (tnoc == noc && tcsz == csz && tnob == nob && tbsz == bsz)
break;
@@ -4044,6 +4299,7 @@ create_carrier(Allctr_t *allctr, Uint umem_sz, UWord flags)
#if HAVE_ERTS_MSEG
mbc_final_touch:
#endif
+ set_new_allctr_abandon_limit(allctr);
blk = MBC_TO_FIRST_BLK(allctr, crr);
@@ -4262,7 +4518,6 @@ destroy_carrier(Allctr_t *allctr, Block_t *blk, Carrier_t **busy_pcrr_pp)
else {
ASSERT(IS_MBC_FIRST_FBLK(allctr, blk));
crr = FIRST_BLK_TO_MBC(allctr, blk);
- crr_sz = CARRIER_SZ(crr);
#ifdef DEBUG
if (!allctr->stopped) {
@@ -4294,15 +4549,7 @@ destroy_carrier(Allctr_t *allctr, Block_t *blk, Carrier_t **busy_pcrr_pp)
else
{
unlink_carrier(&allctr->mbc_list, crr);
-#if HAVE_ERTS_MSEG
- if (IS_MSEG_CARRIER(crr)) {
- ASSERT(crr_sz % ERTS_SACRR_UNIT_SZ == 0);
- STAT_MSEG_MBC_FREE(allctr, crr_sz);
- }
- else
-#endif
- STAT_SYS_ALLOC_MBC_FREE(allctr, crr_sz);
-
+ STAT_MBC_FREE(allctr, crr);
if (allctr->remove_mbc)
allctr->remove_mbc(allctr, crr);
}
@@ -4316,7 +4563,7 @@ destroy_carrier(Allctr_t *allctr, Block_t *blk, Carrier_t **busy_pcrr_pp)
LTTNG5(carrier_destroy,
ERTS_ALC_A2AD(allctr->alloc_no),
allctr->ix,
- crr_sz,
+ CARRIER_SZ(crr),
mbc_stats,
sbc_stats);
}
@@ -4394,6 +4641,8 @@ static struct {
Eterm blocks_size;
Eterm blocks;
+ Eterm foreign_blocks;
+
Eterm calls;
Eterm sys_alloc;
Eterm sys_free;
@@ -4494,6 +4743,7 @@ init_atoms(Allctr_t *allctr)
AM_INIT(carriers);
AM_INIT(blocks_size);
AM_INIT(blocks);
+ AM_INIT(foreign_blocks);
AM_INIT(calls);
AM_INIT(sys_alloc);
@@ -4629,7 +4879,6 @@ sz_info_fix(Allctr_t *allctr,
ErtsAlcFixList_t *fix = &allctr->fix[ix];
UWord alloced = fix->type_size * fix->u.cpool.allocated;
UWord used = fix->type_size * fix->u.cpool.used;
- ErtsAlcType_t n = ERTS_ALC_N_MIN_A_FIXED_SIZE + ix;
if (print_to_p) {
fmtfn_t to = *print_to_p;
@@ -4637,14 +4886,14 @@ sz_info_fix(Allctr_t *allctr,
erts_print(to,
arg,
"fix type internal: %s %bpu %bpu\n",
- (char *) ERTS_ALC_N2TD(n),
+ (char *) ERTS_ALC_T2TD(fix->type),
alloced,
used);
}
if (hpp || szp) {
add_3tup(hpp, szp, &res,
- alloc_type_atoms[n],
+ alloc_type_atoms[ERTS_ALC_T2N(fix->type)],
bld_unstable_uint(hpp, szp, alloced),
bld_unstable_uint(hpp, szp, used));
}
@@ -4657,7 +4906,6 @@ sz_info_fix(Allctr_t *allctr,
ErtsAlcFixList_t *fix = &allctr->fix[ix];
UWord alloced = fix->type_size * fix->u.nocpool.allocated;
UWord used = fix->type_size*fix->u.nocpool.used;
- ErtsAlcType_t n = ERTS_ALC_N_MIN_A_FIXED_SIZE + ix;
if (print_to_p) {
fmtfn_t to = *print_to_p;
@@ -4665,14 +4913,14 @@ sz_info_fix(Allctr_t *allctr,
erts_print(to,
arg,
"fix type: %s %bpu %bpu\n",
- (char *) ERTS_ALC_N2TD(n),
+ (char *) ERTS_ALC_T2TD(fix->type),
alloced,
used);
}
if (hpp || szp) {
add_3tup(hpp, szp, &res,
- alloc_type_atoms[n],
+ alloc_type_atoms[ERTS_ALC_T2N(fix->type)],
bld_unstable_uint(hpp, szp, alloced),
bld_unstable_uint(hpp, szp, used));
}
@@ -4745,9 +4993,9 @@ info_cpool(Allctr_t *allctr,
noc = csz = nob = bsz = ~0;
if (print_to_p || hpp) {
if (sz_only)
- cpool_read_stat(allctr, NULL, &csz, NULL, &bsz);
+ cpool_read_stat(allctr, allctr->alloc_no, NULL, &csz, NULL, &bsz);
else
- cpool_read_stat(allctr, &noc, &csz, &nob, &bsz);
+ cpool_read_stat(allctr, allctr->alloc_no, &noc, &csz, &nob, &bsz);
}
if (print_to_p) {
@@ -4762,6 +5010,10 @@ info_cpool(Allctr_t *allctr,
}
if (hpp || szp) {
+ Eterm foreign_blocks;
+ int i;
+
+ foreign_blocks = NIL;
res = NIL;
if (!sz_only) {
@@ -4808,22 +5060,61 @@ info_cpool(Allctr_t *allctr,
add_3tup(hpp, szp, &res, am.entrance_removed,
bld_unstable_uint(hpp, szp, ERTS_ALC_CC_GIGA_VAL(allctr->cpool.stat.entrance_removed)),
bld_unstable_uint(hpp, szp, ERTS_ALC_CC_VAL(allctr->cpool.stat.entrance_removed)));
+ }
add_2tup(hpp, szp, &res,
am.carriers_size,
bld_unstable_uint(hpp, szp, csz));
- }
- if (!sz_only)
- add_2tup(hpp, szp, &res,
- am.carriers,
- bld_unstable_uint(hpp, szp, noc));
+
+ if (!sz_only) {
+ add_2tup(hpp, szp, &res,
+ am.carriers,
+ bld_unstable_uint(hpp, szp, noc));
+ }
+
add_2tup(hpp, szp, &res,
am.blocks_size,
bld_unstable_uint(hpp, szp, bsz));
- if (!sz_only)
+
+ if (!sz_only) {
add_2tup(hpp, szp, &res,
am.blocks,
bld_unstable_uint(hpp, szp, nob));
+ }
+
+ for (i = ERTS_ALC_A_MIN; i <= ERTS_ALC_A_MAX; i++) {
+ const char *name_str;
+ Eterm name, info;
+
+ if (i == allctr->alloc_no) {
+ continue;
+ }
+
+ cpool_read_stat(allctr, i, NULL, NULL, &nob, &bsz);
+
+ if (bsz == 0 && (nob == 0 || sz_only)) {
+ continue;
+ }
+
+ name_str = ERTS_ALC_A2AD(i);
+ info = NIL;
+
+ add_2tup(hpp, szp, &info,
+ am.blocks_size,
+ bld_unstable_uint(hpp, szp, bsz));
+
+ if (!sz_only) {
+ add_2tup(hpp, szp, &info,
+ am.blocks,
+ bld_unstable_uint(hpp, szp, nob));
+ }
+
+ name = am_atom_put(name_str, sys_strlen(name_str));
+
+ add_2tup(hpp, szp, &foreign_blocks, name, info);
+ }
+
+ add_2tup(hpp, szp, &res, am.foreign_blocks, foreign_blocks);
}
return res;
@@ -5459,6 +5750,19 @@ erts_alcu_info(Allctr_t *allctr,
return res;
}
+void
+erts_alcu_foreign_size(Allctr_t *allctr, ErtsAlcType_t alloc_no, AllctrSize_t *size)
+{
+ if (ERTS_ALC_IS_CPOOL_ENABLED(allctr)) {
+ UWord csz, bsz;
+ cpool_read_stat(allctr, alloc_no, NULL, &csz, NULL, &bsz);
+ size->carriers = csz;
+ size->blocks = bsz;
+ } else {
+ size->carriers = 0;
+ size->blocks = 0;
+ }
+}
void
erts_alcu_current_size(Allctr_t *allctr, AllctrSize_t *size, ErtsAlcUFixInfo_t *fi, int fisz)
@@ -5477,7 +5781,7 @@ erts_alcu_current_size(Allctr_t *allctr, AllctrSize_t *size, ErtsAlcUFixInfo_t *
if (ERTS_ALC_IS_CPOOL_ENABLED(allctr)) {
UWord csz, bsz;
- cpool_read_stat(allctr, NULL, &csz, NULL, &bsz);
+ cpool_read_stat(allctr, allctr->alloc_no, NULL, &csz, NULL, &bsz);
size->blocks += bsz;
size->carriers += csz;
}
@@ -5522,6 +5826,11 @@ do_erts_alcu_alloc(ErtsAlcType_t type, Allctr_t *allctr, Uint size)
ERTS_ALCU_DBG_CHK_THR_ACCESS(allctr);
+ /* Reject sizes that can't fit into the header word. */
+ if (size > ~BLK_FLG_MASK) {
+ return NULL;
+ }
+
#if ALLOC_ZERO_EQ_NULL
if (!size)
return NULL;
@@ -5688,12 +5997,11 @@ do_erts_alcu_free(ErtsAlcType_t type, Allctr_t *allctr, void *p,
ERTS_ALCU_DBG_CHK_THR_ACCESS(allctr);
if (p) {
-
INC_CC(allctr->calls.this_free);
- if (allctr->fix) {
+ if (ERTS_ALC_IS_FIX_TYPE(type)) {
if (ERTS_ALC_IS_CPOOL_ENABLED(allctr))
- fix_cpool_free(allctr, type, p, busy_pcrr_pp, 1);
+ fix_cpool_free(allctr, type, 0, p, busy_pcrr_pp);
else
fix_nocpool_free(allctr, type, p);
}
@@ -5702,7 +6010,7 @@ do_erts_alcu_free(ErtsAlcType_t type, Allctr_t *allctr, void *p,
if (IS_SBC_BLK(blk))
destroy_carrier(allctr, blk, NULL);
else
- mbc_free(allctr, p, busy_pcrr_pp);
+ mbc_free(allctr, type, p, busy_pcrr_pp);
}
}
}
@@ -5804,6 +6112,11 @@ do_erts_alcu_realloc(ErtsAlcType_t type,
return res;
}
+ /* Reject sizes that can't fit into the header word. */
+ if (size > ~BLK_FLG_MASK) {
+ return NULL;
+ }
+
#if ALLOC_ZERO_EQ_NULL
if (!size) {
ASSERT(p);
@@ -5820,7 +6133,7 @@ do_erts_alcu_realloc(ErtsAlcType_t type,
if (size < allctr->sbc_threshold) {
if (IS_MBC_BLK(blk))
- res = mbc_realloc(allctr, p, size, alcu_flgs, busy_pcrr_pp);
+ res = mbc_realloc(allctr, type, p, size, alcu_flgs, busy_pcrr_pp);
else {
Uint used_sz = SBC_HEADER_SIZE + ABLK_HDR_SZ + size;
Uint crr_sz;
@@ -5879,7 +6192,7 @@ do_erts_alcu_realloc(ErtsAlcType_t type,
sys_memcpy((void *) res,
(void *) p,
MIN(MBC_ABLK_SZ(blk) - ABLK_HDR_SZ, size));
- mbc_free(allctr, p, busy_pcrr_pp);
+ mbc_free(allctr, type, p, busy_pcrr_pp);
}
else
res = NULL;
@@ -6247,6 +6560,7 @@ int
erts_alcu_start(Allctr_t *allctr, AllctrInit_t *init)
{
/* erts_alcu_start assumes that allctr has been zeroed */
+ int i;
if (((UWord)allctr & ERTS_CRR_ALCTR_FLG_MASK) != 0) {
erts_exit(ERTS_ABORT_EXIT, "%s:%d:erts_alcu_start: Alignment error\n",
@@ -6270,6 +6584,11 @@ erts_alcu_start(Allctr_t *allctr, AllctrInit_t *init)
allctr->ix = init->ix;
allctr->alloc_no = init->alloc_no;
+ allctr->alloc_strat = init->alloc_strat;
+
+ ASSERT(allctr->alloc_no >= ERTS_ALC_A_MIN &&
+ allctr->alloc_no <= ERTS_ALC_A_MAX);
+
if (allctr->alloc_no < ERTS_ALC_A_MIN
|| ERTS_ALC_A_MAX < allctr->alloc_no)
allctr->alloc_no = ERTS_ALC_A_INVALID;
@@ -6322,8 +6641,7 @@ erts_alcu_start(Allctr_t *allctr, AllctrInit_t *init)
+ sizeof(FreeBlkFtr_t));
if (init->tpref) {
Uint sz = ABLK_HDR_SZ;
- sz += (init->fix ?
- sizeof(ErtsAllctrFixDDBlock_t) : sizeof(ErtsAllctrDDBlock_t));
+ sz += sizeof(ErtsAllctrDDBlock_t);
sz = UNIT_CEILING(sz);
if (sz > allctr->min_block_size)
allctr->min_block_size = sz;
@@ -6334,15 +6652,29 @@ erts_alcu_start(Allctr_t *allctr, AllctrInit_t *init)
allctr->cpool.dc_list.last = NULL;
allctr->cpool.abandon_limit = 0;
allctr->cpool.disable_abandon = 0;
- erts_atomic_init_nob(&allctr->cpool.stat.blocks_size, 0);
- erts_atomic_init_nob(&allctr->cpool.stat.no_blocks, 0);
+ for (i = ERTS_ALC_A_MIN; i <= ERTS_ALC_A_MAX; i++) {
+ erts_atomic_init_nob(&allctr->cpool.stat.blocks_size[i], 0);
+ erts_atomic_init_nob(&allctr->cpool.stat.no_blocks[i], 0);
+ }
erts_atomic_init_nob(&allctr->cpool.stat.carriers_size, 0);
erts_atomic_init_nob(&allctr->cpool.stat.no_carriers, 0);
- allctr->cpool.check_limit_count = ERTS_ALC_CPOOL_CHECK_LIMIT_COUNT;
if (!init->ts && init->acul && init->acnl) {
+ ASSERT(allctr->add_mbc);
+ ASSERT(allctr->remove_mbc);
+ ASSERT(allctr->largest_fblk_in_mbc);
+ ASSERT(allctr->first_fblk_in_mbc);
+ ASSERT(allctr->next_fblk_in_mbc);
+
allctr->cpool.util_limit = init->acul;
allctr->cpool.in_pool_limit = init->acnl;
allctr->cpool.fblk_min_limit = init->acfml;
+
+ if (allctr->alloc_strat == ERTS_ALC_S_FIRSTFIT) {
+ allctr->cpool.sentinel = &firstfit_carrier_pool.sentinel;
+ }
+ else if (allctr->alloc_no != ERTS_ALC_A_TEST) {
+ ERTS_INTERNAL_ERROR("Impossible carrier migration config.");
+ }
}
else {
allctr->cpool.util_limit = 0;
@@ -6350,6 +6682,12 @@ erts_alcu_start(Allctr_t *allctr, AllctrInit_t *init)
allctr->cpool.fblk_min_limit = 0;
}
+ /* The invasive tests don't really care whether the pool is enabled or not,
+ * so we need to set this unconditionally for this allocator type. */
+ if (allctr->alloc_no == ERTS_ALC_A_TEST) {
+ allctr->cpool.sentinel = &test_carrier_pool.sentinel;
+ }
+
allctr->sbc_threshold = adjust_sbct(allctr, init->sbct);
#if HAVE_ERTS_MSEG
@@ -6461,9 +6799,9 @@ erts_alcu_start(Allctr_t *allctr, AllctrInit_t *init)
allctr->fix_shrink_scheduled = 0;
for (i = 0; i < ERTS_ALC_NO_FIXED_SIZES; i++) {
allctr->fix[i].type_size = init->fix_type_size[i];
+ allctr->fix[i].type = ERTS_ALC_N2T(i + ERTS_ALC_N_MIN_A_FIXED_SIZE);
allctr->fix[i].list_size = 0;
allctr->fix[i].list = NULL;
- ASSERT(allctr->fix[i].type_size >= sizeof(ErtsAllctrFixDDBlock_t));
if (ERTS_ALC_IS_CPOOL_ENABLED(allctr)) {
allctr->fix[i].u.cpool.min_list_size = 0;
allctr->fix[i].u.cpool.shrink_list = 0;
@@ -6512,12 +6850,16 @@ erts_alcu_stop(Allctr_t *allctr)
void
erts_alcu_init(AlcUInit_t *init)
{
- int i;
- for (i = 0; i <= ERTS_ALC_A_MAX; i++) {
- ErtsAlcCPoolData_t *sentinel = &carrier_pool[i].sentinel;
- erts_atomic_init_nob(&sentinel->next, (erts_aint_t) sentinel);
- erts_atomic_init_nob(&sentinel->prev, (erts_aint_t) sentinel);
- }
+ ErtsAlcCPoolData_t *sentinel;
+
+ sentinel = &firstfit_carrier_pool.sentinel;
+ erts_atomic_init_nob(&sentinel->next, (erts_aint_t) sentinel);
+ erts_atomic_init_nob(&sentinel->prev, (erts_aint_t) sentinel);
+
+ sentinel = &test_carrier_pool.sentinel;
+ erts_atomic_init_nob(&sentinel->next, (erts_aint_t) sentinel);
+ erts_atomic_init_nob(&sentinel->prev, (erts_aint_t) sentinel);
+
ERTS_CT_ASSERT(SBC_BLK_SZ_MASK == MBC_FBLK_SZ_MASK); /* see BLK_SZ */
#if HAVE_ERTS_MSEG
ASSERT(erts_mseg_unit_size() == ERTS_SACRR_UNIT_SZ);
@@ -6528,6 +6870,8 @@ erts_alcu_init(AlcUInit_t *init)
#endif
allow_sys_alloc_carriers = init->sac;
+ sys_page_size = erts_sys_get_page_size();
+
#ifdef DEBUG
carrier_alignment = sizeof(Unit_t);
#endif
@@ -6699,7 +7043,7 @@ static int blockscan_cpool_yielding(blockscan_t *state)
{
ErtsAlcCPoolData_t *sentinel, *cursor;
- sentinel = &carrier_pool[(state->allocator)->alloc_no].sentinel;
+ sentinel = (state->allocator)->cpool.sentinel;
cursor = blockscan_restore_cpool_cursor(state);
if (ERTS_PROC_IS_EXITING(state->process)) {
@@ -6831,11 +7175,8 @@ static int blockscan_sweep_mbcs(blockscan_t *state)
static int blockscan_sweep_cpool(blockscan_t *state)
{
if (state->current_op != blockscan_sweep_cpool) {
- ErtsAlcCPoolData_t *sentinel;
-
SET_CARRIER_HDR(&state->dummy_carrier, 0, SCH_MBC, state->allocator);
- sentinel = &carrier_pool[(state->allocator)->alloc_no].sentinel;
- state->cpool_cursor = sentinel;
+ state->cpool_cursor = (state->allocator)->cpool.sentinel;
}
state->current_op = blockscan_sweep_cpool;
@@ -7119,11 +7460,14 @@ static int gather_ahist_scan(Allctr_t *allocator,
alcu_atag_t tag;
block = SBC2BLK(allocator, carrier);
- tag = GET_BLK_ATAG(block);
- ASSERT(DBG_IS_VALID_ATAG(allocator, tag));
+ if (BLK_HAS_ATAG(block)) {
+ tag = GET_BLK_ATAG(block);
+
+ ASSERT(DBG_IS_VALID_ATAG(tag));
- gather_ahist_update(state, tag, SBC_BLK_SZ(block));
+ gather_ahist_update(state, tag, SBC_BLK_SZ(block));
+ }
} else {
UWord scanned_bytes = MBC_HEADER_SIZE(allocator);
@@ -7134,10 +7478,10 @@ static int gather_ahist_scan(Allctr_t *allocator,
while (1) {
UWord block_size = MBC_BLK_SZ(block);
- if (IS_ALLOCED_BLK(block)) {
+ if (IS_ALLOCED_BLK(block) && BLK_HAS_ATAG(block)) {
alcu_atag_t tag = GET_BLK_ATAG(block);
- ASSERT(DBG_IS_VALID_ATAG(allocator, tag));
+ ASSERT(DBG_IS_VALID_ATAG(tag));
gather_ahist_update(state, tag, block_size);
}
@@ -7297,8 +7641,6 @@ int erts_alcu_gather_alloc_histograms(Process *p, int allocator_num,
sched_id,
&allocator)) {
return 0;
- } else if (!allocator->atags) {
- return 0;
}
ensure_atoms_initialized(allocator);
diff --git a/erts/emulator/beam/erl_alloc_util.h b/erts/emulator/beam/erl_alloc_util.h
index f26ace1534..ea1afe8f58 100644
--- a/erts/emulator/beam/erl_alloc_util.h
+++ b/erts/emulator/beam/erl_alloc_util.h
@@ -24,6 +24,7 @@
#define ERTS_ALCU_VSN_STR "3.0"
#include "erl_alloc_types.h"
+#include "erl_alloc.h"
#define ERL_THREADS_EMU_INTERNAL__
#include "erl_threads.h"
@@ -44,6 +45,7 @@ typedef struct {
typedef struct {
char *name_prefix;
ErtsAlcType_t alloc_no;
+ ErtsAlcStrat_t alloc_strat;
int force;
int ix;
int ts;
@@ -101,6 +103,7 @@ typedef struct {
#define ERTS_DEFAULT_ALLCTR_INIT { \
NULL, \
ERTS_ALC_A_INVALID, /* (number) alloc_no: allocator number */\
+ ERTS_ALC_S_INVALID, /* (number) alloc_strat: allocator strategy */\
0, /* (bool) force: force enabled */\
0, /* (number) ix: instance index */\
1, /* (bool) ts: thread safe */\
@@ -138,6 +141,7 @@ typedef struct {
#define ERTS_DEFAULT_ALLCTR_INIT { \
NULL, \
ERTS_ALC_A_INVALID, /* (number) alloc_no: allocator number */\
+ ERTS_ALC_S_INVALID, /* (number) alloc_strat: allocator strategy */\
0, /* (bool) force: force enabled */\
0, /* (number) ix: instance index */\
1, /* (bool) ts: thread safe */\
@@ -188,6 +192,7 @@ Eterm erts_alcu_info(Allctr_t *, int, int, fmtfn_t *, void *, Uint **, Uint *);
void erts_alcu_init(AlcUInit_t *);
void erts_alcu_current_size(Allctr_t *, AllctrSize_t *,
ErtsAlcUFixInfo_t *, int);
+void erts_alcu_foreign_size(Allctr_t *, ErtsAlcType_t, AllctrSize_t *);
void erts_alcu_check_delayed_dealloc(Allctr_t *, int, int *, ErtsThrPrgrVal *, int *);
erts_aint32_t erts_alcu_fix_alloc_shrink(Allctr_t *, erts_aint32_t);
@@ -286,10 +291,18 @@ void erts_alcu_sched_spec_data_init(struct ErtsSchedulerData_ *esdp);
#define UNIT_FLOOR(X) ((X) & UNIT_MASK)
#define UNIT_CEILING(X) UNIT_FLOOR((X) + INV_UNIT_MASK)
-#define FLG_MASK INV_UNIT_MASK
-#define SBC_BLK_SZ_MASK UNIT_MASK
-#define MBC_FBLK_SZ_MASK UNIT_MASK
-#define CARRIER_SZ_MASK UNIT_MASK
+/* We store flags in the bits that no one will ever use. Generally these are
+ * the bits below the alignment size, but for blocks we also steal the highest
+ * bit since the header's a size and no one can expect to be able to allocate
+ * objects that large. */
+#define HIGHEST_WORD_BIT (((UWord) 1) << (sizeof(UWord) * CHAR_BIT - 1))
+
+#define BLK_FLG_MASK (INV_UNIT_MASK | HIGHEST_WORD_BIT)
+#define SBC_BLK_SZ_MASK (~BLK_FLG_MASK)
+#define MBC_FBLK_SZ_MASK (~BLK_FLG_MASK)
+
+#define CRR_FLG_MASK INV_UNIT_MASK
+#define CRR_SZ_MASK UNIT_MASK
#if ERTS_HAVE_MSEG_SUPER_ALIGNED \
|| (!HAVE_ERTS_MSEG && ERTS_HAVE_ERTS_SYS_ALIGNED_ALLOC)
@@ -299,9 +312,9 @@ void erts_alcu_sched_spec_data_init(struct ErtsSchedulerData_ *esdp);
# define ERTS_SUPER_ALIGN_BITS 18
# endif
# ifdef ARCH_64
-# define MBC_ABLK_OFFSET_BITS 24
+# define MBC_ABLK_OFFSET_BITS 23
# else
-# define MBC_ABLK_OFFSET_BITS 9
+# define MBC_ABLK_OFFSET_BITS 8
/* Affects hard limits for sbct and lmbcs documented in erts_alloc.xml */
# endif
# define ERTS_SACRR_UNIT_SHIFT ERTS_SUPER_ALIGN_BITS
@@ -322,18 +335,17 @@ void erts_alcu_sched_spec_data_init(struct ErtsSchedulerData_ *esdp);
#if MBC_ABLK_OFFSET_BITS
# define MBC_ABLK_OFFSET_SHIFT (sizeof(UWord)*8 - MBC_ABLK_OFFSET_BITS)
-# define MBC_ABLK_OFFSET_MASK (~((UWord)0) << MBC_ABLK_OFFSET_SHIFT)
-# define MBC_ABLK_SZ_MASK (~MBC_ABLK_OFFSET_MASK & ~FLG_MASK)
+# define MBC_ABLK_OFFSET_MASK ((~((UWord)0) << MBC_ABLK_OFFSET_SHIFT) & ~BLK_FLG_MASK)
+# define MBC_ABLK_SZ_MASK (~MBC_ABLK_OFFSET_MASK & ~BLK_FLG_MASK)
#else
-# define MBC_ABLK_SZ_MASK (~FLG_MASK)
+# define MBC_ABLK_SZ_MASK (~BLK_FLG_MASK)
#endif
#define MBC_ABLK_SZ(B) (ASSERT(!is_sbc_blk(B)), (B)->bhdr & MBC_ABLK_SZ_MASK)
#define MBC_FBLK_SZ(B) (ASSERT(!is_sbc_blk(B)), (B)->bhdr & MBC_FBLK_SZ_MASK)
#define SBC_BLK_SZ(B) (ASSERT(is_sbc_blk(B)), (B)->bhdr & SBC_BLK_SZ_MASK)
-#define CARRIER_SZ(C) \
- ((C)->chdr & CARRIER_SZ_MASK)
+#define CARRIER_SZ(C) ((C)->chdr & CRR_SZ_MASK)
typedef union {char c[ERTS_ALLOC_ALIGN_BYTES]; long l; double d;} Unit_t;
@@ -351,12 +363,20 @@ typedef struct {
#endif
} Block_t;
-typedef union ErtsAllctrDDBlock_t_ ErtsAllctrDDBlock_t;
+typedef struct ErtsAllctrDDBlock__ {
+ union {
+ struct ErtsAllctrDDBlock__ *ptr_next;
+ erts_atomic_t atmc_next;
+ } u;
+ ErtsAlcType_t type;
+ Uint32 flags;
+} ErtsAllctrDDBlock_t;
-union ErtsAllctrDDBlock_t_ {
- erts_atomic_t atmc_next;
- ErtsAllctrDDBlock_t *ptr_next;
-};
+/* Deallocation was caused by shrinking a fix-list, so usage statistics has
+ * already been updated. */
+#define DEALLOC_FLG_FIX_SHRINK (1 << 0)
+/* Deallocation was redirected to another instance. */
+#define DEALLOC_FLG_REDIRECTED (1 << 1)
typedef struct {
Block_t blk;
@@ -365,11 +385,10 @@ typedef struct {
#endif
} ErtsFakeDDBlock_t;
-
-
#define THIS_FREE_BLK_HDR_FLG (((UWord) 1) << 0)
#define PREV_FREE_BLK_HDR_FLG (((UWord) 1) << 1)
#define LAST_BLK_HDR_FLG (((UWord) 1) << 2)
+#define ATAG_BLK_HDR_FLG HIGHEST_WORD_BIT
#define SBC_BLK_HDR_FLG /* Special flag combo for (allocated) SBC blocks */\
(THIS_FREE_BLK_HDR_FLG | PREV_FREE_BLK_HDR_FLG | LAST_BLK_HDR_FLG)
@@ -381,9 +400,9 @@ typedef struct {
#define HOMECOMING_MBC_BLK_HDR (THIS_FREE_BLK_HDR_FLG | LAST_BLK_HDR_FLG)
#define IS_FREE_LAST_MBC_BLK(B) \
- (((B)->bhdr & FLG_MASK) == (THIS_FREE_BLK_HDR_FLG | LAST_BLK_HDR_FLG))
+ (((B)->bhdr & BLK_FLG_MASK) == (THIS_FREE_BLK_HDR_FLG | LAST_BLK_HDR_FLG))
-#define IS_SBC_BLK(B) (((B)->bhdr & FLG_MASK) == SBC_BLK_HDR_FLG)
+#define IS_SBC_BLK(B) (((B)->bhdr & SBC_BLK_HDR_FLG) == SBC_BLK_HDR_FLG)
#define IS_MBC_BLK(B) (!IS_SBC_BLK((B)))
#define IS_FREE_BLK(B) (ASSERT(IS_MBC_BLK(B)), \
(B)->bhdr & THIS_FREE_BLK_HDR_FLG)
@@ -394,7 +413,8 @@ typedef struct {
# define ABLK_TO_MBC(B) \
(ASSERT(IS_MBC_BLK(B) && !IS_FREE_BLK(B)), \
(Carrier_t*)((ERTS_SACRR_UNIT_FLOOR((UWord)(B)) - \
- (((B)->bhdr >> MBC_ABLK_OFFSET_SHIFT) << ERTS_SACRR_UNIT_SHIFT))))
+ ((((B)->bhdr & ~BLK_FLG_MASK) >> MBC_ABLK_OFFSET_SHIFT) \
+ << ERTS_SACRR_UNIT_SHIFT))))
# define BLK_TO_MBC(B) (IS_FREE_BLK(B) ? FBLK_TO_MBC(B) : ABLK_TO_MBC(B))
#else
# define FBLK_TO_MBC(B) ((B)->carrier)
@@ -433,8 +453,9 @@ typedef struct {
ErtsThrPrgrVal thr_prgr;
erts_atomic_t max_size;
UWord abandon_limit;
- UWord blocks;
- UWord blocks_size;
+ UWord blocks[ERTS_ALC_A_MAX + 1];
+ UWord blocks_size[ERTS_ALC_A_MAX + 1];
+ UWord total_blocks_size;
enum {
ERTS_MBC_IS_HOME,
ERTS_MBC_WAS_POOLED,
@@ -452,7 +473,7 @@ struct Carrier_t_ {
};
#define ERTS_ALC_CARRIER_TO_ALLCTR(C) \
- ((Allctr_t *) (erts_atomic_read_nob(&(C)->allctr) & ~FLG_MASK))
+ ((Allctr_t *) (erts_atomic_read_nob(&(C)->allctr) & ~CRR_FLG_MASK))
typedef struct {
Carrier_t *first;
@@ -530,7 +551,6 @@ typedef struct {
} head;
} ErtsAllctrDDQueue_t;
-
typedef struct {
size_t type_size;
SWord list_size;
@@ -549,6 +569,7 @@ typedef struct {
UWord used;
} cpool;
} u;
+ ErtsAlcType_t type;
} ErtsAlcFixList_t;
struct Allctr_t_ {
@@ -569,6 +590,9 @@ struct Allctr_t_ {
/* Allocator number */
ErtsAlcType_t alloc_no;
+ /* Allocator strategy */
+ ErtsAlcStrat_t alloc_strat;
+
/* Instance index */
int ix;
@@ -617,6 +641,9 @@ struct Allctr_t_ {
AOFF_RBTree_t* pooled_tree;
CarrierList_t dc_list;
+ /* the sentinel of the cpool we're attached to */
+ ErtsAlcCPoolData_t *sentinel;
+
UWord abandon_limit;
int disable_abandon;
int check_limit_count;
@@ -624,8 +651,8 @@ struct Allctr_t_ {
UWord in_pool_limit; /* acnl */
UWord fblk_min_limit; /* acmfl */
struct {
- erts_atomic_t blocks_size;
- erts_atomic_t no_blocks;
+ erts_atomic_t blocks_size[ERTS_ALC_A_MAX + 1];
+ erts_atomic_t no_blocks[ERTS_ALC_A_MAX + 1];
erts_atomic_t carriers_size;
erts_atomic_t no_carriers;
CallCounter_t fail_pooled;
@@ -657,10 +684,12 @@ struct Allctr_t_ {
void (*creating_mbc) (Allctr_t *, Carrier_t *);
void (*destroying_mbc) (Allctr_t *, Carrier_t *);
- /* The three callbacks below are needed to support carrier migration */
+ /* The five callbacks below are needed to support carrier migration. */
void (*add_mbc) (Allctr_t *, Carrier_t *);
void (*remove_mbc) (Allctr_t *, Carrier_t *);
UWord (*largest_fblk_in_mbc) (Allctr_t *, Carrier_t *);
+ Block_t * (*first_fblk_in_mbc) (Allctr_t *, Carrier_t *);
+ Block_t * (*next_fblk_in_mbc) (Allctr_t *, Carrier_t *, Block_t *);
#if HAVE_ERTS_MSEG
void* (*mseg_alloc)(Allctr_t*, Uint *size_p, Uint flags);
diff --git a/erts/emulator/beam/erl_ao_firstfit_alloc.c b/erts/emulator/beam/erl_ao_firstfit_alloc.c
index 3f0ab33597..f2ad2f6532 100644
--- a/erts/emulator/beam/erl_ao_firstfit_alloc.c
+++ b/erts/emulator/beam/erl_ao_firstfit_alloc.c
@@ -107,9 +107,11 @@ typedef struct AOFF_Carrier_t_ AOFF_Carrier_t;
struct AOFF_Carrier_t_ {
Carrier_t crr;
- AOFF_RBTree_t rbt_node; /* My node in the carrier tree */
- AOFF_RBTree_t* root; /* Root of my block tree */
+ AOFF_RBTree_t rbt_node; /* My node in the carrier tree */
+ AOFF_RBTree_t* root; /* Root of my block tree */
+ enum AOFFSortOrder blk_order;
};
+
#define RBT_NODE_TO_MBC(PTR) ErtsContainerStruct((PTR), AOFF_Carrier_t, rbt_node)
/*
@@ -239,6 +241,9 @@ static void aoff_add_mbc(Allctr_t*, Carrier_t*);
static void aoff_remove_mbc(Allctr_t*, Carrier_t*);
static UWord aoff_largest_fblk_in_mbc(Allctr_t*, Carrier_t*);
+static Block_t *aoff_first_fblk_in_mbc(Allctr_t *, Carrier_t *);
+static Block_t *aoff_next_fblk_in_mbc(Allctr_t *, Carrier_t *, Block_t *);
+
/* Generic tree functions used by both carrier and block trees. */
static void rbt_delete(AOFF_RBTree_t** root, AOFF_RBTree_t* del);
static void rbt_insert(enum AOFFSortOrder, AOFF_RBTree_t** root, AOFF_RBTree_t* blk);
@@ -281,15 +286,28 @@ erts_aoffalc_start(AOFFAllctr_t *alc,
sys_memcpy((void *) alc, (void *) &zero.allctr, sizeof(AOFFAllctr_t));
+ if (aoffinit->blk_order == FF_CHAOS) {
+ const enum AOFFSortOrder orders[3] = {FF_AOFF, FF_AOBF, FF_BF};
+ int index = init->ix % (sizeof(orders) / sizeof(orders[0]));
+
+ ASSERT(init->alloc_no == ERTS_ALC_A_TEST);
+ aoffinit->blk_order = orders[index];
+ }
+
+ if (aoffinit->crr_order == FF_CHAOS) {
+ const enum AOFFSortOrder orders[2] = {FF_AGEFF, FF_AOFF};
+ int index = init->ix % (sizeof(orders) / sizeof(orders[0]));
+
+ ASSERT(init->alloc_no == ERTS_ALC_A_TEST);
+ aoffinit->crr_order = orders[index];
+ }
+
alc->blk_order = aoffinit->blk_order;
alc->crr_order = aoffinit->crr_order;
allctr->mbc_header_size = sizeof(AOFF_Carrier_t);
allctr->min_mbc_size = MIN_MBC_SZ;
allctr->min_mbc_first_free_size = MIN_MBC_FIRST_FREE_SZ;
- allctr->min_block_size = (aoffinit->blk_order == FF_BF
- ? (offsetof(AOFF_RBTree_t, u.next)
- + ErtsSizeofMember(AOFF_RBTree_t, u.next))
- : offsetof(AOFF_RBTree_t, u));
+ allctr->min_block_size = sizeof(AOFF_RBTree_t);
allctr->vsn_str = ERTS_ALC_AOFF_ALLOC_VSN_STR;
@@ -311,6 +329,8 @@ erts_aoffalc_start(AOFFAllctr_t *alc,
allctr->add_mbc = aoff_add_mbc;
allctr->remove_mbc = aoff_remove_mbc;
allctr->largest_fblk_in_mbc = aoff_largest_fblk_in_mbc;
+ allctr->first_fblk_in_mbc = aoff_first_fblk_in_mbc;
+ allctr->next_fblk_in_mbc = aoff_next_fblk_in_mbc;
allctr->init_atoms = init_atoms;
#ifdef ERTS_ALLOC_UTIL_HARD_DEBUG
@@ -512,14 +532,15 @@ tree_insert_fixup(AOFF_RBTree_t** root, AOFF_RBTree_t *blk)
static void
aoff_unlink_free_block(Allctr_t *allctr, Block_t *blk)
{
- AOFFAllctr_t* alc = (AOFFAllctr_t*)allctr;
AOFF_RBTree_t* del = (AOFF_RBTree_t*)blk;
AOFF_Carrier_t *crr = (AOFF_Carrier_t*) FBLK_TO_MBC(&del->hdr);
+ (void)allctr;
+
ASSERT(crr->rbt_node.hdr.bhdr == crr->root->max_sz);
- HARD_CHECK_TREE(&crr->crr, alc->blk_order, crr->root, 0);
+ HARD_CHECK_TREE(&crr->crr, crr->blk_order, crr->root, 0);
- if (alc->blk_order == FF_BF) {
+ if (crr->blk_order == FF_BF) {
ASSERT(del->flags & IS_BF_FLG);
if (IS_LIST_ELEM(del)) {
/* Remove from list */
@@ -540,14 +561,14 @@ aoff_unlink_free_block(Allctr_t *allctr, Block_t *blk)
replace(&crr->root, (AOFF_RBTree_t*)del, LIST_NEXT(del));
- HARD_CHECK_TREE(&crr->crr, alc->blk_order, crr->root, 0);
+ HARD_CHECK_TREE(&crr->crr, crr->blk_order, crr->root, 0);
return;
}
}
rbt_delete(&crr->root, (AOFF_RBTree_t*)del);
- HARD_CHECK_TREE(&crr->crr, alc->blk_order, crr->root, 0);
+ HARD_CHECK_TREE(&crr->crr, crr->blk_order, crr->root, 0);
/* Update the carrier tree with a potentially new (lower) max_sz
*/
@@ -737,17 +758,18 @@ rbt_delete(AOFF_RBTree_t** root, AOFF_RBTree_t* del)
static void
aoff_link_free_block(Allctr_t *allctr, Block_t *block)
{
- AOFFAllctr_t* alc = (AOFFAllctr_t*) allctr;
AOFF_RBTree_t *blk = (AOFF_RBTree_t *) block;
AOFF_RBTree_t *crr_node;
AOFF_Carrier_t *blk_crr = (AOFF_Carrier_t*) FBLK_TO_MBC(block);
Uint blk_sz = AOFF_BLK_SZ(blk);
+ (void)allctr;
+
ASSERT(allctr == ERTS_ALC_CARRIER_TO_ALLCTR(&blk_crr->crr));
ASSERT(blk_crr->rbt_node.hdr.bhdr == (blk_crr->root ? blk_crr->root->max_sz : 0));
- HARD_CHECK_TREE(&blk_crr->crr, alc->blk_order, blk_crr->root, 0);
+ HARD_CHECK_TREE(&blk_crr->crr, blk_crr->blk_order, blk_crr->root, 0);
- rbt_insert(alc->blk_order, &blk_crr->root, blk);
+ rbt_insert(blk_crr->blk_order, &blk_crr->root, blk);
/*
* Update carrier tree with a potentially new (larger) max_sz
@@ -891,7 +913,7 @@ aoff_get_free_block(Allctr_t *allctr, Uint size,
/* Get block within carrier tree
*/
#ifdef HARD_DEBUG
- dbg_blk = HARD_CHECK_TREE(&crr->crr, alc->blk_order, crr->root, size);
+ dbg_blk = HARD_CHECK_TREE(&crr->crr, crr->blk_order, crr->root, size);
#endif
blk = rbt_search(crr->root, size);
@@ -904,7 +926,7 @@ aoff_get_free_block(Allctr_t *allctr, Uint size,
if (!blk)
return NULL;
- if (cand_blk && cmp_cand_blk(alc->blk_order, cand_blk, blk) < 0) {
+ if (cand_blk && cmp_cand_blk(crr->blk_order, cand_blk, blk) < 0) {
return NULL; /* cand_blk was better */
}
@@ -927,21 +949,28 @@ static void aoff_creating_mbc(Allctr_t *allctr, Carrier_t *carrier)
AOFFAllctr_t *alc = (AOFFAllctr_t *) allctr;
AOFF_Carrier_t *crr = (AOFF_Carrier_t*) carrier;
AOFF_RBTree_t **root = &alc->mbc_root;
+ Sint64 bt = get_birth_time();
HARD_CHECK_TREE(NULL, alc->crr_order, *root, 0);
crr->rbt_node.hdr.bhdr = 0;
- if (alc->crr_order == FF_AGEFF || IS_DEBUG) {
- Sint64 bt = get_birth_time();
- crr->rbt_node.u.birth_time = bt;
- crr->crr.cpool.pooled.u.birth_time = bt;
- }
+
+ /* While birth time is only used for FF_AGEFF, we have to set it for all
+ * types as we can be migrated to an instance that uses it and we don't
+ * want to mess its order up. */
+ crr->rbt_node.u.birth_time = bt;
+ crr->crr.cpool.pooled.u.birth_time = bt;
+
rbt_insert(alc->crr_order, root, &crr->rbt_node);
/* aoff_link_free_block will add free block later */
crr->root = NULL;
HARD_CHECK_TREE(NULL, alc->crr_order, *root, 0);
+
+ /* When a carrier has been migrated, its block order may differ from that
+ * of the allocator it's been migrated to. */
+ crr->blk_order = alc->blk_order;
}
#define IS_CRR_IN_TREE(CRR,ROOT) \
@@ -1034,6 +1063,62 @@ static UWord aoff_largest_fblk_in_mbc(Allctr_t* allctr, Carrier_t* carrier)
return crr->rbt_node.hdr.bhdr;
}
+static Block_t *aoff_first_fblk_in_mbc(Allctr_t *allctr, Carrier_t *carrier)
+{
+ AOFF_Carrier_t *crr = (AOFF_Carrier_t*)carrier;
+
+ (void)allctr;
+
+ if (crr->root) {
+ AOFF_RBTree_t *blk;
+
+ /* Descend to the rightmost block of the tree. */
+ for (blk = crr->root; blk->right; blk = blk->right);
+
+ return (Block_t*)blk;
+ }
+
+ return NULL;
+}
+
+static Block_t *aoff_next_fblk_in_mbc(Allctr_t *allctr, Carrier_t *carrier,
+ Block_t *block)
+{
+ AOFF_RBTree_t *parent, *blk;
+
+ (void)allctr;
+ (void)carrier;
+
+ blk = (AOFF_RBTree_t*)block;
+
+ if (blk->left) {
+ /* Descend to the rightmost block of the left subtree. */
+ for (blk = blk->left; blk->right; blk = blk->right);
+
+ return (Block_t*)blk;
+ }
+
+ while (blk->parent) {
+ parent = blk->parent;
+
+ /* If we ascend from the right we know we haven't visited our parent
+ * yet, because we always descend as far as we can to the right when
+ * entering a subtree. */
+ if (parent->right == blk) {
+ ASSERT(parent->left != blk);
+ return (Block_t*)parent;
+ }
+
+ /* If we ascend from the left we know we've already visited our
+ * parent, and will need to keep ascending until we do so from the
+ * right or reach the end of the tree. */
+ ASSERT(parent->left == blk);
+ blk = parent;
+ }
+
+ return NULL;
+}
+
/*
* info_options()
*/
diff --git a/erts/emulator/beam/erl_ao_firstfit_alloc.h b/erts/emulator/beam/erl_ao_firstfit_alloc.h
index 68df9e0a49..9c9b98da86 100644
--- a/erts/emulator/beam/erl_ao_firstfit_alloc.h
+++ b/erts/emulator/beam/erl_ao_firstfit_alloc.h
@@ -32,7 +32,12 @@ enum AOFFSortOrder {
FF_AGEFF = 0, /* carrier trees only */
FF_AOFF = 1,
FF_AOBF = 2, /* block trees only */
- FF_BF = 3 /* block trees only */
+ FF_BF = 3, /* block trees only */
+
+ FF_CHAOS = -1 /* A test-specific sort order that picks any of the above
+ * after instance id. Used to test that carriers created
+ * under one order will work fine after being migrated
+ * to another. */
};
typedef struct {
diff --git a/erts/emulator/beam/erl_arith.c b/erts/emulator/beam/erl_arith.c
index 144fb56ea5..68d1cd989e 100644
--- a/erts/emulator/beam/erl_arith.c
+++ b/erts/emulator/beam/erl_arith.c
@@ -52,19 +52,11 @@ static ERTS_INLINE void maybe_shrink(Process* p, Eterm* hp, Eterm res, Uint allo
Uint actual;
if (is_immed(res)) {
- if (p->heap <= hp && hp < p->htop) {
- p->htop = hp;
- }
- else {
- erts_heap_frag_shrink(p, hp);
- }
+ ASSERT(!(p->heap <= hp && hp < p->htop));
+ erts_heap_frag_shrink(p, hp);
} else if ((actual = bignum_header_arity(*hp)+1) < alloc) {
- if (p->heap <= hp && hp < p->htop) {
- p->htop = hp+actual;
- }
- else {
- erts_heap_frag_shrink(p, hp+actual);
- }
+ ASSERT(!(p->heap <= hp && hp < p->htop));
+ erts_heap_frag_shrink(p, hp+actual);
}
}
@@ -246,7 +238,7 @@ shift(Process* p, Eterm arg1, Eterm arg2, int right)
BIF_ERROR(p, SYSTEM_LIMIT);
}
need = BIG_NEED_SIZE(ires+1);
- bigp = HAlloc(p, need);
+ bigp = HeapFragOnlyAlloc(p, need);
arg1 = big_lshift(arg1, i, bigp);
maybe_shrink(p, bigp, arg1, need);
if (is_nil(arg1)) {
@@ -298,7 +290,7 @@ BIF_RETTYPE bnot_1(BIF_ALIST_1)
ret = make_small(~signed_val(BIF_ARG_1));
} else if (is_big(BIF_ARG_1)) {
Uint need = BIG_NEED_SIZE(big_size(BIF_ARG_1)+1);
- Eterm* bigp = HAlloc(BIF_P, need);
+ Eterm* bigp = HeapFragOnlyAlloc(BIF_P, need);
ret = big_bnot(BIF_ARG_1, bigp);
maybe_shrink(BIF_P, bigp, ret, need);
@@ -343,7 +335,7 @@ erts_mixed_plus(Process* p, Eterm arg1, Eterm arg2)
if (IS_SSMALL(ires)) {
return make_small(ires);
} else {
- hp = HAlloc(p, 2);
+ hp = HeapFragOnlyAlloc(p, 2);
res = small_to_big(ires, hp);
return res;
}
@@ -400,7 +392,7 @@ erts_mixed_plus(Process* p, Eterm arg1, Eterm arg2)
sz2 = big_size(arg2);
sz = MAX(sz1, sz2)+1;
need_heap = BIG_NEED_SIZE(sz);
- hp = HAlloc(p, need_heap);
+ hp = HeapFragOnlyAlloc(p, need_heap);
res = big_plus(arg1, arg2, hp);
maybe_shrink(p, hp, res, need_heap);
if (is_nil(res)) {
@@ -446,7 +438,7 @@ erts_mixed_plus(Process* p, Eterm arg1, Eterm arg2)
do_float:
f1.fd = f1.fd + f2.fd;
ERTS_FP_ERROR(p, f1.fd, goto badarith);
- hp = HAlloc(p, FLOAT_SIZE_OBJECT);
+ hp = HeapFragOnlyAlloc(p, FLOAT_SIZE_OBJECT);
res = make_float(hp);
PUT_DOUBLE(f1, hp);
return res;
@@ -488,7 +480,7 @@ erts_mixed_minus(Process* p, Eterm arg1, Eterm arg2)
if (IS_SSMALL(ires)) {
return make_small(ires);
} else {
- hp = HAlloc(p, 2);
+ hp = HeapFragOnlyAlloc(p, 2);
res = small_to_big(ires, hp);
return res;
}
@@ -534,7 +526,7 @@ erts_mixed_minus(Process* p, Eterm arg1, Eterm arg2)
sz2 = big_size(arg2);
sz = MAX(sz1, sz2)+1;
need_heap = BIG_NEED_SIZE(sz);
- hp = HAlloc(p, need_heap);
+ hp = HeapFragOnlyAlloc(p, need_heap);
res = big_minus(arg1, arg2, hp);
maybe_shrink(p, hp, res, need_heap);
if (is_nil(res)) {
@@ -589,7 +581,7 @@ erts_mixed_minus(Process* p, Eterm arg1, Eterm arg2)
do_float:
f1.fd = f1.fd - f2.fd;
ERTS_FP_ERROR(p, f1.fd, goto badarith);
- hp = HAlloc(p, FLOAT_SIZE_OBJECT);
+ hp = HeapFragOnlyAlloc(p, FLOAT_SIZE_OBJECT);
res = make_float(hp);
PUT_DOUBLE(f1, hp);
return res;
@@ -657,7 +649,7 @@ erts_mixed_times(Process* p, Eterm arg1, Eterm arg2)
hdr = big_res[0];
arity = bignum_header_arity(hdr);
ASSERT(arity == 1 || arity == 2);
- hp = HAlloc(p, arity+1);
+ hp = HeapFragOnlyAlloc(p, arity+1);
res = make_big(hp);
*hp++ = hdr;
*hp++ = big_res[1];
@@ -726,7 +718,7 @@ erts_mixed_times(Process* p, Eterm arg1, Eterm arg2)
do_big:
need_heap = BIG_NEED_SIZE(sz);
- hp = HAlloc(p, need_heap);
+ hp = HeapFragOnlyAlloc(p, need_heap);
res = big_times(arg1, arg2, hp);
/*
@@ -779,7 +771,7 @@ erts_mixed_times(Process* p, Eterm arg1, Eterm arg2)
do_float:
f1.fd = f1.fd * f2.fd;
ERTS_FP_ERROR(p, f1.fd, goto badarith);
- hp = HAlloc(p, FLOAT_SIZE_OBJECT);
+ hp = HeapFragOnlyAlloc(p, FLOAT_SIZE_OBJECT);
res = make_float(hp);
PUT_DOUBLE(f1, hp);
return res;
@@ -905,7 +897,7 @@ erts_mixed_div(Process* p, Eterm arg1, Eterm arg2)
do_float:
f1.fd = f1.fd / f2.fd;
ERTS_FP_ERROR(p, f1.fd, goto badarith);
- hp = HAlloc(p, FLOAT_SIZE_OBJECT);
+ hp = HeapFragOnlyAlloc(p, FLOAT_SIZE_OBJECT);
PUT_DOUBLE(f1, hp);
return make_float(hp);
default:
@@ -957,7 +949,7 @@ erts_int_div(Process* p, Eterm arg1, Eterm arg2)
ires = big_size(arg2);
need = BIG_NEED_SIZE(i-ires+1) + BIG_NEED_SIZE(i);
- hp = HAlloc(p, need);
+ hp = HeapFragOnlyAlloc(p, need);
arg1 = big_div(arg1, arg2, hp);
maybe_shrink(p, hp, arg1, need);
if (is_nil(arg1)) {
@@ -1004,7 +996,7 @@ erts_int_rem(Process* p, Eterm arg1, Eterm arg2)
arg1 = SMALL_ZERO;
} else if (ires > 0) {
Uint need = BIG_NEED_SIZE(big_size(arg1));
- Eterm* hp = HAlloc(p, need);
+ Eterm* hp = HeapFragOnlyAlloc(p, need);
arg1 = big_rem(arg1, arg2, hp);
maybe_shrink(p, hp, arg1, need);
@@ -1041,7 +1033,7 @@ Eterm erts_band(Process* p, Eterm arg1, Eterm arg2)
return THE_NON_VALUE;
}
need = BIG_NEED_SIZE(MAX(big_size(arg1), big_size(arg2)) + 1);
- hp = HAlloc(p, need);
+ hp = HeapFragOnlyAlloc(p, need);
arg1 = big_band(arg1, arg2, hp);
ASSERT(is_not_nil(arg1));
maybe_shrink(p, hp, arg1, need);
@@ -1069,7 +1061,7 @@ Eterm erts_bor(Process* p, Eterm arg1, Eterm arg2)
return THE_NON_VALUE;
}
need = BIG_NEED_SIZE(MAX(big_size(arg1), big_size(arg2)) + 1);
- hp = HAlloc(p, need);
+ hp = HeapFragOnlyAlloc(p, need);
arg1 = big_bor(arg1, arg2, hp);
ASSERT(is_not_nil(arg1));
maybe_shrink(p, hp, arg1, need);
@@ -1097,7 +1089,7 @@ Eterm erts_bxor(Process* p, Eterm arg1, Eterm arg2)
return THE_NON_VALUE;
}
need = BIG_NEED_SIZE(MAX(big_size(arg1), big_size(arg2)) + 1);
- hp = HAlloc(p, need);
+ hp = HeapFragOnlyAlloc(p, need);
arg1 = big_bxor(arg1, arg2, hp);
ASSERT(is_not_nil(arg1));
maybe_shrink(p, hp, arg1, need);
@@ -1110,7 +1102,7 @@ Eterm erts_bnot(Process* p, Eterm arg)
if (is_big(arg)) {
Uint need = BIG_NEED_SIZE(big_size(arg)+1);
- Eterm* bigp = HAlloc(p, need);
+ Eterm* bigp = HeapFragOnlyAlloc(p, need);
ret = big_bnot(arg, bigp);
maybe_shrink(p, bigp, ret, need);
@@ -1125,924 +1117,6 @@ Eterm erts_bnot(Process* p, Eterm arg)
return ret;
}
-#define ERTS_NEED_GC(p, need) ((HEAP_LIMIT((p)) - HEAP_TOP((p))) <= (need))
-
-static ERTS_INLINE void
-trim_heap(Process* p, Eterm* hp, Eterm res)
-{
- if (is_immed(res)) {
- ASSERT(p->heap <= hp && hp <= p->htop);
- p->htop = hp;
- } else {
- Eterm* new_htop;
- ASSERT(is_big(res));
- new_htop = hp + bignum_header_arity(*hp) + 1;
- ASSERT(p->heap <= new_htop && new_htop <= p->htop);
- p->htop = new_htop;
- }
- ASSERT(p->heap <= p->htop && p->htop <= p->stop);
-}
-
-/*
- * The functions that follow are called from the emulator loop.
- * They are not allowed to allocate heap fragments, but must do
- * a garbage collection if there is insufficient heap space.
- */
-
-#define erts_heap_frag_shrink horrible error
-#define maybe_shrink horrible error
-
-Eterm
-erts_gc_mixed_plus(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg1;
- Eterm arg2;
- DECLARE_TMP(tmp_big1,0,p);
- DECLARE_TMP(tmp_big2,1,p);
- Eterm res;
- Eterm hdr;
- FloatDef f1, f2;
- dsize_t sz1, sz2, sz;
- int need_heap;
- Eterm* hp;
- Sint ires;
-
- arg1 = reg[live];
- arg2 = reg[live+1];
- ERTS_FP_CHECK_INIT(p);
- switch (arg1 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg1 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- ires = signed_val(arg1) + signed_val(arg2);
- if (IS_SSMALL(ires)) {
- return make_small(ires);
- } else {
- if (ERTS_NEED_GC(p, 2)) {
- erts_garbage_collect(p, 2, reg, live);
- }
- hp = p->htop;
- p->htop += 2;
- res = small_to_big(ires, hp);
- return res;
- }
- default:
- badarith:
- p->freason = BADARITH;
- return THE_NON_VALUE;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- if (arg1 == SMALL_ZERO) {
- return arg2;
- }
- arg1 = small_to_big(signed_val(arg1), tmp_big1);
- goto do_big;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- f1.fd = signed_val(arg1);
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg1);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- if (arg2 == SMALL_ZERO) {
- return arg1;
- }
- arg2 = small_to_big(signed_val(arg2), tmp_big2);
- goto do_big;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- do_big:
- sz1 = big_size(arg1);
- sz2 = big_size(arg2);
- sz = MAX(sz1, sz2)+1;
- need_heap = BIG_NEED_SIZE(sz);
- if (ERTS_NEED_GC(p, need_heap)) {
- erts_garbage_collect(p, need_heap, reg, live+2);
- if (ARG_IS_NOT_TMP(arg1,tmp_big1)) {
- arg1 = reg[live];
- }
- if (ARG_IS_NOT_TMP(arg2,tmp_big2)) {
- arg2 = reg[live+1];
- }
- }
- hp = p->htop;
- p->htop += need_heap;
- res = big_plus(arg1, arg2, hp);
- trim_heap(p, hp, res);
- if (is_nil(res)) {
- p->freason = SYSTEM_LIMIT;
- return THE_NON_VALUE;
- }
- return res;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- if (big_to_double(arg1, &f1.fd) < 0) {
- goto badarith;
- }
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- f2.fd = signed_val(arg2);
- goto do_float;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- if (big_to_double(arg2, &f2.fd) < 0) {
- goto badarith;
- }
- goto do_float;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- GET_DOUBLE(arg2, f2);
-
- do_float:
- f1.fd = f1.fd + f2.fd;
- ERTS_FP_ERROR(p, f1.fd, goto badarith);
- if (ERTS_NEED_GC(p, FLOAT_SIZE_OBJECT)) {
- erts_garbage_collect(p, FLOAT_SIZE_OBJECT, reg, live);
- }
- hp = p->htop;
- p->htop += FLOAT_SIZE_OBJECT;
- res = make_float(hp);
- PUT_DOUBLE(f1, hp);
- return res;
- default:
- goto badarith;
- }
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
-}
-
-Eterm
-erts_gc_mixed_minus(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg1;
- Eterm arg2;
- DECLARE_TMP(tmp_big1,0,p);
- DECLARE_TMP(tmp_big2,1,p);
- Eterm hdr;
- Eterm res;
- FloatDef f1, f2;
- dsize_t sz1, sz2, sz;
- int need_heap;
- Eterm* hp;
- Sint ires;
-
- arg1 = reg[live];
- arg2 = reg[live+1];
- ERTS_FP_CHECK_INIT(p);
- switch (arg1 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg1 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- ires = signed_val(arg1) - signed_val(arg2);
- if (IS_SSMALL(ires)) {
- return make_small(ires);
- } else {
- if (ERTS_NEED_GC(p, 2)) {
- erts_garbage_collect(p, 2, reg, live);
- }
- hp = p->htop;
- p->htop += 2;
- res = small_to_big(ires, hp);
- return res;
- }
- default:
- badarith:
- p->freason = BADARITH;
- return THE_NON_VALUE;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- arg1 = small_to_big(signed_val(arg1), tmp_big1);
- goto do_big;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- f1.fd = signed_val(arg1);
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg1);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- if (arg2 == SMALL_ZERO) {
- return arg1;
- }
- arg2 = small_to_big(signed_val(arg2), tmp_big2);
-
- do_big:
- sz1 = big_size(arg1);
- sz2 = big_size(arg2);
- sz = MAX(sz1, sz2)+1;
- need_heap = BIG_NEED_SIZE(sz);
- if (ERTS_NEED_GC(p, need_heap)) {
- erts_garbage_collect(p, need_heap, reg, live+2);
- if (ARG_IS_NOT_TMP(arg1,tmp_big1)) {
- arg1 = reg[live];
- }
- if (ARG_IS_NOT_TMP(arg2,tmp_big2)) {
- arg2 = reg[live+1];
- }
- }
- hp = p->htop;
- p->htop += need_heap;
- res = big_minus(arg1, arg2, hp);
- trim_heap(p, hp, res);
- if (is_nil(res)) {
- p->freason = SYSTEM_LIMIT;
- return THE_NON_VALUE;
- }
- return res;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- goto do_big;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- if (big_to_double(arg1, &f1.fd) < 0) {
- goto badarith;
- }
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- f2.fd = signed_val(arg2);
- goto do_float;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- if (big_to_double(arg2, &f2.fd) < 0) {
- goto badarith;
- }
- goto do_float;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- GET_DOUBLE(arg2, f2);
-
- do_float:
- f1.fd = f1.fd - f2.fd;
- ERTS_FP_ERROR(p, f1.fd, goto badarith);
- if (ERTS_NEED_GC(p, FLOAT_SIZE_OBJECT)) {
- erts_garbage_collect(p, FLOAT_SIZE_OBJECT, reg, live);
- }
- hp = p->htop;
- p->htop += FLOAT_SIZE_OBJECT;
- res = make_float(hp);
- PUT_DOUBLE(f1, hp);
- return res;
- default:
- goto badarith;
- }
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
-}
-
-Eterm
-erts_gc_mixed_times(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg1;
- Eterm arg2;
- DECLARE_TMP(tmp_big1,0,p);
- DECLARE_TMP(tmp_big2,1,p);
- Eterm hdr;
- Eterm res;
- FloatDef f1, f2;
- dsize_t sz1, sz2, sz;
- int need_heap;
- Eterm* hp;
-
- arg1 = reg[live];
- arg2 = reg[live+1];
- ERTS_FP_CHECK_INIT(p);
- switch (arg1 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg1 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- if ((arg1 == SMALL_ZERO) || (arg2 == SMALL_ZERO)) {
- return(SMALL_ZERO);
- } else if (arg1 == SMALL_ONE) {
- return(arg2);
- } else if (arg2 == SMALL_ONE) {
- return(arg1);
- } else {
- DeclareTmpHeap(big_res,3,p);
- UseTmpHeap(3,p);
-
- /*
- * The following code is optimized for the case that
- * result is small (which should be the most common case
- * in practice).
- */
- res = small_times(signed_val(arg1), signed_val(arg2),
- big_res);
- if (is_small(res)) {
- UnUseTmpHeap(3,p);
- return res;
- } else {
- /*
- * The result is a a big number.
- * Allocate a heap fragment and copy the result.
- * Be careful to allocate exactly what we need
- * to not leave any holes.
- */
- Uint arity;
- Uint need;
-
- ASSERT(is_big(res));
- hdr = big_res[0];
- arity = bignum_header_arity(hdr);
- ASSERT(arity == 1 || arity == 2);
- need = arity + 1;
- if (ERTS_NEED_GC(p, need)) {
- erts_garbage_collect(p, need, reg, live);
- }
- hp = p->htop;
- p->htop += need;
- res = make_big(hp);
- *hp++ = hdr;
- *hp++ = big_res[1];
- if (arity > 1) {
- *hp = big_res[2];
- }
- UnUseTmpHeap(3,p);
- return res;
- }
- }
- default:
- badarith:
- p->freason = BADARITH;
- return THE_NON_VALUE;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- if (arg1 == SMALL_ZERO)
- return(SMALL_ZERO);
- if (arg1 == SMALL_ONE)
- return(arg2);
- arg1 = small_to_big(signed_val(arg1), tmp_big1);
- sz = 2 + big_size(arg2);
- goto do_big;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- f1.fd = signed_val(arg1);
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg1);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- if (arg2 == SMALL_ZERO)
- return(SMALL_ZERO);
- if (arg2 == SMALL_ONE)
- return(arg1);
- arg2 = small_to_big(signed_val(arg2), tmp_big2);
- sz = 2 + big_size(arg1);
- goto do_big;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- sz1 = big_size(arg1);
- sz2 = big_size(arg2);
- sz = sz1 + sz2;
-
- do_big:
- need_heap = BIG_NEED_SIZE(sz);
- if (ERTS_NEED_GC(p, need_heap)) {
- erts_garbage_collect(p, need_heap, reg, live+2);
- if (ARG_IS_NOT_TMP(arg1,tmp_big1)) {
- arg1 = reg[live];
- }
- if (ARG_IS_NOT_TMP(arg2,tmp_big2)) {
- arg2 = reg[live+1];
- }
- }
- hp = p->htop;
- p->htop += need_heap;
- res = big_times(arg1, arg2, hp);
- trim_heap(p, hp, res);
-
- /*
- * Note that the result must be big in this case, since
- * at least one operand was big to begin with, and
- * the absolute value of the other is > 1.
- */
-
- if (is_nil(res)) {
- p->freason = SYSTEM_LIMIT;
- return THE_NON_VALUE;
- }
- return res;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- if (big_to_double(arg1, &f1.fd) < 0) {
- goto badarith;
- }
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- f2.fd = signed_val(arg2);
- goto do_float;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- if (big_to_double(arg2, &f2.fd) < 0) {
- goto badarith;
- }
- goto do_float;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- GET_DOUBLE(arg2, f2);
-
- do_float:
- f1.fd = f1.fd * f2.fd;
- ERTS_FP_ERROR(p, f1.fd, goto badarith);
- if (ERTS_NEED_GC(p, FLOAT_SIZE_OBJECT)) {
- erts_garbage_collect(p, FLOAT_SIZE_OBJECT, reg, live);
- }
- hp = p->htop;
- p->htop += FLOAT_SIZE_OBJECT;
- res = make_float(hp);
- PUT_DOUBLE(f1, hp);
- return res;
- default:
- goto badarith;
- }
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
-}
-
-Eterm
-erts_gc_mixed_div(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg1;
- Eterm arg2;
- FloatDef f1, f2;
- Eterm* hp;
- Eterm hdr;
-
- arg1 = reg[live];
- arg2 = reg[live+1];
- ERTS_FP_CHECK_INIT(p);
- switch (arg1 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg1 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- f1.fd = signed_val(arg1);
- f2.fd = signed_val(arg2);
- goto do_float;
- default:
- badarith:
- p->freason = BADARITH;
- return THE_NON_VALUE;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- f1.fd = signed_val(arg1);
- if (big_to_double(arg2, &f2.fd) < 0) {
- goto badarith;
- }
- goto do_float;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- f1.fd = signed_val(arg1);
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg1);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- if (big_to_double(arg1, &f1.fd) < 0) {
- goto badarith;
- }
- f2.fd = signed_val(arg2);
- goto do_float;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- if (big_to_double(arg1, &f1.fd) < 0 ||
- big_to_double(arg2, &f2.fd) < 0) {
- goto badarith;
- }
- goto do_float;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- if (big_to_double(arg1, &f1.fd) < 0) {
- goto badarith;
- }
- GET_DOUBLE(arg2, f2);
- goto do_float;
- default:
- goto badarith;
- }
- }
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- switch (arg2 & _TAG_PRIMARY_MASK) {
- case TAG_PRIMARY_IMMED1:
- switch ((arg2 & _TAG_IMMED1_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_IMMED1_SMALL >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- f2.fd = signed_val(arg2);
- goto do_float;
- default:
- goto badarith;
- }
- case TAG_PRIMARY_BOXED:
- hdr = *boxed_val(arg2);
- switch ((hdr & _TAG_HEADER_MASK) >> _TAG_PRIMARY_SIZE) {
- case (_TAG_HEADER_POS_BIG >> _TAG_PRIMARY_SIZE):
- case (_TAG_HEADER_NEG_BIG >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- if (big_to_double(arg2, &f2.fd) < 0) {
- goto badarith;
- }
- goto do_float;
- case (_TAG_HEADER_FLOAT >> _TAG_PRIMARY_SIZE):
- GET_DOUBLE(arg1, f1);
- GET_DOUBLE(arg2, f2);
-
- do_float:
- f1.fd = f1.fd / f2.fd;
- ERTS_FP_ERROR(p, f1.fd, goto badarith);
- if (ERTS_NEED_GC(p, FLOAT_SIZE_OBJECT)) {
- erts_garbage_collect(p, FLOAT_SIZE_OBJECT, reg, live);
- }
- hp = p->htop;
- p->htop += FLOAT_SIZE_OBJECT;
- PUT_DOUBLE(f1, hp);
- return make_float(hp);
- default:
- goto badarith;
- }
- default:
- goto badarith;
- }
- }
- default:
- goto badarith;
- }
-}
-
-Eterm
-erts_gc_int_div(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg1;
- Eterm arg2;
- DECLARE_TMP(tmp_big1,0,p);
- DECLARE_TMP(tmp_big2,1,p);
- int ires;
-
- arg1 = reg[live];
- arg2 = reg[live+1];
- switch (NUMBER_CODE(arg1, arg2)) {
- case SMALL_SMALL:
- /* This case occurs if the most negative fixnum is divided by -1. */
- ASSERT(arg2 == make_small(-1));
- arg1 = small_to_big(signed_val(arg1), tmp_big1);
- /*FALLTHROUGH*/
- case BIG_SMALL:
- arg2 = small_to_big(signed_val(arg2), tmp_big2);
- goto L_big_div;
- case SMALL_BIG:
- if (arg1 != make_small(MIN_SMALL)) {
- return SMALL_ZERO;
- }
- arg1 = small_to_big(signed_val(arg1), tmp_big1);
- /*FALLTHROUGH*/
- case BIG_BIG:
- L_big_div:
- ires = big_ucomp(arg1, arg2);
- if (ires < 0) {
- arg1 = SMALL_ZERO;
- } else if (ires == 0) {
- arg1 = (big_sign(arg1) == big_sign(arg2)) ?
- SMALL_ONE : SMALL_MINUS_ONE;
- } else {
- Eterm* hp;
- int i = big_size(arg1);
- Uint need;
-
- ires = big_size(arg2);
- need = BIG_NEED_SIZE(i-ires+1) + BIG_NEED_SIZE(i);
- if (ERTS_NEED_GC(p, need)) {
- erts_garbage_collect(p, need, reg, live+2);
- if (ARG_IS_NOT_TMP(arg1,tmp_big1)) {
- arg1 = reg[live];
- }
- if (ARG_IS_NOT_TMP(arg2,tmp_big2)) {
- arg2 = reg[live+1];
- }
- }
- hp = p->htop;
- p->htop += need;
- arg1 = big_div(arg1, arg2, hp);
- trim_heap(p, hp, arg1);
- if (is_nil(arg1)) {
- p->freason = SYSTEM_LIMIT;
- return THE_NON_VALUE;
- }
- }
- return arg1;
- default:
- p->freason = BADARITH;
- return THE_NON_VALUE;
- }
-}
-
-Eterm
-erts_gc_int_rem(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg1;
- Eterm arg2;
- DECLARE_TMP(tmp_big1,0,p);
- DECLARE_TMP(tmp_big2,1,p);
- int ires;
-
- arg1 = reg[live];
- arg2 = reg[live+1];
- switch (NUMBER_CODE(arg1, arg2)) {
- case BIG_SMALL:
- arg2 = small_to_big(signed_val(arg2), tmp_big2);
- goto L_big_rem;
- case SMALL_BIG:
- if (arg1 != make_small(MIN_SMALL)) {
- return arg1;
- } else {
- Eterm tmp;
- tmp = small_to_big(signed_val(arg1), tmp_big1);
- if ((ires = big_ucomp(tmp, arg2)) == 0) {
- return SMALL_ZERO;
- } else {
- ASSERT(ires < 0);
- return arg1;
- }
- }
- /* All paths returned */
- case BIG_BIG:
- L_big_rem:
- ires = big_ucomp(arg1, arg2);
- if (ires == 0) {
- arg1 = SMALL_ZERO;
- } else if (ires > 0) {
- Eterm* hp;
- Uint need = BIG_NEED_SIZE(big_size(arg1));
-
- if (ERTS_NEED_GC(p, need)) {
- erts_garbage_collect(p, need, reg, live+2);
- if (ARG_IS_NOT_TMP(arg1,tmp_big1)) {
- arg1 = reg[live];
- }
- if (ARG_IS_NOT_TMP(arg2,tmp_big2)) {
- arg2 = reg[live+1];
- }
- }
- hp = p->htop;
- p->htop += need;
- arg1 = big_rem(arg1, arg2, hp);
- trim_heap(p, hp, arg1);
- if (is_nil(arg1)) {
- p->freason = SYSTEM_LIMIT;
- return THE_NON_VALUE;
- }
- }
- return arg1;
- default:
- p->freason = BADARITH;
- return THE_NON_VALUE;
- }
-}
-
-#define DEFINE_GC_LOGIC_FUNC(func) \
-Eterm erts_gc_##func(Process* p, Eterm* reg, Uint live) \
-{ \
- Eterm arg1; \
- Eterm arg2; \
- DECLARE_TMP(tmp_big1,0,p); \
- DECLARE_TMP(tmp_big2,1,p); \
- Eterm* hp; \
- int need; \
- \
- arg1 = reg[live]; \
- arg2 = reg[live+1]; \
- switch (NUMBER_CODE(arg1, arg2)) { \
- case SMALL_BIG: \
- arg1 = small_to_big(signed_val(arg1), tmp_big1); \
- need = BIG_NEED_SIZE(big_size(arg2) + 1); \
- if (ERTS_NEED_GC(p, need)) { \
- erts_garbage_collect(p, need, reg, live+2); \
- arg2 = reg[live+1]; \
- } \
- break; \
- case BIG_SMALL: \
- arg2 = small_to_big(signed_val(arg2), tmp_big2); \
- need = BIG_NEED_SIZE(big_size(arg1) + 1); \
- if (ERTS_NEED_GC(p, need)) { \
- erts_garbage_collect(p, need, reg, live+2); \
- arg1 = reg[live]; \
- } \
- break; \
- case BIG_BIG: \
- need = BIG_NEED_SIZE(MAX(big_size(arg1), big_size(arg2)) + 1); \
- if (ERTS_NEED_GC(p, need)) { \
- erts_garbage_collect(p, need, reg, live+2); \
- arg1 = reg[live]; \
- arg2 = reg[live+1]; \
- } \
- break; \
- default: \
- p->freason = BADARITH; \
- return THE_NON_VALUE; \
- } \
- hp = p->htop; \
- p->htop += need; \
- arg1 = big_##func(arg1, arg2, hp); \
- trim_heap(p, hp, arg1); \
- return arg1; \
-}
-
-DEFINE_GC_LOGIC_FUNC(band)
-DEFINE_GC_LOGIC_FUNC(bor)
-DEFINE_GC_LOGIC_FUNC(bxor)
-
-Eterm erts_gc_bnot(Process* p, Eterm* reg, Uint live)
-{
- Eterm result;
- Eterm arg;
- Uint need;
- Eterm* bigp;
-
- arg = reg[live];
- if (is_not_big(arg)) {
- p->freason = BADARITH;
- return NIL;
- } else {
- need = BIG_NEED_SIZE(big_size(arg)+1);
- if (ERTS_NEED_GC(p, need)) {
- erts_garbage_collect(p, need, reg, live+1);
- arg = reg[live];
- }
- bigp = p->htop;
- p->htop += need;
- result = big_bnot(arg, bigp);
- trim_heap(p, bigp, result);
- if (is_nil(result)) {
- p->freason = SYSTEM_LIMIT;
- return NIL;
- }
- }
- return result;
-}
-
/* Needed to remove compiler optimization */
double erts_get_positive_zero_float() {
return 0.0f;
diff --git a/erts/emulator/beam/erl_bestfit_alloc.c b/erts/emulator/beam/erl_bestfit_alloc.c
index 9cb1199c2a..ca81c14b96 100644
--- a/erts/emulator/beam/erl_bestfit_alloc.c
+++ b/erts/emulator/beam/erl_bestfit_alloc.c
@@ -209,6 +209,8 @@ erts_bfalc_start(BFAllctr_t *bfallctr,
allctr->add_mbc = NULL;
allctr->remove_mbc = NULL;
allctr->largest_fblk_in_mbc = NULL;
+ allctr->first_fblk_in_mbc = NULL;
+ allctr->next_fblk_in_mbc = NULL;
allctr->init_atoms = init_atoms;
#ifdef ERTS_ALLOC_UTIL_HARD_DEBUG
diff --git a/erts/emulator/beam/erl_bif_binary.c b/erts/emulator/beam/erl_bif_binary.c
index a2610bf2e1..ca1ba55b22 100644
--- a/erts/emulator/beam/erl_bif_binary.c
+++ b/erts/emulator/beam/erl_bif_binary.c
@@ -208,8 +208,8 @@ typedef struct _ac_trie {
typedef struct _bm_data {
byte *x;
Sint len;
+ Sint *badshift;
Sint *goodshift;
- Sint badshift[ALPHABET_SIZE];
} BMData;
typedef struct _ac_find_all_state {
@@ -319,16 +319,104 @@ static void dump_ac_node(ACNode *node, int indent, int ch);
* The needed size of binary data for a search structure - given the
* accumulated string lengths.
*/
-#define BM_SIZE(StrLen) /* StrLen: length of searchstring */ \
-((MYALIGN(sizeof(Sint) * (StrLen))) + /* goodshift array */ \
- MYALIGN(StrLen) + /* searchstring saved */ \
- (MYALIGN(sizeof(BMData)))) /* Structure */
+#define BM_SIZE_SINGLE() /* Single byte search string */ \
+(MYALIGN(1) + /* searchstring saved */ \
+ (MYALIGN(sizeof(BMData)))) /* Structure */
+
+#define BM_SIZE_MULTI(StrLen) /* StrLen: length of searchstring */ \
+((MYALIGN(sizeof(Uint) * (StrLen))) + /* goodshift array */ \
+ (MYALIGN(sizeof(Uint) * ALPHABET_SIZE)) + /* badshift array */ \
+ MYALIGN(StrLen) + /* searchstring saved */ \
+ (MYALIGN(sizeof(BMData)))) /* Structure */
#define AC_SIZE(StrLens) /* StrLens: sum of all searchstring lengths */ \
((MYALIGN(sizeof(ACNode)) * \
((StrLens)+1)) + /* The actual nodes (including rootnode) */ \
MYALIGN(sizeof(ACTrie))) /* Structure */
+/*
+ * Boyer Moore - most obviously implemented more or less exactly as
+ * Christian Charras and Thierry Lecroq describe it in "Handbook of
+ * Exact String-Matching Algorithms"
+ * http://www-igm.univ-mlv.fr/~lecroq/string/
+ */
+
+/*
+ * Call this to compute badshifts array
+ */
+static void compute_badshifts(BMData *bmd)
+{
+ Sint i;
+ Sint m = bmd->len;
+
+ for (i = 0; i < ALPHABET_SIZE; ++i) {
+ bmd->badshift[i] = m;
+ }
+ for (i = 0; i < m - 1; ++i) {
+ bmd->badshift[bmd->x[i]] = m - i - 1;
+ }
+}
+
+/* Helper for "compute_goodshifts" */
+static void compute_suffixes(byte *x, Sint m, Sint *suffixes)
+{
+ int f,g,i;
+
+ suffixes[m - 1] = m;
+
+ f = 0; /* To avoid use before set warning */
+
+ g = m - 1;
+
+ for (i = m - 2; i >= 0; --i) {
+ if (i > g && suffixes[i + m - 1 - f] < i - g) {
+ suffixes[i] = suffixes[i + m - 1 - f];
+ } else {
+ if (i < g) {
+ g = i;
+ }
+ f = i;
+ while ( g >= 0 && x[g] == x[g + m - 1 - f] ) {
+ --g;
+ }
+ suffixes[i] = f - g;
+ }
+ }
+}
+
+/*
+ * Call this to compute goodshift array
+ */
+static void compute_goodshifts(BMData *bmd)
+{
+ Sint m = bmd->len;
+ byte *x = bmd->x;
+ Sint i, j;
+ Sint *suffixes = erts_alloc(ERTS_ALC_T_TMP, m * sizeof(Sint));
+
+ compute_suffixes(x, m, suffixes);
+
+ for (i = 0; i < m; ++i) {
+ bmd->goodshift[i] = m;
+ }
+
+ j = 0;
+
+ for (i = m - 1; i >= -1; --i) {
+ if (i == -1 || suffixes[i] == i + 1) {
+ while (j < m - 1 - i) {
+ if (bmd->goodshift[j] == m) {
+ bmd->goodshift[j] = m - 1 - i;
+ }
+ ++j;
+ }
+ }
+ }
+ for (i = 0; i <= m - 2; ++i) {
+ bmd->goodshift[m - 1 - suffixes[i]] = m - 1 - i;
+ }
+ erts_free(ERTS_ALC_T_TMP, suffixes);
+}
/*
* Callback for the magic binary
@@ -377,20 +465,37 @@ static ACTrie *create_acdata(MyAllocator *my, Uint len,
/*
* The same initialization of allocator and basic data for Boyer-Moore.
+ * For single byte, we don't use goodshift and badshift, only memchr.
*/
static BMData *create_bmdata(MyAllocator *my, byte *x, Uint len,
Binary **the_bin /* out */)
{
- Uint datasize = BM_SIZE(len);
+ Uint datasize;
BMData *bmd;
- Binary *mb = erts_create_magic_binary(datasize,cleanup_my_data_bm);
- byte *data = ERTS_MAGIC_BIN_DATA(mb);
+ Binary *mb;
+ byte *data;
+
+ if(len > 1) {
+ datasize = BM_SIZE_MULTI(len);
+ } else {
+ datasize = BM_SIZE_SINGLE();
+ }
+
+ mb = erts_create_magic_binary(datasize,cleanup_my_data_bm);
+ data = ERTS_MAGIC_BIN_DATA(mb);
init_my_allocator(my, datasize, data);
bmd = my_alloc(my, sizeof(BMData));
bmd->x = my_alloc(my,len);
sys_memcpy(bmd->x,x,len);
bmd->len = len;
- bmd->goodshift = my_alloc(my,sizeof(Uint) * len);
+
+ if(len > 1) {
+ bmd->goodshift = my_alloc(my, sizeof(Uint) * len);
+ bmd->badshift = my_alloc(my, sizeof(Uint) * ALPHABET_SIZE);
+ compute_badshifts(bmd);
+ compute_goodshifts(bmd);
+ }
+
*the_bin = mb;
return bmd;
}
@@ -711,91 +816,8 @@ static BFReturn ac_find_all_non_overlapping(BinaryFindContext *ctx, byte *haysta
return (m == 0) ? BF_NOT_FOUND : BF_OK;
}
-/*
- * Boyer Moore - most obviously implemented more or less exactly as
- * Christian Charras and Thierry Lecroq describe it in "Handbook of
- * Exact String-Matching Algorithms"
- * http://www-igm.univ-mlv.fr/~lecroq/string/
- */
-
-/*
- * Call this to compute badshifts array
- */
-static void compute_badshifts(BMData *bmd)
-{
- Sint i;
- Sint m = bmd->len;
-
- for (i = 0; i < ALPHABET_SIZE; ++i) {
- bmd->badshift[i] = m;
- }
- for (i = 0; i < m - 1; ++i) {
- bmd->badshift[bmd->x[i]] = m - i - 1;
- }
-}
-
-/* Helper for "compute_goodshifts" */
-static void compute_suffixes(byte *x, Sint m, Sint *suffixes)
-{
- int f,g,i;
-
- suffixes[m - 1] = m;
-
- f = 0; /* To avoid use before set warning */
-
- g = m - 1;
-
- for (i = m - 2; i >= 0; --i) {
- if (i > g && suffixes[i + m - 1 - f] < i - g) {
- suffixes[i] = suffixes[i + m - 1 - f];
- } else {
- if (i < g) {
- g = i;
- }
- f = i;
- while ( g >= 0 && x[g] == x[g + m - 1 - f] ) {
- --g;
- }
- suffixes[i] = f - g;
- }
- }
-}
-
-/*
- * Call this to compute goodshift array
- */
-static void compute_goodshifts(BMData *bmd)
-{
- Sint m = bmd->len;
- byte *x = bmd->x;
- Sint i, j;
- Sint *suffixes = erts_alloc(ERTS_ALC_T_TMP, m * sizeof(Sint));
-
- compute_suffixes(x, m, suffixes);
-
- for (i = 0; i < m; ++i) {
- bmd->goodshift[i] = m;
- }
-
- j = 0;
-
- for (i = m - 1; i >= -1; --i) {
- if (i == -1 || suffixes[i] == i + 1) {
- while (j < m - 1 - i) {
- if (bmd->goodshift[j] == m) {
- bmd->goodshift[j] = m - 1 - i;
- }
- ++j;
- }
- }
- }
- for (i = 0; i <= m - 2; ++i) {
- bmd->goodshift[m - 1 - suffixes[i]] = m - 1 - i;
- }
- erts_free(ERTS_ALC_T_TMP, suffixes);
-}
-
#define BM_LOOP_FACTOR 10 /* Should we have a higher value? */
+#define MC_LOOP_FACTOR 8
static void bm_init_find_first_match(BinaryFindContext *ctx)
{
@@ -819,13 +841,38 @@ static BFReturn bm_find_first_match(BinaryFindContext *ctx, byte *haystack)
Sint i;
Sint j = state->pos;
register Uint reds = *reductions;
+ byte *pos_pointer;
+ Sint needle_last = blen - 1;
+ Sint mem_read = len - needle_last - j;
+
+ if (mem_read <= 0) {
+ return BF_NOT_FOUND;
+ }
+ mem_read = MIN(mem_read, reds * MC_LOOP_FACTOR);
+ ASSERT(mem_read > 0);
- while (j <= len - blen) {
+ pos_pointer = memchr(&haystack[j + needle_last], needle[needle_last], mem_read);
+ if (pos_pointer == NULL) {
+ reds -= mem_read / MC_LOOP_FACTOR;
+ j += mem_read;
+ } else {
+ reds -= (pos_pointer - &haystack[j]) / MC_LOOP_FACTOR;
+ j = pos_pointer - haystack - needle_last;
+ }
+
+ // Ensure we have at least one reduction before entering the loop
+ ++reds;
+
+ for(;;) {
+ if (j > len - blen) {
+ *reductions = reds;
+ return BF_NOT_FOUND;
+ }
if (--reds == 0) {
state->pos = j;
return BF_RESTART;
}
- for (i = blen - 1; i >= 0 && needle[i] == haystack[i + j]; --i)
+ for (i = needle_last; i >= 0 && needle[i] == haystack[i + j]; --i)
;
if (i < 0) { /* found */
*reductions = reds;
@@ -835,8 +882,6 @@ static BFReturn bm_find_first_match(BinaryFindContext *ctx, byte *haystack)
}
j += MAX(gs[i],bs[haystack[i+j]] - blen + 1 + i);
}
- *reductions = reds;
- return BF_NOT_FOUND;
}
static void bm_init_find_all(BinaryFindContext *ctx)
@@ -875,14 +920,38 @@ static BFReturn bm_find_all_non_overlapping(BinaryFindContext *ctx, byte *haysta
Sint *gs = bmd->goodshift;
Sint *bs = bmd->badshift;
byte *needle = bmd->x;
- Sint i;
+ Sint i = -1; /* Use memchr on start and on every match */
Sint j = state->pos;
Uint m = state->m;
Uint allocated = state->allocated;
FindallData *out = state->out;
register Uint reds = *reductions;
+ byte *pos_pointer;
+ Sint needle_last = blen - 1;
+ Sint mem_read;
- while (j <= len - blen) {
+ for(;;) {
+ if (i < 0) {
+ mem_read = len - needle_last - j;
+ if(mem_read <= 0) {
+ goto done;
+ }
+ mem_read = MIN(mem_read, reds * MC_LOOP_FACTOR);
+ ASSERT(mem_read > 0);
+ pos_pointer = memchr(&haystack[j + needle_last], needle[needle_last], mem_read);
+ if (pos_pointer == NULL) {
+ reds -= mem_read / MC_LOOP_FACTOR;
+ j += mem_read;
+ } else {
+ reds -= (pos_pointer - &haystack[j]) / MC_LOOP_FACTOR;
+ j = pos_pointer - haystack - needle_last;
+ }
+ // Ensure we have at least one reduction when resuming the loop
+ ++reds;
+ }
+ if (j > len - blen) {
+ goto done;
+ }
if (--reds == 0) {
state->pos = j;
state->m = m;
@@ -890,7 +959,7 @@ static BFReturn bm_find_all_non_overlapping(BinaryFindContext *ctx, byte *haysta
state->out = out;
return BF_RESTART;
}
- for (i = blen - 1; i >= 0 && needle[i] == haystack[i + j]; --i)
+ for (i = needle_last; i >= 0 && needle[i] == haystack[i + j]; --i)
;
if (i < 0) { /* found */
if (m >= allocated) {
@@ -912,6 +981,7 @@ static BFReturn bm_find_all_non_overlapping(BinaryFindContext *ctx, byte *haysta
j += MAX(gs[i],bs[haystack[i+j]] - blen + 1 + i);
}
}
+ done:
state->m = m;
state->out = out;
*reductions = reds;
@@ -931,6 +1001,7 @@ static int do_binary_match_compile(Eterm argument, Eterm *tag, Binary **binp)
Eterm t, b, comp_term = NIL;
Uint characters;
Uint words;
+ Uint size;
characters = 0;
words = 0;
@@ -946,11 +1017,12 @@ static int do_binary_match_compile(Eterm argument, Eterm *tag, Binary **binp)
if (binary_bitsize(b) != 0) {
goto badarg;
}
- if (binary_size(b) == 0) {
+ size = binary_size(b);
+ if (size == 0) {
goto badarg;
}
++words;
- characters += binary_size(b);
+ characters += size;
}
if (is_not_nil(t)) {
goto badarg;
@@ -979,16 +1051,13 @@ static int do_binary_match_compile(Eterm argument, Eterm *tag, Binary **binp)
Uint bitoffs, bitsize;
byte *temp_alloc = NULL;
MyAllocator my;
- BMData *bmd;
Binary *bin;
ERTS_GET_BINARY_BYTES(comp_term, bytes, bitoffs, bitsize);
if (bitoffs != 0) {
bytes = erts_get_aligned_binary_bytes(comp_term, &temp_alloc);
}
- bmd = create_bmdata(&my, bytes, characters, &bin);
- compute_badshifts(bmd);
- compute_goodshifts(bmd);
+ create_bmdata(&my, bytes, characters, &bin);
erts_free_aligned_binary_bytes(temp_alloc);
CHECK_ALLOCATOR(my);
*tag = am_bm;
@@ -1901,9 +1970,7 @@ BIF_RETTYPE erts_binary_part(Process *p, Eterm binary, Eterm epos, Eterm elen)
goto badarg;
}
-
-
- hp = HAlloc(p, ERL_SUB_BIN_SIZE);
+ hp = HeapFragOnlyAlloc(p, ERL_SUB_BIN_SIZE);
ERTS_GET_REAL_BIN(binary, orig, offset, bit_offset, bit_size);
sb = (ErlSubBin *) hp;
@@ -1921,100 +1988,6 @@ BIF_RETTYPE erts_binary_part(Process *p, Eterm binary, Eterm epos, Eterm elen)
BIF_ERROR(p, BADARG);
}
-#define ERTS_NEED_GC(p, need) ((HEAP_LIMIT((p)) - HEAP_TOP((p))) <= (need))
-
-BIF_RETTYPE erts_gc_binary_part(Process *p, Eterm *reg, Eterm live, int range_is_tuple)
-{
- Uint pos;
- Sint len;
- size_t orig_size;
- Eterm orig;
- Uint offset;
- Uint bit_offset;
- Uint bit_size;
- Eterm* hp;
- ErlSubBin* sb;
- Eterm binary;
- Eterm *tp;
- Eterm epos, elen;
- int extra_args;
-
-
- if (range_is_tuple) {
- Eterm tpl = reg[live];
- extra_args = 1;
- if (is_not_tuple(tpl)) {
- goto badarg;
- }
- tp = tuple_val(tpl);
- if (arityval(*tp) != 2) {
- goto badarg;
- }
-
- epos = tp[1];
- elen = tp[2];
- } else {
- extra_args = 2;
- epos = reg[live-1];
- elen = reg[live];
- }
- binary = reg[live-extra_args];
-
- if (is_not_binary(binary)) {
- goto badarg;
- }
- if (!term_to_Uint(epos, &pos)) {
- goto badarg;
- }
- if (!term_to_Sint(elen, &len)) {
- goto badarg;
- }
- if (len < 0) {
- Uint lentmp = -(Uint)len;
- /* overflow */
- if ((Sint)lentmp < 0) {
- goto badarg;
- }
- len = lentmp;
- if (len > pos) {
- goto badarg;
- }
- pos -= len;
- }
- /* overflow */
- if ((pos + len) < pos || (len > 0 && (pos + len) == pos)) {
- goto badarg;
- }
- if ((orig_size = binary_size(binary)) < pos ||
- orig_size < (pos + len)) {
- goto badarg;
- }
-
- if (ERTS_NEED_GC(p, ERL_SUB_BIN_SIZE)) {
- erts_garbage_collect(p, ERL_SUB_BIN_SIZE, reg, live+1-extra_args); /* I don't need the tuple
- or indices any more */
- binary = reg[live-extra_args];
- }
-
- hp = p->htop;
- p->htop += ERL_SUB_BIN_SIZE;
-
- ERTS_GET_REAL_BIN(binary, orig, offset, bit_offset, bit_size);
-
- sb = (ErlSubBin *) hp;
- sb->thing_word = HEADER_SUB_BIN;
- sb->size = len;
- sb->offs = offset + pos;
- sb->orig = orig;
- sb->bitoffs = bit_offset;
- sb->bitsize = 0;
- sb->is_writable = 0;
-
- BIF_RET(make_binary(sb));
-
- badarg:
- BIF_ERROR(p, BADARG);
-}
/*************************************************************
* The actual guard BIFs are in erl_bif_guard.c
* but the implementation of both the non-gc and the gc
@@ -3012,17 +2985,19 @@ static void dump_bm_data(BMData *bm)
}
}
erts_printf(">>\n");
- erts_printf("GoodShift array:\n");
- for (i = 0; i < bm->len; ++i) {
- erts_printf("GoodShift[%d]: %ld\n", i, bm->goodshift[i]);
- }
- erts_printf("BadShift array:\n");
- j = 0;
- for (i = 0; i < ALPHABET_SIZE; i += j) {
- for (j = 0; i + j < ALPHABET_SIZE && j < 6; ++j) {
- erts_printf("BS[%03d]:%02ld, ", i+j, bm->badshift[i+j]);
+ if(bm->len > 1) {
+ erts_printf("GoodShift array:\n");
+ for (i = 0; i < bm->len; ++i) {
+ erts_printf("GoodShift[%d]: %ld\n", i, bm->goodshift[i]);
+ }
+ erts_printf("BadShift array:\n");
+ j = 0;
+ for (i = 0; i < ALPHABET_SIZE; i += j) {
+ for (j = 0; i + j < ALPHABET_SIZE && j < 6; ++j) {
+ erts_printf("BS[%03d]:%02ld, ", i+j, bm->badshift[i+j]);
+ }
+ erts_printf("\n");
}
- erts_printf("\n");
}
}
diff --git a/erts/emulator/beam/erl_bif_ddll.c b/erts/emulator/beam/erl_bif_ddll.c
index 4cda0948a0..639aee29dc 100644
--- a/erts/emulator/beam/erl_bif_ddll.c
+++ b/erts/emulator/beam/erl_bif_ddll.c
@@ -829,7 +829,7 @@ BIF_RETTYPE erl_ddll_format_error_int_1(BIF_ALIST_1)
"cannot be loaded/unloaded";
break;
case am_permanent:
- errstring = "DDLL driver is permanent an can not be unloaded/loaded";
+ errstring = "DDLL driver is permanent an cannot be unloaded/loaded";
break;
case am_not_loaded:
errstring = "DDLL driver is not loaded";
diff --git a/erts/emulator/beam/erl_bif_guard.c b/erts/emulator/beam/erl_bif_guard.c
index 8a5c6ada6c..c921b66a7e 100644
--- a/erts/emulator/beam/erl_bif_guard.c
+++ b/erts/emulator/beam/erl_bif_guard.c
@@ -19,7 +19,12 @@
*/
/*
- * Numeric guard BIFs.
+ * This file implements the former GC BIFs. They used to do a GC when
+ * they needed heap space. Because of changes to the implementation of
+ * literals, those BIFs are now allowed to allocate heap fragments
+ * (using HeapFragOnlyAlloc()). Note that they must NOT call HAlloc(),
+ * because the caller does not do any SWAPIN / SWAPOUT (that is,
+ * HEAP_TOP(p) and HEAP_LIMIT(p) contain stale values).
*/
#ifdef HAVE_CONFIG_H
@@ -36,14 +41,16 @@
#include "erl_binary.h"
#include "erl_map.h"
-static Eterm gc_double_to_integer(Process* p, double x, Eterm* reg, Uint live);
-
static Eterm double_to_integer(Process* p, double x);
+static BIF_RETTYPE erlang_length_trap(BIF_ALIST_3);
+static Export erlang_length_export;
-/*
- * Guard BIFs called using apply/3 and guard BIFs that never build
- * anything on the heap.
- */
+void erts_init_bif_guard(void)
+{
+ erts_init_trap_export(&erlang_length_export,
+ am_erlang, am_length, 3,
+ &erlang_length_trap);
+}
BIF_RETTYPE abs_1(BIF_ALIST_1)
{
@@ -56,7 +63,7 @@ BIF_RETTYPE abs_1(BIF_ALIST_1)
i0 = signed_val(BIF_ARG_1);
i = ERTS_SMALL_ABS(i0);
if (i0 == MIN_SMALL) {
- hp = HAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
+ hp = HeapFragOnlyAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
BIF_RET(uint_to_big(i, hp));
} else {
BIF_RET(make_small(i));
@@ -68,7 +75,7 @@ BIF_RETTYPE abs_1(BIF_ALIST_1)
int sz = big_arity(BIF_ARG_1) + 1;
Uint* x;
- hp = HAlloc(BIF_P, sz); /* See note at beginning of file */
+ hp = HeapFragOnlyAlloc(BIF_P, sz); /* See note at beginning of file */
sz--;
res = make_big(hp);
x = big_val(BIF_ARG_1);
@@ -83,7 +90,7 @@ BIF_RETTYPE abs_1(BIF_ALIST_1)
GET_DOUBLE(BIF_ARG_1, f);
if (f.fd < 0.0) {
- hp = HAlloc(BIF_P, FLOAT_SIZE_OBJECT);
+ hp = HeapFragOnlyAlloc(BIF_P, FLOAT_SIZE_OBJECT);
f.fd = fabs(f.fd);
res = make_float(hp);
PUT_DOUBLE(f, hp);
@@ -116,7 +123,7 @@ BIF_RETTYPE float_1(BIF_ALIST_1)
} else if (big_to_double(BIF_ARG_1, &f.fd) < 0) {
goto badarg;
}
- hp = HAlloc(BIF_P, FLOAT_SIZE_OBJECT);
+ hp = HeapFragOnlyAlloc(BIF_P, FLOAT_SIZE_OBJECT);
res = make_float(hp);
PUT_DOUBLE(f, hp);
BIF_RET(res);
@@ -194,26 +201,113 @@ BIF_RETTYPE round_1(BIF_ALIST_1)
BIF_RET(res);
}
+/*
+ * This version of length/1 is called from native code and apply/3.
+ */
+
BIF_RETTYPE length_1(BIF_ALIST_1)
{
+ Eterm args[3];
+
+ /*
+ * Arrange argument registers the way expected by
+ * erts_trapping_length_1(). We save the original argument in
+ * args[2] in case an error should signaled.
+ */
+
+ args[0] = BIF_ARG_1;
+ args[1] = make_small(0);
+ args[2] = BIF_ARG_1;
+ return erlang_length_trap(BIF_P, args, A__I);
+}
+
+static BIF_RETTYPE erlang_length_trap(BIF_ALIST_3)
+{
+ Eterm res;
+
+ res = erts_trapping_length_1(BIF_P, BIF__ARGS);
+ if (is_value(res)) { /* Success. */
+ BIF_RET(res);
+ } else { /* Trap or error. */
+ if (BIF_P->freason == TRAP) {
+ /*
+ * The available reductions were exceeded. Trap.
+ */
+ BIF_TRAP3(&erlang_length_export, BIF_P, BIF_ARG_1, BIF_ARG_2, BIF_ARG_3);
+ } else {
+ /*
+ * Signal an error. The original argument was tucked away in BIF_ARG_3.
+ */
+ ERTS_BIF_ERROR_TRAPPED1(BIF_P, BIF_P->freason,
+ bif_export[BIF_length_1], BIF_ARG_3);
+ }
+ }
+}
+
+/*
+ * Trappable helper function for calculating length/1.
+ *
+ * When calling this function, entries in args[] should be set up as
+ * follows:
+ *
+ * args[0] = List to calculate length for.
+ * args[1] = Length accumulator (tagged integer).
+ *
+ * If the return value is a tagged integer, the length was calculated
+ * successfully.
+ *
+ * Otherwise, if return value is THE_NON_VALUE and p->freason is TRAP,
+ * the available reductions were exceeded and this function must be called
+ * again after rescheduling. args[0] and args[1] have been updated to
+ * contain the next part of the list and length so far, respectively.
+ *
+ * Otherwise, if return value is THE_NON_VALUE, the list did not end
+ * in an empty list (and p->freason is BADARG).
+ */
+
+Eterm erts_trapping_length_1(Process* p, Eterm* args)
+{
Eterm list;
Uint i;
-
- if (is_nil(BIF_ARG_1))
- BIF_RET(SMALL_ZERO);
- if (is_not_list(BIF_ARG_1)) {
- BIF_ERROR(BIF_P, BADARG);
- }
- list = BIF_ARG_1;
- i = 0;
- while (is_list(list)) {
- i++;
+ Uint max_iter;
+ Uint saved_max_iter;
+
+#if defined(DEBUG) || defined(VALGRIND)
+ max_iter = 50;
+#else
+ max_iter = ERTS_BIF_REDS_LEFT(p) * 16;
+#endif
+ saved_max_iter = max_iter;
+ ASSERT(max_iter > 0);
+
+ list = args[0];
+ i = unsigned_val(args[1]);
+ while (is_list(list) && max_iter != 0) {
list = CDR(list_val(list));
+ i++, max_iter--;
+ }
+
+ if (is_list(list)) {
+ /*
+ * We have exceeded the alloted number of iterations.
+ * Save the result so far and signal a trap.
+ */
+ args[0] = list;
+ args[1] = make_small(i);
+ p->freason = TRAP;
+ BUMP_ALL_REDS(p);
+ return THE_NON_VALUE;
+ } else if (is_not_nil(list)) {
+ /* Error. Should be NIL. */
+ BIF_ERROR(p, BADARG);
}
- if (is_not_nil(list)) {
- BIF_ERROR(BIF_P, BADARG);
- }
- BIF_RET(make_small(i));
+
+ /*
+ * We reached the end of the list successfully. Bump reductions
+ * and return result.
+ */
+ BUMP_REDS(p, saved_max_iter / 16);
+ return make_small(i);
}
/* returns the size of a tuple or a binary */
@@ -229,7 +323,7 @@ BIF_RETTYPE size_1(BIF_ALIST_1)
if (IS_USMALL(0, sz)) {
return make_small(sz);
} else {
- Eterm* hp = HAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
+ Eterm* hp = HeapFragOnlyAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
BIF_RET(uint_to_big(sz, hp));
}
}
@@ -252,12 +346,12 @@ BIF_RETTYPE bit_size_1(BIF_ALIST_1)
if (IS_USMALL(0,low_bits)) {
BIF_RET(make_small(low_bits));
} else {
- Eterm* hp = HAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
+ Eterm* hp = HeapFragOnlyAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
BIF_RET(uint_to_big(low_bits, hp));
}
} else {
Uint sz = BIG_UINT_HEAP_SIZE+1;
- Eterm* hp = HAlloc(BIF_P, sz);
+ Eterm* hp = HeapFragOnlyAlloc(BIF_P, sz);
hp[0] = make_pos_bignum_header(sz-1);
BIG_DIGIT(hp,0) = low_bits;
BIG_DIGIT(hp,1) = high_bits;
@@ -281,7 +375,7 @@ BIF_RETTYPE byte_size_1(BIF_ALIST_1)
if (IS_USMALL(0, bytesize)) {
BIF_RET(make_small(bytesize));
} else {
- Eterm* hp = HAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
+ Eterm* hp = HeapFragOnlyAlloc(BIF_P, BIG_UINT_HEAP_SIZE);
BIF_RET(uint_to_big(bytesize, hp));
}
} else {
@@ -325,7 +419,7 @@ double_to_integer(Process* p, double x)
}
sz = BIG_NEED_SIZE(ds); /* number of words including arity */
- hp = HAlloc(p, sz);
+ hp = HeapFragOnlyAlloc(p, sz);
res = make_big(hp);
xp = (ErtsDigit*) (hp + 1);
@@ -371,389 +465,3 @@ BIF_RETTYPE binary_part_2(BIF_ALIST_2)
badarg:
BIF_ERROR(BIF_P,BADARG);
}
-
-
-/*
- * The following code is used when a guard that may build on the
- * heap is called directly. They must not use HAlloc(), but must
- * do a garbage collection if there is insufficient heap space.
- *
- * Important note: All error checking MUST be done before doing
- * a garbage collection. The compiler assumes that all registers
- * are still valid if a guard BIF generates an exception.
- */
-
-#define ERTS_NEED_GC(p, need) ((HEAP_LIMIT((p)) - HEAP_TOP((p))) <= (need))
-
-Eterm erts_gc_length_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm list = reg[live];
- int i;
-
- if (is_nil(list))
- return SMALL_ZERO;
- i = 0;
- while (is_list(list)) {
- i++;
- list = CDR(list_val(list));
- }
- if (is_not_nil(list)) {
- BIF_ERROR(p, BADARG);
- }
- return make_small(i);
-}
-
-Eterm erts_gc_size_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg = reg[live];
- if (is_tuple(arg)) {
- Eterm* tupleptr = tuple_val(arg);
- return make_small(arityval(*tupleptr));
- } else if (is_binary(arg)) {
- Uint sz = binary_size(arg);
- if (IS_USMALL(0, sz)) {
- return make_small(sz);
- } else {
- Eterm* hp;
- if (ERTS_NEED_GC(p, BIG_UINT_HEAP_SIZE)) {
- erts_garbage_collect(p, BIG_UINT_HEAP_SIZE, reg, live);
- }
- hp = p->htop;
- p->htop += BIG_UINT_HEAP_SIZE;
- return uint_to_big(sz, hp);
- }
- }
- BIF_ERROR(p, BADARG);
-}
-
-Eterm erts_gc_bit_size_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg = reg[live];
- if (is_binary(arg)) {
- Uint low_bits;
- Uint bytesize;
- Uint high_bits;
- bytesize = binary_size(arg);
- high_bits = bytesize >> ((sizeof(Uint) * 8)-3);
- low_bits = (bytesize << 3) + binary_bitsize(arg);
- if (high_bits == 0) {
- if (IS_USMALL(0,low_bits)) {
- return make_small(low_bits);
- } else {
- Eterm* hp;
- if (ERTS_NEED_GC(p, BIG_UINT_HEAP_SIZE)) {
- erts_garbage_collect(p, BIG_UINT_HEAP_SIZE, reg, live);
- }
- hp = p->htop;
- p->htop += BIG_UINT_HEAP_SIZE;
- return uint_to_big(low_bits, hp);
- }
- } else {
- Uint sz = BIG_UINT_HEAP_SIZE+1;
- Eterm* hp;
- if (ERTS_NEED_GC(p, sz)) {
- erts_garbage_collect(p, sz, reg, live);
- }
- hp = p->htop;
- p->htop += sz;
- hp[0] = make_pos_bignum_header(sz-1);
- BIG_DIGIT(hp,0) = low_bits;
- BIG_DIGIT(hp,1) = high_bits;
- return make_big(hp);
- }
- } else {
- BIF_ERROR(p, BADARG);
- }
-}
-
-Eterm erts_gc_byte_size_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg = reg[live];
- if (is_binary(arg)) {
- Uint bytesize = binary_size(arg);
- if (binary_bitsize(arg) > 0) {
- bytesize++;
- }
- if (IS_USMALL(0, bytesize)) {
- return make_small(bytesize);
- } else {
- Eterm* hp;
- if (ERTS_NEED_GC(p, BIG_UINT_HEAP_SIZE)) {
- erts_garbage_collect(p, BIG_UINT_HEAP_SIZE, reg, live);
- }
- hp = p->htop;
- p->htop += BIG_UINT_HEAP_SIZE;
- return uint_to_big(bytesize, hp);
- }
- } else {
- BIF_ERROR(p, BADARG);
- }
-}
-
-Eterm erts_gc_map_size_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg = reg[live];
- if (is_flatmap(arg)) {
- flatmap_t *mp = (flatmap_t*)flatmap_val(arg);
- return make_small(flatmap_get_size(mp));
- } else if (is_hashmap(arg)) {
- Eterm* hp;
- Uint size;
- size = hashmap_size(arg);
- if (IS_USMALL(0, size)) {
- return make_small(size);
- }
- if (ERTS_NEED_GC(p, BIG_UINT_HEAP_SIZE)) {
- erts_garbage_collect(p, BIG_UINT_HEAP_SIZE, reg, live);
- }
- hp = p->htop;
- p->htop += BIG_UINT_HEAP_SIZE;
- return uint_to_big(size, hp);
- }
- p->fvalue = arg;
- BIF_ERROR(p, BADMAP);
-}
-
-Eterm erts_gc_abs_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg;
- Eterm res;
- Sint i0, i;
- Eterm* hp;
-
- arg = reg[live];
-
- /* integer arguments */
- if (is_small(arg)) {
- i0 = signed_val(arg);
- i = ERTS_SMALL_ABS(i0);
- if (i0 == MIN_SMALL) {
- if (ERTS_NEED_GC(p, BIG_UINT_HEAP_SIZE)) {
- erts_garbage_collect(p, BIG_UINT_HEAP_SIZE, reg, live+1);
- arg = reg[live];
- }
- hp = p->htop;
- p->htop += BIG_UINT_HEAP_SIZE;
- return uint_to_big(i, hp);
- } else {
- return make_small(i);
- }
- } else if (is_big(arg)) {
- if (!big_sign(arg)) {
- return arg;
- } else {
- int sz = big_arity(arg) + 1;
- Uint* x;
-
- if (ERTS_NEED_GC(p, sz)) {
- erts_garbage_collect(p, sz, reg, live+1);
- arg = reg[live];
- }
- hp = p->htop;
- p->htop += sz;
- sz--;
- res = make_big(hp);
- x = big_val(arg);
- *hp++ = make_pos_bignum_header(sz);
- x++; /* skip thing */
- while(sz--)
- *hp++ = *x++;
- return res;
- }
- } else if (is_float(arg)) {
- FloatDef f;
-
- GET_DOUBLE(arg, f);
- if (f.fd < 0.0) {
- if (ERTS_NEED_GC(p, FLOAT_SIZE_OBJECT)) {
- erts_garbage_collect(p, FLOAT_SIZE_OBJECT, reg, live+1);
- arg = reg[live];
- }
- hp = p->htop;
- p->htop += FLOAT_SIZE_OBJECT;
- f.fd = fabs(f.fd);
- res = make_float(hp);
- PUT_DOUBLE(f, hp);
- return res;
- }
- else
- return arg;
- }
- BIF_ERROR(p, BADARG);
-}
-
-Eterm erts_gc_float_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg;
- Eterm res;
- Eterm* hp;
- FloatDef f;
-
- /* check args */
- arg = reg[live];
- if (is_not_integer(arg)) {
- if (is_float(arg)) {
- return arg;
- } else {
- badarg:
- BIF_ERROR(p, BADARG);
- }
- }
- if (is_small(arg)) {
- Sint i = signed_val(arg);
- f.fd = i; /* use "C"'s auto casting */
- } else if (big_to_double(arg, &f.fd) < 0) {
- goto badarg;
- }
- if (ERTS_NEED_GC(p, FLOAT_SIZE_OBJECT)) {
- erts_garbage_collect(p, FLOAT_SIZE_OBJECT, reg, live+1);
- arg = reg[live];
- }
- hp = p->htop;
- p->htop += FLOAT_SIZE_OBJECT;
- res = make_float(hp);
- PUT_DOUBLE(f, hp);
- return res;
-}
-
-Eterm erts_gc_round_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg;
- FloatDef f;
-
- arg = reg[live];
- if (is_not_float(arg)) {
- if (is_integer(arg)) {
- return arg;
- }
- BIF_ERROR(p, BADARG);
- }
- GET_DOUBLE(arg, f);
-
- return gc_double_to_integer(p, round(f.fd), reg, live);
-}
-
-Eterm erts_gc_trunc_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg;
- FloatDef f;
-
- arg = reg[live];
- if (is_not_float(arg)) {
- if (is_integer(arg)) {
- return arg;
- }
- BIF_ERROR(p, BADARG);
- }
- /* get the float */
- GET_DOUBLE(arg, f);
-
- /* truncate it and return the resultant integer */
- return gc_double_to_integer(p, (f.fd >= 0.0) ? floor(f.fd) : ceil(f.fd),
- reg, live);
-}
-
-Eterm erts_gc_floor_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg;
- FloatDef f;
-
- arg = reg[live];
- if (is_not_float(arg)) {
- if (is_integer(arg)) {
- return arg;
- }
- BIF_ERROR(p, BADARG);
- }
- GET_DOUBLE(arg, f);
- return gc_double_to_integer(p, floor(f.fd), reg, live);
-}
-
-Eterm erts_gc_ceil_1(Process* p, Eterm* reg, Uint live)
-{
- Eterm arg;
- FloatDef f;
-
- arg = reg[live];
- if (is_not_float(arg)) {
- if (is_integer(arg)) {
- return arg;
- }
- BIF_ERROR(p, BADARG);
- }
- GET_DOUBLE(arg, f);
- return gc_double_to_integer(p, ceil(f.fd), reg, live);
-}
-
-static Eterm
-gc_double_to_integer(Process* p, double x, Eterm* reg, Uint live)
-{
- int is_negative;
- int ds;
- ErtsDigit* xp;
- int i;
- Eterm res;
- size_t sz;
- Eterm* hp;
- double dbase;
-
- if ((x < (double) (MAX_SMALL+1)) && (x > (double) (MIN_SMALL-1))) {
- Sint xi = x;
- return make_small(xi);
- }
-
- if (x >= 0) {
- is_negative = 0;
- } else {
- is_negative = 1;
- x = -x;
- }
-
- /* Unscale & (calculate exponent) */
- ds = 0;
- dbase = ((double)(D_MASK)+1);
- while(x >= 1.0) {
- x /= dbase; /* "shift" right */
- ds++;
- }
- sz = BIG_NEED_SIZE(ds); /* number of words including arity */
- if (ERTS_NEED_GC(p, sz)) {
- erts_garbage_collect(p, sz, reg, live);
- }
- hp = p->htop;
- p->htop += sz;
- res = make_big(hp);
- xp = (ErtsDigit*) (hp + 1);
-
- for (i = ds-1; i >= 0; i--) {
- ErtsDigit d;
-
- x *= dbase; /* "shift" left */
- d = x; /* trunc */
- xp[i] = d; /* store digit */
- x -= d; /* remove integer part */
- }
- while ((ds & (BIG_DIGITS_PER_WORD-1)) != 0) {
- xp[ds++] = 0;
- }
-
- if (is_negative) {
- *hp = make_neg_bignum_header(sz-1);
- } else {
- *hp = make_pos_bignum_header(sz-1);
- }
- return res;
-}
-
-/********************************************************************************
- * binary_part guards. The actual implementation is in erl_bif_binary.c
- ********************************************************************************/
-Eterm erts_gc_binary_part_3(Process* p, Eterm* reg, Uint live)
-{
- return erts_gc_binary_part(p,reg,live,0);
-}
-
-Eterm erts_gc_binary_part_2(Process* p, Eterm* reg, Uint live)
-{
- return erts_gc_binary_part(p,reg,live,1);
-}
diff --git a/erts/emulator/beam/erl_bif_info.c b/erts/emulator/beam/erl_bif_info.c
index 6137edef1b..8fb8bd2831 100644
--- a/erts/emulator/beam/erl_bif_info.c
+++ b/erts/emulator/beam/erl_bif_info.c
@@ -2705,9 +2705,7 @@ BIF_RETTYPE system_info_1(BIF_ALIST_1)
goto bld_instruction_counts;
}
-#ifdef DEBUG
ASSERT(endp == hp);
-#endif
BIF_RET(res);
#endif /* #ifndef ERTS_OPCODE_COUNTER_SUPPORT */
@@ -4674,6 +4672,14 @@ BIF_RETTYPE erts_debug_set_internal_state_2(BIF_ALIST_2)
BIF_RET(am_notsup);
#endif
}
+ else if (ERTS_IS_ATOM_STR("ets_force_split", BIF_ARG_1)) {
+ if (is_tuple(BIF_ARG_2)) {
+ Eterm* tpl = tuple_val(BIF_ARG_2);
+
+ if (erts_ets_force_split(tpl[1], tpl[2] == am_true))
+ BIF_RET(am_ok);
+ }
+ }
}
BIF_ERROR(BIF_P, BADARG);
diff --git a/erts/emulator/beam/erl_bif_lists.c b/erts/emulator/beam/erl_bif_lists.c
index aaf262780f..b23fa77f5f 100644
--- a/erts/emulator/beam/erl_bif_lists.c
+++ b/erts/emulator/beam/erl_bif_lists.c
@@ -35,101 +35,270 @@
static Eterm keyfind(int Bif, Process* p, Eterm Key, Eterm Pos, Eterm List);
+/* erlang:'++'/2
+ *
+ * Adds a list to another (LHS ++ RHS). For historical reasons this is
+ * implemented by copying LHS and setting its tail to RHS without checking
+ * that RHS is a proper list. [] ++ 'not_a_list' will therefore result in
+ * 'not_a_list', and [1,2] ++ 3 will result in [1,2|3], and this is a bug that
+ * we have to live with. */
-static BIF_RETTYPE append(Process* p, Eterm A, Eterm B)
-{
- Eterm list;
- Eterm copy;
- Eterm last;
- Eterm* hp = NULL;
- Sint i;
+typedef struct {
+ Eterm lhs_original;
+ Eterm rhs_original;
- list = A;
+ Eterm iterator;
- if (is_nil(list)) {
- BIF_RET(B);
- }
+ Eterm result;
+ Eterm *result_cdr;
+} ErtsAppendContext;
+
+static int append_ctx_bin_dtor(Binary *context_bin) {
+ return 1;
+}
+
+static Eterm append_create_trap_state(Process *p,
+ ErtsAppendContext *from_context) {
+ ErtsAppendContext *to_context;
+ Binary *state_bin;
+ Eterm *hp;
+
+ state_bin = erts_create_magic_binary(sizeof(ErtsAppendContext),
+ append_ctx_bin_dtor);
+
+ to_context = ERTS_MAGIC_BIN_DATA(state_bin);
+ *to_context = *from_context;
- if (is_not_list(list)) {
- BIF_ERROR(p, BADARG);
+ if (from_context->result_cdr == &from_context->result) {
+ to_context->result_cdr = &to_context->result;
}
- /* optimistic append on heap first */
+ hp = HAlloc(p, ERTS_MAGIC_REF_THING_SIZE);
+ return erts_mk_magic_ref(&hp, &MSO(p), state_bin);
+}
+
+static BIF_RETTYPE lists_append_alloc(Process *p, ErtsAppendContext *context) {
+ static const Uint CELLS_PER_RED = 40;
+
+ Eterm *alloc_top, *alloc_end;
+ Uint cells_left, max_cells;
+ Eterm lookahead;
+
+ cells_left = max_cells = CELLS_PER_RED * ERTS_BIF_REDS_LEFT(p);
+ lookahead = context->iterator;
- if ((i = HeapWordsLeft(p) / 2) < 4) {
- goto list_tail;
+#ifdef DEBUG
+ cells_left = max_cells = max_cells / 10 + 1;
+#endif
+
+ while (cells_left != 0 && is_list(lookahead)) {
+ lookahead = CDR(list_val(lookahead));
+ cells_left--;
}
- hp = HEAP_TOP(p);
- copy = last = CONS(hp, CAR(list_val(list)), make_list(hp+2));
- list = CDR(list_val(list));
- hp += 2;
- i -= 2; /* don't use the last 2 words (extra i--;) */
-
- while(i-- && is_list(list)) {
- Eterm* listp = list_val(list);
- last = CONS(hp, CAR(listp), make_list(hp+2));
- list = CDR(listp);
- hp += 2;
+ BUMP_REDS(p, (max_cells - cells_left) / CELLS_PER_RED);
+
+ if (is_not_list(lookahead) && is_not_nil(lookahead)) {
+ /* It's possible that we're erroring out with an incomplete list, so it
+ * must be terminated or we'll leave a hole in the heap. */
+ *context->result_cdr = NIL;
+ return -1;
}
- /* A is proper and B is NIL return A as-is, don't update HTOP */
+ alloc_top = HAlloc(p, 2 * (max_cells - cells_left));
+ alloc_end = alloc_top + 2 * (max_cells - cells_left);
+
+ while (alloc_top < alloc_end) {
+ Eterm *cell = list_val(context->iterator);
+
+ ASSERT(context->iterator != lookahead);
+
+ *context->result_cdr = make_list(alloc_top);
+ context->result_cdr = &CDR(alloc_top);
+ CAR(alloc_top) = CAR(cell);
- if (is_nil(list) && is_nil(B)) {
- BIF_RET(A);
+ context->iterator = CDR(cell);
+ alloc_top += 2;
}
- if (is_nil(list)) {
- HEAP_TOP(p) = hp;
- CDR(list_val(last)) = B;
- BIF_RET(copy);
+ if (is_list(context->iterator)) {
+ /* The result only has to be terminated when returning it to the user,
+ * but we're doing it when trapping as well to prevent headaches when
+ * debugging. */
+ *context->result_cdr = NIL;
+ ASSERT(cells_left == 0);
+ return 0;
}
-list_tail:
+ *context->result_cdr = context->rhs_original;
+ ASSERT(is_nil(context->iterator));
+
+ if (is_nil(context->rhs_original)) {
+ /* The list we created was equal to the original, so we'll return that
+ * in the hopes that the garbage we created can be removed soon. */
+ context->result = context->lhs_original;
+ }
+
+ return 1;
+}
+
+static BIF_RETTYPE lists_append_onheap(Process *p, ErtsAppendContext *context) {
+ static const Uint CELLS_PER_RED = 60;
+
+ Eterm *alloc_start, *alloc_top, *alloc_end;
+ Uint cells_left, max_cells;
+
+ cells_left = max_cells = CELLS_PER_RED * ERTS_BIF_REDS_LEFT(p);
+
+#ifdef DEBUG
+ cells_left = max_cells = max_cells / 10 + 1;
+#endif
+
+ ASSERT(HEAP_LIMIT(p) >= HEAP_TOP(p) + 2);
+ alloc_start = HEAP_TOP(p);
+ alloc_end = HEAP_LIMIT(p) - 2;
+ alloc_top = alloc_start;
+
+ /* Don't process more cells than we have reductions for. */
+ alloc_end = MIN(alloc_top + (cells_left * 2), alloc_end);
+
+ while (alloc_top < alloc_end && is_list(context->iterator)) {
+ Eterm *cell = list_val(context->iterator);
- if ((i = erts_list_length(list)) < 0) {
- BIF_ERROR(p, BADARG);
+ *context->result_cdr = make_list(alloc_top);
+ context->result_cdr = &CDR(alloc_top);
+ CAR(alloc_top) = CAR(cell);
+
+ context->iterator = CDR(cell);
+ alloc_top += 2;
}
- /* remaining list was proper and B is NIL */
- if (is_nil(B)) {
- BIF_RET(A);
+ cells_left -= (alloc_top - alloc_start) / 2;
+ HEAP_TOP(p) = alloc_top;
+
+ ASSERT(cells_left >= 0 && cells_left <= max_cells);
+ BUMP_REDS(p, (max_cells - cells_left) / CELLS_PER_RED);
+
+ if (is_not_list(context->iterator) && is_not_nil(context->iterator)) {
+ *context->result_cdr = NIL;
+ return -1;
}
- if (hp) {
- /* Note: fall through case, already written
- * on the heap.
- * The last 2 words of the heap is not written yet
- */
- Eterm *hp_save = hp;
- ASSERT(i != 0);
- HEAP_TOP(p) = hp + 2;
- if (i == 1) {
- hp[0] = CAR(list_val(list));
- hp[1] = B;
- BIF_RET(copy);
+ if (is_list(context->iterator)) {
+ if (cells_left > CELLS_PER_RED) {
+ return lists_append_alloc(p, context);
}
- hp = HAlloc(p, 2*(i - 1));
- last = CONS(hp_save, CAR(list_val(list)), make_list(hp));
- } else {
- hp = HAlloc(p, 2*i);
- copy = last = CONS(hp, CAR(list_val(list)), make_list(hp+2));
- hp += 2;
+
+ *context->result_cdr = NIL;
+ return 0;
+ }
+
+ *context->result_cdr = context->rhs_original;
+ ASSERT(is_nil(context->iterator));
+
+ if (is_nil(context->rhs_original)) {
+ context->result = context->lhs_original;
}
- list = CDR(list_val(list));
- i--;
+ return 1;
+}
+
+static int append_continue(Process *p, ErtsAppendContext *context) {
+ /* We build the result on the unused part of the heap if possible to save
+ * us the trouble of having to figure out the list size. We fall back to
+ * lists_append_alloc when we run out of space. */
+ if (HeapWordsLeft(p) > 8) {
+ return lists_append_onheap(p, context);
+ }
+
+ return lists_append_alloc(p, context);
+}
+
+static int append_start(Process *p, Eterm lhs, Eterm rhs,
+ ErtsAppendContext *context) {
+ context->lhs_original = lhs;
+ context->rhs_original = rhs;
+
+ context->result_cdr = &context->result;
+ context->result = NIL;
+
+ context->iterator = lhs;
+
+ return append_continue(p, context);
+}
+
+/* erlang:'++'/2 */
+static Eterm append(Export *bif_entry, BIF_ALIST_2) {
+ Eterm lhs = BIF_ARG_1, rhs = BIF_ARG_2;
+
+ if (is_nil(lhs)) {
+ /* This is buggy but expected, `[] ++ 'not_a_list'` has always resulted
+ * in 'not_a_list'. */
+ return rhs;
+ } else if (is_list(lhs)) {
+ /* We start with the context on the stack in the hopes that we won't
+ * have to trap. */
+ ErtsAppendContext context;
+ int res;
+
+ res = append_start(BIF_P, lhs, rhs, &context);
+
+ if (res == 0) {
+ Eterm state_mref;
+
+ state_mref = append_create_trap_state(BIF_P, &context);
+ erts_set_gc_state(BIF_P, 0);
+
+ BIF_TRAP2(bif_entry, BIF_P, state_mref, NIL);
+ }
+
+ if (res < 0) {
+ ASSERT(is_nil(*context.result_cdr));
+ BIF_ERROR(BIF_P, BADARG);
+ }
+
+ ASSERT(*context.result_cdr == context.rhs_original);
+ BIF_RET(context.result);
+ } else if (is_internal_magic_ref(lhs)) {
+ ErtsAppendContext *context;
+ int (*dtor)(Binary*);
+ Binary *magic_bin;
+
+ int res;
+
+ magic_bin = erts_magic_ref2bin(lhs);
+ dtor = ERTS_MAGIC_BIN_DESTRUCTOR(magic_bin);
+
+ if (dtor != append_ctx_bin_dtor) {
+ BIF_ERROR(BIF_P, BADARG);
+ }
+
+ ASSERT(BIF_P->flags & F_DISABLE_GC);
+ ASSERT(rhs == NIL);
- ASSERT(i > -1);
- while(i--) {
- Eterm* listp = list_val(list);
- last = CONS(hp, CAR(listp), make_list(hp+2));
- list = CDR(listp);
- hp += 2;
+ context = ERTS_MAGIC_BIN_DATA(magic_bin);
+ res = append_continue(BIF_P, context);
+
+ if (res == 0) {
+ BIF_TRAP2(bif_entry, BIF_P, lhs, NIL);
+ }
+
+ erts_set_gc_state(BIF_P, 1);
+
+ if (res < 0) {
+ ASSERT(is_nil(*context->result_cdr));
+ ERTS_BIF_ERROR_TRAPPED2(BIF_P, BADARG, bif_entry,
+ context->lhs_original,
+ context->rhs_original);
+ }
+
+ ASSERT(*context->result_cdr == context->rhs_original);
+ BIF_RET(context->result);
}
- CDR(list_val(last)) = B;
- BIF_RET(copy);
+ ASSERT(!(BIF_P->flags & F_DISABLE_GC));
+
+ BIF_ERROR(BIF_P, BADARG);
}
/*
@@ -139,12 +308,12 @@ list_tail:
Eterm
ebif_plusplus_2(BIF_ALIST_2)
{
- return append(BIF_P, BIF_ARG_1, BIF_ARG_2);
+ return append(bif_export[BIF_ebif_plusplus_2], BIF_CALL_ARGS);
}
BIF_RETTYPE append_2(BIF_ALIST_2)
{
- return append(BIF_P, BIF_ARG_1, BIF_ARG_2);
+ return append(bif_export[BIF_append_2], BIF_CALL_ARGS);
}
/* erlang:'--'/2
@@ -915,7 +1084,7 @@ static BIF_RETTYPE lists_reverse_alloc(Process *c_p,
list = list_in;
tail = tail_in;
- cells_left = max_cells = CELLS_PER_RED * (1 + ERTS_BIF_REDS_LEFT(c_p));
+ cells_left = max_cells = CELLS_PER_RED * ERTS_BIF_REDS_LEFT(c_p);
lookahead = list;
while (cells_left != 0 && is_list(lookahead)) {
@@ -964,7 +1133,7 @@ static BIF_RETTYPE lists_reverse_onheap(Process *c_p,
list = list_in;
tail = tail_in;
- cells_left = max_cells = CELLS_PER_RED * (1 + ERTS_BIF_REDS_LEFT(c_p));
+ cells_left = max_cells = CELLS_PER_RED * ERTS_BIF_REDS_LEFT(c_p);
ASSERT(HEAP_LIMIT(c_p) >= HEAP_TOP(c_p) + 2);
alloc_start = HEAP_TOP(c_p);
@@ -992,8 +1161,6 @@ static BIF_RETTYPE lists_reverse_onheap(Process *c_p,
if (is_nil(list)) {
BIF_RET(tail);
} else if (is_list(list)) {
- ASSERT(is_list(tail));
-
if (cells_left > CELLS_PER_RED) {
return lists_reverse_alloc(c_p, list, tail);
}
diff --git a/erts/emulator/beam/erl_bif_re.c b/erts/emulator/beam/erl_bif_re.c
index bbc64eb9aa..e0b9202fe7 100644
--- a/erts/emulator/beam/erl_bif_re.c
+++ b/erts/emulator/beam/erl_bif_re.c
@@ -532,10 +532,7 @@ re_compile(Process* p, Eterm arg1, Eterm arg2)
int options = 0;
int pflags = 0;
int unicode = 0;
-#ifdef DEBUG
int buffres;
-#endif
-
if (parse_options(arg2,&options,NULL,&pflags,NULL,NULL,NULL,NULL)
< 0) {
@@ -556,12 +553,8 @@ re_compile(Process* p, Eterm arg1, Eterm arg2)
BIF_ERROR(p,BADARG);
}
expr = erts_alloc(ERTS_ALC_T_RE_TMP_BUF, slen + 1);
-#ifdef DEBUG
- buffres =
-#endif
- erts_iolist_to_buf(arg1, expr, slen);
-
- ASSERT(buffres >= 0);
+ buffres = erts_iolist_to_buf(arg1, expr, slen);
+ ASSERT(buffres >= 0); (void)buffres;
expr[slen]='\0';
result = erts_pcre_compile2(expr, options, &errcode,
@@ -1052,9 +1045,7 @@ build_capture(Eterm capture_spec[CAPSPEC_SIZE], const pcre *code)
tmpb[ap->len] = '\0';
} else {
ErlDrvSizeT slen;
-#ifdef DEBUG
int buffres;
-#endif
if (erts_iolist_size(val, &slen)) {
goto error;
@@ -1068,11 +1059,8 @@ build_capture(Eterm capture_spec[CAPSPEC_SIZE], const pcre *code)
}
}
-#ifdef DEBUG
- buffres =
-#endif
- erts_iolist_to_buf(val, tmpb, slen);
- ASSERT(buffres >= 0);
+ buffres = erts_iolist_to_buf(val, tmpb, slen);
+ ASSERT(buffres >= 0); (void)buffres;
tmpb[slen] = '\0';
}
build_one_capture(code,&ri,&sallocated,has_dupnames,tmpb);
@@ -1145,9 +1133,7 @@ re_run(Process *p, Eterm arg1, Eterm arg2, Eterm arg3)
const char *errstr = "";
int errofset = 0;
int capture_count;
-#ifdef DEBUG
int buffres;
-#endif
if (pflags & PARSE_FLAG_UNICODE &&
(!is_binary(arg2) || !is_binary(arg1) ||
@@ -1161,12 +1147,8 @@ re_run(Process *p, Eterm arg1, Eterm arg2, Eterm arg3)
expr = erts_alloc(ERTS_ALC_T_RE_TMP_BUF, slen + 1);
-#ifdef DEBUG
- buffres =
-#endif
- erts_iolist_to_buf(arg2, expr, slen);
-
- ASSERT(buffres >= 0);
+ buffres = erts_iolist_to_buf(arg2, expr, slen);
+ ASSERT(buffres >= 0); (void)buffres;
expr[slen]='\0';
result = erts_pcre_compile2(expr, comp_options, &errcode,
@@ -1317,9 +1299,7 @@ re_run(Process *p, Eterm arg1, Eterm arg2, Eterm arg3)
restart.subject = (char *) (pb->bytes+offset);
restart.flags |= RESTART_FLAG_SUBJECT_IN_BINARY;
} else {
-#ifdef DEBUG
int buffres;
-#endif
handle_iolist:
if (erts_iolist_size(arg1, &slength)) {
erts_free(ERTS_ALC_T_RE_SUBJECT, restart.ovector);
@@ -1331,11 +1311,8 @@ handle_iolist:
}
restart.subject = erts_alloc(ERTS_ALC_T_RE_SUBJECT, slength);
-#ifdef DEBUG
- buffres =
-#endif
- erts_iolist_to_buf(arg1, restart.subject, slength);
- ASSERT(buffres >= 0);
+ buffres = erts_iolist_to_buf(arg1, restart.subject, slength);
+ ASSERT(buffres >= 0); (void)buffres;
}
if (pflags & PARSE_FLAG_REPORT_ERRORS) {
@@ -1457,10 +1434,7 @@ re_inspect_2(BIF_ALIST_2)
Eterm res;
const pcre *code;
byte *temp_alloc = NULL;
-#ifdef DEBUG
- int infores;
-#endif
-
+ int infores;
if (is_not_tuple(BIF_ARG_1) || (arityval(*tuple_val(BIF_ARG_1)) != 5)) {
goto error;
@@ -1484,12 +1458,8 @@ re_inspect_2(BIF_ALIST_2)
if (erts_pcre_fullinfo(code, NULL, PCRE_INFO_OPTIONS, &options) != 0)
goto error;
-#ifdef DEBUG
- infores =
-#endif
- erts_pcre_fullinfo(code, NULL, PCRE_INFO_NAMECOUNT, &top);
-
- ASSERT(infores == 0);
+ infores = erts_pcre_fullinfo(code, NULL, PCRE_INFO_NAMECOUNT, &top);
+ ASSERT(infores == 0); (void)infores;
if (top <= 0) {
hp = HAlloc(BIF_P, 3);
@@ -1497,18 +1467,10 @@ re_inspect_2(BIF_ALIST_2)
erts_free_aligned_binary_bytes(temp_alloc);
BIF_RET(res);
}
-#ifdef DEBUG
- infores =
-#endif
- erts_pcre_fullinfo(code, NULL, PCRE_INFO_NAMEENTRYSIZE, &entrysize);
-
+ infores = erts_pcre_fullinfo(code, NULL, PCRE_INFO_NAMEENTRYSIZE, &entrysize);
ASSERT(infores == 0);
-#ifdef DEBUG
- infores =
-#endif
- erts_pcre_fullinfo(code, NULL, PCRE_INFO_NAMETABLE, &nametable);
-
+ infores = erts_pcre_fullinfo(code, NULL, PCRE_INFO_NAMETABLE, &nametable);
ASSERT(infores == 0);
has_dupnames = ((options & PCRE_DUPNAMES) != 0);
diff --git a/erts/emulator/beam/erl_binary.h b/erts/emulator/beam/erl_binary.h
index 08edb43c49..4bf77988f7 100644
--- a/erts/emulator/beam/erl_binary.h
+++ b/erts/emulator/beam/erl_binary.h
@@ -278,7 +278,6 @@ Eterm erts_bin_bytes_to_list(Eterm previous, Eterm* hp, byte* bytes, Uint size,
*/
BIF_RETTYPE erts_list_to_binary_bif(Process *p, Eterm arg, Export *bif);
-BIF_RETTYPE erts_gc_binary_part(Process *p, Eterm *reg, Eterm live, int range_is_tuple);
BIF_RETTYPE erts_binary_part(Process *p, Eterm binary, Eterm epos, Eterm elen);
diff --git a/erts/emulator/beam/erl_bits.c b/erts/emulator/beam/erl_bits.c
index 3a16913473..f5807d25d7 100644
--- a/erts/emulator/beam/erl_bits.c
+++ b/erts/emulator/beam/erl_bits.c
@@ -144,6 +144,42 @@ erts_bs_start_match_2(Process *p, Eterm Binary, Uint Max)
return make_matchstate(ms);
}
+ErlBinMatchState *erts_bs_start_match_3(Process *p, Eterm Binary)
+{
+ Eterm Orig;
+ Uint offs;
+ Uint* hp;
+ Uint NeededSize;
+ ErlBinMatchState *ms;
+ Uint bitoffs;
+ Uint bitsize;
+ Uint total_bin_size;
+ ProcBin* pb;
+
+ ASSERT(is_binary(Binary));
+ total_bin_size = binary_size(Binary);
+ if ((total_bin_size >> (8*sizeof(Uint)-3)) != 0) {
+ return NULL;
+ }
+
+ NeededSize = ERL_BIN_MATCHSTATE_SIZE(0);
+ hp = HeapOnlyAlloc(p, NeededSize);
+ ms = (ErlBinMatchState *) hp;
+ ERTS_GET_REAL_BIN(Binary, Orig, offs, bitoffs, bitsize);
+ pb = (ProcBin *) boxed_val(Orig);
+ if (pb->thing_word == HEADER_PROC_BIN && pb->flags != 0) {
+ erts_emasculate_writable_binary(pb);
+ }
+
+ ms->thing_word = HEADER_BIN_MATCHSTATE(0);
+ (ms->mb).orig = Orig;
+ (ms->mb).base = binary_bytes(Orig);
+ (ms->mb).offset = 8 * offs + bitoffs;
+ (ms->mb).size = total_bin_size * 8 + (ms->mb).offset + bitsize;
+
+ return ms;
+}
+
#ifdef DEBUG
# define CHECK_MATCH_BUFFER(MB) check_match_buffer(MB)
@@ -1295,6 +1331,14 @@ erts_bs_append(Process* c_p, Eterm* reg, Uint live, Eterm build_size_term,
}
}
+ if (build_size_in_bits == 0) {
+ if (c_p->stop - c_p->htop < extra_words) {
+ (void) erts_garbage_collect(c_p, extra_words, reg, live+1);
+ bin = reg[live];
+ }
+ return bin;
+ }
+
if((ERTS_UINT_MAX - build_size_in_bits) < erts_bin_offset) {
c_p->freason = SYSTEM_LIMIT;
return THE_NON_VALUE;
@@ -1352,13 +1396,13 @@ erts_bs_append(Process* c_p, Eterm* reg, Uint live, Eterm build_size_term,
Uint bitsize;
Eterm* hp;
- /*
+ /*
* Allocate heap space.
*/
heap_need = PROC_BIN_SIZE + ERL_SUB_BIN_SIZE + extra_words;
if (c_p->stop - c_p->htop < heap_need) {
(void) erts_garbage_collect(c_p, heap_need, reg, live+1);
- bin = reg[live];
+ bin = reg[live];
}
hp = c_p->htop;
@@ -1376,6 +1420,10 @@ erts_bs_append(Process* c_p, Eterm* reg, Uint live, Eterm build_size_term,
}
}
+ if (build_size_in_bits == 0) {
+ return bin;
+ }
+
if((ERTS_UINT_MAX - build_size_in_bits) < erts_bin_offset) {
c_p->freason = SYSTEM_LIMIT;
return THE_NON_VALUE;
diff --git a/erts/emulator/beam/erl_bits.h b/erts/emulator/beam/erl_bits.h
index 7beef5cfda..50d353e1fa 100644
--- a/erts/emulator/beam/erl_bits.h
+++ b/erts/emulator/beam/erl_bits.h
@@ -73,12 +73,16 @@ struct erl_bits_state {
typedef struct erl_bin_match_struct{
Eterm thing_word;
ErlBinMatchBuffer mb; /* Present match buffer */
- Eterm save_offset[1]; /* Saved offsets */
+ Eterm save_offset[1]; /* Saved offsets, only valid for contexts
+ * created through bs_start_match2. */
} ErlBinMatchState;
-#define ERL_BIN_MATCHSTATE_SIZE(_Max) ((sizeof(ErlBinMatchState) + (_Max)*sizeof(Eterm))/sizeof(Eterm))
-#define HEADER_BIN_MATCHSTATE(_Max) _make_header(ERL_BIN_MATCHSTATE_SIZE((_Max))-1, _TAG_HEADER_BIN_MATCHSTATE)
-#define HEADER_NUM_SLOTS(hdr) (header_arity(hdr)-sizeof(ErlBinMatchState)/sizeof(Eterm)+1)
+#define ERL_BIN_MATCHSTATE_SIZE(_Max) \
+ ((offsetof(ErlBinMatchState, save_offset) + (_Max)*sizeof(Eterm))/sizeof(Eterm))
+#define HEADER_BIN_MATCHSTATE(_Max) \
+ _make_header(ERL_BIN_MATCHSTATE_SIZE((_Max)) - 1, _TAG_HEADER_BIN_MATCHSTATE)
+#define HEADER_NUM_SLOTS(hdr) \
+ (header_arity(hdr) - (offsetof(ErlBinMatchState, save_offset) / sizeof(Eterm)) + 1)
#define make_matchstate(_Ms) make_boxed((Eterm*)(_Ms))
#define ms_matchbuffer(_Ms) &(((ErlBinMatchState*) boxed_val(_Ms))->mb)
@@ -144,6 +148,7 @@ void erts_bits_destroy_state(ERL_BITS_PROTO_0);
*/
Eterm erts_bs_start_match_2(Process *p, Eterm Bin, Uint Max);
+ErlBinMatchState *erts_bs_start_match_3(Process *p, Eterm Bin);
Eterm erts_bs_get_integer_2(Process *p, Uint num_bits, unsigned flags, ErlBinMatchBuffer* mb);
Eterm erts_bs_get_binary_2(Process *p, Uint num_bits, unsigned flags, ErlBinMatchBuffer* mb);
Eterm erts_bs_get_float_2(Process *p, Uint num_bits, unsigned flags, ErlBinMatchBuffer* mb);
diff --git a/erts/emulator/beam/erl_db.c b/erts/emulator/beam/erl_db.c
index c009a3bde8..df6f42edd3 100644
--- a/erts/emulator/beam/erl_db.c
+++ b/erts/emulator/beam/erl_db.c
@@ -90,7 +90,8 @@ enum DbIterSafety {
ITER_SAFE /* No need to fixate at all */
};
# define ITERATION_SAFETY(Proc,Tab) \
- ((IS_TREE_TABLE((Tab)->common.status) || ONLY_WRITER(Proc,Tab)) ? ITER_SAFE \
+ ((IS_TREE_TABLE((Tab)->common.status) || IS_CATREE_TABLE((Tab)->common.status) \
+ || ONLY_WRITER(Proc,Tab)) ? ITER_SAFE \
: (((Tab)->common.status & DB_FINE_LOCKED) ? ITER_UNSAFE : ITER_SAFE_LOCKED))
#define DID_TRAP(P,Ret) (!is_value(Ret) && ((P)->freason == TRAP))
@@ -359,6 +360,7 @@ typedef enum {
extern DbTableMethod db_hash;
extern DbTableMethod db_tree;
+extern DbTableMethod db_catree;
int user_requested_db_max_tabs;
int erts_ets_realloc_always_moves;
@@ -407,21 +409,17 @@ static void
free_dbtable(void *vtb)
{
DbTable *tb = (DbTable *) vtb;
-#ifdef HARDDEBUG
- if (erts_atomic_read_nob(&tb->common.memory_size) != sizeof(DbTable)) {
- erts_fprintf(stderr, "ets: free_dbtable memory remain=%ld fix=%x\n",
- erts_atomic_read_nob(&tb->common.memory_size)-sizeof(DbTable),
- tb->common.fixations);
- }
-#endif
- erts_rwmtx_destroy(&tb->common.rwlock);
- erts_mtx_destroy(&tb->common.fixlock);
- ASSERT(is_immed(tb->common.heir_data));
- if (tb->common.btid)
- erts_bin_release(tb->common.btid);
+ ASSERT(erts_atomic_read_nob(&tb->common.memory_size) == sizeof(DbTable));
+
+ erts_rwmtx_destroy(&tb->common.rwlock);
+ erts_mtx_destroy(&tb->common.fixlock);
+ ASSERT(is_immed(tb->common.heir_data));
+
+ if (tb->common.btid)
+ erts_bin_release(tb->common.btid);
- erts_db_free(ERTS_ALC_T_DB_TABLE, tb, (void *) tb, sizeof(DbTable));
+ erts_db_free(ERTS_ALC_T_DB_TABLE, tb, (void *) tb, sizeof(DbTable));
}
static void schedule_free_dbtable(DbTable* tb)
@@ -1076,7 +1074,7 @@ BIF_RETTYPE ets_update_element_3(BIF_ALIST_3)
DB_BIF_GET_TABLE(tb, DB_WRITE, LCK_WRITE_REC, BIF_ets_update_element_3);
UseTmpHeap(2,BIF_P);
- if (!(tb->common.status & (DB_SET | DB_ORDERED_SET))) {
+ if (!(tb->common.status & (DB_SET | DB_ORDERED_SET | DB_CA_ORDERED_SET))) {
goto bail_out;
}
if (is_tuple(BIF_ARG_3)) {
@@ -1165,7 +1163,7 @@ do_update_counter(Process *p, DbTable* tb,
UseTmpHeap(5, p);
- if (!(tb->common.status & (DB_SET | DB_ORDERED_SET))) {
+ if (!(tb->common.status & (DB_SET | DB_ORDERED_SET | DB_CA_ORDERED_SET))) {
goto bail_out;
}
if (is_integer(arg3)) { /* Incr */
@@ -1647,15 +1645,15 @@ BIF_RETTYPE ets_new_2(BIF_ALIST_2)
val = CAR(list_val(list));
if (val == am_bag) {
status |= DB_BAG;
- status &= ~(DB_SET | DB_DUPLICATE_BAG | DB_ORDERED_SET);
+ status &= ~(DB_SET | DB_DUPLICATE_BAG | DB_ORDERED_SET | DB_CA_ORDERED_SET);
}
else if (val == am_duplicate_bag) {
status |= DB_DUPLICATE_BAG;
- status &= ~(DB_SET | DB_BAG | DB_ORDERED_SET);
+ status &= ~(DB_SET | DB_BAG | DB_ORDERED_SET | DB_CA_ORDERED_SET);
}
else if (val == am_ordered_set) {
status |= DB_ORDERED_SET;
- status &= ~(DB_SET | DB_BAG | DB_DUPLICATE_BAG);
+ status &= ~(DB_SET | DB_BAG | DB_DUPLICATE_BAG | DB_CA_ORDERED_SET);
}
else if (is_tuple(val)) {
Eterm *tp = tuple_val(val);
@@ -1716,7 +1714,13 @@ BIF_RETTYPE ets_new_2(BIF_ALIST_2)
if (is_not_nil(list)) { /* bad opt or not a well formed list */
BIF_ERROR(BIF_P, BADARG);
}
- if (IS_HASH_TABLE(status)) {
+ if (IS_TREE_TABLE(status) && is_fine_locked && !(status & DB_PRIVATE)) {
+ meth = &db_catree;
+ status |= DB_CA_ORDERED_SET;
+ status &= ~(DB_SET | DB_BAG | DB_DUPLICATE_BAG | DB_ORDERED_SET);
+ status |= DB_FINE_LOCKED;
+ }
+ else if (IS_HASH_TABLE(status)) {
meth = &db_hash;
if (is_fine_locked && !(status & DB_PRIVATE)) {
status |= DB_FINE_LOCKED;
@@ -3506,6 +3510,7 @@ void init_db(ErtsDbSpinCount db_spin_count)
db_initialize_hash();
db_initialize_tree();
+ db_initialize_catree();
/* Non visual BIF to trap to. */
erts_init_trap_export(&ets_select_delete_continue_exp,
@@ -4114,6 +4119,8 @@ static Eterm table_info(Process* p, DbTable* tb, Eterm What)
ret = am_duplicate_bag;
} else if (tb->common.status & DB_ORDERED_SET) {
ret = am_ordered_set;
+ } else if (tb->common.status & DB_CA_ORDERED_SET) {
+ ret = am_ordered_set;
} else { /*TT*/
ASSERT(tb->common.status & DB_BAG);
ret = am_bag;
@@ -4240,9 +4247,20 @@ static Eterm table_info(Process* p, DbTable* tb, Eterm What)
make_small(stats.max_chain_len),
make_small(stats.kept_items));
}
- else {
+ else if (IS_CATREE_TABLE(tb->common.status)) {
+ DbCATreeStats stats;
+ Eterm* hp;
+
+ db_calc_stats_catree(&tb->catree, &stats);
+ hp = HAlloc(p, 4);
+ ret = TUPLE3(hp,
+ make_small(stats.route_nodes),
+ make_small(stats.base_nodes),
+ make_small(stats.max_depth));
+
+ }
+ else
ret = am_false;
- }
}
return ret;
}
@@ -4409,6 +4427,12 @@ void erts_lcnt_enable_db_lock_count(DbTable *tb, int enable) {
if(IS_HASH_TABLE(tb->common.status)) {
erts_lcnt_enable_db_hash_lock_count(&tb->hash, enable);
+ } else if(IS_CATREE_TABLE(tb->common.status)) {
+ /* erts_lcnt_enable_db_catree_lock_count is not thread safe so
+ the table needs to get locked */
+ db_lock(tb, LCK_WRITE);
+ erts_lcnt_enable_db_catree_lock_count(&tb->catree, enable);
+ db_unlock(tb, LCK_WRITE);
}
}
@@ -4441,3 +4465,16 @@ void erts_lcnt_update_db_locks(int enable) {
#ifdef ETS_DBG_FORCE_TRAP
erts_aint_t erts_ets_dbg_force_trap = 0;
#endif
+
+int erts_ets_force_split(Eterm tid, int on)
+{
+ DbTable* tb = tid2tab(tid);
+ if (!tb || !IS_CATREE_TABLE(tb->common.type))
+ return 0;
+
+ db_lock(tb, LCK_WRITE);
+ if (!(tb->common.status & DB_DELETE))
+ db_catree_force_split(&tb->catree, on);
+ db_unlock(tb, LCK_WRITE);
+ return 1;
+}
diff --git a/erts/emulator/beam/erl_db.h b/erts/emulator/beam/erl_db.h
index 23975d208f..5955d42aae 100644
--- a/erts/emulator/beam/erl_db.h
+++ b/erts/emulator/beam/erl_db.h
@@ -66,6 +66,7 @@ typedef struct {
#include "erl_db_util.h" /* Flags */
#include "erl_db_hash.h" /* DbTableHash */
#include "erl_db_tree.h" /* DbTableTree */
+#include "erl_db_catree.h" /* DbTableCATree */
/*TT*/
Uint erts_get_ets_misc_mem_size(void);
@@ -90,6 +91,7 @@ union db_table {
DbTableCommon common; /* Any type of db table */
DbTableHash hash; /* Linear hash array specific data */
DbTableTree tree; /* AVL tree specific data */
+ DbTableCATree catree; /* CA tree specific data */
DbTableRelease release;
/*TT*/
};
@@ -128,6 +130,7 @@ extern Export ets_select_continue_exp;
extern erts_atomic_t erts_ets_misc_mem_size;
Eterm erts_ets_colliding_names(Process*, Eterm name, Uint cnt);
+int erts_ets_force_split(Eterm tid, int on);
Uint erts_db_get_max_tabs(void);
Eterm erts_db_make_tid(Process *c_p, DbTableCommon *tb);
@@ -284,6 +287,12 @@ ERTS_GLB_INLINE void erts_db_free(ErtsAlcType_t type,
void *ptr,
Uint size);
+ERTS_GLB_INLINE void erts_schedule_db_free(DbTableCommon* tab,
+ void (*free_func)(void *),
+ void *ptr,
+ ErtsThrPrgrLaterOp *lop,
+ Uint size);
+
ERTS_GLB_INLINE void erts_db_free_nt(ErtsAlcType_t type,
void *ptr,
Uint size);
@@ -304,6 +313,26 @@ erts_db_free(ErtsAlcType_t type, DbTable *tab, void *ptr, Uint size)
}
ERTS_GLB_INLINE void
+erts_schedule_db_free(DbTableCommon* tab,
+ void (*free_func)(void *),
+ void *ptr,
+ ErtsThrPrgrLaterOp *lop,
+ Uint size)
+{
+ ASSERT(ptr != 0);
+ ASSERT(((void *) tab) != ptr);
+ ASSERT(size == ERTS_ALC_DBG_BLK_SZ(ptr));
+
+ /*
+ * We update table memory stats here as table may already be gone
+ * when 'free_func' is finally called.
+ */
+ ERTS_DB_ALC_MEM_UPDATE_((DbTable*)tab, size, 0);
+
+ erts_schedule_thr_prgr_later_cleanup_op(free_func, ptr, lop, size);
+}
+
+ERTS_GLB_INLINE void
erts_db_free_nt(ErtsAlcType_t type, void *ptr, Uint size)
{
ASSERT(ptr != 0);
diff --git a/erts/emulator/beam/erl_db_catree.c b/erts/emulator/beam/erl_db_catree.c
new file mode 100644
index 0000000000..75ac1c4a93
--- /dev/null
+++ b/erts/emulator/beam/erl_db_catree.c
@@ -0,0 +1,2250 @@
+/*
+ * %CopyrightBegin%
+ *
+ * Copyright Ericsson AB and Kjell Winblad 1998-2018. All Rights Reserved.
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * %CopyrightEnd%
+ */
+
+/*
+ * Description: Implementation of ETS ordered_set table type with
+ * fine-grained synchronization.
+ *
+ * Author: Kjell Winblad
+ *
+ * This implementation is based on the contention adapting search tree
+ * (CA tree). The CA tree is a concurrent data structure that
+ * dynamically adapts its synchronization granularity based on how
+ * much contention is detected in locks. The following publication
+ * contains a detailed description of CA trees:
+ *
+ * A Contention Adapting Approach to Concurrent Ordered Sets
+ * Journal of Parallel and Distributed Computing, 2018
+ * Kjell Winblad and Konstantinos Sagonas
+ * https://doi.org/10.1016/j.jpdc.2017.11.007
+ *
+ * The following publication may also be interesting as it discusses
+ * how the CA tree can be used as an ETS ordered_set table type
+ * backend:
+ *
+ * More Scalable Ordered Set for ETS Using Adaptation
+ * In Thirteenth ACM SIGPLAN workshop on Erlang (2014)
+ * Kjell Winblad and Konstantinos Sagonas
+ * https://doi.org/10.1145/2633448.2633455
+ *
+ * This implementation of the ordered_set ETS table type is only
+ * activated when the options {write_concurrency, true}, public and
+ * ordered_set are passed to the ets:new/2 function. This
+ * implementation is expected to scale better than the default
+ * implementation located in "erl_db_tree.c".
+ *
+ * The default implementation has a static stack optimization (see
+ * get_static_stack in erl_db_tree.c). This implementation does not
+ * have such an optimization as it induces bad scalability when
+ * concurrent read operations are frequent (they all try to get hold
+ * of the same stack). The default implementation may thus perform
+ * better compared to this implementation in scenarios where the
+ * static stack optimization is useful. One such scenario is when only
+ * one process is accessing the table and this process is traversing
+ * the table with a sequence of next/2 calls.
+ */
+
+#ifdef HAVE_CONFIG_H
+# include "config.h"
+#endif
+
+#include "sys.h"
+#include "erl_vm.h"
+#include "global.h"
+#include "erl_process.h"
+#include "error.h"
+#define ERTS_WANT_DB_INTERNAL__
+#include "erl_db.h"
+#include "bif.h"
+#include "big.h"
+#include "erl_binary.h"
+
+#include "erl_db_catree.h"
+#include "erl_db_tree.h"
+#include "erl_db_tree_util.h"
+
+#ifdef DEBUG
+# define IF_DEBUG(X) X
+#else
+# define IF_DEBUG(X)
+#endif
+
+/*
+** Forward declarations
+*/
+
+static SWord do_free_base_node_cont(DbTableCATree *tb, SWord num_left);
+static SWord do_free_routing_nodes_catree_cont(DbTableCATree *tb, SWord num_left);
+static DbTableCATreeNode *catree_first_base_node_from_free_list(DbTableCATree *tb);
+
+/* Method interface functions */
+static int db_first_catree(Process *p, DbTable *tbl,
+ Eterm *ret);
+static int db_next_catree(Process *p, DbTable *tbl,
+ Eterm key, Eterm *ret);
+static int db_last_catree(Process *p, DbTable *tbl,
+ Eterm *ret);
+static int db_prev_catree(Process *p, DbTable *tbl,
+ Eterm key,
+ Eterm *ret);
+static int db_put_catree(DbTable *tbl, Eterm obj, int key_clash_fail);
+static int db_get_catree(Process *p, DbTable *tbl,
+ Eterm key, Eterm *ret);
+static int db_member_catree(DbTable *tbl, Eterm key, Eterm *ret);
+static int db_get_element_catree(Process *p, DbTable *tbl,
+ Eterm key,int ndex,
+ Eterm *ret);
+static int db_erase_catree(DbTable *tbl, Eterm key, Eterm *ret);
+static int db_erase_object_catree(DbTable *tbl, Eterm object,Eterm *ret);
+static int db_slot_catree(Process *p, DbTable *tbl,
+ Eterm slot_term, Eterm *ret);
+static int db_select_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, int reversed, Eterm *ret);
+static int db_select_count_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret);
+static int db_select_chunk_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Sint chunk_size,
+ int reversed, Eterm *ret);
+static int db_select_continue_catree(Process *p, DbTable *tbl,
+ Eterm continuation, Eterm *ret);
+static int db_select_count_continue_catree(Process *p, DbTable *tbl,
+ Eterm continuation, Eterm *ret);
+static int db_select_delete_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret);
+static int db_select_delete_continue_catree(Process *p, DbTable *tbl,
+ Eterm continuation, Eterm *ret);
+static int db_select_replace_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret);
+static int db_select_replace_continue_catree(Process *p, DbTable *tbl,
+ Eterm continuation, Eterm *ret);
+static int db_take_catree(Process *, DbTable *, Eterm, Eterm *);
+static void db_print_catree(fmtfn_t to, void *to_arg,
+ int show, DbTable *tbl);
+static int db_free_table_catree(DbTable *tbl);
+static SWord db_free_table_continue_catree(DbTable *tbl, SWord);
+static void db_foreach_offheap_catree(DbTable *,
+ void (*)(ErlOffHeap *, void *),
+ void *);
+static SWord db_delete_all_objects_catree(Process* p, DbTable* tbl, SWord reds);
+static int
+db_lookup_dbterm_catree(Process *, DbTable *, Eterm key, Eterm obj,
+ DbUpdateHandle*);
+static void db_finalize_dbterm_catree(int cret, DbUpdateHandle *);
+
+static void split_catree(DbTableCATree *tb,
+ DbTableCATreeNode* ERTS_RESTRICT base,
+ DbTableCATreeNode* ERTS_RESTRICT parent);
+static void join_catree(DbTableCATree *tb,
+ DbTableCATreeNode *thiz,
+ DbTableCATreeNode *parent);
+
+
+/*
+** External interface
+*/
+DbTableMethod db_catree =
+{
+ db_create_catree,
+ db_first_catree,
+ db_next_catree,
+ db_last_catree,
+ db_prev_catree,
+ db_put_catree,
+ db_get_catree,
+ db_get_element_catree,
+ db_member_catree,
+ db_erase_catree,
+ db_erase_object_catree,
+ db_slot_catree,
+ db_select_chunk_catree,
+ db_select_catree,
+ db_select_delete_catree,
+ db_select_continue_catree,
+ db_select_delete_continue_catree,
+ db_select_count_catree,
+ db_select_count_continue_catree,
+ db_select_replace_catree,
+ db_select_replace_continue_catree,
+ db_take_catree,
+ db_delete_all_objects_catree,
+ db_free_table_catree,
+ db_free_table_continue_catree,
+ db_print_catree,
+ db_foreach_offheap_catree,
+ db_lookup_dbterm_catree,
+ db_finalize_dbterm_catree
+
+};
+
+/*
+ * Constants
+ */
+
+#define ERL_DB_CATREE_LOCK_FAILURE_CONTRIBUTION 200
+#define ERL_DB_CATREE_LOCK_SUCCESS_CONTRIBUTION (-1)
+#define ERL_DB_CATREE_LOCK_MORE_THAN_ONE_CONTRIBUTION (-10)
+#define ERL_DB_CATREE_HIGH_CONTENTION_LIMIT 1000
+#define ERL_DB_CATREE_LOW_CONTENTION_LIMIT (-1000)
+#define ERL_DB_CATREE_MAX_ROUTE_NODE_LAYER_HEIGHT 14
+
+/*
+ * Internal CA tree related helper functions and macros
+ */
+
+#define GET_ROUTE_NODE_KEY(node) (node->u.route.key.term)
+#define GET_BASE_NODE_LOCK(node) (&(node->u.base.lock))
+#define GET_ROUTE_NODE_LOCK(node) (&(node->u.route.lock))
+
+
+/* Helpers for reading and writing shared atomic variables */
+
+/* No memory barrier */
+#define GET_ROOT(tb) ((DbTableCATreeNode*)erts_atomic_read_nob(&((tb)->root)))
+#define GET_LEFT(ca_tree_route_node) ((DbTableCATreeNode*)erts_atomic_read_nob(&(ca_tree_route_node->u.route.left)))
+#define GET_RIGHT(ca_tree_route_node) ((DbTableCATreeNode*)erts_atomic_read_nob(&(ca_tree_route_node->u.route.right)))
+#define SET_ROOT(tb, v) erts_atomic_set_nob(&((tb)->root), (erts_aint_t)(v))
+#define SET_LEFT(ca_tree_route_node, v) erts_atomic_set_nob(&(ca_tree_route_node->u.route.left), (erts_aint_t)(v));
+#define SET_RIGHT(ca_tree_route_node, v) erts_atomic_set_nob(&(ca_tree_route_node->u.route.right), (erts_aint_t)(v));
+
+
+/* Release or acquire barriers */
+#define GET_ROOT_ACQB(tb) ((DbTableCATreeNode*)erts_atomic_read_acqb(&((tb)->root)))
+#define GET_LEFT_ACQB(ca_tree_route_node) ((DbTableCATreeNode*)erts_atomic_read_acqb(&(ca_tree_route_node->u.route.left)))
+#define GET_RIGHT_ACQB(ca_tree_route_node) ((DbTableCATreeNode*)erts_atomic_read_acqb(&(ca_tree_route_node->u.route.right)))
+#define SET_ROOT_RELB(tb, v) erts_atomic_set_relb(&((tb)->root), (erts_aint_t)(v))
+#define SET_LEFT_RELB(ca_tree_route_node, v) erts_atomic_set_relb(&(ca_tree_route_node->u.route.left), (erts_aint_t)(v));
+#define SET_RIGHT_RELB(ca_tree_route_node, v) erts_atomic_set_relb(&(ca_tree_route_node->u.route.right), (erts_aint_t)(v));
+
+/* Compares a key to the key in a route node */
+static ERTS_INLINE Sint cmp_key_route(Eterm key,
+ DbTableCATreeNode *obj)
+{
+ return CMP(key, GET_ROUTE_NODE_KEY(obj));
+}
+
+/*
+ * Used by the split_tree function
+ */
+static ERTS_INLINE
+int less_than_two_elements(TreeDbTerm *root)
+{
+ return root == NULL || (root->left == NULL && root->right == NULL);
+}
+
+/*
+ * Inserts a TreeDbTerm into a tree. Returns the new root.
+ */
+static ERTS_INLINE
+TreeDbTerm* insert_TreeDbTerm(DbTableCATree *tb,
+ TreeDbTerm *insert_to_root,
+ TreeDbTerm *value_to_insert) {
+ /* Non recursive insertion in AVL tree, building our own stack */
+ TreeDbTerm **tstack[STACK_NEED];
+ int tpos = 0;
+ int dstack[STACK_NEED+1];
+ int dpos = 0;
+ int state = 0;
+ TreeDbTerm * base = insert_to_root;
+ TreeDbTerm **this = &base;
+ Sint c;
+ Eterm key;
+ int dir;
+ TreeDbTerm *p1, *p2, *p;
+
+ key = GETKEY(tb, value_to_insert->dbterm.tpl);
+
+ dstack[dpos++] = DIR_END;
+ for (;;)
+ if (!*this) { /* Found our place */
+ state = 1;
+ *this = value_to_insert;
+ (*this)->balance = 0;
+ (*this)->left = (*this)->right = NULL;
+ break;
+ } else if ((c = cmp_key(&tb->common, key, *this)) < 0) {
+ /* go lefts */
+ dstack[dpos++] = DIR_LEFT;
+ tstack[tpos++] = this;
+ this = &((*this)->left);
+ } else { /* go right */
+ dstack[dpos++] = DIR_RIGHT;
+ tstack[tpos++] = this;
+ this = &((*this)->right);
+ }
+
+ while (state && ( dir = dstack[--dpos] ) != DIR_END) {
+ this = tstack[--tpos];
+ p = *this;
+ if (dir == DIR_LEFT) {
+ switch (p->balance) {
+ case 1:
+ p->balance = 0;
+ state = 0;
+ break;
+ case 0:
+ p->balance = -1;
+ break;
+ case -1: /* The icky case */
+ p1 = p->left;
+ if (p1->balance == -1) { /* Single LL rotation */
+ p->left = p1->right;
+ p1->right = p;
+ p->balance = 0;
+ (*this) = p1;
+ } else { /* Double RR rotation */
+ p2 = p1->right;
+ p1->right = p2->left;
+ p2->left = p1;
+ p->left = p2->right;
+ p2->right = p;
+ p->balance = (p2->balance == -1) ? +1 : 0;
+ p1->balance = (p2->balance == 1) ? -1 : 0;
+ (*this) = p2;
+ }
+ (*this)->balance = 0;
+ state = 0;
+ break;
+ }
+ } else { /* dir == DIR_RIGHT */
+ switch (p->balance) {
+ case -1:
+ p->balance = 0;
+ state = 0;
+ break;
+ case 0:
+ p->balance = 1;
+ break;
+ case 1:
+ p1 = p->right;
+ if (p1->balance == 1) { /* Single RR rotation */
+ p->right = p1->left;
+ p1->left = p;
+ p->balance = 0;
+ (*this) = p1;
+ } else { /* Double RL rotation */
+ p2 = p1->left;
+ p1->left = p2->right;
+ p2->right = p1;
+ p->right = p2->left;
+ p2->left = p;
+ p->balance = (p2->balance == 1) ? -1 : 0;
+ p1->balance = (p2->balance == -1) ? 1 : 0;
+ (*this) = p2;
+ }
+ (*this)->balance = 0;
+ state = 0;
+ break;
+ }
+ }
+ }
+ return base;
+}
+
+/*
+ * Split an AVL tree into two trees. The function stores the node
+ * containing the "split key" in the write back parameter
+ * split_key_wb. The function stores the left tree containing the keys
+ * that are smaller than the "split key" in the write back parameter
+ * left_wb and the tree containing the rest of the keys in the write
+ * back parameter right_wb.
+ */
+static void split_tree(DbTableCATree *tb,
+ TreeDbTerm *root,
+ TreeDbTerm **split_key_node_wb,
+ TreeDbTerm **left_wb,
+ TreeDbTerm **right_wb) {
+ TreeDbTerm * split_node = NULL;
+ TreeDbTerm * left_root;
+ TreeDbTerm * right_root;
+ if (root->left == NULL) { /* To get non empty split */
+ *right_wb = root->right;
+ *split_key_node_wb = root->right;
+ root->right = NULL;
+ root->balance = 0;
+ *left_wb = root;
+ return;
+ }
+ split_node = root;
+ left_root = split_node->left;
+ split_node->left = NULL;
+ right_root = split_node->right;
+ split_node->right = NULL;
+ right_root = insert_TreeDbTerm(tb, right_root, split_node);
+ *split_key_node_wb = split_node;
+ *left_wb = left_root;
+ *right_wb = right_root;
+}
+
+/*
+ * Used by the join_trees function
+ */
+static ERTS_INLINE int compute_tree_hight(TreeDbTerm * root)
+{
+ if(root == NULL) {
+ return 0;
+ } else {
+ TreeDbTerm * current_node = root;
+ int hight_so_far = 1;
+ while (current_node->left != NULL || current_node->right != NULL) {
+ if (current_node->balance == -1) {
+ current_node = current_node->left;
+ } else {
+ current_node = current_node->right;
+ }
+ hight_so_far = hight_so_far + 1;
+ }
+ return hight_so_far;
+ }
+}
+
+/*
+ * Used by the join_trees function
+ */
+static ERTS_INLINE
+TreeDbTerm* linkout_min_or_max_tree_node(TreeDbTerm **root, int is_min)
+{
+ TreeDbTerm **tstack[STACK_NEED];
+ int tpos = 0;
+ int dstack[STACK_NEED+1];
+ int dpos = 0;
+ int state = 0;
+ TreeDbTerm **this = root;
+ int dir;
+ TreeDbTerm *q = NULL;
+
+ dstack[dpos++] = DIR_END;
+ for (;;) {
+ if (!*this) { /* Failure */
+ return NULL;
+ } else if (is_min && (*this)->left != NULL) {
+ dstack[dpos++] = DIR_LEFT;
+ tstack[tpos++] = this;
+ this = &((*this)->left);
+ } else if (!is_min && (*this)->right != NULL) {
+ dstack[dpos++] = DIR_RIGHT;
+ tstack[tpos++] = this;
+ this = &((*this)->right);
+ } else { /* Min value, found the one to splice out */
+ q = (*this);
+ if (q->right == NULL) {
+ (*this) = q->left;
+ state = 1;
+ } else if (q->left == NULL) {
+ (*this) = q->right;
+ state = 1;
+ }
+ break;
+ }
+ }
+ while (state && ( dir = dstack[--dpos] ) != DIR_END) {
+ this = tstack[--tpos];
+ if (dir == DIR_LEFT) {
+ state = tree_balance_left(this);
+ } else {
+ state = tree_balance_right(this);
+ }
+ }
+ return q;
+}
+
+#define LINKOUT_MIN_TREE_NODE(root) linkout_min_or_max_tree_node(root, 1)
+#define LINKOUT_MAX_TREE_NODE(root) linkout_min_or_max_tree_node(root, 0)
+
+/*
+ * Joins two AVL trees where all the keys in the left one are smaller
+ * then the keys in the right one and returns the resulting tree.
+ *
+ * The algorithm is described on page 474 in D. E. Knuth. The Art of
+ * Computer Programming: Sorting and Searching,
+ * vol. 3. Addison-Wesley, 2nd edition, 1998.
+ */
+static TreeDbTerm* join_trees(TreeDbTerm *left_root_param,
+ TreeDbTerm *right_root_param)
+{
+ TreeDbTerm **tstack[STACK_NEED];
+ int tpos = 0;
+ int dstack[STACK_NEED+1];
+ int dpos = 0;
+ int state = 1;
+ TreeDbTerm **this;
+ int dir;
+ TreeDbTerm *p1, *p2, *p;
+ TreeDbTerm *left_root = left_root_param;
+ TreeDbTerm *right_root = right_root_param;
+ int left_height;
+ int right_height;
+ int current_height;
+ dstack[dpos++] = DIR_END;
+ if (left_root == NULL) {
+ return right_root;
+ } else if (right_root == NULL) {
+ return left_root;
+ }
+
+ left_height = compute_tree_hight(left_root);
+ right_height = compute_tree_hight(right_root);
+ if (left_height >= right_height) {
+ TreeDbTerm * new_root =
+ LINKOUT_MIN_TREE_NODE(&right_root);
+ int new_right_height = compute_tree_hight(right_root);
+ TreeDbTerm * current_node = left_root;
+ this = &left_root;
+ current_height = left_height;
+ while(current_height > new_right_height + 1) {
+ if (current_node->balance == -1) {
+ current_height = current_height - 2;
+ } else {
+ current_height = current_height - 1;
+ }
+ dstack[dpos++] = DIR_RIGHT;
+ tstack[tpos++] = this;
+ this = &((*this)->right);
+ current_node = current_node->right;
+ }
+ new_root->left = current_node;
+ new_root->right = right_root;
+ new_root->balance = new_right_height - current_height;
+ *this = new_root;
+ } else {
+ /* This case is symmetric to the previous case */
+ TreeDbTerm * new_root =
+ LINKOUT_MAX_TREE_NODE(&left_root);
+ int new_left_height = compute_tree_hight(left_root);
+ TreeDbTerm * current_node = right_root;
+ this = &right_root;
+ current_height = right_height;
+ while (current_height > new_left_height + 1) {
+ if (current_node->balance == 1) {
+ current_height = current_height - 2;
+ } else {
+ current_height = current_height - 1;
+ }
+ dstack[dpos++] = DIR_LEFT;
+ tstack[tpos++] = this;
+ this = &((*this)->left);
+ current_node = current_node->left;
+ }
+ new_root->right = current_node;
+ new_root->left = left_root;
+ new_root->balance = current_height - new_left_height;
+ *this = new_root;
+ }
+ /* Now we need to continue as if this was during the insert */
+ while (state && ( dir = dstack[--dpos] ) != DIR_END) {
+ this = tstack[--tpos];
+ p = *this;
+ if (dir == DIR_LEFT) {
+ switch (p->balance) {
+ case 1:
+ p->balance = 0;
+ state = 0;
+ break;
+ case 0:
+ p->balance = -1;
+ break;
+ case -1: /* The icky case */
+ p1 = p->left;
+ if (p1->balance == -1) { /* Single LL rotation */
+ p->left = p1->right;
+ p1->right = p;
+ p->balance = 0;
+ (*this) = p1;
+ } else { /* Double RR rotation */
+ p2 = p1->right;
+ p1->right = p2->left;
+ p2->left = p1;
+ p->left = p2->right;
+ p2->right = p;
+ p->balance = (p2->balance == -1) ? +1 : 0;
+ p1->balance = (p2->balance == 1) ? -1 : 0;
+ (*this) = p2;
+ }
+ (*this)->balance = 0;
+ state = 0;
+ break;
+ }
+ } else { /* dir == DIR_RIGHT */
+ switch (p->balance) {
+ case -1:
+ p->balance = 0;
+ state = 0;
+ break;
+ case 0:
+ p->balance = 1;
+ break;
+ case 1:
+ p1 = p->right;
+ if (p1->balance == 1) { /* Single RR rotation */
+ p->right = p1->left;
+ p1->left = p;
+ p->balance = 0;
+ (*this) = p1;
+ } else { /* Double RL rotation */
+ p2 = p1->left;
+ p1->left = p2->right;
+ p2->right = p1;
+ p->right = p2->left;
+ p2->left = p;
+ p->balance = (p2->balance == 1) ? -1 : 0;
+ p1->balance = (p2->balance == -1) ? 1 : 0;
+ (*this) = p2;
+ }
+ (*this)->balance = 0;
+ state = 0;
+ break;
+ }
+ }
+ }
+ /* Return the joined tree */
+ if (left_height >= right_height) {
+ return left_root;
+ } else {
+ return right_root;
+ }
+}
+
+#ifdef DEBUG
+# define PROVOKE_RANDOM_SPLIT_JOIN
+#endif
+#ifdef PROVOKE_RANDOM_SPLIT_JOIN
+static int dbg_fastrand(void)
+{
+ static int g_seed = 648835;
+ g_seed = (214013*g_seed+2531011);
+ return (g_seed>>16)&0x7FFF;
+}
+
+static void dbg_provoke_random_splitjoin(DbTableCATree* tb,
+ DbTableCATreeNode* base_node)
+{
+ if (tb->common.status & DB_CATREE_FORCE_SPLIT)
+ return;
+
+ switch (dbg_fastrand() % 8) {
+ case 1:
+ base_node->u.base.lock_statistics = 1+ERL_DB_CATREE_HIGH_CONTENTION_LIMIT;
+ break;
+ case 2:
+ base_node->u.base.lock_statistics = -1+ERL_DB_CATREE_LOW_CONTENTION_LIMIT;
+ break;
+ }
+}
+#else
+# define dbg_provoke_random_splitjoin(T,N)
+#endif /* PROVOKE_RANDOM_SPLIT_JOIN */
+
+static ERTS_INLINE
+int try_wlock_base_node(DbTableCATreeBaseNode *base_node)
+{
+ return EBUSY == erts_rwmtx_tryrwlock(&base_node->lock);
+}
+
+/*
+ * Locks a base node without adjusting the lock statistics
+ */
+static ERTS_INLINE
+void wlock_base_node_no_stats(DbTableCATreeNode *base_node)
+{
+ ASSERT(base_node->is_base_node);
+ erts_rwmtx_rwlock(&base_node->u.base.lock);
+}
+
+/*
+ * Locks a base node and adjusts the lock statistics according to if
+ * the lock was contended or not
+ */
+static ERTS_INLINE
+void wlock_base_node(DbTableCATreeNode *base_node)
+{
+ ASSERT(base_node->is_base_node);
+ if (try_wlock_base_node(&base_node->u.base)) {
+ /* The lock is contended */
+ wlock_base_node_no_stats(base_node);
+ base_node->u.base.lock_statistics += ERL_DB_CATREE_LOCK_FAILURE_CONTRIBUTION;
+ } else {
+ base_node->u.base.lock_statistics += ERL_DB_CATREE_LOCK_SUCCESS_CONTRIBUTION;
+ }
+}
+
+static ERTS_INLINE
+void wunlock_base_node(DbTableCATreeNode *base_node)
+{
+ erts_rwmtx_rwunlock(&base_node->u.base.lock);
+}
+
+static ERTS_INLINE
+void wunlock_adapt_base_node(DbTableCATree* tb,
+ DbTableCATreeNode* node,
+ DbTableCATreeNode* parent,
+ int current_level)
+{
+ dbg_provoke_random_splitjoin(tb,node);
+ if ((!node->u.base.root && parent && !(tb->common.status
+ & DB_CATREE_FORCE_SPLIT))
+ || node->u.base.lock_statistics < ERL_DB_CATREE_LOW_CONTENTION_LIMIT) {
+ join_catree(tb, node, parent);
+ }
+ else if (node->u.base.lock_statistics > ERL_DB_CATREE_HIGH_CONTENTION_LIMIT
+ && current_level < ERL_DB_CATREE_MAX_ROUTE_NODE_LAYER_HEIGHT) {
+ split_catree(tb, node, parent);
+ }
+ else {
+ wunlock_base_node(node);
+ }
+}
+
+static ERTS_INLINE
+void rlock_base_node(DbTableCATreeNode *base_node)
+{
+ ASSERT(base_node->is_base_node);
+ erts_rwmtx_rlock(&base_node->u.base.lock);
+}
+
+static ERTS_INLINE
+void runlock_base_node(DbTableCATreeNode *base_node)
+{
+ ASSERT(base_node->is_base_node);
+ erts_rwmtx_runlock(&base_node->u.base.lock);
+}
+
+static ERTS_INLINE
+void lock_route_node(DbTableCATreeNode *route_node)
+{
+ ASSERT(!route_node->is_base_node);
+ erts_mtx_lock(&route_node->u.route.lock);
+}
+
+static ERTS_INLINE
+void unlock_route_node(DbTableCATreeNode *route_node)
+{
+ ASSERT(!route_node->is_base_node);
+ erts_mtx_unlock(&route_node->u.route.lock);
+}
+
+static ERTS_INLINE
+Eterm copy_route_key(DbRouteKey* dst, Eterm key, Uint key_size)
+{
+ dst->size = key_size;
+ if (key_size != 0) {
+ Eterm* hp = &dst->heap[0];
+ ErlOffHeap tmp_offheap;
+ tmp_offheap.first = NULL;
+ dst->term = copy_struct(key, key_size, &hp, &tmp_offheap);
+ dst->oh = tmp_offheap.first;
+ }
+ else {
+ ASSERT(is_immed(key));
+ dst->term = key;
+ dst->oh = NULL;
+ }
+ return dst->term;
+}
+
+static ERTS_INLINE
+void destroy_route_key(DbRouteKey* key)
+{
+ if (key->oh) {
+ ErlOffHeap oh;
+ oh.first = key->oh;
+ erts_cleanup_offheap(&oh);
+ }
+}
+
+static ERTS_INLINE
+void init_root_iterator(DbTableCATree* tb, CATreeRootIterator* iter,
+ int read_only)
+{
+ iter->tb = tb;
+ iter->read_only = read_only;
+ iter->locked_bnode = NULL;
+ iter->next_route_key = THE_NON_VALUE;
+ iter->search_key = NULL;
+}
+
+static ERTS_INLINE
+void lock_iter_base_node(CATreeRootIterator* iter,
+ DbTableCATreeNode *base_node,
+ DbTableCATreeNode *parent,
+ int current_level)
+{
+ ASSERT(!iter->locked_bnode);
+ if (iter->read_only)
+ rlock_base_node(base_node);
+ else {
+ wlock_base_node(base_node);
+ iter->bnode_parent = parent;
+ iter->bnode_level = current_level;
+ }
+ iter->locked_bnode = base_node;
+}
+
+static ERTS_INLINE
+void unlock_iter_base_node(CATreeRootIterator* iter)
+{
+ ASSERT(iter->locked_bnode);
+ if (iter->read_only)
+ runlock_base_node(iter->locked_bnode);
+ else if (iter->locked_bnode->u.base.is_valid) {
+ wunlock_adapt_base_node(iter->tb, iter->locked_bnode,
+ iter->bnode_parent, iter->bnode_level);
+ }
+ else
+ wunlock_base_node(iter->locked_bnode);
+ iter->locked_bnode = NULL;
+}
+
+static ERTS_INLINE
+void destroy_root_iterator(CATreeRootIterator* iter)
+{
+ if (iter->locked_bnode)
+ unlock_iter_base_node(iter);
+ if (iter->search_key) {
+ destroy_route_key(iter->search_key);
+ erts_free(ERTS_ALC_T_DB_TMP, iter->search_key);
+ }
+}
+
+typedef struct
+{
+ DbTableCATreeNode *parent;
+ int current_level;
+} FindBaseNode;
+
+static ERTS_INLINE
+DbTableCATreeNode* find_base_node(DbTableCATree* tb, Eterm key,
+ FindBaseNode* fbn)
+{
+ DbTableCATreeNode* ERTS_RESTRICT node = GET_ROOT_ACQB(tb);
+ if (fbn) {
+ fbn->parent = NULL;
+ fbn->current_level = 0;
+ }
+ while (!node->is_base_node) {
+ if (fbn) {
+ fbn->current_level++;
+ fbn->parent = node;
+ }
+ if (cmp_key_route(key, node) < 0) {
+ node = GET_LEFT_ACQB(node);
+ } else {
+ node = GET_RIGHT_ACQB(node);
+ }
+ }
+ return node;
+}
+
+static ERTS_INLINE
+DbTableCATreeNode* find_rlock_valid_base_node(DbTableCATree* tb, Eterm key)
+{
+ DbTableCATreeNode* base_node;
+
+ while (1) {
+ base_node = find_base_node(tb, key, NULL);
+ rlock_base_node(base_node);
+ if (base_node->u.base.is_valid)
+ break;
+ runlock_base_node(base_node);
+ }
+ return base_node;
+}
+
+static ERTS_INLINE
+DbTableCATreeNode* find_wlock_valid_base_node(DbTableCATree* tb, Eterm key,
+ FindBaseNode* fbn)
+{
+ DbTableCATreeNode* base_node;
+
+ while (1) {
+ base_node = find_base_node(tb, key, fbn);
+ wlock_base_node(base_node);
+ if (base_node->u.base.is_valid)
+ break;
+ wunlock_base_node(base_node);
+ }
+ return base_node;
+}
+
+#ifdef ERTS_ENABLE_LOCK_CHECK
+# define LC_ORDER(ORDER) ORDER
+#else
+# define LC_ORDER(ORDER) NIL
+#endif
+
+#define sizeof_base_node() \
+ offsetof(DbTableCATreeNode, u.base.end_of_struct__)
+
+static DbTableCATreeNode *create_base_node(DbTableCATree *tb,
+ TreeDbTerm* root)
+{
+ DbTableCATreeNode *p;
+ erts_rwmtx_opt_t rwmtx_opt = ERTS_RWMTX_OPT_DEFAULT_INITER;
+ p = erts_db_alloc(ERTS_ALC_T_DB_TABLE, (DbTable *) tb,
+ sizeof_base_node());
+
+ p->is_base_node = 1;
+ p->u.base.root = root;
+ if (tb->common.type & DB_FREQ_READ)
+ rwmtx_opt.type = ERTS_RWMTX_TYPE_FREQUENT_READ;
+ if (erts_ets_rwmtx_spin_count >= 0)
+ rwmtx_opt.main_spincount = erts_ets_rwmtx_spin_count;
+
+ erts_rwmtx_init_opt(&p->u.base.lock, &rwmtx_opt,
+ "erl_db_catree_base_node",
+ NIL,
+ ERTS_LOCK_FLAGS_CATEGORY_DB);
+ p->u.base.lock_statistics = ((tb->common.status & DB_CATREE_FORCE_SPLIT)
+ ? INT_MAX : 0);
+ p->u.base.is_valid = 1;
+ return p;
+}
+
+static ERTS_INLINE Uint sizeof_route_node(Uint key_size)
+{
+ return (offsetof(DbTableCATreeNode, u.route.key.heap)
+ + key_size*sizeof(Eterm));
+}
+
+static DbTableCATreeNode*
+create_route_node(DbTableCATree *tb,
+ DbTableCATreeNode *left,
+ DbTableCATreeNode *right,
+ DbTerm * keyTerm,
+ DbTableCATreeNode* lc_parent)
+{
+ Eterm key = GETKEY(tb,keyTerm->tpl);
+ int key_size = size_object(key);
+ DbTableCATreeNode* p = erts_db_alloc(ERTS_ALC_T_DB_TABLE,
+ (DbTable *) tb,
+ sizeof_route_node(key_size));
+
+ copy_route_key(&p->u.route.key, key, key_size);
+ p->is_base_node = 0;
+ p->u.route.is_valid = 1;
+ erts_atomic_init_nob(&p->u.route.left, (erts_aint_t)left);
+ erts_atomic_init_nob(&p->u.route.right, (erts_aint_t)right);
+#ifdef ERTS_ENABLE_LOCK_CHECK
+ /* Route node lock order is inverse tree depth (from leafs toward root) */
+ p->u.route.lc_order = (lc_parent == NULL ? MAX_SMALL :
+ lc_parent->u.route.lc_order - 1);
+ /*
+ * This assert may eventually fail as we don't increase 'lc_order' in join
+ * operations when route nodes move up in the tree.
+ * Tough luck if you run a lock-checking VM for such a long time on 32-bit.
+ */
+ ERTS_LC_ASSERT(p->u.route.lc_order >= 0);
+#endif
+ erts_mtx_init(&p->u.route.lock, "erl_db_catree_route_node",
+ LC_ORDER(make_small(p->u.route.lc_order)),
+ ERTS_LOCK_FLAGS_CATEGORY_DB);
+ return p;
+}
+
+static void do_free_base_node(void* vptr)
+{
+ DbTableCATreeNode *p = (DbTableCATreeNode *)vptr;
+ ASSERT(p->is_base_node);
+ erts_rwmtx_destroy(&p->u.base.lock);
+ erts_free(ERTS_ALC_T_DB_TABLE, p);
+}
+
+static void free_catree_base_node(DbTableCATree* tb, DbTableCATreeNode* p)
+{
+ ASSERT(p->is_base_node);
+ ERTS_DB_ALC_MEM_UPDATE_(tb, sizeof_base_node(), 0);
+ do_free_base_node(p);
+}
+
+static void do_free_route_node(void *vptr)
+{
+ DbTableCATreeNode *p = (DbTableCATreeNode *)vptr;
+ ASSERT(!p->is_base_node);
+ erts_mtx_destroy(&p->u.route.lock);
+ destroy_route_key(&p->u.route.key);
+ erts_free(ERTS_ALC_T_DB_TABLE, p);
+}
+
+static void free_catree_route_node(DbTableCATree* tb, DbTableCATreeNode* p)
+{
+ ASSERT(!p->is_base_node);
+ ERTS_DB_ALC_MEM_UPDATE_(tb, sizeof_route_node(p->u.route.key.size), 0);
+ do_free_route_node(p);
+}
+
+
+/*
+ * Returns the parent routing node of the specified
+ * route node 'child' if such a parent exists
+ * or NULL if 'child' is attached to the root.
+ */
+static ERTS_INLINE DbTableCATreeNode *
+parent_of(DbTableCATree *tb,
+ DbTableCATreeNode *child)
+{
+ Eterm key = GET_ROUTE_NODE_KEY(child);
+ DbTableCATreeNode *current = GET_ROOT_ACQB(tb);
+ DbTableCATreeNode *prev = NULL;
+
+ while (current != child) {
+ prev = current;
+ if (cmp_key_route(key, current) < 0) {
+ current = GET_LEFT_ACQB(current);
+ } else {
+ current = GET_RIGHT_ACQB(current);
+ }
+ }
+ return prev;
+}
+
+
+static ERTS_INLINE DbTableCATreeNode *
+leftmost_base_node(DbTableCATreeNode *root)
+{
+ DbTableCATreeNode *node = root;
+ while (!node->is_base_node) {
+ node = GET_LEFT_ACQB(node);
+ }
+ return node;
+}
+
+
+static ERTS_INLINE DbTableCATreeNode *
+rightmost_base_node(DbTableCATreeNode *root)
+{
+ DbTableCATreeNode *node = root;
+ while (!node->is_base_node) {
+ node = GET_RIGHT_ACQB(node);
+ }
+ return node;
+}
+
+
+static ERTS_INLINE DbTableCATreeNode *
+leftmost_route_node(DbTableCATreeNode *root)
+{
+ DbTableCATreeNode *node = root;
+ DbTableCATreeNode *prev_node = NULL;
+ while (!node->is_base_node) {
+ prev_node = node;
+ node = GET_LEFT_ACQB(node);
+ }
+ return prev_node;
+}
+
+static ERTS_INLINE DbTableCATreeNode*
+rightmost_route_node(DbTableCATreeNode *root)
+{
+ DbTableCATreeNode * node = root;
+ DbTableCATreeNode * prev_node = NULL;
+ while (!node->is_base_node) {
+ prev_node = node;
+ node = GET_RIGHT_ACQB(node);
+ }
+ return prev_node;
+}
+
+static ERTS_INLINE
+void init_tree_stack(DbTreeStack *stack,
+ TreeDbTerm **stack_array,
+ Uint init_slot)
+{
+ stack->array = stack_array;
+ stack->pos = 0;
+ stack->slot = init_slot;
+}
+
+static void join_catree(DbTableCATree *tb,
+ DbTableCATreeNode *thiz,
+ DbTableCATreeNode *parent)
+{
+ DbTableCATreeNode *gparent;
+ DbTableCATreeNode *neighbor;
+ DbTableCATreeNode *new_neighbor;
+ DbTableCATreeNode *neighbor_parent;
+
+ ASSERT(thiz->is_base_node);
+ if (parent == NULL) {
+ thiz->u.base.lock_statistics = 0;
+ wunlock_base_node(thiz);
+ return;
+ }
+ ASSERT(!parent->is_base_node);
+ if (GET_LEFT(parent) == thiz) {
+ neighbor = leftmost_base_node(GET_RIGHT_ACQB(parent));
+ if (try_wlock_base_node(&neighbor->u.base)) {
+ /* Failed to acquire lock */
+ thiz->u.base.lock_statistics = 0;
+ wunlock_base_node(thiz);
+ return;
+ } else if (!neighbor->u.base.is_valid) {
+ thiz->u.base.lock_statistics = 0;
+ wunlock_base_node(thiz);
+ wunlock_base_node(neighbor);
+ return;
+ } else {
+ lock_route_node(parent);
+ parent->u.route.is_valid = 0;
+ neighbor->u.base.is_valid = 0;
+ thiz->u.base.is_valid = 0;
+ gparent = NULL;
+ do {
+ if (gparent != NULL) {
+ unlock_route_node(gparent);
+ }
+ gparent = parent_of(tb, parent);
+ if (gparent != NULL)
+ lock_route_node(gparent);
+ } while (gparent != NULL && !gparent->u.route.is_valid);
+
+ if (gparent == NULL) {
+ SET_ROOT_RELB(tb, GET_RIGHT(parent));
+ } else if (GET_LEFT(gparent) == parent) {
+ SET_LEFT_RELB(gparent, GET_RIGHT(parent));
+ } else {
+ SET_RIGHT_RELB(gparent, GET_RIGHT(parent));
+ }
+ unlock_route_node(parent);
+ if (gparent != NULL) {
+ unlock_route_node(gparent);
+ }
+ {
+ TreeDbTerm* new_root = join_trees(thiz->u.base.root,
+ neighbor->u.base.root);
+ new_neighbor = create_base_node(tb, new_root);
+ }
+ if (GET_RIGHT(parent) == neighbor) {
+ neighbor_parent = gparent;
+ } else {
+ neighbor_parent = leftmost_route_node(GET_RIGHT(parent));
+ }
+ }
+ } else { /* Symetric case */
+ ASSERT(GET_RIGHT(parent) == thiz);
+ neighbor = rightmost_base_node(GET_LEFT_ACQB(parent));
+ if (try_wlock_base_node(&neighbor->u.base)) {
+ /* Failed to acquire lock */
+ thiz->u.base.lock_statistics = 0;
+ wunlock_base_node(thiz);
+ return;
+ } else if (!neighbor->u.base.is_valid) {
+ thiz->u.base.lock_statistics = 0;
+ wunlock_base_node(thiz);
+ wunlock_base_node(neighbor);
+ return;
+ } else {
+ lock_route_node(parent);
+ parent->u.route.is_valid = 0;
+ neighbor->u.base.is_valid = 0;
+ thiz->u.base.is_valid = 0;
+ gparent = NULL;
+ do {
+ if (gparent != NULL) {
+ unlock_route_node(gparent);
+ }
+ gparent = parent_of(tb, parent);
+ if (gparent != NULL) {
+ lock_route_node(gparent);
+ } else {
+ gparent = NULL;
+ }
+ } while (gparent != NULL && !gparent->u.route.is_valid);
+ if (gparent == NULL) {
+ SET_ROOT_RELB(tb, GET_LEFT(parent));
+ } else if (GET_RIGHT(gparent) == parent) {
+ SET_RIGHT_RELB(gparent, GET_LEFT(parent));
+ } else {
+ SET_LEFT_RELB(gparent, GET_LEFT(parent));
+ }
+ unlock_route_node(parent);
+ if (gparent != NULL) {
+ unlock_route_node(gparent);
+ }
+ {
+ TreeDbTerm* new_root = join_trees(neighbor->u.base.root,
+ thiz->u.base.root);
+ new_neighbor = create_base_node(tb, new_root);
+ }
+ if (GET_LEFT(parent) == neighbor) {
+ neighbor_parent = gparent;
+ } else {
+ neighbor_parent =
+ rightmost_route_node(GET_LEFT(parent));
+ }
+ }
+ }
+ /* Link in new neighbor and free nodes that are no longer in the tree */
+ if (neighbor_parent == NULL) {
+ SET_ROOT_RELB(tb, new_neighbor);
+ } else if (GET_LEFT(neighbor_parent) == neighbor) {
+ SET_LEFT_RELB(neighbor_parent, new_neighbor);
+ } else {
+ SET_RIGHT_RELB(neighbor_parent, new_neighbor);
+ }
+ wunlock_base_node(thiz);
+ wunlock_base_node(neighbor);
+ /* Free the parent and base */
+ erts_schedule_db_free(&tb->common,
+ do_free_route_node,
+ parent,
+ &parent->u.route.free_item,
+ sizeof_route_node(parent->u.route.key.size));
+ erts_schedule_db_free(&tb->common,
+ do_free_base_node,
+ thiz,
+ &thiz->u.base.free_item,
+ sizeof_base_node());
+ erts_schedule_db_free(&tb->common,
+ do_free_base_node,
+ neighbor,
+ &neighbor->u.base.free_item,
+ sizeof_base_node());
+}
+
+static void split_catree(DbTableCATree *tb,
+ DbTableCATreeNode* ERTS_RESTRICT base,
+ DbTableCATreeNode* ERTS_RESTRICT parent)
+{
+ TreeDbTerm *splitOutWriteBack;
+ DbTableCATreeNode* ERTS_RESTRICT new_left;
+ DbTableCATreeNode* ERTS_RESTRICT new_right;
+ DbTableCATreeNode* ERTS_RESTRICT new_route;
+
+ if (less_than_two_elements(base->u.base.root)) {
+ if (!(tb->common.status & DB_CATREE_FORCE_SPLIT))
+ base->u.base.lock_statistics = 0;
+ wunlock_base_node(base);
+ return;
+ } else {
+ TreeDbTerm *left_tree;
+ TreeDbTerm *right_tree;
+
+ split_tree(tb, base->u.base.root, &splitOutWriteBack,
+ &left_tree, &right_tree);
+
+ new_left = create_base_node(tb, left_tree);
+ new_right = create_base_node(tb, right_tree);
+ new_route = create_route_node(tb,
+ new_left,
+ new_right,
+ &splitOutWriteBack->dbterm,
+ parent);
+ if (parent == NULL) {
+ SET_ROOT_RELB(tb, new_route);
+ } else if(GET_LEFT(parent) == base) {
+ SET_LEFT_RELB(parent, new_route);
+ } else {
+ SET_RIGHT_RELB(parent, new_route);
+ }
+ base->u.base.is_valid = 0;
+ wunlock_base_node(base);
+ erts_schedule_db_free(&tb->common,
+ do_free_base_node,
+ base,
+ &base->u.base.free_item,
+ sizeof_base_node());
+ }
+}
+
+/*
+ * Helper functions for removing the table
+ */
+
+static void catree_add_base_node_to_free_list(
+ DbTableCATree *tb,
+ DbTableCATreeNode *base_node_container)
+{
+ base_node_container->u.base.next =
+ tb->base_nodes_to_free_list;
+ tb->base_nodes_to_free_list = base_node_container;
+}
+
+static void catree_deque_base_node_from_free_list(DbTableCATree *tb)
+{
+ if (tb->base_nodes_to_free_list == NULL) {
+ return; /* List empty */
+ } else {
+ DbTableCATreeNode *first = tb->base_nodes_to_free_list;
+ tb->base_nodes_to_free_list = first->u.base.next;
+ }
+}
+
+static DbTableCATreeNode *catree_first_base_node_from_free_list(
+ DbTableCATree *tb)
+{
+ return tb->base_nodes_to_free_list;
+}
+
+static SWord do_free_routing_nodes_catree_cont(DbTableCATree *tb, SWord num_left)
+{
+ DbTableCATreeNode *root;
+ DbTableCATreeNode *p;
+ for (;;) {
+ root = POP_NODE(&tb->free_stack_rnodes);
+ if (root == NULL) break;
+ else if(root->is_base_node) {
+ catree_add_base_node_to_free_list(tb, root);
+ break;
+ }
+ for (;;) {
+ if ((GET_LEFT(root) != NULL) &&
+ (p = GET_LEFT(root))->is_base_node) {
+ SET_LEFT(root, NULL);
+ catree_add_base_node_to_free_list(tb, p);
+ } else if ((GET_RIGHT(root) != NULL) &&
+ (p = GET_RIGHT(root))->is_base_node) {
+ SET_RIGHT(root, NULL);
+ catree_add_base_node_to_free_list(tb, p);
+ } else if ((p = GET_LEFT(root)) != NULL) {
+ SET_LEFT(root, NULL);
+ PUSH_NODE(&tb->free_stack_rnodes, root);
+ root = p;
+ } else if ((p = GET_RIGHT(root)) != NULL) {
+ SET_RIGHT(root, NULL);
+ PUSH_NODE(&tb->free_stack_rnodes, root);
+ root = p;
+ } else {
+ free_catree_route_node(tb, root);
+ if (--num_left >= 0) {
+ break;
+ } else {
+ return num_left; /* Done enough for now */
+ }
+ }
+ }
+ }
+ return num_left;
+}
+
+static SWord do_free_base_node_cont(DbTableCATree *tb, SWord num_left)
+{
+ TreeDbTerm *root;
+ TreeDbTerm *p;
+ DbTableCATreeNode *base_node_container =
+ catree_first_base_node_from_free_list(tb);
+ for (;;) {
+ root = POP_NODE(&tb->free_stack_elems);
+ if (root == NULL) break;
+ for (;;) {
+ if ((p = root->left) != NULL) {
+ root->left = NULL;
+ PUSH_NODE(&tb->free_stack_elems, root);
+ root = p;
+ } else if ((p = root->right) != NULL) {
+ root->right = NULL;
+ PUSH_NODE(&tb->free_stack_elems, root);
+ root = p;
+ } else {
+ free_term((DbTable*)tb, root);
+ if (--num_left >= 0) {
+ break;
+ } else {
+ return num_left; /* Done enough for now */
+ }
+ }
+ }
+ }
+ catree_deque_base_node_from_free_list(tb);
+ free_catree_base_node(tb, base_node_container);
+ base_node_container = catree_first_base_node_from_free_list(tb);
+ if (base_node_container != NULL) {
+ PUSH_NODE(&tb->free_stack_elems, base_node_container->u.base.root);
+ }
+ return num_left;
+}
+
+
+/*
+** Initialization function
+*/
+
+void db_initialize_catree(void)
+{
+ return;
+};
+
+/*
+** Table interface routines (i.e., what's called by the bif's)
+*/
+
+int db_create_catree(Process *p, DbTable *tbl)
+{
+ DbTableCATree *tb = &tbl->catree;
+ DbTableCATreeNode *root;
+
+ root = create_base_node(tb, NULL);
+ tb->deletion = 0;
+ tb->base_nodes_to_free_list = NULL;
+ erts_atomic_init_relb(&(tb->root), (erts_aint_t)root);
+ return DB_ERROR_NONE;
+}
+
+static int db_first_catree(Process *p, DbTable *tbl, Eterm *ret)
+{
+ TreeDbTerm *root;
+ CATreeRootIterator iter;
+ int result;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ root = *catree_find_first_root(&iter);
+ if (!root) {
+ TreeDbTerm **pp = catree_find_next_root(&iter, NULL);
+ root = pp ? *pp : NULL;
+ }
+
+ result = db_first_tree_common(p, tbl, root, ret, NULL);
+
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_next_catree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTreeStack stack;
+ TreeDbTerm * stack_array[STACK_NEED];
+ TreeDbTerm **rootp;
+ CATreeRootIterator iter;
+ int result;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ iter.next_route_key = key;
+ rootp = catree_find_next_root(&iter, NULL);
+
+ do {
+ init_tree_stack(&stack, stack_array, 0);
+ result = db_next_tree_common(p, tbl, (rootp ? *rootp : NULL), key, ret, &stack);
+ if (result != DB_ERROR_NONE || *ret != am_EOT)
+ break;
+
+ rootp = catree_find_next_root(&iter, NULL);
+ } while (rootp);
+
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_last_catree(Process *p, DbTable *tbl, Eterm *ret)
+{
+ TreeDbTerm *root;
+ CATreeRootIterator iter;
+ int result;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ root = *catree_find_last_root(&iter);
+ if (!root) {
+ TreeDbTerm **pp = catree_find_prev_root(&iter, NULL);
+ root = pp ? *pp : NULL;
+ }
+
+ result = db_last_tree_common(p, tbl, root, ret, NULL);
+
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_prev_catree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTreeStack stack;
+ TreeDbTerm * stack_array[STACK_NEED];
+ TreeDbTerm **rootp;
+ CATreeRootIterator iter;
+ int result;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ iter.next_route_key = key;
+ rootp = catree_find_prev_root(&iter, NULL);
+
+ do {
+ init_tree_stack(&stack, stack_array, 0);
+ result = db_prev_tree_common(p, tbl, (rootp ? *rootp : NULL), key, ret,
+ &stack);
+ if (result != DB_ERROR_NONE || *ret != am_EOT)
+ break;
+ rootp = catree_find_prev_root(&iter, NULL);
+ } while (rootp);
+
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_put_catree(DbTable *tbl, Eterm obj, int key_clash_fail)
+{
+ DbTableCATree *tb = &tbl->catree;
+ Eterm key = GETKEY(&tb->common, tuple_val(obj));
+ FindBaseNode fbn;
+ DbTableCATreeNode* node = find_wlock_valid_base_node(tb, key, &fbn);
+ int result = db_put_tree_common(&tb->common, &node->u.base.root, obj,
+ key_clash_fail, NULL);
+ wunlock_adapt_base_node(tb, node, fbn.parent, fbn.current_level);
+ return result;
+}
+
+static int db_get_catree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTableCATree *tb = &tbl->catree;
+ DbTableCATreeNode* node = find_rlock_valid_base_node(tb, key);
+ int result = db_get_tree_common(p, &tb->common,
+ node->u.base.root,
+ key, ret, NULL);
+ runlock_base_node(node);
+ return result;
+}
+
+TreeDbTerm** catree_find_root(Eterm key, CATreeRootIterator* iter)
+{
+ FindBaseNode fbn;
+ DbTableCATreeNode* base_node;
+
+ while (1) {
+ base_node = find_base_node(iter->tb, key, &fbn);
+ lock_iter_base_node(iter, base_node, fbn.parent, fbn.current_level);
+ if (base_node->u.base.is_valid)
+ break;
+ unlock_iter_base_node(iter);
+ }
+ return &base_node->u.base.root;
+}
+
+static Eterm save_iter_search_key(CATreeRootIterator* iter, Eterm key)
+{
+ Uint key_size;
+
+ if (is_immed(key))
+ return key;
+
+ if (iter->search_key) {
+ if (key == iter->search_key->term)
+ return key; /* already saved */
+ destroy_route_key(iter->search_key);
+ }
+ key_size = size_object(key);
+ if (!iter->search_key || key_size > iter->search_key->size) {
+ iter->search_key = erts_realloc(ERTS_ALC_T_DB_TMP,
+ iter->search_key,
+ (offsetof(DbRouteKey, heap)
+ + key_size*sizeof(Eterm)));
+ }
+ return copy_route_key(iter->search_key, key, key_size);
+}
+
+TreeDbTerm** catree_find_nextprev_root(CATreeRootIterator *iter,
+ int forward,
+ Eterm *search_keyp)
+{
+#ifdef DEBUG
+ DbTableCATreeNode *rejected_invalid = NULL;
+ DbTableCATreeNode *rejected_empty = NULL;
+#endif
+ DbTableCATreeNode *node;
+ DbTableCATreeNode *parent;
+ DbTableCATreeNode* next_route_node;
+ Eterm route_key = iter->next_route_key;
+ int current_level;
+
+ if (iter->locked_bnode) {
+ if (search_keyp)
+ *search_keyp = save_iter_search_key(iter, *search_keyp);
+ unlock_iter_base_node(iter);
+ }
+
+ if (is_non_value(route_key))
+ return NULL;
+
+ while (1) {
+ node = GET_ROOT_ACQB(iter->tb);
+ current_level = 0;
+ parent = NULL;
+ next_route_node = NULL;
+ while (!node->is_base_node) {
+ current_level++;
+ parent = node;
+ if (forward) {
+ if (cmp_key_route(route_key,node) < 0) {
+ next_route_node = node;
+ node = GET_LEFT_ACQB(node);
+ } else {
+ node = GET_RIGHT_ACQB(node);
+ }
+ }
+ else {
+ if (cmp_key_route(route_key,node) > 0) {
+ next_route_node = node;
+ node = GET_RIGHT_ACQB(node);
+ } else {
+ node = GET_LEFT_ACQB(node);
+ }
+ }
+ }
+ ASSERT(node != rejected_invalid);
+ lock_iter_base_node(iter, node, parent, current_level);
+ if (node->u.base.is_valid) {
+ ASSERT(node != rejected_empty);
+ if (node->u.base.root) {
+ iter->next_route_key = (next_route_node ?
+ next_route_node->u.route.key.term :
+ THE_NON_VALUE);
+ iter->locked_bnode = node;
+ return &node->u.base.root;
+ }
+ if (!next_route_node) {
+ unlock_iter_base_node(iter);
+ return NULL;
+ }
+ route_key = next_route_node->u.route.key.term;
+ IF_DEBUG(rejected_empty = node);
+ }
+ else
+ IF_DEBUG(rejected_invalid = node);
+
+ /* Retry */
+ unlock_iter_base_node(iter);
+ }
+}
+
+TreeDbTerm** catree_find_next_root(CATreeRootIterator *iter, Eterm* keyp)
+{
+ return catree_find_nextprev_root(iter, 1, keyp);
+}
+
+TreeDbTerm** catree_find_prev_root(CATreeRootIterator *iter, Eterm* keyp)
+{
+ return catree_find_nextprev_root(iter, 0, keyp);
+}
+
+/* @brief Find root of tree where object with smallest key of all larger than
+ * partially bound key may reside. Can be used as a starting point for
+ * a reverse iteration with pb_key.
+ *
+ * @param pb_key The partially bound key. Example {42, '$1'}
+ * @param iter An initialized root iterator.
+ *
+ * @return Pointer to found root pointer. May not be NULL.
+ */
+TreeDbTerm** catree_find_next_from_pb_key_root(Eterm pb_key,
+ CATreeRootIterator* iter)
+{
+#ifdef DEBUG
+ DbTableCATreeNode *rejected_base = NULL;
+#endif
+ DbTableCATreeNode *node;
+ DbTableCATreeNode *parent;
+ DbTableCATreeNode* next_route_node;
+ int current_level;
+
+ ASSERT(!iter->locked_bnode);
+
+ while (1) {
+ node = GET_ROOT_ACQB(iter->tb);
+ current_level = 0;
+ parent = NULL;
+ next_route_node = NULL;
+ while (!node->is_base_node) {
+ current_level++;
+ parent = node;
+ if (cmp_partly_bound(pb_key, GET_ROUTE_NODE_KEY(node)) >= 0) {
+ next_route_node = node;
+ node = GET_RIGHT_ACQB(node);
+ } else {
+ node = GET_LEFT_ACQB(node);
+ }
+ }
+ ASSERT(node != rejected_base);
+ lock_iter_base_node(iter, node, parent, current_level);
+ if (node->u.base.is_valid) {
+ iter->next_route_key = (next_route_node ?
+ next_route_node->u.route.key.term :
+ THE_NON_VALUE);
+ return &node->u.base.root;
+ }
+ /* Retry */
+ unlock_iter_base_node(iter);
+#ifdef DEBUG
+ rejected_base = node;
+#endif
+ }
+}
+
+/* @brief Find root of tree where object with largest key of all smaller than
+ * partially bound key may reside. Can be used as a starting point for
+ * a forward iteration with pb_key.
+ *
+ * @param pb_key The partially bound key. Example {42, '$1'}
+ * @param iter An initialized root iterator.
+ *
+ * @return Pointer to found root pointer. May not be NULL.
+ */
+TreeDbTerm** catree_find_prev_from_pb_key_root(Eterm key,
+ CATreeRootIterator* iter)
+{
+#ifdef DEBUG
+ DbTableCATreeNode *rejected_base = NULL;
+#endif
+ DbTableCATreeNode *node;
+ DbTableCATreeNode *parent;
+ DbTableCATreeNode* next_route_node;
+ int current_level;
+
+ ASSERT(!iter->locked_bnode);
+
+ while (1) {
+ node = GET_ROOT_ACQB(iter->tb);
+ current_level = 0;
+ parent = NULL;
+ next_route_node = NULL;
+ while (!node->is_base_node) {
+ current_level++;
+ parent = node;
+ if (cmp_partly_bound(key, GET_ROUTE_NODE_KEY(node)) <= 0) {
+ next_route_node = node;
+ node = GET_LEFT_ACQB(node);
+ } else {
+ node = GET_RIGHT_ACQB(node);
+ }
+ }
+ ASSERT(node != rejected_base);
+ lock_iter_base_node(iter, node, parent, current_level);
+ if (node->u.base.is_valid) {
+ iter->next_route_key = (next_route_node ?
+ next_route_node->u.route.key.term :
+ THE_NON_VALUE);
+ return &node->u.base.root;
+ }
+ /* Retry */
+ unlock_iter_base_node(iter);
+#ifdef DEBUG
+ rejected_base = node;
+#endif
+ }
+}
+
+static TreeDbTerm** catree_find_firstlast_root(CATreeRootIterator* iter,
+ int first)
+{
+#ifdef DEBUG
+ DbTableCATreeNode *rejected_base = NULL;
+#endif
+ DbTableCATreeNode *node;
+ DbTableCATreeNode* next_route_node;
+ int current_level;
+
+ while (1) {
+ node = GET_ROOT_ACQB(iter->tb);
+ current_level = 0;
+ next_route_node = NULL;
+ while (!node->is_base_node) {
+ current_level++;
+ next_route_node = node;
+ node = first ? GET_LEFT_ACQB(node) : GET_RIGHT_ACQB(node);
+ }
+ ASSERT(node != rejected_base);
+ lock_iter_base_node(iter, node, next_route_node, current_level);
+ if (node->u.base.is_valid) {
+ iter->next_route_key = (next_route_node ?
+ next_route_node->u.route.key.term :
+ THE_NON_VALUE);
+ return &node->u.base.root;
+ }
+ /* Retry */
+ unlock_iter_base_node(iter);
+#ifdef DEBUG
+ rejected_base = node;
+#endif
+ }
+}
+
+TreeDbTerm** catree_find_first_root(CATreeRootIterator* iter)
+{
+ return catree_find_firstlast_root(iter, 1);
+}
+
+TreeDbTerm** catree_find_last_root(CATreeRootIterator* iter)
+{
+ return catree_find_firstlast_root(iter, 0);
+}
+
+static int db_member_catree(DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTableCATree *tb = &tbl->catree;
+ DbTableCATreeNode* node = find_rlock_valid_base_node(tb, key);
+ int result = db_member_tree_common(&tb->common,
+ node->u.base.root,
+ key, ret, NULL);
+ runlock_base_node(node);
+ return result;
+}
+
+static int db_get_element_catree(Process *p, DbTable *tbl,
+ Eterm key, int ndex, Eterm *ret)
+{
+ DbTableCATree *tb = &tbl->catree;
+ DbTableCATreeNode* node = find_rlock_valid_base_node(tb, key);
+ int result = db_get_element_tree_common(p, &tb->common,
+ node->u.base.root,
+ key, ndex, ret, NULL);
+ runlock_base_node(node);
+ return result;
+}
+
+static int db_erase_catree(DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTableCATree *tb = &tbl->catree;
+ FindBaseNode fbn;
+ DbTableCATreeNode* node = find_wlock_valid_base_node(tb, key, &fbn);
+ int result = db_erase_tree_common(tbl, &node->u.base.root, key,
+ ret, NULL);
+ wunlock_adapt_base_node(tb, node, fbn.parent, fbn.current_level);
+ return result;
+}
+
+static int db_erase_object_catree(DbTable *tbl, Eterm object, Eterm *ret)
+{
+ DbTableCATree *tb = &tbl->catree;
+ Eterm key = GETKEY(&tb->common, tuple_val(object));
+ FindBaseNode fbn;
+ DbTableCATreeNode* node = find_wlock_valid_base_node(tb, key, &fbn);
+ int result = db_erase_object_tree_common(tbl,
+ &node->u.base.root,
+ object,
+ ret,
+ NULL);
+ wunlock_adapt_base_node(tb, node, fbn.parent, fbn.current_level);
+ return result;
+}
+
+
+static int db_slot_catree(Process *p, DbTable *tbl,
+ Eterm slot_term, Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ result = db_slot_tree_common(p, tbl, *catree_find_first_root(&iter),
+ slot_term, ret, NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_continue_catree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ result = db_select_continue_tree_common(p, &tbl->common,
+ continuation, ret, NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, int reverse, Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ result = db_select_tree_common(p, tbl, tid, pattern, reverse, ret,
+ NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_count_continue_catree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ result = db_select_count_continue_tree_common(p, tbl,
+ continuation, ret, NULL,
+ &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_count_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ result = db_select_count_tree_common(p, tbl,
+ tid, pattern, ret, NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_chunk_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Sint chunk_size,
+ int reversed, Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ result = db_select_chunk_tree_common(p, tbl,
+ tid, pattern, chunk_size, reversed, ret,
+ NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_delete_continue_catree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
+{
+ DbTreeStack stack;
+ TreeDbTerm * stack_array[STACK_NEED];
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 0);
+ init_tree_stack(&stack, stack_array, 0);
+ result = db_select_delete_continue_tree_common(p, tbl, continuation, ret,
+ &stack, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_delete_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret)
+{
+ DbTreeStack stack;
+ TreeDbTerm * stack_array[STACK_NEED];
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 0);
+ init_tree_stack(&stack, stack_array, 0);
+ result = db_select_delete_tree_common(p, tbl,
+ tid, pattern, ret, &stack,
+ &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_replace_catree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 0);
+ result = db_select_replace_tree_common(p, tbl,
+ tid, pattern, ret, NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_select_replace_continue_catree(Process *p, DbTable *tbl,
+ Eterm continuation, Eterm *ret)
+{
+ int result;
+ CATreeRootIterator iter;
+
+ init_root_iterator(&tbl->catree, &iter, 0);
+ result = db_select_replace_continue_tree_common(p, tbl, continuation, ret,
+ NULL, &iter);
+ destroy_root_iterator(&iter);
+ return result;
+}
+
+static int db_take_catree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTableCATree *tb = &tbl->catree;
+ FindBaseNode fbn;
+ DbTableCATreeNode* node = find_wlock_valid_base_node(tb, key, &fbn);
+ int result = db_take_tree_common(p, tbl, &node->u.base.root, key,
+ ret, NULL);
+ wunlock_adapt_base_node(tb, node, fbn.parent, fbn.current_level);
+ return result;
+}
+
+/*
+** Other interface routines (not directly coupled to one bif)
+*/
+
+
+/* Display tree contents (for dump) */
+static void db_print_catree(fmtfn_t to, void *to_arg,
+ int show, DbTable *tbl)
+{
+ CATreeRootIterator iter;
+ TreeDbTerm** root;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ root = catree_find_first_root(&iter);
+ do {
+ db_print_tree_common(to, to_arg, show, *root, tbl);
+ root = catree_find_next_root(&iter, NULL);
+ } while (root);
+ destroy_root_iterator(&iter);
+}
+
+/* Release all memory occupied by a single table */
+static int db_free_table_catree(DbTable *tbl)
+{
+ while (db_free_table_continue_catree(tbl, ERTS_SWORD_MAX) < 0)
+ ;
+ return 1;
+}
+
+static SWord db_free_table_continue_catree(DbTable *tbl, SWord reds)
+{
+ DbTableCATreeNode *first_base_node;
+ DbTableCATree *tb = &tbl->catree;
+ if (!tb->deletion) {
+ tb->deletion = 1;
+ tb->free_stack_elems.array =
+ erts_db_alloc(ERTS_ALC_T_DB_STK,
+ (DbTable *) tb,
+ sizeof(TreeDbTerm *) * STACK_NEED);
+ tb->free_stack_elems.pos = 0;
+ tb->free_stack_elems.slot = 0;
+ tb->free_stack_rnodes.array =
+ erts_db_alloc(ERTS_ALC_T_DB_STK,
+ (DbTable *) tb,
+ sizeof(DbTableCATreeNode *) * STACK_NEED);
+ tb->free_stack_rnodes.pos = 0;
+ tb->free_stack_rnodes.size = STACK_NEED;
+ PUSH_NODE(&tb->free_stack_rnodes, GET_ROOT(tb));
+ tb->is_routing_nodes_freed = 0;
+ tb->base_nodes_to_free_list = NULL;
+ }
+ if ( ! tb->is_routing_nodes_freed ) {
+ reds = do_free_routing_nodes_catree_cont(tb, reds);
+ if (reds < 0) {
+ return reds; /* Not finished */
+ } else {
+ tb->is_routing_nodes_freed = 1; /* Ready with the routing nodes */
+ first_base_node = catree_first_base_node_from_free_list(tb);
+ PUSH_NODE(&tb->free_stack_elems, first_base_node->u.base.root);
+ }
+ }
+ while (catree_first_base_node_from_free_list(tb) != NULL) {
+ reds = do_free_base_node_cont(tb, reds);
+ if (reds < 0) {
+ return reds; /* Continue later */
+ }
+ }
+ /* Time to free the main structure*/
+ erts_db_free(ERTS_ALC_T_DB_STK,
+ (DbTable *) tb,
+ (void *) tb->free_stack_elems.array,
+ sizeof(TreeDbTerm *) * STACK_NEED);
+ erts_db_free(ERTS_ALC_T_DB_STK,
+ (DbTable *) tb,
+ (void *) tb->free_stack_rnodes.array,
+ sizeof(DbTableCATreeNode *) * STACK_NEED);
+ return 1;
+}
+
+static SWord db_delete_all_objects_catree(Process* p, DbTable* tbl, SWord reds)
+{
+ reds = db_free_table_continue_catree(tbl, reds);
+ if (reds < 0)
+ return reds;
+ db_create_catree(p, tbl);
+ erts_atomic_set_nob(&tbl->catree.common.nitems, 0);
+ return reds;
+}
+
+
+static void do_for_route_nodes(DbTableCATreeNode* node,
+ void (*func)(ErlOffHeap *, void *),
+ void *arg)
+{
+ ErlOffHeap tmp_offheap;
+
+ if (!GET_LEFT(node)->is_base_node)
+ do_for_route_nodes(GET_LEFT(node), func, arg);
+
+ tmp_offheap.first = node->u.route.key.oh;
+ tmp_offheap.overhead = 0;
+ (*func)(&tmp_offheap, arg);
+
+ if (!GET_RIGHT(node)->is_base_node)
+ do_for_route_nodes(GET_RIGHT(node), func, arg);
+}
+
+static void db_foreach_offheap_catree(DbTable *tbl,
+ void (*func)(ErlOffHeap *, void *),
+ void *arg)
+{
+ CATreeRootIterator iter;
+ TreeDbTerm** root;
+
+ init_root_iterator(&tbl->catree, &iter, 1);
+ root = catree_find_first_root(&iter);
+ do {
+ db_foreach_offheap_tree_common(*root, func, arg);
+ root = catree_find_next_root(&iter, NULL);
+ } while (root);
+ destroy_root_iterator(&iter);
+
+ do_for_route_nodes(GET_ROOT(&tbl->catree), func, arg);
+}
+
+static int db_lookup_dbterm_catree(Process *p, DbTable *tbl, Eterm key, Eterm obj,
+ DbUpdateHandle *handle)
+{
+ DbTableCATree *tb = &tbl->catree;
+ FindBaseNode fbn;
+ DbTableCATreeNode* node = find_wlock_valid_base_node(tb, key, &fbn);
+ int res = db_lookup_dbterm_tree_common(p, tbl, &node->u.base.root, key,
+ obj, handle, NULL);
+ if (res == 0) {
+ wunlock_adapt_base_node(tb, node, fbn.parent, fbn.current_level);
+ } else {
+ /* db_finalize_dbterm_catree will unlock */
+ handle->u.catree.base_node = node;
+ handle->u.catree.parent = fbn.parent;
+ handle->u.catree.current_level = fbn.current_level;
+ }
+ return res;
+}
+
+static void db_finalize_dbterm_catree(int cret, DbUpdateHandle *handle)
+{
+ DbTableCATree *tb = &(handle->tb->catree);
+ db_finalize_dbterm_tree_common(cret, handle, NULL);
+ wunlock_adapt_base_node(tb, handle->u.catree.base_node,
+ handle->u.catree.parent,
+ handle->u.catree.current_level);
+ return;
+}
+
+#ifdef ERTS_ENABLE_LOCK_COUNT
+static void erts_lcnt_enable_db_catree_lock_count_helper(DbTableCATree *tb,
+ DbTableCATreeNode *node,
+ int enable)
+{
+ erts_lcnt_ref_t *lcnt_ref;
+ erts_lock_flags_t lock_type;
+ if (node->is_base_node) {
+ lcnt_ref = &GET_BASE_NODE_LOCK(node)->lcnt;
+ lock_type = ERTS_LOCK_TYPE_RWMUTEX;
+ } else {
+ erts_lcnt_enable_db_catree_lock_count_helper(tb, GET_LEFT(node), enable);
+ erts_lcnt_enable_db_catree_lock_count_helper(tb, GET_RIGHT(node), enable);
+ lcnt_ref = &GET_ROUTE_NODE_LOCK(node)->lcnt;
+ lock_type = ERTS_LOCK_TYPE_MUTEX;
+ }
+ if (enable) {
+ erts_lcnt_install_new_lock_info(lcnt_ref, "db_hash_slot", tb->common.the_name,
+ lock_type | ERTS_LOCK_FLAGS_CATEGORY_DB);
+ } else {
+ erts_lcnt_uninstall(lcnt_ref);
+ }
+}
+
+void erts_lcnt_enable_db_catree_lock_count(DbTableCATree *tb, int enable)
+{
+ erts_lcnt_enable_db_catree_lock_count_helper(tb, GET_ROOT(tb), enable);
+}
+#endif /* ERTS_ENABLE_LOCK_COUNT */
+
+void db_catree_force_split(DbTableCATree* tb, int on)
+{
+ CATreeRootIterator iter;
+ TreeDbTerm** root;
+
+ init_root_iterator(tb, &iter, 1);
+ root = catree_find_first_root(&iter);
+ do {
+ iter.locked_bnode->u.base.lock_statistics = (on ? INT_MAX : 0);
+ root = catree_find_next_root(&iter, NULL);
+ } while (root);
+ destroy_root_iterator(&iter);
+
+ if (on)
+ tb->common.status |= DB_CATREE_FORCE_SPLIT;
+ else
+ tb->common.status &= ~DB_CATREE_FORCE_SPLIT;
+}
+
+void db_calc_stats_catree(DbTableCATree* tb, DbCATreeStats* stats)
+{
+ DbTableCATreeNode* stack[ERL_DB_CATREE_MAX_ROUTE_NODE_LAYER_HEIGHT];
+ DbTableCATreeNode* node;
+ Uint depth = 0;
+
+ stats->route_nodes = 0;
+ stats->base_nodes = 0;
+ stats->max_depth = 0;
+
+ node = GET_ROOT(tb);
+ do {
+ while (!node->is_base_node) {
+ stats->route_nodes++;
+ ASSERT(depth < sizeof(stack)/sizeof(*stack));
+ stack[depth++] = node; /* PUSH parent */
+ if (stats->max_depth < depth)
+ stats->max_depth = depth;
+ node = GET_LEFT(node);
+ }
+ stats->base_nodes++;
+
+ while (depth > 0) {
+ DbTableCATreeNode* parent = stack[depth-1];
+ if (node == GET_LEFT(parent)) {
+ node = GET_RIGHT(parent);
+ break;
+ }
+ else {
+ ASSERT(node == GET_RIGHT(parent));
+ node = parent;
+ depth--; /* POP parent */
+ }
+ }
+ } while (depth > 0);
+}
+
+#ifdef HARDDEBUG
+
+/*
+ * Not called, but kept as it might come to use
+ */
+static inline int my_check_table_tree(TreeDbTerm *t)
+{
+ int lh, rh;
+ if (t == NULL)
+ return 0;
+ lh = my_check_table_tree(t->left);
+ rh = my_check_table_tree(t->right);
+ if ((rh - lh) != t->balance) {
+ erts_fprintf(stderr, "Invalid tree balance for this node:\n");
+ erts_fprintf(stderr,"balance = %d, left = 0x%08X, right = 0x%08X\n",
+ t->balance, t->left, t->right);
+ erts_fprintf(stderr,"\nDump:\n---------------------------------\n");
+ erts_fprintf(stderr,"\n---------------------------------\n");
+ abort();
+ }
+ return ((rh > lh) ? rh : lh) + 1;
+}
+
+#endif
diff --git a/erts/emulator/beam/erl_db_catree.h b/erts/emulator/beam/erl_db_catree.h
new file mode 100644
index 0000000000..418837be8e
--- /dev/null
+++ b/erts/emulator/beam/erl_db_catree.h
@@ -0,0 +1,133 @@
+/*
+ * %CopyrightBegin%
+ *
+ * Copyright Ericsson AB 1998-2016. All Rights Reserved.
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * %CopyrightEnd%
+ */
+
+/*
+ * Description: Implementation of ETS ordered_set table type with
+ * fine-grained synchronization.
+ *
+ * Author: Kjell Winblad
+ *
+ * "erl_db_catree.c" contains more details about the implementation.
+ *
+ */
+
+#ifndef _DB_CATREE_H
+#define _DB_CATREE_H
+
+struct DbTableCATreeNode;
+
+typedef struct {
+ Eterm term;
+ struct erl_off_heap_header* oh;
+ Uint size;
+ Eterm heap[1];
+} DbRouteKey;
+
+typedef struct {
+ erts_rwmtx_t lock; /* The lock for this base node */
+ Sint lock_statistics;
+ int is_valid; /* If this base node is still valid */
+ TreeDbTerm *root; /* The root of the sequential tree */
+ ErtsThrPrgrLaterOp free_item; /* Used when freeing using thread progress */
+ struct DbTableCATreeNode * next; /* Used when gradually deleting */
+
+ char end_of_struct__;
+} DbTableCATreeBaseNode;
+
+typedef struct {
+#ifdef ERTS_ENABLE_LOCK_CHECK
+ Sint lc_order;
+#endif
+ ErtsThrPrgrLaterOp free_item; /* Used when freeing using thread progress */
+ erts_mtx_t lock; /* Used when joining route nodes */
+ int is_valid; /* If this route node is still valid */
+ erts_atomic_t left;
+ erts_atomic_t right;
+ DbRouteKey key;
+} DbTableCATreeRouteNode;
+
+typedef struct DbTableCATreeNode {
+ int is_base_node;
+ union {
+ DbTableCATreeRouteNode route;
+ DbTableCATreeBaseNode base;
+ } u;
+} DbTableCATreeNode;
+
+typedef struct {
+ Uint pos; /* Current position on stack */
+ Uint size; /* The size of the stack array */
+ DbTableCATreeNode** array; /* The stack */
+} CATreeNodeStack;
+
+typedef struct db_table_catree {
+ DbTableCommon common;
+
+ /* CA Tree-specific fields */
+ erts_atomic_t root; /* The tree root (DbTableCATreeNode*) */
+ Uint deletion; /* Being deleted */
+ DbTreeStack free_stack_elems;/* Used for deletion ...*/
+ CATreeNodeStack free_stack_rnodes;
+ DbTableCATreeNode *base_nodes_to_free_list;
+ int is_routing_nodes_freed;
+} DbTableCATree;
+
+typedef struct {
+ DbTableCATree* tb;
+ Eterm next_route_key;
+ DbTableCATreeNode* locked_bnode;
+ DbTableCATreeNode* bnode_parent;
+ int bnode_level;
+ int read_only;
+ DbRouteKey* search_key;
+} CATreeRootIterator;
+
+
+void db_initialize_catree(void);
+
+int db_create_catree(Process *p, DbTable *tbl);
+
+
+TreeDbTerm** catree_find_root(Eterm key, CATreeRootIterator*);
+
+TreeDbTerm** catree_find_next_from_pb_key_root(Eterm key, CATreeRootIterator*);
+TreeDbTerm** catree_find_prev_from_pb_key_root(Eterm key, CATreeRootIterator*);
+TreeDbTerm** catree_find_nextprev_root(CATreeRootIterator*, int next, Eterm* keyp);
+TreeDbTerm** catree_find_next_root(CATreeRootIterator*, Eterm* keyp);
+TreeDbTerm** catree_find_prev_root(CATreeRootIterator*, Eterm* keyp);
+TreeDbTerm** catree_find_first_root(CATreeRootIterator*);
+TreeDbTerm** catree_find_last_root(CATreeRootIterator*);
+
+
+#ifdef ERTS_ENABLE_LOCK_COUNT
+void erts_lcnt_enable_db_catree_lock_count(DbTableCATree *tb, int enable);
+#endif
+
+void db_catree_force_split(DbTableCATree*, int on);
+
+typedef struct {
+ Uint route_nodes;
+ Uint base_nodes;
+ Uint max_depth;
+} DbCATreeStats;
+void db_calc_stats_catree(DbTableCATree*, DbCATreeStats*);
+
+
+#endif /* _DB_CATREE_H */
diff --git a/erts/emulator/beam/erl_db_hash.c b/erts/emulator/beam/erl_db_hash.c
index 752d3ae3a8..f05a3b51c9 100644
--- a/erts/emulator/beam/erl_db_hash.c
+++ b/erts/emulator/beam/erl_db_hash.c
@@ -2731,13 +2731,9 @@ static int free_seg(DbTableHash *tb, int free_records)
* sure no lingering threads are still hanging in BUCKET macro
* with an old segtab pointer.
*/
- Uint sz = SIZEOF_EXT_SEGTAB(est->nsegs);
- ASSERT(sz == ERTS_ALC_DBG_BLK_SZ(est));
- ERTS_DB_ALC_MEM_UPDATE_(tb, sz, 0);
- erts_schedule_thr_prgr_later_cleanup_op(dealloc_ext_segtab,
- est,
- &est->lop,
- sz);
+ erts_schedule_db_free(&tb->common, dealloc_ext_segtab,
+ est, &est->lop,
+ SIZEOF_EXT_SEGTAB(est->nsegs));
}
else
erts_db_free(ERTS_ALC_T_DB_SEG, (DbTable*)tb, est,
@@ -3107,7 +3103,7 @@ Ldone:
handle->dbterm = &b->dbterm;
handle->flags = flags;
handle->new_size = b->dbterm.size;
- handle->lck = lck;
+ handle->u.hash.lck = lck;
return 1;
}
@@ -3120,7 +3116,7 @@ db_finalize_dbterm_hash(int cret, DbUpdateHandle* handle)
DbTableHash *tb = &tbl->hash;
HashDbTerm **bp = (HashDbTerm **) handle->bp;
HashDbTerm *b = *bp;
- erts_rwmtx_t* lck = (erts_rwmtx_t*) handle->lck;
+ erts_rwmtx_t* lck = handle->u.hash.lck;
HashDbTerm* free_me = NULL;
ERTS_LC_ASSERT(IS_HASH_WLOCKED(tb, lck)); /* locked by db_lookup_dbterm_hash */
diff --git a/erts/emulator/beam/erl_db_tree.c b/erts/emulator/beam/erl_db_tree.c
index 45e4be2426..02a5934a6e 100644
--- a/erts/emulator/beam/erl_db_tree.c
+++ b/erts/emulator/beam/erl_db_tree.c
@@ -48,34 +48,13 @@
#include "erl_binary.h"
#include "erl_db_tree.h"
+#include "erl_db_tree_util.h"
#define GETKEY_WITH_POS(Keypos, Tplp) (*((Tplp) + Keypos))
#define NITEMS(tb) ((int)erts_atomic_read_nob(&(tb)->common.nitems))
-/*
-** A stack of this size is enough for an AVL tree with more than
-** 0xFFFFFFFF elements. May be subject to change if
-** the datatype of the element counter is changed to a 64 bit integer.
-** The Maximal height of an AVL tree is calculated as:
-** h(n) <= 1.4404 * log(n + 2) - 0.328
-** Where n denotes the number of nodes, h(n) the height of the tree
-** with n nodes and log is the binary logarithm.
-*/
-
-#define STACK_NEED 50
#define TREE_MAX_ELEMENTS 0xFFFFFFFFUL
-#define PUSH_NODE(Dtt, Tdt) \
- ((Dtt)->array[(Dtt)->pos++] = Tdt)
-
-#define POP_NODE(Dtt) \
- (((Dtt)->pos) ? \
- (Dtt)->array[--((Dtt)->pos)] : NULL)
-
-#define TOP_NODE(Dtt) \
- ((Dtt->pos) ? \
- (Dtt)->array[(Dtt)->pos - 1] : NULL)
-
#define TOPN_NODE(Dtt, Pos) \
(((Pos) < Dtt->pos) ? \
(Dtt)->array[(Dtt)->pos - ((Pos) + 1)] : NULL)
@@ -89,10 +68,12 @@
/* Obtain table static stack if available. NULL if not.
** Must be released with release_stack()
*/
-static DbTreeStack* get_static_stack(DbTableTree* tb)
+ERTS_INLINE static DbTreeStack* get_static_stack(DbTableTree* tb)
{
- if (!erts_atomic_xchg_acqb(&tb->is_stack_busy, 1)) {
- return &tb->static_stack;
+ if (tb != NULL) {
+ ASSERT(IS_TREE_TABLE(tb->common.type));
+ if (!erts_atomic_xchg_acqb(&tb->is_stack_busy, 1))
+ return &tb->static_stack;
}
return NULL;
}
@@ -100,13 +81,15 @@ static DbTreeStack* get_static_stack(DbTableTree* tb)
/* Obtain static stack if available, otherwise empty dynamic stack.
** Must be released with release_stack()
*/
-static DbTreeStack* get_any_stack(DbTableTree* tb)
+static DbTreeStack* get_any_stack(DbTable* tb, DbTableTree* stack_container)
{
DbTreeStack* stack;
- if (!erts_atomic_xchg_acqb(&tb->is_stack_busy, 1)) {
- return &tb->static_stack;
+ if (stack_container != NULL) {
+ ASSERT(IS_TREE_TABLE(stack_container->common.type));
+ if (!erts_atomic_xchg_acqb(&stack_container->is_stack_busy, 1))
+ return &stack_container->static_stack;
}
- stack = erts_db_alloc(ERTS_ALC_T_DB_STK, (DbTable *) tb,
+ stack = erts_db_alloc(ERTS_ALC_T_DB_STK, tb,
sizeof(DbTreeStack) + sizeof(TreeDbTerm*) * STACK_NEED);
stack->pos = 0;
stack->slot = 0;
@@ -114,62 +97,62 @@ static DbTreeStack* get_any_stack(DbTableTree* tb)
return stack;
}
-static void release_stack(DbTableTree* tb, DbTreeStack* stack)
+static void release_stack(DbTable* tb, DbTableTree* stack_container, DbTreeStack* stack)
{
- if (stack == &tb->static_stack) {
- ASSERT(erts_atomic_read_nob(&tb->is_stack_busy) == 1);
- erts_atomic_set_relb(&tb->is_stack_busy, 0);
- }
- else {
- erts_db_free(ERTS_ALC_T_DB_STK, (DbTable *) tb,
- (void *) stack, sizeof(DbTreeStack) + sizeof(TreeDbTerm*) * STACK_NEED);
+ if (stack_container != NULL) {
+ ASSERT(IS_TREE_TABLE(stack_container->common.type));
+ if (stack == &stack_container->static_stack) {
+ ASSERT(erts_atomic_read_nob(&stack_container->is_stack_busy) == 1);
+ erts_atomic_set_relb(&stack_container->is_stack_busy, 0);
+ return;
+ }
}
+ erts_db_free(ERTS_ALC_T_DB_STK, tb,
+ (void *) stack, sizeof(DbTreeStack) + sizeof(TreeDbTerm*) * STACK_NEED);
}
-static ERTS_INLINE void reset_static_stack(DbTableTree* tb)
+static ERTS_INLINE void reset_stack(DbTreeStack* stack)
{
- tb->static_stack.pos = 0;
- tb->static_stack.slot = 0;
+ if (stack != NULL) {
+ stack->pos = 0;
+ stack->slot = 0;
+ }
}
-static ERTS_INLINE void free_term(DbTableTree *tb, TreeDbTerm* p)
+static ERTS_INLINE void reset_static_stack(DbTableTree* tb)
{
- db_free_term((DbTable*)tb, p, offsetof(TreeDbTerm, dbterm));
+ if (tb != NULL) {
+ ASSERT(IS_TREE_TABLE(tb->common.type));
+ reset_stack(&tb->static_stack);
+ }
}
-static ERTS_INLINE TreeDbTerm* new_dbterm(DbTableTree *tb, Eterm obj)
+static ERTS_INLINE TreeDbTerm* new_dbterm(DbTableCommon *tb, Eterm obj)
{
TreeDbTerm* p;
- if (tb->common.compress) {
- p = db_store_term_comp(&tb->common, NULL, offsetof(TreeDbTerm,dbterm), obj);
+ if (tb->compress) {
+ p = db_store_term_comp(tb, NULL, offsetof(TreeDbTerm,dbterm), obj);
}
else {
- p = db_store_term(&tb->common, NULL, offsetof(TreeDbTerm,dbterm), obj);
+ p = db_store_term(tb, NULL, offsetof(TreeDbTerm,dbterm), obj);
}
return p;
}
-static ERTS_INLINE TreeDbTerm* replace_dbterm(DbTableTree *tb, TreeDbTerm* old,
+static ERTS_INLINE TreeDbTerm* replace_dbterm(DbTableCommon *tb, TreeDbTerm* old,
Eterm obj)
{
TreeDbTerm* p;
ASSERT(old != NULL);
- if (tb->common.compress) {
- p = db_store_term_comp(&tb->common, &(old->dbterm), offsetof(TreeDbTerm,dbterm), obj);
+ if (tb->compress) {
+ p = db_store_term_comp(tb, &(old->dbterm), offsetof(TreeDbTerm,dbterm), obj);
}
else {
- p = db_store_term(&tb->common, &(old->dbterm), offsetof(TreeDbTerm,dbterm), obj);
+ p = db_store_term(tb, &(old->dbterm), offsetof(TreeDbTerm,dbterm), obj);
}
return p;
}
/*
-** Some macros for "direction stacks"
-*/
-#define DIR_LEFT 0
-#define DIR_RIGHT 1
-#define DIR_END 2
-
-/*
* Number of records to delete before trapping.
*/
#define DELETE_RECORD_LIMIT 12000
@@ -208,31 +191,37 @@ static void do_dump_tree2(DbTableTree*, int to, void *to_arg, int show,
** Datatypes
*/
+enum ms_key_boundness {
+ /* Order significant, larger means more "boundness" => less iteration */
+ MS_KEY_UNBOUND = 0,
+ MS_KEY_PARTIALLY_BOUND = 1,
+ MS_KEY_BOUND = 2,
+ MS_KEY_IMPOSSIBLE = 3
+};
+
/*
* This structure is filled in by analyze_pattern() for the select
* functions.
*/
struct mp_info {
- int something_can_match; /* The match_spec is not "impossible" */
- int some_limitation; /* There is some limitation on the search
- * area, i. e. least and/or most is set.*/
- int got_partial; /* The limitation has a partially bound
- * key */
+ enum ms_key_boundness key_boundness;
Eterm least; /* The lowest matching key (possibly
* partially bound expression) */
Eterm most; /* The highest matching key (possibly
* partially bound expression) */
-
- TreeDbTerm **save_term; /* If the key is completely bound, this
- * will be the Tree node we're searching
- * for, otherwise it will be useless */
Binary *mp; /* The compiled match program */
};
+struct select_common {
+ TreeDbTerm **root;
+};
+
+
/*
* Used by doit_select(_chunk)
*/
struct select_context {
+ struct select_common common;
Process *p;
Eterm accum;
Binary *mp;
@@ -248,6 +237,7 @@ struct select_context {
* Used by doit_select_count
*/
struct select_count_context {
+ struct select_common common;
Process *p;
Binary *mp;
Eterm end_condition;
@@ -261,8 +251,10 @@ struct select_count_context {
* Used by doit_select_delete
*/
struct select_delete_context {
+ struct select_common common;
Process *p;
- DbTableTree *tb;
+ DbTableCommon *tb;
+ DbTreeStack *stack;
Uint accum;
Binary *mp;
Eterm end_condition;
@@ -276,8 +268,9 @@ struct select_delete_context {
* Used by doit_select_replace
*/
struct select_replace_context {
+ struct select_common common;
Process *p;
- DbTableTree *tb;
+ DbTableCommon *tb;
Binary *mp;
Eterm end_condition;
Eterm *lastobj;
@@ -292,75 +285,83 @@ typedef int (*extra_match_validator_t)(int keypos, Eterm match, Eterm guard, Ete
/*
** Forward declarations
*/
-static TreeDbTerm *linkout_tree(DbTableTree *tb, Eterm key);
-static TreeDbTerm *linkout_object_tree(DbTableTree *tb,
- Eterm object);
+static TreeDbTerm *linkout_tree(DbTableCommon *tb, TreeDbTerm **root,
+ Eterm key, DbTreeStack *stack);
+static TreeDbTerm *linkout_object_tree(DbTableCommon *tb, TreeDbTerm **root,
+ Eterm object, DbTableTree *stack);
static SWord do_free_tree_continue(DbTableTree *tb, SWord reds);
-static void free_term(DbTableTree *tb, TreeDbTerm* p);
-static int balance_left(TreeDbTerm **this);
-static int balance_right(TreeDbTerm **this);
+static void free_term(DbTable *tb, TreeDbTerm* p);
+int tree_balance_left(TreeDbTerm **this);
+int tree_balance_right(TreeDbTerm **this);
static int delsub(TreeDbTerm **this);
-static TreeDbTerm *slot_search(Process *p, DbTableTree *tb, Sint slot);
-static TreeDbTerm *find_node(DbTableTree *tb, Eterm key);
-static TreeDbTerm **find_node2(DbTableTree *tb, Eterm key);
-static TreeDbTerm **find_ptr(DbTableTree *tb, DbTreeStack*, TreeDbTerm *this);
-static TreeDbTerm *find_next(DbTableTree *tb, DbTreeStack*, Eterm key);
-static TreeDbTerm *find_prev(DbTableTree *tb, DbTreeStack*, Eterm key);
-static TreeDbTerm *find_next_from_pb_key(DbTableTree *tb, DbTreeStack*,
- Eterm key);
-static TreeDbTerm *find_prev_from_pb_key(DbTableTree *tb, DbTreeStack*,
- Eterm key);
-static void traverse_backwards(DbTableTree *tb,
+static TreeDbTerm *slot_search(Process *p, TreeDbTerm *root, Sint slot,
+ DbTable *tb, DbTableTree *stack_container,
+ CATreeRootIterator *iter);
+static TreeDbTerm *find_node(DbTableCommon *tb, TreeDbTerm *root,
+ Eterm key, DbTableTree *stack_container);
+static TreeDbTerm **find_node2(DbTableCommon *tb, TreeDbTerm **root, Eterm key);
+static TreeDbTerm **find_ptr(DbTableCommon *tb, TreeDbTerm **root,
+ DbTreeStack *stack, TreeDbTerm *this);
+static TreeDbTerm *find_next(DbTableCommon *tb, TreeDbTerm *root,
+ DbTreeStack* stack, Eterm key);
+static TreeDbTerm *find_prev(DbTableCommon *tb, TreeDbTerm *root,
+ DbTreeStack* stack, Eterm key);
+static TreeDbTerm *find_next_from_pb_key(DbTable*, TreeDbTerm*** rootpp,
+ DbTreeStack* stack, Eterm key,
+ CATreeRootIterator*);
+static TreeDbTerm *find_prev_from_pb_key(DbTable*, TreeDbTerm*** rootpp,
+ DbTreeStack* stack, Eterm key,
+ CATreeRootIterator*);
+typedef int traverse_doit_funcT(DbTableCommon*, TreeDbTerm*,
+ struct select_common*, int forward);
+
+static void traverse_backwards(DbTableCommon *tb,
DbTreeStack*,
Eterm lastkey,
- int (*doit)(DbTableTree *tb,
- TreeDbTerm *,
- void *,
- int),
- void *context);
-static void traverse_forward(DbTableTree *tb,
+ traverse_doit_funcT*,
+ struct select_common *context,
+ CATreeRootIterator*);
+static void traverse_forward(DbTableCommon *tb,
DbTreeStack*,
Eterm lastkey,
- int (*doit)(DbTableTree *tb,
- TreeDbTerm *,
- void *,
- int),
- void *context);
-static void traverse_update_backwards(DbTableTree *tb,
+ traverse_doit_funcT*,
+ struct select_common *context,
+ CATreeRootIterator*);
+static void traverse_update_backwards(DbTableCommon *tb,
DbTreeStack*,
Eterm lastkey,
- int (*doit)(DbTableTree *tb,
+ int (*doit)(DbTableCommon *tb,
TreeDbTerm **, // out
- void *,
+ struct select_common*,
int),
- void *context);
-static int key_given(DbTableTree *tb, Eterm pattern, TreeDbTerm ***ret,
- Eterm *partly_bound_key);
-static Sint cmp_partly_bound(Eterm partly_bound_key, Eterm bound_key);
+ struct select_common*,
+ CATreeRootIterator*);
+static enum ms_key_boundness key_boundness(DbTableCommon *tb,
+ Eterm pattern, Eterm *keyp);
static Sint do_cmp_partly_bound(Eterm a, Eterm b, int *done);
-static int analyze_pattern(DbTableTree *tb, Eterm pattern,
+static int analyze_pattern(DbTableCommon *tb, Eterm pattern,
extra_match_validator_t extra_validator, /* Optional callback */
struct mp_info *mpi);
-static int doit_select(DbTableTree *tb,
- TreeDbTerm *this,
- void *ptr,
+static int doit_select(DbTableCommon *tb,
+ TreeDbTerm *this,
+ struct select_common* ptr,
int forward);
-static int doit_select_count(DbTableTree *tb,
+static int doit_select_count(DbTableCommon *tb,
TreeDbTerm *this,
- void *ptr,
+ struct select_common*,
int forward);
-static int doit_select_chunk(DbTableTree *tb,
+static int doit_select_chunk(DbTableCommon *tb,
TreeDbTerm *this,
- void *ptr,
+ struct select_common*,
int forward);
-static int doit_select_delete(DbTableTree *tb,
+static int doit_select_delete(DbTableCommon *tb,
TreeDbTerm *this,
- void *ptr,
+ struct select_common*,
int forward);
-static int doit_select_replace(DbTableTree *tb,
+static int doit_select_replace(DbTableCommon *tb,
TreeDbTerm **this_ptr,
- void *ptr,
+ struct select_common*,
int forward);
static int partly_bound_can_match_lesser(Eterm partly_bound_1,
@@ -508,18 +509,18 @@ int db_create_tree(Process *p, DbTable *tbl)
return DB_ERROR_NONE;
}
-static int db_first_tree(Process *p, DbTable *tbl, Eterm *ret)
+int db_first_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root,
+ Eterm *ret, DbTableTree *stack_container)
{
- DbTableTree *tb = &tbl->tree;
DbTreeStack* stack;
TreeDbTerm *this;
- if (( this = tb->root ) == NULL) {
+ if (( this = root ) == NULL) {
*ret = am_EOT;
return DB_ERROR_NONE;
}
/* Walk down the tree to the left */
- if ((stack = get_static_stack(tb)) != NULL) {
+ if ((stack = get_static_stack(stack_container)) != NULL) {
stack->pos = stack->slot = 0;
}
while (this->left != NULL) {
@@ -529,23 +530,27 @@ static int db_first_tree(Process *p, DbTable *tbl, Eterm *ret)
if (stack) {
PUSH_NODE(stack, this);
stack->slot = 1;
- release_stack(tb,stack);
+ release_stack(tbl,stack_container,stack);
}
*ret = db_copy_key(p, tbl, &this->dbterm);
return DB_ERROR_NONE;
}
-static int db_next_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+static int db_first_tree(Process *p, DbTable *tbl, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
- DbTreeStack* stack;
+ return db_first_tree_common(p, tbl, tb->root, ret, tb);
+}
+
+int db_next_tree_common(Process *p, DbTable *tbl,
+ TreeDbTerm *root, Eterm key,
+ Eterm *ret, DbTreeStack* stack)
+{
TreeDbTerm *this;
- if (is_atom(key) && key == am_EOT)
+ if (key == am_EOT)
return DB_ERROR_BADKEY;
- stack = get_any_stack(tb);
- this = find_next(tb, stack, key);
- release_stack(tb,stack);
+ this = find_next(&tbl->common, root, stack, key);
if (this == NULL) {
*ret = am_EOT;
return DB_ERROR_NONE;
@@ -554,18 +559,27 @@ static int db_next_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
return DB_ERROR_NONE;
}
-static int db_last_tree(Process *p, DbTable *tbl, Eterm *ret)
+static int db_next_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ DbTreeStack* stack = get_any_stack(tbl, tb);
+ int ret_val = db_next_tree_common(p, tbl, tb->root, key, ret, stack);
+ release_stack(tbl,tb,stack);
+ return ret_val;
+}
+
+int db_last_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root,
+ Eterm *ret, DbTableTree *stack_container)
+{
TreeDbTerm *this;
DbTreeStack* stack;
- if (( this = tb->root ) == NULL) {
+ if (( this = root ) == NULL) {
*ret = am_EOT;
return DB_ERROR_NONE;
}
/* Walk down the tree to the right */
- if ((stack = get_static_stack(tb)) != NULL) {
+ if ((stack = get_static_stack(stack_container)) != NULL) {
stack->pos = stack->slot = 0;
}
while (this->right != NULL) {
@@ -574,24 +588,27 @@ static int db_last_tree(Process *p, DbTable *tbl, Eterm *ret)
}
if (stack) {
PUSH_NODE(stack, this);
- stack->slot = NITEMS(tb);
- release_stack(tb,stack);
+ stack->slot = NITEMS(tbl);
+ release_stack(tbl,stack_container,stack);
}
*ret = db_copy_key(p, tbl, &this->dbterm);
return DB_ERROR_NONE;
}
-static int db_prev_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+static int db_last_tree(Process *p, DbTable *tbl, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_last_tree_common(p, tbl, tb->root, ret, tb);
+}
+
+int db_prev_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root, Eterm key,
+ Eterm *ret, DbTreeStack* stack)
+{
TreeDbTerm *this;
- DbTreeStack* stack;
- if (is_atom(key) && key == am_EOT)
+ if (key == am_EOT)
return DB_ERROR_BADKEY;
- stack = get_any_stack(tb);
- this = find_prev(tb, stack, key);
- release_stack(tb,stack);
+ this = find_prev(&tbl->common, root, stack, key);
if (this == NULL) {
*ret = am_EOT;
return DB_ERROR_NONE;
@@ -600,25 +617,30 @@ static int db_prev_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
return DB_ERROR_NONE;
}
-static ERTS_INLINE Sint cmp_key(DbTableTree* tb, Eterm key, TreeDbTerm* obj) {
- return CMP(key, GETKEY(tb,obj->dbterm.tpl));
+static int db_prev_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTableTree *tb = &tbl->tree;
+ DbTreeStack* stack = get_any_stack(tbl, tb);
+ int res = db_prev_tree_common(p, tbl, tb->root, key, ret, stack);
+ release_stack(tbl,tb,stack);
+ return res;
}
-static ERTS_INLINE int cmp_key_eq(DbTableTree* tb, Eterm key, TreeDbTerm* obj) {
+static ERTS_INLINE int cmp_key_eq(DbTableCommon* tb, Eterm key, TreeDbTerm* obj) {
Eterm obj_key = GETKEY(tb,obj->dbterm.tpl);
return is_same(key, obj_key) || CMP(key, obj_key) == 0;
}
-static int db_put_tree(DbTable *tbl, Eterm obj, int key_clash_fail)
+int db_put_tree_common(DbTableCommon *tb, TreeDbTerm **root, Eterm obj,
+ int key_clash_fail, DbTableTree *stack_container)
{
- DbTableTree *tb = &tbl->tree;
/* Non recursive insertion in AVL tree, building our own stack */
TreeDbTerm **tstack[STACK_NEED];
int tpos = 0;
int dstack[STACK_NEED+1];
int dpos = 0;
int state = 0;
- TreeDbTerm **this = &tb->root;
+ TreeDbTerm **this = root;
Sint c;
Eterm key;
int dir;
@@ -626,14 +648,14 @@ static int db_put_tree(DbTable *tbl, Eterm obj, int key_clash_fail)
key = GETKEY(tb, tuple_val(obj));
- reset_static_stack(tb);
+ reset_static_stack(stack_container);
dstack[dpos++] = DIR_END;
for (;;)
if (!*this) { /* Found our place */
state = 1;
- if (erts_atomic_inc_read_nob(&tb->common.nitems) >= TREE_MAX_ELEMENTS) {
- erts_atomic_dec_nob(&tb->common.nitems);
+ if (erts_atomic_inc_read_nob(&tb->nitems) >= TREE_MAX_ELEMENTS) {
+ erts_atomic_dec_nob(&tb->nitems);
return DB_ERROR_SYSRES;
}
*this = new_dbterm(tb, obj);
@@ -724,9 +746,15 @@ static int db_put_tree(DbTable *tbl, Eterm obj, int key_clash_fail)
return DB_ERROR_NONE;
}
-static int db_get_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+static int db_put_tree(DbTable *tbl, Eterm obj, int key_clash_fail)
{
DbTableTree *tb = &tbl->tree;
+ return db_put_tree_common(&tb->common, &tb->root, obj, key_clash_fail, tb);
+}
+
+int db_get_tree_common(Process *p, DbTableCommon *tb, TreeDbTerm *root, Eterm key,
+ Eterm *ret, DbTableTree *stack_container)
+{
Eterm copy;
Eterm *hp, *hend;
TreeDbTerm *this;
@@ -737,13 +765,13 @@ static int db_get_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
* The list created around it is purely for interface conformance.
*/
- this = find_node(tb,key);
+ this = find_node(tb,root,key,stack_container);
if (this == NULL) {
*ret = NIL;
} else {
hp = HAlloc(p, this->dbterm.size + 2);
hend = hp + this->dbterm.size + 2;
- copy = db_copy_object_from_ets(&tb->common, &this->dbterm, &hp, &MSO(p));
+ copy = db_copy_object_from_ets(tb, &this->dbterm, &hp, &MSO(p));
*ret = CONS(hp, copy, NIL);
hp += 2;
HRelease(p,hend,hp);
@@ -751,18 +779,28 @@ static int db_get_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
return DB_ERROR_NONE;
}
-static int db_member_tree(DbTable *tbl, Eterm key, Eterm *ret)
+static int db_get_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_get_tree_common(p, &tb->common, tb->root, key, ret, tb);
+}
- *ret = (find_node(tb,key) == NULL) ? am_false : am_true;
+int db_member_tree_common(DbTableCommon *tb, TreeDbTerm *root, Eterm key, Eterm *ret,
+ DbTableTree *stack_container)
+{
+ *ret = (find_node(tb,root,key,stack_container) == NULL) ? am_false : am_true;
return DB_ERROR_NONE;
}
-static int db_get_element_tree(Process *p, DbTable *tbl,
- Eterm key, int ndex, Eterm *ret)
+static int db_member_tree(DbTable *tbl, Eterm key, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_member_tree_common(&tb->common, tb->root, key, ret, tb);
+}
+
+int db_get_element_tree_common(Process *p, DbTableCommon *tb, TreeDbTerm *root, Eterm key,
+ int ndex, Eterm *ret, DbTableTree *stack_container)
+{
/*
* Look the node up:
*/
@@ -776,49 +814,69 @@ static int db_get_element_tree(Process *p, DbTable *tbl,
* around the element here either.
*/
- this = find_node(tb,key);
+ this = find_node(tb,root,key,stack_container);
if (this == NULL) {
return DB_ERROR_BADKEY;
} else {
if (ndex > arityval(this->dbterm.tpl[0])) {
return DB_ERROR_BADPARAM;
}
- *ret = db_copy_element_from_ets(&tb->common, p, &this->dbterm, ndex, &hp, 0);
+ *ret = db_copy_element_from_ets(tb, p, &this->dbterm, ndex, &hp, 0);
}
return DB_ERROR_NONE;
}
-static int db_erase_tree(DbTable *tbl, Eterm key, Eterm *ret)
+static int db_get_element_tree(Process *p, DbTable *tbl,
+ Eterm key, int ndex, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_get_element_tree_common(p, &tb->common, tb->root, key,
+ ndex, ret, tb);
+}
+
+int db_erase_tree_common(DbTable *tbl, TreeDbTerm **root, Eterm key, Eterm *ret,
+ DbTreeStack *stack /* NULL if no static stack */)
+{
TreeDbTerm *res;
*ret = am_true;
- if ((res = linkout_tree(tb, key)) != NULL) {
- free_term(tb, res);
+ if ((res = linkout_tree(&tbl->common, root,key, stack)) != NULL) {
+ free_term(tbl, res);
}
return DB_ERROR_NONE;
}
-static int db_erase_object_tree(DbTable *tbl, Eterm object, Eterm *ret)
+static int db_erase_tree(DbTable *tbl, Eterm key, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_erase_tree_common(tbl, &tb->root, key, ret, &tb->static_stack);
+}
+
+int db_erase_object_tree_common(DbTable *tbl, TreeDbTerm **root, Eterm object,
+ Eterm *ret, DbTableTree *stack_container)
+{
TreeDbTerm *res;
*ret = am_true;
- if ((res = linkout_object_tree(tb, object)) != NULL) {
- free_term(tb, res);
+ if ((res = linkout_object_tree(&tbl->common, root, object, stack_container)) != NULL) {
+ free_term(tbl, res);
}
return DB_ERROR_NONE;
}
-
-static int db_slot_tree(Process *p, DbTable *tbl,
- Eterm slot_term, Eterm *ret)
+static int db_erase_object_tree(DbTable *tbl, Eterm object, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_erase_object_tree_common(tbl, &tb->root, object, ret, tb);
+}
+
+int db_slot_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root,
+ Eterm slot_term, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator *iter)
+{
Sint slot;
TreeDbTerm *st;
Eterm *hp, *hend;
@@ -834,10 +892,10 @@ static int db_slot_tree(Process *p, DbTable *tbl,
if (is_not_small(slot_term) ||
((slot = signed_val(slot_term)) < 0) ||
- (slot > NITEMS(tb)))
+ (slot > NITEMS(tbl)))
return DB_ERROR_BADPARAM;
- if (slot == NITEMS(tb)) {
+ if (slot == NITEMS(tbl)) {
*ret = am_EOT;
return DB_ERROR_NONE;
}
@@ -847,20 +905,27 @@ static int db_slot_tree(Process *p, DbTable *tbl,
* are counted from 1 and up.
*/
++slot;
- st = slot_search(p, tb, slot);
+ st = slot_search(p, root, slot, tbl, stack_container, iter);
if (st == NULL) {
*ret = am_false;
return DB_ERROR_UNSPEC;
}
hp = HAlloc(p, st->dbterm.size + 2);
hend = hp + st->dbterm.size + 2;
- copy = db_copy_object_from_ets(&tb->common, &st->dbterm, &hp, &MSO(p));
+ copy = db_copy_object_from_ets(&tbl->common, &st->dbterm, &hp, &MSO(p));
*ret = CONS(hp, copy, NIL);
hp += 2;
HRelease(p,hend,hp);
return DB_ERROR_NONE;
}
+static int db_slot_tree(Process *p, DbTable *tbl,
+ Eterm slot_term, Eterm *ret)
+{
+ DbTableTree *tb = &tbl->tree;
+ return db_slot_tree_common(p, tbl, tb->root, slot_term, ret, tb, NULL);
+}
+
static BIF_RETTYPE ets_select_reverse(BIF_ALIST_3)
@@ -926,19 +991,14 @@ static BIF_RETTYPE bif_trap3(Export *bif,
{
BIF_TRAP3(bif, p, p1, p2, p3);
}
-
-/*
-** This is called either when the select bif traps or when ets:select/1
-** is called. It does mostly the same as db_select_tree and may in either case
-** trap to itself again (via the ets:select/1 bif).
-** Note that this is common for db_select_tree and db_select_chunk_tree.
-*/
-static int db_select_continue_tree(Process *p,
- DbTable *tbl,
- Eterm continuation,
- Eterm *ret)
+
+int db_select_continue_tree_common(Process *p,
+ DbTableCommon *tb,
+ Eterm continuation,
+ Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
{
- DbTableTree *tb = &tbl->tree;
DbTreeStack* stack;
struct select_context sc;
unsigned sz;
@@ -951,7 +1011,6 @@ static int db_select_continue_tree(Process *p,
Sint chunk_size;
Sint reverse;
-
#define RET_TO_BIF(Term, State) do { *ret = (Term); return State; } while(0);
/* Decode continuation. We know it's a tuple but not the arity or
@@ -980,28 +1039,37 @@ static int db_select_continue_tree(Process *p,
sc.end_condition = NIL;
sc.lastobj = NULL;
sc.max = 1000;
- sc.keypos = tb->common.keypos;
+ sc.keypos = tb->keypos;
sc.chunk_size = chunk_size;
reverse = unsigned_val(tptr[7]);
sc.got = signed_val(tptr[8]);
- stack = get_any_stack(tb);
- if (chunk_size) {
- if (reverse) {
- traverse_backwards(tb, stack, lastkey, &doit_select_chunk, &sc);
- } else {
- traverse_forward(tb, stack, lastkey, &doit_select_chunk, &sc);
- }
- } else {
- if (reverse) {
- traverse_forward(tb, stack, lastkey, &doit_select, &sc);
- } else {
- traverse_backwards(tb, stack, lastkey, &doit_select, &sc);
- }
+ if (iter) {
+ iter->next_route_key = lastkey;
+ sc.common.root = catree_find_nextprev_root(iter, !!reverse != !!chunk_size, NULL);
}
- release_stack(tb,stack);
+ else
+ sc.common.root = &((DbTableTree*)tb)->root;
+
+ if (sc.common.root) {
+ stack = get_any_stack((DbTable*)tb, stack_container);
+ if (chunk_size) {
+ if (reverse) {
+ traverse_backwards(tb, stack, lastkey, &doit_select_chunk, &sc.common, iter);
+ } else {
+ traverse_forward(tb, stack, lastkey, &doit_select_chunk, &sc.common, iter);
+ }
+ } else {
+ if (reverse) {
+ traverse_forward(tb, stack, lastkey, &doit_select, &sc.common, iter);
+ } else {
+ traverse_backwards(tb, stack, lastkey, &doit_select, &sc.common, iter);
+ }
+ }
+ release_stack((DbTable*)tb,stack_container,stack);
- BUMP_REDS(p, 1000 - sc.max);
+ BUMP_REDS(p, 1000 - sc.max);
+ }
if (sc.max > 0 || (chunk_size && sc.got == chunk_size)) {
if (chunk_size) {
@@ -1082,13 +1150,29 @@ static int db_select_continue_tree(Process *p,
#undef RET_TO_BIF
}
+
+/*
+** This is called either when the select bif traps or when ets:select/1
+** is called. It does mostly the same as db_select_tree and may in either case
+** trap to itself again (via the ets:select/1 bif).
+** Note that this is common for db_select_tree and db_select_chunk_tree.
+*/
+static int db_select_continue_tree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
+{
+ DbTableTree *tb = &tbl->tree;
+ return db_select_continue_tree_common(p, &tb->common,
+ continuation, ret, tb, NULL);
+}
-
-static int db_select_tree(Process *p, DbTable *tbl, Eterm tid,
- Eterm pattern, int reverse, Eterm *ret)
+int db_select_tree_common(Process *p, DbTable *tb,
+ Eterm tid, Eterm pattern, int reverse, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
{
/* Strategy: Traverse backwards to build resulting list from tail to head */
- DbTableTree *tb = &tbl->tree;
DbTreeStack* stack;
struct select_context sc;
struct mp_info mpi;
@@ -1121,42 +1205,62 @@ static int db_select_tree(Process *p, DbTable *tbl, Eterm tid,
sc.got = 0;
sc.chunk_size = 0;
- if ((errcode = analyze_pattern(tb, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
+ if ((errcode = analyze_pattern(&tb->common, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
RET_TO_BIF(NIL,errcode);
}
- if (!mpi.something_can_match) {
+ if (mpi.key_boundness == MS_KEY_IMPOSSIBLE) {
RET_TO_BIF(NIL,DB_ERROR_NONE);
/* can't possibly match anything */
}
sc.mp = mpi.mp;
- if (!mpi.got_partial && mpi.some_limitation &&
- CMP_EQ(mpi.least,mpi.most)) {
- doit_select(tb,*(mpi.save_term),&sc,0 /* direction doesn't matter */);
+ if (mpi.key_boundness == MS_KEY_BOUND) {
+ ASSERT(CMP_EQ(mpi.least, mpi.most));
+ if (iter)
+ sc.common.root = catree_find_root(mpi.least, iter);
+ else
+ sc.common.root = &tb->tree.root;
+ this = find_node(&tb->common, *sc.common.root, mpi.least, NULL);
+ if (this)
+ doit_select(&tb->common, this, &sc.common, 0 /* direction doesn't matter */);
RET_TO_BIF(sc.accum,DB_ERROR_NONE);
}
- stack = get_any_stack(tb);
+ stack = get_any_stack((DbTable*)tb,stack_container);
if (reverse) {
- if (mpi.some_limitation) {
- if ((this = find_prev_from_pb_key(tb, stack, mpi.least)) != NULL) {
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_prev_from_pb_key(tb, &sc.common.root, stack, mpi.least, iter);
+ if (this)
lastkey = GETKEY(tb, this->dbterm.tpl);
- }
sc.end_condition = mpi.most;
}
- traverse_forward(tb, stack, lastkey, &doit_select, &sc);
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_first_root(iter);
+ else
+ sc.common.root = &tb->tree.root;
+ }
+ traverse_forward(&tb->common, stack, lastkey, &doit_select, &sc.common, iter);
} else {
- if (mpi.some_limitation) {
- if ((this = find_next_from_pb_key(tb, stack, mpi.most)) != NULL) {
- lastkey = GETKEY(tb, this->dbterm.tpl);
- }
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_next_from_pb_key(tb, &sc.common.root, stack, mpi.most, iter);
+ if (this)
+ lastkey = GETKEY(tb, this->dbterm.tpl);
sc.end_condition = mpi.least;
}
- traverse_backwards(tb, stack, lastkey, &doit_select, &sc);
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_last_root(iter);
+ else
+ sc.common.root = &tb->tree.root;
+ }
+ traverse_backwards(&tb->common, stack, lastkey, &doit_select, &sc.common, iter);
}
- release_stack(tb,stack);
+ release_stack((DbTable*)tb,stack_container,stack);
#ifdef HARDDEBUG
erts_fprintf(stderr,"Least: %T\n", mpi.least);
erts_fprintf(stderr,"Most: %T\n", mpi.most);
@@ -1192,16 +1296,20 @@ static int db_select_tree(Process *p, DbTable *tbl, Eterm tid,
}
-
-/*
-** This is called either when the select_count bif traps.
-*/
-static int db_select_count_continue_tree(Process *p,
- DbTable *tbl,
- Eterm continuation,
- Eterm *ret)
+static int db_select_tree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, int reverse, Eterm *ret)
+{
+ return db_select_tree_common(p, tbl, tid,
+ pattern, reverse, ret, &tbl->tree, NULL);
+}
+
+int db_select_count_continue_tree_common(Process *p,
+ DbTable *tb,
+ Eterm continuation,
+ Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
{
- DbTableTree *tb = &tbl->tree;
DbTreeStack* stack;
struct select_count_context sc;
unsigned sz;
@@ -1213,7 +1321,6 @@ static int db_select_count_continue_tree(Process *p,
Eterm *tptr;
Eterm egot;
-
#define RET_TO_BIF(Term, State) do { *ret = (Term); return State; } while(0);
/* Decode continuation. We know it's a tuple and everything else as
@@ -1245,11 +1352,21 @@ static int db_select_count_continue_tree(Process *p,
sc.got = unsigned_val(tptr[5]);
}
- stack = get_any_stack(tb);
- traverse_backwards(tb, stack, lastkey, &doit_select_count, &sc);
- release_stack(tb,stack);
+ if (iter) {
+ iter->next_route_key = lastkey;
+ sc.common.root = catree_find_prev_root(iter, NULL);
+ }
+ else {
+ sc.common.root = &tb->tree.root;
+ }
- BUMP_REDS(p, 1000 - sc.max);
+ if (sc.common.root) {
+ stack = get_any_stack(tb, stack_container);
+ traverse_backwards(&tb->common, stack, lastkey, &doit_select_count, &sc.common, iter);
+ release_stack(tb,stack_container,stack);
+
+ BUMP_REDS(p, 1000 - sc.max);
+ }
if (sc.max > 0) {
RET_TO_BIF(erts_make_integer(sc.got,p), DB_ERROR_NONE);
@@ -1285,11 +1402,25 @@ static int db_select_count_continue_tree(Process *p,
#undef RET_TO_BIF
}
-
-static int db_select_count_tree(Process *p, DbTable *tbl, Eterm tid,
- Eterm pattern, Eterm *ret)
+/*
+** This is called either when the select_count bif traps.
+*/
+static int db_select_count_continue_tree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_select_count_continue_tree_common(p, tbl,
+ continuation, ret, tb, NULL);
+}
+
+
+int db_select_count_tree_common(Process *p, DbTable *tb,
+ Eterm tid, Eterm pattern, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
+{
DbTreeStack* stack;
struct select_count_context sc;
struct mp_info mpi;
@@ -1303,7 +1434,6 @@ static int db_select_count_tree(Process *p, DbTable *tbl, Eterm tid,
Eterm egot;
Eterm mpb;
-
#define RET_TO_BIF(Term,RetVal) do { \
if (mpi.mp != NULL) { \
erts_bin_free(mpi.mp); \
@@ -1321,33 +1451,46 @@ static int db_select_count_tree(Process *p, DbTable *tbl, Eterm tid,
sc.keypos = tb->common.keypos;
sc.got = 0;
- if ((errcode = analyze_pattern(tb, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
+ if ((errcode = analyze_pattern(&tb->common, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
RET_TO_BIF(NIL,errcode);
}
- if (!mpi.something_can_match) {
+ if (mpi.key_boundness == MS_KEY_IMPOSSIBLE) {
RET_TO_BIF(make_small(0),DB_ERROR_NONE);
/* can't possibly match anything */
}
sc.mp = mpi.mp;
- if (!mpi.got_partial && mpi.some_limitation &&
- CMP_EQ(mpi.least,mpi.most)) {
- doit_select_count(tb,*(mpi.save_term),&sc,0 /* dummy */);
+ if (mpi.key_boundness == MS_KEY_BOUND) {
+ ASSERT(CMP_EQ(mpi.least, mpi.most));
+ if (iter)
+ sc.common.root = catree_find_root(mpi.least, iter);
+ else
+ sc.common.root = &((DbTable*)tb)->tree.root;
+ this = find_node(&tb->common, *sc.common.root, mpi.least, NULL);
+ if (this)
+ doit_select_count(&tb->common, this, &sc.common, 0 /* dummy */);
RET_TO_BIF(erts_make_integer(sc.got,p),DB_ERROR_NONE);
}
- stack = get_any_stack(tb);
- if (mpi.some_limitation) {
- if ((this = find_next_from_pb_key(tb, stack, mpi.most)) != NULL) {
- lastkey = GETKEY(tb, this->dbterm.tpl);
- }
+ stack = get_any_stack((DbTable*)tb, stack_container);
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_next_from_pb_key(tb, &sc.common.root, stack, mpi.most, iter);
+ if (this)
+ lastkey = GETKEY(tb, this->dbterm.tpl);
sc.end_condition = mpi.least;
}
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_last_root(iter);
+ else
+ sc.common.root = &tb->tree.root;
+ }
- traverse_backwards(tb, stack, lastkey, &doit_select_count, &sc);
- release_stack(tb,stack);
+ traverse_backwards(&tb->common, stack, lastkey, &doit_select_count, &sc.common, iter);
+ release_stack((DbTable*)tb,stack_container,stack);
BUMP_REDS(p, 1000 - sc.max);
if (sc.max > 0) {
RET_TO_BIF(erts_make_integer(sc.got,p),DB_ERROR_NONE);
@@ -1383,12 +1526,21 @@ static int db_select_count_tree(Process *p, DbTable *tbl, Eterm tid,
}
-static int db_select_chunk_tree(Process *p, DbTable *tbl, Eterm tid,
- Eterm pattern, Sint chunk_size,
- int reverse,
- Eterm *ret)
+static int db_select_count_tree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_select_count_tree_common(p, tbl,
+ tid, pattern, ret, tb, NULL);
+}
+
+
+int db_select_chunk_tree_common(Process *p, DbTable *tb,
+ Eterm tid, Eterm pattern, Sint chunk_size,
+ int reverse, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
+{
DbTreeStack* stack;
struct select_context sc;
struct mp_info mpi;
@@ -1401,7 +1553,6 @@ static int db_select_chunk_tree(Process *p, DbTable *tbl, Eterm tid,
int errcode;
Eterm mpb;
-
#define RET_TO_BIF(Term,RetVal) do { \
if (mpi.mp != NULL) { \
erts_bin_free(mpi.mp); \
@@ -1421,20 +1572,26 @@ static int db_select_chunk_tree(Process *p, DbTable *tbl, Eterm tid,
sc.got = 0;
sc.chunk_size = chunk_size;
- if ((errcode = analyze_pattern(tb, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
+ if ((errcode = analyze_pattern(&tb->common, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
RET_TO_BIF(NIL,errcode);
}
- if (!mpi.something_can_match) {
+ if (mpi.key_boundness == MS_KEY_IMPOSSIBLE) {
RET_TO_BIF(am_EOT,DB_ERROR_NONE);
/* can't possibly match anything */
}
sc.mp = mpi.mp;
- if (!mpi.got_partial && mpi.some_limitation &&
- CMP_EQ(mpi.least,mpi.most)) {
- doit_select(tb,*(mpi.save_term),&sc, 0 /* direction doesn't matter */);
+ if (mpi.key_boundness == MS_KEY_BOUND) {
+ ASSERT(CMP_EQ(mpi.least, mpi.most));
+ if (iter)
+ sc.common.root = catree_find_root(mpi.least, iter);
+ else
+ sc.common.root = &tb->tree.root;
+ this = find_node(&tb->common, *sc.common.root, mpi.least, NULL);
+ if (this)
+ doit_select(&tb->common, this, &sc.common, 0 /* direction doesn't matter */);
if (sc.accum != NIL) {
hp=HAlloc(p, 3);
RET_TO_BIF(TUPLE2(hp,sc.accum,am_EOT),DB_ERROR_NONE);
@@ -1443,25 +1600,39 @@ static int db_select_chunk_tree(Process *p, DbTable *tbl, Eterm tid,
}
}
- stack = get_any_stack(tb);
+ stack = get_any_stack((DbTable*)tb,stack_container);
if (reverse) {
- if (mpi.some_limitation) {
- if ((this = find_next_from_pb_key(tb, stack, mpi.most)) != NULL) {
- lastkey = GETKEY(tb, this->dbterm.tpl);
- }
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_next_from_pb_key(tb, &sc.common.root, stack, mpi.most, iter);
+ if (this)
+ lastkey = GETKEY(tb, this->dbterm.tpl);
sc.end_condition = mpi.least;
}
- traverse_backwards(tb, stack, lastkey, &doit_select_chunk, &sc);
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_last_root(iter);
+ else
+ sc.common.root = &tb->tree.root;
+ }
+ traverse_backwards(&tb->common, stack, lastkey, &doit_select_chunk, &sc.common, iter);
} else {
- if (mpi.some_limitation) {
- if ((this = find_prev_from_pb_key(tb, stack, mpi.least)) != NULL) {
- lastkey = GETKEY(tb, this->dbterm.tpl);
- }
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_prev_from_pb_key(tb, &sc.common.root, stack, mpi.least, iter);
+ if (this)
+ lastkey = GETKEY(tb, this->dbterm.tpl);
sc.end_condition = mpi.most;
}
- traverse_forward(tb, stack, lastkey, &doit_select_chunk, &sc);
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_first_root(iter);
+ else
+ sc.common.root = &tb->tree.root;
+ }
+ traverse_forward(&tb->common, stack, lastkey, &doit_select_chunk, &sc.common, iter);
}
- release_stack(tb,stack);
+ release_stack((DbTable*)tb,stack_container,stack);
BUMP_REDS(p, 1000 - sc.max);
if (sc.max > 0 || sc.got == chunk_size) {
@@ -1530,15 +1701,25 @@ static int db_select_chunk_tree(Process *p, DbTable *tbl, Eterm tid,
}
-/*
-** This is called when select_delete traps
-*/
-static int db_select_delete_continue_tree(Process *p,
- DbTable *tbl,
- Eterm continuation,
- Eterm *ret)
+static int db_select_chunk_tree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Sint chunk_size,
+ int reverse,
+ Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ return db_select_chunk_tree_common(p, tbl,
+ tid, pattern, chunk_size,
+ reverse, ret, tb, NULL);
+}
+
+
+int db_select_delete_continue_tree_common(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret,
+ DbTreeStack* stack,
+ CATreeRootIterator* iter)
+{
struct select_delete_context sc;
unsigned sz;
Eterm *hp;
@@ -1549,10 +1730,9 @@ static int db_select_delete_continue_tree(Process *p,
Eterm *tptr;
Eterm eaccsum;
-
#define RET_TO_BIF(Term, State) do { \
if (sc.erase_lastterm) { \
- free_term(tb, sc.lastterm); \
+ free_term(tbl, sc.lastterm); \
} \
*ret = (Term); \
return State; \
@@ -1571,7 +1751,8 @@ static int db_select_delete_continue_tree(Process *p,
mp = erts_db_get_match_prog_binary_unchecked(tptr[4]);
sc.p = p;
- sc.tb = tb;
+ sc.tb = &tbl->common;
+ sc.stack = stack;
if (is_big(tptr[5])) {
sc.accum = big_to_uint32(tptr[5]);
} else {
@@ -1580,17 +1761,26 @@ static int db_select_delete_continue_tree(Process *p,
sc.mp = mp;
sc.end_condition = NIL;
sc.max = 1000;
- sc.keypos = tb->common.keypos;
+ sc.keypos = tbl->common.keypos;
- ASSERT(!erts_atomic_read_nob(&tb->is_stack_busy));
- traverse_backwards(tb, &tb->static_stack, lastkey, &doit_select_delete, &sc);
+ if (iter) {
+ iter->next_route_key = lastkey;
+ sc.common.root = catree_find_prev_root(iter, NULL);
+ }
+ else {
+ sc.common.root = &tbl->tree.root;
+ }
- BUMP_REDS(p, 1000 - sc.max);
+ if (sc.common.root) {
+ traverse_backwards(&tbl->common, stack, lastkey, &doit_select_delete, &sc.common, iter);
+
+ BUMP_REDS(p, 1000 - sc.max);
+ }
if (sc.max > 0) {
RET_TO_BIF(erts_make_integer(sc.accum, p), DB_ERROR_NONE);
}
- key = GETKEY(tb, (sc.lastterm)->dbterm.tpl);
+ key = GETKEY(&tbl->common, (sc.lastterm)->dbterm.tpl);
if (end_condition != NIL &&
cmp_partly_bound(end_condition,key) > 0) { /* done anyway */
RET_TO_BIF(erts_make_integer(sc.accum,p),DB_ERROR_NONE);
@@ -1620,10 +1810,23 @@ static int db_select_delete_continue_tree(Process *p,
#undef RET_TO_BIF
}
-static int db_select_delete_tree(Process *p, DbTable *tbl, Eterm tid,
- Eterm pattern, Eterm *ret)
+static int db_select_delete_continue_tree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
{
DbTableTree *tb = &tbl->tree;
+ ASSERT(!erts_atomic_read_nob(&tb->is_stack_busy));
+ return db_select_delete_continue_tree_common(p, tbl, continuation, ret,
+ &tb->static_stack, NULL);
+}
+
+int db_select_delete_tree_common(Process *p, DbTable *tbl,
+ Eterm tid, Eterm pattern,
+ Eterm *ret,
+ DbTreeStack* stack,
+ CATreeRootIterator* iter)
+{
struct select_delete_context sc;
struct mp_info mpi;
Eterm lastkey = THE_NON_VALUE;
@@ -1641,7 +1844,7 @@ static int db_select_delete_tree(Process *p, DbTable *tbl, Eterm tid,
erts_bin_free(mpi.mp); \
} \
if (sc.erase_lastterm) { \
- free_term(tb, sc.lastterm); \
+ free_term(tbl, sc.lastterm); \
} \
*ret = (Term); \
return RetVal; \
@@ -1655,42 +1858,57 @@ static int db_select_delete_tree(Process *p, DbTable *tbl, Eterm tid,
sc.p = p;
sc.max = 1000;
sc.end_condition = NIL;
- sc.keypos = tb->common.keypos;
- sc.tb = tb;
+ sc.keypos = tbl->common.keypos;
+ sc.tb = &tbl->common;
+ sc.stack = stack;
- if ((errcode = analyze_pattern(tb, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
+ if ((errcode = analyze_pattern(&tbl->common, pattern, NULL, &mpi)) != DB_ERROR_NONE) {
RET_TO_BIF(0,errcode);
}
- if (!mpi.something_can_match) {
+ if (mpi.key_boundness == MS_KEY_IMPOSSIBLE) {
RET_TO_BIF(make_small(0),DB_ERROR_NONE);
/* can't possibly match anything */
}
sc.mp = mpi.mp;
- if (!mpi.got_partial && mpi.some_limitation &&
- CMP_EQ(mpi.least,mpi.most)) {
- doit_select_delete(tb,*(mpi.save_term),&sc, 0 /* direction doesn't
+ if (mpi.key_boundness == MS_KEY_BOUND) {
+ ASSERT(CMP_EQ(mpi.least, mpi.most));
+ if (iter)
+ sc.common.root = catree_find_root(mpi.least, iter);
+ else
+ sc.common.root = &tbl->tree.root;
+ this = find_node(&tbl->common, *sc.common.root, mpi.least, NULL);
+ if (this)
+ doit_select_delete(&tbl->common, this, &sc.common, 0 /* direction doesn't
matter */);
RET_TO_BIF(erts_make_integer(sc.accum,p),DB_ERROR_NONE);
}
- if (mpi.some_limitation) {
- if ((this = find_next_from_pb_key(tb, &tb->static_stack, mpi.most)) != NULL) {
- lastkey = GETKEY(tb, this->dbterm.tpl);
- }
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_next_from_pb_key(tbl, &sc.common.root, stack, mpi.most, iter);
+ if (this)
+ lastkey = GETKEY(&tbl->common, this->dbterm.tpl);
sc.end_condition = mpi.least;
}
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_last_root(iter);
+ else
+ sc.common.root = &tbl->tree.root;
+ }
- traverse_backwards(tb, &tb->static_stack, lastkey, &doit_select_delete, &sc);
+ traverse_backwards(&tbl->common, stack, lastkey,
+ &doit_select_delete, &sc.common, iter);
BUMP_REDS(p, 1000 - sc.max);
if (sc.max > 0) {
RET_TO_BIF(erts_make_integer(sc.accum,p), DB_ERROR_NONE);
}
- key = GETKEY(tb, (sc.lastterm)->dbterm.tpl);
+ key = GETKEY(&tbl->common, (sc.lastterm)->dbterm.tpl);
sz = size_object(key);
if (IS_USMALL(0, sc.accum)) {
hp = HAlloc(p, sz + ERTS_MAGIC_REF_THING_SIZE + 6);
@@ -1714,7 +1932,7 @@ static int db_select_delete_tree(Process *p, DbTable *tbl, Eterm tid,
/* Don't free mpi.mp, so don't use macro */
if (sc.erase_lastterm) {
- free_term(tb, sc.lastterm);
+ free_term(tbl, sc.lastterm);
}
*ret = bif_trap1(&ets_select_delete_continue_exp, p, continuation);
return DB_ERROR_NONE;
@@ -1723,12 +1941,21 @@ static int db_select_delete_tree(Process *p, DbTable *tbl, Eterm tid,
}
-static int db_select_replace_continue_tree(Process *p,
+static int db_select_delete_tree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret)
+{
+ DbTableTree *tb = &tbl->tree;
+ return db_select_delete_tree_common(p, tbl, tid, pattern, ret,
+ &tb->static_stack, NULL);
+}
+
+int db_select_replace_continue_tree_common(Process *p,
DbTable *tbl,
Eterm continuation,
- Eterm *ret)
+ Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
{
- DbTableTree *tb = &tbl->tree;
DbTreeStack* stack;
struct select_replace_context sc;
unsigned sz;
@@ -1764,7 +1991,7 @@ static int db_select_replace_continue_tree(Process *p,
sc.end_condition = NIL;
sc.lastobj = NULL;
sc.max = 1000;
- sc.keypos = tb->common.keypos;
+ sc.keypos = tbl->common.keypos;
if (is_big(tptr[5])) {
sc.replaced = big_to_uint32(tptr[5]);
} else {
@@ -1772,9 +1999,18 @@ static int db_select_replace_continue_tree(Process *p,
}
prev_replaced = sc.replaced;
- stack = get_any_stack(tb);
- traverse_update_backwards(tb, stack, lastkey, &doit_select_replace, &sc);
- release_stack(tb,stack);
+ if (iter) {
+ iter->next_route_key = lastkey;
+ sc.common.root = catree_find_prev_root(iter, NULL);
+ }
+ else {
+ sc.common.root = &tbl->tree.root;
+ }
+
+ stack = get_any_stack(tbl, stack_container);
+ traverse_update_backwards(&tbl->common, stack, lastkey, &doit_select_replace,
+ &sc.common, iter);
+ release_stack(tbl, stack_container,stack);
// the more objects we've replaced, the more reductions we've consumed
BUMP_REDS(p, MIN(2000, (1000 - sc.max) + (sc.replaced - prev_replaced)));
@@ -1782,7 +2018,7 @@ static int db_select_replace_continue_tree(Process *p,
if (sc.max > 0) {
RET_TO_BIF(erts_make_integer(sc.replaced,p), DB_ERROR_NONE);
}
- key = GETKEY(tb, sc.lastobj);
+ key = GETKEY(tbl, sc.lastobj);
if (end_condition != NIL &&
(cmp_partly_bound(end_condition,key) > 0)) {
/* done anyway */
@@ -1813,10 +2049,20 @@ static int db_select_replace_continue_tree(Process *p,
#undef RET_TO_BIF
}
-static int db_select_replace_tree(Process *p, DbTable *tbl, Eterm tid,
- Eterm pattern, Eterm *ret)
+static int db_select_replace_continue_tree(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret)
+{
+ return db_select_replace_continue_tree_common(p, tbl, continuation, ret,
+ &tbl->tree, NULL);
+}
+
+int db_select_replace_tree_common(Process *p, DbTable *tbl,
+ Eterm tid, Eterm pattern, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter)
{
- DbTableTree *tb = &tbl->tree;
DbTreeStack* stack;
struct select_replace_context sc;
struct mp_info mpi;
@@ -1843,48 +2089,64 @@ static int db_select_replace_tree(Process *p, DbTable *tbl, Eterm tid,
sc.lastobj = NULL;
sc.p = p;
- sc.tb = tb;
+ sc.tb = &tbl->common;
sc.max = 1000;
sc.end_condition = NIL;
- sc.keypos = tb->common.keypos;
+ sc.keypos = tbl->common.keypos;
sc.replaced = 0;
- if ((errcode = analyze_pattern(tb, pattern, db_match_keeps_key, &mpi)) != DB_ERROR_NONE) {
+ if ((errcode = analyze_pattern(&tbl->common, pattern, db_match_keeps_key, &mpi)) != DB_ERROR_NONE) {
RET_TO_BIF(NIL,errcode);
}
- if (!mpi.something_can_match) {
+ if (mpi.key_boundness == MS_KEY_IMPOSSIBLE) {
RET_TO_BIF(make_small(0),DB_ERROR_NONE);
/* can't possibly match anything */
}
sc.mp = mpi.mp;
- if (!mpi.got_partial && mpi.some_limitation &&
- CMP_EQ(mpi.least,mpi.most)) {
- doit_select_replace(tb,mpi.save_term,&sc,0 /* dummy */);
- reset_static_stack(tb); /* may refer replaced term */
+ if (mpi.key_boundness == MS_KEY_BOUND) {
+ TreeDbTerm** pp;
+ ASSERT(CMP_EQ(mpi.least, mpi.most));
+ if (iter)
+ sc.common.root = catree_find_root(mpi.least, iter);
+ else
+ sc.common.root = &tbl->tree.root;
+ pp = find_node2(&tbl->common, sc.common.root, mpi.least);
+ if (pp) {
+ doit_select_replace(&tbl->common, pp, &sc.common, 0 /* dummy */);
+ reset_static_stack(stack_container); /* may refer replaced term */
+ }
RET_TO_BIF(erts_make_integer(sc.replaced,p),DB_ERROR_NONE);
}
- stack = get_any_stack(tb);
+ stack = get_any_stack(tbl,stack_container);
- if (mpi.some_limitation) {
- if ((this = find_next_from_pb_key(tb, stack, mpi.most)) != NULL) {
- lastkey = GETKEY(tb, this->dbterm.tpl);
- }
+ if (mpi.key_boundness == MS_KEY_PARTIALLY_BOUND) {
+ this = find_next_from_pb_key(tbl, &sc.common.root, stack, mpi.most, iter);
+ if (this)
+ lastkey = GETKEY(tbl, this->dbterm.tpl);
sc.end_condition = mpi.least;
}
+ else {
+ ASSERT(mpi.key_boundness == MS_KEY_UNBOUND);
+ if (iter)
+ sc.common.root = catree_find_last_root(iter);
+ else
+ sc.common.root = &tbl->tree.root;
+ }
- traverse_update_backwards(tb, stack, lastkey, &doit_select_replace, &sc);
- release_stack(tb,stack);
+ traverse_update_backwards(&tbl->common, stack, lastkey, &doit_select_replace,
+ &sc.common, iter);
+ release_stack(tbl,stack_container,stack);
// the more objects we've replaced, the more reductions we've consumed
BUMP_REDS(p, MIN(2000, (1000 - sc.max) + sc.replaced));
if (sc.max > 0) {
RET_TO_BIF(erts_make_integer(sc.replaced,p),DB_ERROR_NONE);
}
- key = GETKEY(tb, sc.lastobj);
+ key = GETKEY(tbl, sc.lastobj);
sz = size_object(key);
if (IS_USMALL(0, sc.replaced)) {
hp = HAlloc(p, sz + ERTS_MAGIC_REF_THING_SIZE + 6);
@@ -1914,52 +2176,72 @@ static int db_select_replace_tree(Process *p, DbTable *tbl, Eterm tid,
}
-static int db_take_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+static int db_select_replace_tree(Process *p, DbTable *tbl, Eterm tid,
+ Eterm pattern, Eterm *ret)
+{
+ return db_select_replace_tree_common(p, tbl, tid, pattern, ret,
+ &tbl->tree, NULL);
+}
+
+int db_take_tree_common(Process *p, DbTable *tbl, TreeDbTerm **root,
+ Eterm key, Eterm *ret,
+ DbTreeStack *stack /* NULL if no static stack */)
{
- DbTableTree *tb = &tbl->tree;
TreeDbTerm *this;
*ret = NIL;
- this = linkout_tree(tb, key);
+ this = linkout_tree(&tbl->common, root, key, stack);
if (this) {
Eterm copy, *hp, *hend;
hp = HAlloc(p, this->dbterm.size + 2);
hend = hp + this->dbterm.size + 2;
- copy = db_copy_object_from_ets(&tb->common,
+ copy = db_copy_object_from_ets(&tbl->common,
&this->dbterm, &hp, &MSO(p));
*ret = CONS(hp, copy, NIL);
hp += 2;
HRelease(p, hend, hp);
- free_term(tb, this);
+ free_term(tbl, this);
}
return DB_ERROR_NONE;
}
+static int db_take_tree(Process *p, DbTable *tbl, Eterm key, Eterm *ret)
+{
+ DbTableTree *tb = &tbl->tree;
+ return db_take_tree_common(p, tbl, &tb->root,
+ key, ret, &tb->static_stack);
+}
+
/*
** Other interface routines (not directly coupled to one bif)
*/
-
-/* Display tree contents (for dump) */
-static void db_print_tree(fmtfn_t to, void *to_arg,
- int show,
- DbTable *tbl)
+void db_print_tree_common(fmtfn_t to, void *to_arg,
+ int show, TreeDbTerm *root, DbTable *tbl)
{
- DbTableTree *tb = &tbl->tree;
#ifdef TREE_DEBUG
if (show)
erts_print(to, to_arg, "\nTree data dump:\n"
"------------------------------------------------\n");
- do_dump_tree2(&tbl->tree, to, to_arg, show, tb->root, 0);
+ do_dump_tree2(&tbl->common, to, to_arg, show, root, 0);
if (show)
erts_print(to, to_arg, "\n"
"------------------------------------------------\n");
#else
- erts_print(to, to_arg, "Ordered set (AVL tree), Elements: %d\n", NITEMS(tb));
+ erts_print(to, to_arg, "Ordered set (AVL tree), Elements: %d\n", NITEMS(tbl));
#endif
}
+/* Display tree contents (for dump) */
+static void db_print_tree(fmtfn_t to, void *to_arg,
+ int show,
+ DbTable *tbl)
+{
+ DbTableTree *tb = &tbl->tree;
+ db_print_tree_common(to, to_arg, show, tb->root, tbl);
+}
+
/* release all memory occupied by a single table */
static int db_free_empty_table_tree(DbTable *tbl)
{
@@ -1984,8 +2266,10 @@ static SWord db_free_table_continue_tree(DbTable *tbl, SWord reds)
(DbTable *) tb,
(void *) tb->static_stack.array,
sizeof(TreeDbTerm *) * STACK_NEED);
- ASSERT(erts_atomic_read_nob(&tb->common.memory_size)
- == sizeof(DbTable));
+ ASSERT((erts_atomic_read_nob(&tb->common.memory_size)
+ == sizeof(DbTable)) ||
+ (erts_atomic_read_nob(&tb->common.memory_size)
+ == (sizeof(DbTable) + sizeof(DbFixation))));
}
return reds;
}
@@ -2004,11 +2288,18 @@ static void do_db_tree_foreach_offheap(TreeDbTerm *,
void (*)(ErlOffHeap *, void *),
void *);
+void db_foreach_offheap_tree_common(TreeDbTerm *root,
+ void (*func)(ErlOffHeap *, void *),
+ void * arg)
+{
+ do_db_tree_foreach_offheap(root, func, arg);
+}
+
static void db_foreach_offheap_tree(DbTable *tbl,
void (*func)(ErlOffHeap *, void *),
void * arg)
{
- do_db_tree_foreach_offheap(tbl->tree.root, func, arg);
+ db_foreach_offheap_tree_common(tbl->tree.root, func, arg);
}
@@ -2033,13 +2324,14 @@ do_db_tree_foreach_offheap(TreeDbTerm *tdbt,
do_db_tree_foreach_offheap(tdbt->right, func, arg);
}
-static TreeDbTerm *linkout_tree(DbTableTree *tb, Eterm key) {
+static TreeDbTerm *linkout_tree(DbTableCommon *tb, TreeDbTerm **root,
+ Eterm key, DbTreeStack *stack) {
TreeDbTerm **tstack[STACK_NEED];
int tpos = 0;
int dstack[STACK_NEED+1];
int dpos = 0;
int state = 0;
- TreeDbTerm **this = &tb->root;
+ TreeDbTerm **this = root;
Sint c;
int dir;
TreeDbTerm *q = NULL;
@@ -2050,7 +2342,7 @@ static TreeDbTerm *linkout_tree(DbTableTree *tb, Eterm key) {
* keep the balance. As in insert, we do the stacking ourselves.
*/
- reset_static_stack(tb);
+ reset_stack(stack);
dstack[dpos++] = DIR_END;
for (;;) {
if (!*this) { /* Failure */
@@ -2076,30 +2368,30 @@ static TreeDbTerm *linkout_tree(DbTableTree *tb, Eterm key) {
tstack[tpos++] = this;
state = delsub(this);
}
- erts_atomic_dec_nob(&tb->common.nitems);
+ erts_atomic_dec_nob(&tb->nitems);
break;
}
}
while (state && ( dir = dstack[--dpos] ) != DIR_END) {
this = tstack[--tpos];
if (dir == DIR_LEFT) {
- state = balance_left(this);
+ state = tree_balance_left(this);
} else {
- state = balance_right(this);
+ state = tree_balance_right(this);
}
}
return q;
}
-static TreeDbTerm *linkout_object_tree(DbTableTree *tb,
- Eterm object)
+static TreeDbTerm *linkout_object_tree(DbTableCommon *tb, TreeDbTerm **root,
+ Eterm object, DbTableTree *stack)
{
TreeDbTerm **tstack[STACK_NEED];
int tpos = 0;
int dstack[STACK_NEED+1];
int dpos = 0;
int state = 0;
- TreeDbTerm **this = &tb->root;
+ TreeDbTerm **this = root;
Sint c;
int dir;
TreeDbTerm *q = NULL;
@@ -2114,7 +2406,7 @@ static TreeDbTerm *linkout_object_tree(DbTableTree *tb,
key = GETKEY(tb, tuple_val(object));
- reset_static_stack(tb);
+ reset_static_stack(stack);
dstack[dpos++] = DIR_END;
for (;;) {
if (!*this) { /* Failure */
@@ -2128,7 +2420,7 @@ static TreeDbTerm *linkout_object_tree(DbTableTree *tb,
tstack[tpos++] = this;
this = &((*this)->right);
} else { /* Equal key, found the only possible matching object*/
- if (!db_eq(&tb->common,object,&(*this)->dbterm)) {
+ if (!db_eq(tb,object,&(*this)->dbterm)) {
return NULL;
}
q = (*this);
@@ -2143,16 +2435,16 @@ static TreeDbTerm *linkout_object_tree(DbTableTree *tb,
tstack[tpos++] = this;
state = delsub(this);
}
- erts_atomic_dec_nob(&tb->common.nitems);
+ erts_atomic_dec_nob(&tb->nitems);
break;
}
}
while (state && ( dir = dstack[--dpos] ) != DIR_END) {
this = tstack[--tpos];
if (dir == DIR_LEFT) {
- state = balance_left(this);
+ state = tree_balance_left(this);
} else {
- state = balance_right(this);
+ state = tree_balance_right(this);
}
}
return q;
@@ -2162,7 +2454,7 @@ static TreeDbTerm *linkout_object_tree(DbTableTree *tb,
** For the select functions, analyzes the pattern and determines which
** part of the tree should be searched. Also compiles the match program
*/
-static int analyze_pattern(DbTableTree *tb, Eterm pattern,
+static int analyze_pattern(DbTableCommon *tb, Eterm pattern,
extra_match_validator_t extra_validator, /* Optional callback */
struct mp_info *mpi)
{
@@ -2173,17 +2465,12 @@ static int analyze_pattern(DbTableTree *tb, Eterm pattern,
Eterm *ptpl;
int i;
int num_heads = 0;
- Eterm key;
- Eterm partly_bound;
- int res;
- Eterm least = 0;
- Eterm most = 0;
+ Eterm least = THE_NON_VALUE;
+ Eterm most = THE_NON_VALUE;
+ enum ms_key_boundness boundness;
- mpi->some_limitation = 1;
- mpi->got_partial = 0;
- mpi->something_can_match = 0;
+ mpi->key_boundness = MS_KEY_IMPOSSIBLE;
mpi->mp = NULL;
- mpi->save_term = NULL;
for (lst = pattern; is_list(lst); lst = CDR(list_val(lst)))
++num_heads;
@@ -2204,6 +2491,7 @@ static int analyze_pattern(DbTableTree *tb, Eterm pattern,
Eterm match;
Eterm guard;
Eterm body;
+ Eterm key;
ttpl = CAR(list_val(lst));
if (!is_tuple(ttpl)) {
@@ -2223,7 +2511,7 @@ static int analyze_pattern(DbTableTree *tb, Eterm pattern,
guards[i] = guard = ptpl[2];
bodies[i] = body = ptpl[3];
- if(extra_validator != NULL && !extra_validator(tb->common.keypos, match, guard, body)) {
+ if(extra_validator != NULL && !extra_validator(tb->keypos, match, guard, body)) {
if (buff != sbuff) {
erts_free(ERTS_ALC_T_DB_TMP, buff);
}
@@ -2235,30 +2523,29 @@ static int analyze_pattern(DbTableTree *tb, Eterm pattern,
}
++i;
- partly_bound = NIL;
- res = key_given(tb, tpl, &(mpi->save_term), &partly_bound);
- if ( res >= 0 ) { /* Can match something */
- key = 0;
- mpi->something_can_match = 1;
- if (res > 0) {
- key = GETKEY(tb,tuple_val(tpl));
- } else if (partly_bound != NIL) {
- mpi->got_partial = 1;
- key = partly_bound;
- } else {
- mpi->some_limitation = 0;
- }
- if (key != 0) {
- if (least == 0 ||
- partly_bound_can_match_lesser(key,least)) {
- least = key;
- }
- if (most == 0 ||
- partly_bound_can_match_greater(key,most)) {
- most = key;
- }
- }
- }
+ boundness = key_boundness(tb, tpl, &key);
+ switch (boundness)
+ {
+ case MS_KEY_BOUND:
+ case MS_KEY_PARTIALLY_BOUND:
+ if (is_non_value(least) || partly_bound_can_match_lesser(key,least)) {
+ least = key;
+ }
+ if (is_non_value(most) || partly_bound_can_match_greater(key,most)) {
+ most = key;
+ }
+ break;
+ case MS_KEY_IMPOSSIBLE:
+ case MS_KEY_UNBOUND:
+ break;
+ }
+ if (mpi->key_boundness > boundness)
+ mpi->key_boundness = boundness;
+ }
+
+ if (mpi->key_boundness == MS_KEY_BOUND && !CMP_EQ(least, most)) {
+ /* Several different bound keys */
+ mpi->key_boundness = MS_KEY_PARTIALLY_BOUND;
}
mpi->least = least;
mpi->most = most;
@@ -2300,7 +2587,7 @@ static SWord do_free_tree_continue(DbTableTree *tb, SWord reds)
PUSH_NODE(&tb->static_stack, root);
root = p;
} else {
- free_term(tb, root);
+ free_term((DbTable*)tb, root);
if (--reds < 0) {
return reds; /* Done enough for now */
}
@@ -2314,7 +2601,7 @@ static SWord do_free_tree_continue(DbTableTree *tb, SWord reds)
/*
* Deletion helpers
*/
-static int balance_left(TreeDbTerm **this)
+int tree_balance_left(TreeDbTerm **this)
{
TreeDbTerm *p, *p1, *p2;
int b1, b2, h = 1;
@@ -2359,7 +2646,7 @@ static int balance_left(TreeDbTerm **this)
return h;
}
-static int balance_right(TreeDbTerm **this)
+int tree_balance_right(TreeDbTerm **this)
{
TreeDbTerm *p, *p1, *p2;
int b1, b2, h = 1;
@@ -2431,7 +2718,7 @@ static int delsub(TreeDbTerm **this)
h = 1;
while (tpos && h) {
r = tstack[--tpos];
- h = balance_right(r);
+ h = tree_balance_right(r);
}
return h;
}
@@ -2440,11 +2727,29 @@ static int delsub(TreeDbTerm **this)
* Helper for db_slot
*/
-static TreeDbTerm *slot_search(Process *p, DbTableTree *tb, Sint slot)
+static TreeDbTerm *slot_search(Process *p, TreeDbTerm *root,
+ Sint slot, DbTable *tb,
+ DbTableTree *stack_container,
+ CATreeRootIterator *iter)
{
TreeDbTerm *this;
TreeDbTerm *tmp;
- DbTreeStack* stack = get_any_stack(tb);
+ TreeDbTerm *lastobj;
+ Eterm lastkey;
+ TreeDbTerm **pp;
+ DbTreeStack* stack;
+
+ if (iter) {
+ /* Find first non-empty tree */
+ while (!root) {
+ TreeDbTerm** pp = catree_find_next_root(iter, NULL);
+ if (!pp)
+ return NULL;
+ root = *pp;
+ }
+ }
+
+ stack = get_any_stack(tb,stack_container);
ASSERT(stack != NULL);
if (slot == 1) { /* Don't search from where we are if we are
@@ -2456,57 +2761,84 @@ static TreeDbTerm *slot_search(Process *p, DbTableTree *tb, Sint slot)
are not recorded */
stack->pos = 0;
}
- if (EMPTY_NODE(stack)) {
- this = tb->root;
- if (this == NULL)
- goto done;
- while (this->left != NULL){
- PUSH_NODE(stack, this);
- this = this->left;
- }
- PUSH_NODE(stack, this);
- stack->slot = 1;
- }
- this = TOP_NODE(stack);
- while (stack->slot != slot && this != NULL) {
- if (slot > stack->slot) {
- if (this->right != NULL) {
- this = this->right;
- while (this->left != NULL) {
- PUSH_NODE(stack, this);
- this = this->left;
- }
- PUSH_NODE(stack, this);
- } else {
- for (;;) {
- tmp = POP_NODE(stack);
- this = TOP_NODE(stack);
- if (this == NULL || this->left == tmp)
- break;
- }
- }
- ++(stack->slot);
- } else {
- if (this->left != NULL) {
- this = this->left;
- while (this->right != NULL) {
- PUSH_NODE(stack, this);
- this = this->right;
- }
- PUSH_NODE(stack, this);
- } else {
- for (;;) {
- tmp = POP_NODE(stack);
- this = TOP_NODE(stack);
- if (this == NULL || this->right == tmp)
- break;
- }
- }
- --(stack->slot);
- }
+ while (1) {
+ if (EMPTY_NODE(stack)) {
+ this = root;
+ if (this == NULL)
+ goto next_root;
+ while (this->left != NULL){
+ PUSH_NODE(stack, this);
+ this = this->left;
+ }
+ PUSH_NODE(stack, this);
+ stack->slot++;
+ }
+ this = TOP_NODE(stack);
+ while (stack->slot != slot) {
+ ASSERT(this);
+ lastobj = this;
+ if (slot > stack->slot) {
+ if (this->right != NULL) {
+ this = this->right;
+ while (this->left != NULL) {
+ PUSH_NODE(stack, this);
+ this = this->left;
+ }
+ PUSH_NODE(stack, this);
+ } else {
+ for (;;) {
+ tmp = POP_NODE(stack);
+ this = TOP_NODE(stack);
+ if (!this)
+ goto next_root;
+ if (this->left == tmp)
+ break;
+ }
+ }
+ ++(stack->slot);
+ } else {
+ if (this->left != NULL) {
+ this = this->left;
+ while (this->right != NULL) {
+ PUSH_NODE(stack, this);
+ this = this->right;
+ }
+ PUSH_NODE(stack, this);
+ } else {
+ for (;;) {
+ tmp = POP_NODE(stack);
+ this = TOP_NODE(stack);
+ if (!this)
+ goto next_root;
+ if (this->right == tmp)
+ break;
+ }
+ }
+ --(stack->slot);
+ }
+ }
+ /* Found slot */
+ ASSERT(this);
+ break;
+
+next_root:
+ if (!iter)
+ break; /* EOT */
+
+ ASSERT(slot > stack->slot);
+ if (lastobj) {
+ lastkey = GETKEY(tb, lastobj->dbterm.tpl);
+ lastobj = NULL;
+ }
+ pp = catree_find_next_root(iter, &lastkey);
+ if (!pp)
+ break; /* EOT */
+ root = *pp;
+ stack->pos = 0;
+ find_next(&tb->common, root, stack, lastkey);
}
-done:
- release_stack(tb,stack);
+
+ release_stack(tb,stack_container,stack);
return this;
}
@@ -2514,7 +2846,8 @@ done:
* Find next and previous in sort order
*/
-static TreeDbTerm *find_next(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
+static TreeDbTerm *find_next(DbTableCommon *tb, TreeDbTerm *root,
+ DbTreeStack* stack, Eterm key) {
TreeDbTerm *this;
TreeDbTerm *tmp;
Sint c;
@@ -2526,7 +2859,7 @@ static TreeDbTerm *find_next(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
}
}
if (EMPTY_NODE(stack)) { /* Have to rebuild the stack */
- if (( this = tb->root ) == NULL)
+ if (( this = root ) == NULL)
return NULL;
for (;;) {
PUSH_NODE(stack, this);
@@ -2539,7 +2872,7 @@ static TreeDbTerm *find_next(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
this = this->right;
} else if (c < 0) {
if (this->left == NULL) /* Done */
- return this;
+ goto found_next;
else
this = this->left;
} else
@@ -2554,8 +2887,6 @@ static TreeDbTerm *find_next(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
this = this->left;
PUSH_NODE(stack, this);
}
- if (stack->slot > 0)
- ++(stack->slot);
} else {
do {
tmp = POP_NODE(stack);
@@ -2564,13 +2895,17 @@ static TreeDbTerm *find_next(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
return NULL;
}
} while (this->right == tmp);
- if (stack->slot > 0)
- ++(stack->slot);
}
+
+found_next:
+ if (stack->slot > 0)
+ ++(stack->slot);
+
return this;
}
-static TreeDbTerm *find_prev(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
+static TreeDbTerm *find_prev(DbTableCommon *tb, TreeDbTerm *root,
+ DbTreeStack* stack, Eterm key) {
TreeDbTerm *this;
TreeDbTerm *tmp;
Sint c;
@@ -2582,7 +2917,7 @@ static TreeDbTerm *find_prev(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
}
}
if (EMPTY_NODE(stack)) { /* Have to rebuild the stack */
- if (( this = tb->root ) == NULL)
+ if (( this = root ) == NULL)
return NULL;
for (;;) {
PUSH_NODE(stack, this);
@@ -2595,7 +2930,7 @@ static TreeDbTerm *find_prev(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
this = this->left;
} else if (c > 0) {
if (this->right == NULL) /* Done */
- return this;
+ goto found_prev;
else
this = this->right;
} else
@@ -2610,8 +2945,6 @@ static TreeDbTerm *find_prev(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
this = this->right;
PUSH_NODE(stack, this);
}
- if (stack->slot > 0)
- --(stack->slot);
} else {
do {
tmp = POP_NODE(stack);
@@ -2620,74 +2953,112 @@ static TreeDbTerm *find_prev(DbTableTree *tb, DbTreeStack* stack, Eterm key) {
return NULL;
}
} while (this->left == tmp);
- if (stack->slot > 0)
- --(stack->slot);
}
+
+found_prev:
+ if (stack->slot > 0)
+ --(stack->slot);
+
return this;
}
-static TreeDbTerm *find_next_from_pb_key(DbTableTree *tb, DbTreeStack* stack,
- Eterm key)
+
+/* @brief Find object with smallest key of all larger than partially bound key.
+ * Can be used as a starting point for a reverse iteration with pb_key.
+ *
+ * @param pb_key The partially bound key. Example {42, '$1'}
+ * @param *rootpp Will return pointer to root pointer of tree with found object.
+ * @param iter Root iterator or NULL for plain DbTableTree.
+ * @param stack A stack to use. Will be cleared.
+ *
+ * @return found object or NULL if no such key exists.
+ */
+static TreeDbTerm *find_next_from_pb_key(DbTable *tbl, TreeDbTerm*** rootpp,
+ DbTreeStack* stack, Eterm pb_key,
+ CATreeRootIterator* iter)
{
+ TreeDbTerm* root;
TreeDbTerm *this;
- TreeDbTerm *tmp;
+ Uint candidate = 0;
Sint c;
+ if (iter) {
+ *rootpp = catree_find_next_from_pb_key_root(pb_key, iter);
+ ASSERT(*rootpp);
+ root = **rootpp;
+ }
+ else {
+ *rootpp = &tbl->tree.root;
+ root = tbl->tree.root;
+ }
+
/* spool the stack, we have to "re-search" */
stack->pos = stack->slot = 0;
- if (( this = tb->root ) == NULL)
+ if (( this = root ) == NULL)
return NULL;
for (;;) {
PUSH_NODE(stack, this);
- if (( c = cmp_partly_bound(key,GETKEY(tb, this->dbterm.tpl))) >= 0) {
+ if (( c = cmp_partly_bound(pb_key,GETKEY(tbl, this->dbterm.tpl))) >= 0) {
if (this->right == NULL) {
- do {
- tmp = POP_NODE(stack);
- if (( this = TOP_NODE(stack)) == NULL) {
- return NULL;
- }
- } while (this->right == tmp);
- return this;
- } else
- this = this->right;
+ stack->pos = candidate;
+ return TOP_NODE(stack);
+ }
+ this = this->right;
} else /*if (c < 0)*/ {
if (this->left == NULL) /* Done */
return this;
- else
- this = this->left;
+ candidate = stack->pos;
+ this = this->left;
}
}
}
-static TreeDbTerm *find_prev_from_pb_key(DbTableTree *tb, DbTreeStack* stack,
- Eterm key)
+/* @brief Find object with largest key of all smaller than partially bound key.
+ * Can be used as a starting point for a forward iteration with pb_key.
+ *
+ * @param pb_key The partially bound key. Example {42, '$1'}
+ * @param *rootpp Will return pointer to root pointer of found object.
+ * @param iter Root iterator or NULL for plain DbTableTree.
+ * @param stack A stack to use. Will be cleared.
+ *
+ * @return found object or NULL if no such key exists.
+ */
+static TreeDbTerm *find_prev_from_pb_key(DbTable *tbl, TreeDbTerm*** rootpp,
+ DbTreeStack* stack, Eterm pb_key,
+ CATreeRootIterator* iter)
{
+ TreeDbTerm* root;
TreeDbTerm *this;
- TreeDbTerm *tmp;
+ Uint candidate = 0;
Sint c;
+ if (iter) {
+ *rootpp = catree_find_prev_from_pb_key_root(pb_key, iter);
+ ASSERT(*rootpp);
+ root = **rootpp;
+ }
+ else {
+ *rootpp = &tbl->tree.root;
+ root = tbl->tree.root;
+ }
+
/* spool the stack, we have to "re-search" */
stack->pos = stack->slot = 0;
- if (( this = tb->root ) == NULL)
+ if (( this = root ) == NULL)
return NULL;
for (;;) {
PUSH_NODE(stack, this);
- if (( c = cmp_partly_bound(key,GETKEY(tb, this->dbterm.tpl))) <= 0) {
+ if (( c = cmp_partly_bound(pb_key,GETKEY(tbl, this->dbterm.tpl))) <= 0) {
if (this->left == NULL) {
- do {
- tmp = POP_NODE(stack);
- if (( this = TOP_NODE(stack)) == NULL) {
- return NULL;
- }
- } while (this->left == tmp);
- return this;
- } else
- this = this->left;
- } else /*if (c < 0)*/ {
+ stack->pos = candidate;
+ return TOP_NODE(stack);
+ }
+ this = this->left;
+ } else /*if (c > 0)*/ {
if (this->right == NULL) /* Done */
return this;
- else
- this = this->right;
+ candidate = stack->pos;
+ this = this->right;
}
}
}
@@ -2696,16 +3067,17 @@ static TreeDbTerm *find_prev_from_pb_key(DbTableTree *tb, DbTreeStack* stack,
/*
* Just lookup a node
*/
-static TreeDbTerm *find_node(DbTableTree *tb, Eterm key)
+static TreeDbTerm *find_node(DbTableCommon *tb, TreeDbTerm *root,
+ Eterm key, DbTableTree *stack_container)
{
TreeDbTerm *this;
Sint res;
- DbTreeStack* stack = get_static_stack(tb);
+ DbTreeStack* stack = get_static_stack(stack_container);
if(!stack || EMPTY_NODE(stack)
|| !cmp_key_eq(tb, key, (this=TOP_NODE(stack)))) {
- this = tb->root;
+ this = root;
while (this != NULL && (res = cmp_key(tb,key,this)) != 0) {
if (res < 0)
this = this->left;
@@ -2714,7 +3086,7 @@ static TreeDbTerm *find_node(DbTableTree *tb, Eterm key)
}
}
if (stack) {
- release_stack(tb,stack);
+ release_stack((DbTable*)tb,stack_container,stack);
}
return this;
}
@@ -2722,12 +3094,12 @@ static TreeDbTerm *find_node(DbTableTree *tb, Eterm key)
/*
* Lookup a node and return the address of the node pointer in the tree
*/
-static TreeDbTerm **find_node2(DbTableTree *tb, Eterm key)
+static TreeDbTerm **find_node2(DbTableCommon *tb, TreeDbTerm **root, Eterm key)
{
TreeDbTerm **this;
Sint res;
- this = &tb->root;
+ this = root;
while ((*this) != NULL && (res = cmp_key(tb, key, *this)) != 0) {
if (res < 0)
this = &((*this)->left);
@@ -2744,7 +3116,8 @@ static TreeDbTerm **find_node2(DbTableTree *tb, Eterm key)
* Tries to reuse the existing stack for performance.
*/
-static TreeDbTerm **find_ptr(DbTableTree *tb, DbTreeStack *stack, TreeDbTerm *this) {
+static TreeDbTerm **find_ptr(DbTableCommon *tb, TreeDbTerm **root,
+ DbTreeStack *stack, TreeDbTerm *this) {
Eterm key = GETKEY(tb, this->dbterm.tpl);
TreeDbTerm *tmp;
TreeDbTerm *parent;
@@ -2757,7 +3130,7 @@ static TreeDbTerm **find_ptr(DbTableTree *tb, DbTreeStack *stack, TreeDbTerm *th
}
}
if (EMPTY_NODE(stack)) { /* Have to rebuild the stack */
- if (( tmp = tb->root ) == NULL)
+ if (( tmp = *root ) == NULL)
return NULL;
for (;;) {
PUSH_NODE(stack, tmp);
@@ -2783,7 +3156,7 @@ static TreeDbTerm **find_ptr(DbTableTree *tb, DbTreeStack *stack, TreeDbTerm *th
parent = TOPN_NODE(stack, 1);
if (parent == NULL)
- return ((this != tb->root) ? NULL : &(tb->root));
+ return ((this != *root) ? NULL : root);
if (parent->left == this)
return &(parent->left);
if (parent->right == this)
@@ -2791,12 +3164,11 @@ static TreeDbTerm **find_ptr(DbTableTree *tb, DbTreeStack *stack, TreeDbTerm *th
return NULL;
}
-static int
-db_lookup_dbterm_tree(Process *p, DbTable *tbl, Eterm key, Eterm obj,
- DbUpdateHandle* handle)
+int db_lookup_dbterm_tree_common(Process *p, DbTable *tbl, TreeDbTerm **root,
+ Eterm key, Eterm obj, DbUpdateHandle* handle,
+ DbTableTree *stack_container)
{
- DbTableTree *tb = &tbl->tree;
- TreeDbTerm **pp = find_node2(tb, key);
+ TreeDbTerm **pp = find_node2(&tbl->common, root, key);
int flags = 0;
if (pp == NULL) {
@@ -2807,18 +3179,19 @@ db_lookup_dbterm_tree(Process *p, DbTable *tbl, Eterm key, Eterm obj,
int arity = arityval(*objp);
Eterm *htop, *hend;
- ASSERT(arity >= tb->common.keypos);
+ ASSERT(arity >= tbl->common.keypos);
htop = HAlloc(p, arity + 1);
hend = htop + arity + 1;
sys_memcpy(htop, objp, sizeof(Eterm) * (arity + 1));
- htop[tb->common.keypos] = key;
+ htop[tbl->common.keypos] = key;
obj = make_tuple(htop);
- if (db_put_tree(tbl, obj, 1) != DB_ERROR_NONE) {
+ if (db_put_tree_common(&tbl->common, root,
+ obj, 1, stack_container) != DB_ERROR_NONE) {
return 0;
}
- pp = find_node2(tb, key);
+ pp = find_node2(&tbl->common, root, key);
ASSERT(pp != NULL);
HRelease(p, hend, htop);
flags |= DB_NEW_OBJECT;
@@ -2833,21 +3206,28 @@ db_lookup_dbterm_tree(Process *p, DbTable *tbl, Eterm key, Eterm obj,
return 1;
}
-static void
-db_finalize_dbterm_tree(int cret, DbUpdateHandle *handle)
+static int
+db_lookup_dbterm_tree(Process *p, DbTable *tbl, Eterm key, Eterm obj,
+ DbUpdateHandle* handle)
{
- DbTable *tbl = handle->tb;
DbTableTree *tb = &tbl->tree;
+ return db_lookup_dbterm_tree_common(p, tbl, &tb->root, key, obj, handle, tb);
+}
+
+void db_finalize_dbterm_tree_common(int cret, DbUpdateHandle *handle,
+ DbTableTree *stack_container)
+{
+ DbTable *tbl = handle->tb;
TreeDbTerm *bp = (TreeDbTerm *) *handle->bp;
if (handle->flags & DB_NEW_OBJECT && cret != DB_ERROR_NONE) {
Eterm ret;
- db_erase_tree(tbl, GETKEY(tb, bp->dbterm.tpl), &ret);
+ db_erase_tree(tbl, GETKEY(&tbl->common, bp->dbterm.tpl), &ret);
} else if (handle->flags & DB_MUST_RESIZE) {
db_finalize_resize(handle, offsetof(TreeDbTerm,dbterm));
- reset_static_stack(tb);
+ reset_static_stack(stack_container);
- free_term(tb, bp);
+ free_term(tbl, bp);
}
#ifdef DEBUG
handle->dbterm = 0;
@@ -2855,156 +3235,207 @@ db_finalize_dbterm_tree(int cret, DbUpdateHandle *handle)
return;
}
+static void
+db_finalize_dbterm_tree(int cret, DbUpdateHandle *handle)
+{
+ DbTable *tbl = handle->tb;
+ DbTableTree *tb = &tbl->tree;
+ db_finalize_dbterm_tree_common(cret, handle, tb);
+}
+
/*
* Traverse the tree with a callback function, used by db_match_xxx
*/
-static void traverse_backwards(DbTableTree *tb,
+static void traverse_backwards(DbTableCommon *tb,
DbTreeStack* stack,
Eterm lastkey,
- int (*doit)(DbTableTree *,
- TreeDbTerm *,
- void *,
- int),
- void *context)
+ traverse_doit_funcT* doit,
+ struct select_common *context,
+ CATreeRootIterator* iter)
{
TreeDbTerm *this, *next;
+ TreeDbTerm** root = context->root;
if (lastkey == THE_NON_VALUE) {
- stack->pos = stack->slot = 0;
- if (( this = tb->root ) == NULL) {
- return;
- }
- while (this != NULL) {
- PUSH_NODE(stack, this);
- this = this->right;
- }
- this = TOP_NODE(stack);
- next = find_prev(tb, stack, GETKEY(tb, this->dbterm.tpl));
- if (!((*doit)(tb, this, context, 0)))
- return;
+ if (iter) {
+ while (*root == NULL) {
+ root = catree_find_prev_root(iter, NULL);
+ if (!root)
+ return;
+ }
+ context->root = root;
+ }
+ stack->pos = stack->slot = 0;
+ next = *root;
+ while (next != NULL) {
+ PUSH_NODE(stack, next);
+ next = next->right;
+ }
+ next = TOP_NODE(stack);
} else {
- next = find_prev(tb, stack, lastkey);
+ next = find_prev(tb, *root, stack, lastkey);
}
- while ((this = next) != NULL) {
- next = find_prev(tb, stack, GETKEY(tb, this->dbterm.tpl));
- if (!((*doit)(tb, this, context, 0)))
- return;
+ while (1) {
+ while (next) {
+ this = next;
+ lastkey = GETKEY(tb, this->dbterm.tpl);
+ next = find_prev(tb, *root, stack, lastkey);
+ if (!((*doit)(tb, this, context, 0)))
+ return;
+ }
+
+ if (!iter)
+ return;
+ ASSERT(is_value(lastkey));
+ root = catree_find_prev_root(iter, &lastkey);
+ if (!root)
+ return;
+ context->root = root;
+ stack->pos = stack->slot = 0;
+ next = find_prev(tb, *root, stack, lastkey);
}
}
/*
* Traverse the tree with a callback function, used by db_match_xxx
*/
-static void traverse_forward(DbTableTree *tb,
+static void traverse_forward(DbTableCommon *tb,
DbTreeStack* stack,
Eterm lastkey,
- int (*doit)(DbTableTree *,
- TreeDbTerm *,
- void *,
- int),
- void *context)
+ traverse_doit_funcT* doit,
+ struct select_common *context,
+ CATreeRootIterator* iter)
{
TreeDbTerm *this, *next;
+ TreeDbTerm **root = context->root;
if (lastkey == THE_NON_VALUE) {
- stack->pos = stack->slot = 0;
- if (( this = tb->root ) == NULL) {
- return;
- }
- while (this != NULL) {
- PUSH_NODE(stack, this);
- this = this->left;
- }
- this = TOP_NODE(stack);
- next = find_next(tb, stack, GETKEY(tb, this->dbterm.tpl));
- if (!((*doit)(tb, this, context, 1)))
- return;
+ if (iter) {
+ while (*root == NULL) {
+ root = catree_find_next_root(iter, NULL);
+ if (!root)
+ return;
+ }
+ context->root = root;
+ }
+ stack->pos = stack->slot = 0;
+ next = *root;
+ while (next != NULL) {
+ PUSH_NODE(stack, next);
+ next = next->left;
+ }
+ next = TOP_NODE(stack);
} else {
- next = find_next(tb, stack, lastkey);
+ next = find_next(tb, *root, stack, lastkey);
}
- while ((this = next) != NULL) {
- next = find_next(tb, stack, GETKEY(tb, this->dbterm.tpl));
- if (!((*doit)(tb, this, context, 1)))
- return;
+ while (1) {
+ while (next) {
+ this = next;
+ lastkey = GETKEY(tb, this->dbterm.tpl);
+ next = find_next(tb, *root, stack, lastkey);
+ if (!((*doit)(tb, this, context, 1)))
+ return;
+ }
+
+ if (!iter)
+ return;
+ ASSERT(is_value(lastkey));
+ root = catree_find_next_root(iter, &lastkey);
+ if (!root)
+ return;
+ context->root = root;
+ stack->pos = stack->slot = 0;
+ next = find_next(tb, *root, stack, lastkey);
}
}
/*
* Traverse the tree with an update callback function, used by db_select_replace
*/
-static void traverse_update_backwards(DbTableTree *tb,
+static void traverse_update_backwards(DbTableCommon *tb,
DbTreeStack* stack,
Eterm lastkey,
- int (*doit)(DbTableTree*,
+ int (*doit)(DbTableCommon*,
TreeDbTerm**,
- void*,
+ struct select_common*,
int),
- void* context)
+ struct select_common* context,
+ CATreeRootIterator* iter)
{
int res;
TreeDbTerm *this, *next, **this_ptr;
+ TreeDbTerm** root = context->root;
if (lastkey == THE_NON_VALUE) {
- stack->pos = stack->slot = 0;
- if (( this = tb->root ) == NULL) {
- return;
+ if (iter) {
+ while (*root == NULL) {
+ root = catree_find_prev_root(iter, NULL);
+ if (!root)
+ return;
+ context->root = root;
+ }
}
- while (this != NULL) {
- PUSH_NODE(stack, this);
- this = this->right;
+ stack->pos = stack->slot = 0;
+ next = *root;
+ while (next) {
+ PUSH_NODE(stack, next);
+ next = next->right;
}
- this = TOP_NODE(stack);
- this_ptr = find_ptr(tb, stack, this);
- ASSERT(this_ptr != NULL);
- res = (*doit)(tb, this_ptr, context, 0);
- REPLACE_TOP_NODE(stack, *this_ptr);
- next = find_prev(tb, stack, GETKEY(tb, (*this_ptr)->dbterm.tpl));
- if (!res)
- return;
- } else {
- next = find_prev(tb, stack, lastkey);
+ next = TOP_NODE(stack);
}
+ else
+ next = find_prev(tb, *root, stack, lastkey);
+
+
+ while (1) {
+ while (next) {
+ this = next;
+ this_ptr = find_ptr(tb, root, stack, this);
+ ASSERT(this_ptr != NULL);
+ res = (*doit)(tb, this_ptr, context, 0);
+ this = *this_ptr;
+ REPLACE_TOP_NODE(stack, this);
+ if (!res)
+ return;
+ lastkey = GETKEY(tb, this->dbterm.tpl);
+ next = find_prev(tb, *root, stack, lastkey);
+ }
- while ((this = next) != NULL) {
- this_ptr = find_ptr(tb, stack, this);
- ASSERT(this_ptr != NULL);
- res = (*doit)(tb, this_ptr, context, 0);
- REPLACE_TOP_NODE(stack, *this_ptr);
- next = find_prev(tb, stack, GETKEY(tb, (*this_ptr)->dbterm.tpl));
- if (!res)
+ if (!iter)
+ return;
+ ASSERT(is_value(lastkey));
+ root = catree_find_prev_root(iter, &lastkey);
+ if (!root)
return;
+ context->root = root;
+ stack->pos = stack->slot = 0;
+ next = find_prev(tb, *root, stack, lastkey);
}
}
-/*
- * Returns 0 if not given 1 if given and -1 on no possible match
- * if key is given; *ret is set to point to the object concerned.
- */
-static int key_given(DbTableTree *tb, Eterm pattern, TreeDbTerm ***ret,
- Eterm *partly_bound)
+static enum ms_key_boundness key_boundness(DbTableCommon *tb,
+ Eterm pattern, Eterm *keyp)
{
- TreeDbTerm **this;
Eterm key;
- ASSERT(ret != NULL);
if (pattern == am_Underscore || db_is_variable(pattern) != -1)
- return 0;
- key = db_getkey(tb->common.keypos, pattern);
+ return MS_KEY_UNBOUND;
+ key = db_getkey(tb->keypos, pattern);
if (is_non_value(key))
- return -1; /* can't possibly match anything */
+ return MS_KEY_IMPOSSIBLE; /* can't possibly match anything */
if (!db_has_variable(key)) { /* Bound key */
- if (( this = find_node2(tb, key) ) == NULL) {
- return -1;
- }
- *ret = this;
- return 1;
- } else if (partly_bound != NULL && key != am_Underscore &&
- db_is_variable(key) < 0 && !db_has_map(key))
- *partly_bound = key;
+ *keyp = key;
+ return MS_KEY_BOUND;
+ } else if (key != am_Underscore &&
+ db_is_variable(key) < 0 && !db_has_map(key)) {
+
+ *keyp = key;
+ return MS_KEY_PARTIALLY_BOUND;
+ }
- return 0;
+ return MS_KEY_UNBOUND;
}
@@ -3072,7 +3503,8 @@ static Sint do_cmp_partly_bound(Eterm a, Eterm b, int *done)
}
}
-static Sint cmp_partly_bound(Eterm partly_bound_key, Eterm bound_key) {
+Sint cmp_partly_bound(Eterm partly_bound_key, Eterm bound_key)
+{
int done = 0;
Sint ret = do_cmp_partly_bound(partly_bound_key, bound_key, &done);
#ifdef HARDDEBUG
@@ -3118,7 +3550,7 @@ static int partly_bound_can_match_lesser(Eterm partly_bound_1,
if (ret)
erts_fprintf(stderr," can match lesser than ");
else
- erts_fprintf(stderr," can not match lesser than ");
+ erts_fprintf(stderr," cannot match lesser than ");
erts_fprintf(stderr,"%T\n",partly_bound_2);
#endif
return ret;
@@ -3136,7 +3568,7 @@ static int partly_bound_can_match_greater(Eterm partly_bound_1,
if (ret)
erts_fprintf(stderr," can match greater than ");
else
- erts_fprintf(stderr," can not match greater than ");
+ erts_fprintf(stderr," cannot match greater than ");
erts_fprintf(stderr,"%T\n",partly_bound_2);
#endif
return ret;
@@ -3288,7 +3720,8 @@ static int do_partly_bound_can_match_greater(Eterm a, Eterm b,
* Callback functions for the different match functions
*/
-static int doit_select(DbTableTree *tb, TreeDbTerm *this, void *ptr,
+static int doit_select(DbTableCommon *tb, TreeDbTerm *this,
+ struct select_common* ptr,
int forward)
{
struct select_context *sc = (struct select_context *) ptr;
@@ -3306,7 +3739,7 @@ static int doit_select(DbTableTree *tb, TreeDbTerm *this, void *ptr,
GETKEY_WITH_POS(sc->keypos, this->dbterm.tpl)) > 0))) {
return 0;
}
- ret = db_match_dbterm(&tb->common, sc->p, sc->mp, &this->dbterm, &hp, 2);
+ ret = db_match_dbterm(tb, sc->p,sc->mp, &this->dbterm, &hp, 2);
if (is_value(ret)) {
sc->accum = CONS(hp, ret, sc->accum);
}
@@ -3323,7 +3756,8 @@ static int doit_select(DbTableTree *tb, TreeDbTerm *this, void *ptr,
return 1;
}
-static int doit_select_count(DbTableTree *tb, TreeDbTerm *this, void *ptr,
+static int doit_select_count(DbTableCommon *tb, TreeDbTerm *this,
+ struct select_common* ptr,
int forward)
{
struct select_count_context *sc = (struct select_count_context *) ptr;
@@ -3337,7 +3771,7 @@ static int doit_select_count(DbTableTree *tb, TreeDbTerm *this, void *ptr,
GETKEY_WITH_POS(sc->keypos, this->dbterm.tpl)) > 0)) {
return 0;
}
- ret = db_match_dbterm(&tb->common, sc->p, sc->mp, &this->dbterm, NULL, 0);
+ ret = db_match_dbterm(tb, sc->p, sc->mp, &this->dbterm, NULL, 0);
if (ret == am_true) {
++(sc->got);
}
@@ -3347,7 +3781,8 @@ static int doit_select_count(DbTableTree *tb, TreeDbTerm *this, void *ptr,
return 1;
}
-static int doit_select_chunk(DbTableTree *tb, TreeDbTerm *this, void *ptr,
+static int doit_select_chunk(DbTableCommon *tb, TreeDbTerm *this,
+ struct select_common* ptr,
int forward)
{
struct select_context *sc = (struct select_context *) ptr;
@@ -3366,7 +3801,7 @@ static int doit_select_chunk(DbTableTree *tb, TreeDbTerm *this, void *ptr,
return 0;
}
- ret = db_match_dbterm(&tb->common, sc->p, sc->mp, &this->dbterm, &hp, 2);
+ ret = db_match_dbterm(tb, sc->p, sc->mp, &this->dbterm, &hp, 2);
if (is_value(ret)) {
++(sc->got);
sc->accum = CONS(hp, ret, sc->accum);
@@ -3385,7 +3820,8 @@ static int doit_select_chunk(DbTableTree *tb, TreeDbTerm *this, void *ptr,
}
-static int doit_select_delete(DbTableTree *tb, TreeDbTerm *this, void *ptr,
+static int doit_select_delete(DbTableCommon *tb, TreeDbTerm *this,
+ struct select_common *ptr,
int forward)
{
struct select_delete_context *sc = (struct select_delete_context *) ptr;
@@ -3393,7 +3829,7 @@ static int doit_select_delete(DbTableTree *tb, TreeDbTerm *this, void *ptr,
Eterm key;
if (sc->erase_lastterm)
- free_term(tb, sc->lastterm);
+ free_term((DbTable*)tb, sc->lastterm);
sc->erase_lastterm = 0;
sc->lastterm = this;
@@ -3401,10 +3837,10 @@ static int doit_select_delete(DbTableTree *tb, TreeDbTerm *this, void *ptr,
cmp_partly_bound(sc->end_condition,
GETKEY_WITH_POS(sc->keypos, this->dbterm.tpl)) > 0)
return 0;
- ret = db_match_dbterm(&tb->common, sc->p, sc->mp, &this->dbterm, NULL, 0);
+ ret = db_match_dbterm(tb, sc->p, sc->mp, &this->dbterm, NULL, 0);
if (ret == am_true) {
key = GETKEY(sc->tb, this->dbterm.tpl);
- linkout_tree(sc->tb, key);
+ linkout_tree(sc->tb, sc->common.root, key, sc->stack);
sc->erase_lastterm = 1;
++sc->accum;
}
@@ -3414,7 +3850,8 @@ static int doit_select_delete(DbTableTree *tb, TreeDbTerm *this, void *ptr,
return 1;
}
-static int doit_select_replace(DbTableTree *tb, TreeDbTerm **this, void *ptr,
+static int doit_select_replace(DbTableCommon *tb, TreeDbTerm **this,
+ struct select_common* ptr,
int forward)
{
struct select_replace_context *sc = (struct select_replace_context *) ptr;
@@ -3428,13 +3865,13 @@ static int doit_select_replace(DbTableTree *tb, TreeDbTerm **this, void *ptr,
GETKEY_WITH_POS(sc->keypos, (*this)->dbterm.tpl)) > 0)) {
return 0;
}
- ret = db_match_dbterm(&tb->common, sc->p, sc->mp, &(*this)->dbterm, NULL, 0);
+ ret = db_match_dbterm(tb, sc->p, sc->mp, &(*this)->dbterm, NULL, 0);
if (is_value(ret)) {
TreeDbTerm* new;
TreeDbTerm* old = *this;
#ifdef DEBUG
- Eterm key = db_getkey(tb->common.keypos, ret);
+ Eterm key = db_getkey(tb->keypos, ret);
ASSERT(is_value(key));
ASSERT(cmp_key(tb, key, old) == 0);
#endif
@@ -3444,7 +3881,7 @@ static int doit_select_replace(DbTableTree *tb, TreeDbTerm **this, void *ptr,
new->balance = old->balance;
sc->lastobj = new->dbterm.tpl;
*this = new;
- free_term(tb, old);
+ free_term((DbTable*)tb, old);
++(sc->replaced);
}
if (--(sc->max) <= 0) {
@@ -3454,7 +3891,7 @@ static int doit_select_replace(DbTableTree *tb, TreeDbTerm **this, void *ptr,
}
#ifdef TREE_DEBUG
-static void do_dump_tree2(DbTableTree* tb, int to, void *to_arg, int show,
+static void do_dump_tree2(DbTableCommon* tb, int to, void *to_arg, int show,
TreeDbTerm *t, int offset)
{
if (t == NULL)
@@ -3463,7 +3900,7 @@ static void do_dump_tree2(DbTableTree* tb, int to, void *to_arg, int show,
if (show) {
const char* prefix;
Eterm term;
- if (tb->common.compress) {
+ if (tb->compress) {
prefix = "key=";
term = GETKEY(tb, t->dbterm.tpl);
}
@@ -3518,7 +3955,7 @@ static void check_slot_pos(DbTableTree *tb)
"element position %d is really 0x%08X, when stack says "
"it's 0x%08X\n", tb->stack.slot, t,
tb->stack.array[tb->stack.pos - 1]);
- do_dump_tree2(tb, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
+ do_dump_tree2(&tb->common, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
}
}
@@ -3533,14 +3970,14 @@ static void check_saved_stack(DbTableTree *tb)
if (t != stack->array[0]) {
erts_fprintf(stderr,"tb->stack[0] is 0x%08X, should be 0x%08X\n",
stack->array[0], t);
- do_dump_tree2(tb, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
+ do_dump_tree2(&tb->common, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
return;
}
while (n < stack->pos) {
if (t == NULL) {
erts_fprintf(stderr, "NULL pointer in tree when stack not empty,"
" stack depth is %d\n", n);
- do_dump_tree2(tb, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
+ do_dump_tree2(&tb->common, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
return;
}
n++;
@@ -3554,7 +3991,7 @@ static void check_saved_stack(DbTableTree *tb)
"represent child pointer in tree!"
"(left == 0x%08X, right == 0x%08X\n",
n, tb->stack[n], t->left, t->right);
- do_dump_tree2(tb, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
+ do_dump_tree2(&tb->common, ERTS_PRINT_STDERR, NULL, 1, tb->root, 0);
return;
}
}
@@ -3573,7 +4010,7 @@ static int check_table_tree(DbTableTree* tb, TreeDbTerm *t)
erts_fprintf(stderr,"balance = %d, left = 0x%08X, right = 0x%08X\n",
t->balance, t->left, t->right);
erts_fprintf(stderr,"\nDump:\n---------------------------------\n");
- do_dump_tree2(tb, ERTS_PRINT_STDERR, NULL, 1, t, 0);
+ do_dump_tree2(&tb->common, ERTS_PRINT_STDERR, NULL, 1, t, 0);
erts_fprintf(stderr,"\n---------------------------------\n");
}
return ((rh > lh) ? rh : lh) + 1;
diff --git a/erts/emulator/beam/erl_db_tree_util.h b/erts/emulator/beam/erl_db_tree_util.h
new file mode 100644
index 0000000000..02df74678d
--- /dev/null
+++ b/erts/emulator/beam/erl_db_tree_util.h
@@ -0,0 +1,158 @@
+/*
+ * %CopyrightBegin%
+ *
+ * Copyright Ericsson AB 1998-2016. All Rights Reserved.
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * %CopyrightEnd%
+ */
+
+#ifndef _DB_TREE_UTIL_H
+#define _DB_TREE_UTIL_H
+
+/*
+** Internal functions and macros used by both the CA tree and the AVL tree
+*/
+
+/*
+** A stack of this size is enough for an AVL tree with more than
+** 0xFFFFFFFF elements. May be subject to change if
+** the datatype of the element counter is changed to a 64 bit integer.
+** The Maximal height of an AVL tree is calculated as:
+** h(n) <= 1.4404 * log(n + 2) - 0.328
+** Where n denotes the number of nodes, h(n) the height of the tree
+** with n nodes and log is the binary logarithm.
+*/
+
+#define STACK_NEED 50
+
+#define PUSH_NODE(Dtt, Tdt) \
+ ((Dtt)->array[(Dtt)->pos++] = Tdt)
+
+#define POP_NODE(Dtt) \
+ (((Dtt)->pos) ? \
+ (Dtt)->array[--((Dtt)->pos)] : NULL)
+
+#define TOP_NODE(Dtt) \
+ ((Dtt->pos) ? \
+ (Dtt)->array[(Dtt)->pos - 1] : NULL)
+
+#define EMPTY_NODE(Dtt) (TOP_NODE(Dtt) == NULL)
+
+static ERTS_INLINE void free_term(DbTable *tb, TreeDbTerm* p)
+{
+ db_free_term(tb, p, offsetof(TreeDbTerm, dbterm));
+}
+
+/*
+** Some macros for "direction stacks"
+*/
+#define DIR_LEFT 0
+#define DIR_RIGHT 1
+#define DIR_END 2
+
+static ERTS_INLINE Sint cmp_key(DbTableCommon* tb, Eterm key, TreeDbTerm* obj) {
+ return CMP(key, GETKEY(tb,obj->dbterm.tpl));
+}
+
+int tree_balance_left(TreeDbTerm **this);
+int tree_balance_right(TreeDbTerm **this);
+
+int db_first_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root,
+ Eterm *ret, DbTableTree *stack_container);
+int db_next_tree_common(Process *p, DbTable *tbl,
+ TreeDbTerm *root, Eterm key,
+ Eterm *ret, DbTreeStack* stack);
+int db_last_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root,
+ Eterm *ret, DbTableTree *stack_container);
+int db_prev_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root, Eterm key,
+ Eterm *ret, DbTreeStack* stack);
+int db_put_tree_common(DbTableCommon *tb, TreeDbTerm **root, Eterm obj,
+ int key_clash_fail, DbTableTree *stack_container);
+int db_get_tree_common(Process *p, DbTableCommon *tb, TreeDbTerm *root, Eterm key,
+ Eterm *ret, DbTableTree *stack_container);
+int db_get_element_tree_common(Process *p, DbTableCommon *tb, TreeDbTerm *root, Eterm key,
+ int ndex, Eterm *ret, DbTableTree *stack_container);
+int db_member_tree_common(DbTableCommon *tb, TreeDbTerm *root, Eterm key, Eterm *ret,
+ DbTableTree *stack_container);
+int db_erase_tree_common(DbTable *tbl, TreeDbTerm **root, Eterm key, Eterm *ret,
+ DbTreeStack *stack /* NULL if no static stack */);
+int db_erase_object_tree_common(DbTable *tbl, TreeDbTerm **root, Eterm object,
+ Eterm *ret, DbTableTree *stack_container);
+int db_slot_tree_common(Process *p, DbTable *tbl, TreeDbTerm *root,
+ Eterm slot_term, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator*);
+int db_select_chunk_tree_common(Process *p, DbTable *tb,
+ Eterm tid, Eterm pattern, Sint chunk_size,
+ int reverse, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator*);
+int db_select_tree_common(Process *p, DbTable *tb,
+ Eterm tid, Eterm pattern, int reverse, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator*);
+int db_select_delete_tree_common(Process *p, DbTable *tbl,
+ Eterm tid, Eterm pattern,
+ Eterm *ret,
+ DbTreeStack* stack,
+ CATreeRootIterator* iter);
+int db_select_continue_tree_common(Process *p,
+ DbTableCommon *tb,
+ Eterm continuation,
+ Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter);
+int db_select_delete_continue_tree_common(Process *p,
+ DbTable *tbl,
+ Eterm continuation,
+ Eterm *ret,
+ DbTreeStack* stack,
+ CATreeRootIterator* iter);
+int db_select_count_tree_common(Process *p, DbTable *tb,
+ Eterm tid, Eterm pattern, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter);
+int db_select_count_continue_tree_common(Process *p,
+ DbTable *tb,
+ Eterm continuation,
+ Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter);
+int db_select_replace_tree_common(Process *p, DbTable*,
+ Eterm tid, Eterm pattern, Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter);
+int db_select_replace_continue_tree_common(Process *p,
+ DbTable*,
+ Eterm continuation,
+ Eterm *ret,
+ DbTableTree *stack_container,
+ CATreeRootIterator* iter);
+int db_take_tree_common(Process *p, DbTable *tbl, TreeDbTerm **root,
+ Eterm key, Eterm *ret,
+ DbTreeStack *stack /* NULL if no static stack */);
+void db_print_tree_common(fmtfn_t to, void *to_arg,
+ int show, TreeDbTerm *root, DbTable *tbl);
+void db_foreach_offheap_tree_common(TreeDbTerm *root,
+ void (*func)(ErlOffHeap *, void *),
+ void * arg);
+int db_lookup_dbterm_tree_common(Process *p, DbTable *tbl, TreeDbTerm **root,
+ Eterm key, Eterm obj, DbUpdateHandle* handle,
+ DbTableTree *stack_container);
+void db_finalize_dbterm_tree_common(int cret, DbUpdateHandle *handle,
+ DbTableTree *stack_container);
+Sint cmp_partly_bound(Eterm partly_bound_key, Eterm bound_key);
+
+#endif /* _DB_TREE_UTIL_H */
diff --git a/erts/emulator/beam/erl_db_util.c b/erts/emulator/beam/erl_db_util.c
index e2c029c244..ec7442aeeb 100644
--- a/erts/emulator/beam/erl_db_util.c
+++ b/erts/emulator/beam/erl_db_util.c
@@ -497,6 +497,7 @@ static erts_atomic32_t trace_control_word;
/* This needs to be here, before the bif table... */
static Eterm db_set_trace_control_word_fake_1(BIF_ALIST_1);
+static Eterm db_length_1(BIF_ALIST_1);
/*
** The table of callable bif's, i e guard bif's and
@@ -603,7 +604,7 @@ static DMCGuardBif guard_tab[] =
},
{
am_length,
- &length_1,
+ &db_length_1,
1,
DBIF_ALL
},
@@ -971,6 +972,26 @@ BIF_RETTYPE db_set_trace_control_word_1(BIF_ALIST_1)
BIF_RET(db_set_trace_control_word(BIF_P, BIF_ARG_1));
}
+/*
+ * Implementation of length/1 for match specs (non-trapping).
+ */
+static Eterm db_length_1(BIF_ALIST_1)
+{
+ Eterm list;
+ Uint i;
+
+ list = BIF_ARG_1;
+ i = 0;
+ while (is_list(list)) {
+ i++;
+ list = CDR(list_val(list));
+ }
+ if (is_not_nil(list)) {
+ BIF_ERROR(BIF_P, BADARG);
+ }
+ BIF_RET(make_small(i));
+}
+
static Eterm db_set_trace_control_word_fake_1(BIF_ALIST_1)
{
Process *p = BIF_P;
@@ -3118,9 +3139,7 @@ void* db_store_term_comp(DbTableCommon *tb, DbTerm* old, Uint offset, Eterm obj)
Uint new_sz = offset + db_size_dbterm_comp(tb, obj);
byte* basep;
DbTerm* newp;
-#ifdef DEBUG
byte* top;
-#endif
ASSERT(tb->compress);
if (old != 0) {
@@ -3142,11 +3161,8 @@ void* db_store_term_comp(DbTableCommon *tb, DbTerm* old, Uint offset, Eterm obj)
}
newp->size = size_object(obj);
-#ifdef DEBUG
- top =
-#endif
- copy_to_comp(tb, obj, newp, new_sz);
- ASSERT(top <= basep + new_sz);
+ top = copy_to_comp(tb, obj, newp, new_sz);
+ ASSERT(top <= basep + new_sz); (void)top;
/* ToDo: Maybe realloc if ((basep+new_sz) - top) > WASTED_SPACE_LIMIT */
diff --git a/erts/emulator/beam/erl_db_util.h b/erts/emulator/beam/erl_db_util.h
index 6ec3b4f98f..e1af9210ea 100644
--- a/erts/emulator/beam/erl_db_util.h
+++ b/erts/emulator/beam/erl_db_util.h
@@ -89,7 +89,16 @@ typedef struct {
void** bp; /* {Hash|Tree}DbTerm** */
Uint new_size;
int flags;
- void* lck;
+ union {
+ struct {
+ erts_rwmtx_t* lck;
+ } hash;
+ struct {
+ struct DbTableCATreeNode* base_node;
+ struct DbTableCATreeNode* parent;
+ int current_level;
+ } catree;
+ } u;
} DbUpdateHandle;
@@ -274,23 +283,28 @@ typedef struct db_table_common {
} DbTableCommon;
/* These are status bit patterns */
-#define DB_PRIVATE (1 << 0)
-#define DB_PROTECTED (1 << 1)
-#define DB_PUBLIC (1 << 2)
-#define DB_DELETE (1 << 3) /* table is being deleted */
-#define DB_SET (1 << 4)
-#define DB_BAG (1 << 5)
-#define DB_DUPLICATE_BAG (1 << 6)
-#define DB_ORDERED_SET (1 << 7)
-#define DB_FINE_LOCKED (1 << 8) /* write_concurrency */
-#define DB_FREQ_READ (1 << 9) /* read_concurrency */
-#define DB_NAMED_TABLE (1 << 10)
-#define DB_BUSY (1 << 11)
+#define DB_PRIVATE (1 << 0)
+#define DB_PROTECTED (1 << 1)
+#define DB_PUBLIC (1 << 2)
+#define DB_DELETE (1 << 3) /* table is being deleted */
+#define DB_SET (1 << 4)
+#define DB_BAG (1 << 5)
+#define DB_DUPLICATE_BAG (1 << 6)
+#define DB_ORDERED_SET (1 << 7)
+#define DB_CA_ORDERED_SET (1 << 8)
+#define DB_FINE_LOCKED (1 << 9) /* write_concurrency */
+#define DB_FREQ_READ (1 << 10) /* read_concurrency */
+#define DB_NAMED_TABLE (1 << 11)
+#define DB_BUSY (1 << 12)
+
+#define DB_CATREE_FORCE_SPLIT (1 << 31) /* erts_debug */
#define IS_HASH_TABLE(Status) (!!((Status) & \
(DB_BAG | DB_SET | DB_DUPLICATE_BAG)))
#define IS_TREE_TABLE(Status) (!!((Status) & \
DB_ORDERED_SET))
+#define IS_CATREE_TABLE(Status) (!!((Status) & \
+ DB_CA_ORDERED_SET))
#define NFIXED(T) (erts_refc_read(&(T)->common.fix_count,0))
#define IS_FIXED(T) (NFIXED(T) != 0)
diff --git a/erts/emulator/beam/erl_dirty_bif.tab b/erts/emulator/beam/erl_dirty_bif.tab
index 20299ff604..609869ad9f 100644
--- a/erts/emulator/beam/erl_dirty_bif.tab
+++ b/erts/emulator/beam/erl_dirty_bif.tab
@@ -57,8 +57,6 @@ dirty-cpu erts_debug:lcnt_clear/0
# and debug purposes only. We really do *not* want to execute these
# on dirty schedulers on a real system.
-dirty-cpu-test erlang:'++'/2
-dirty-cpu-test erlang:append/2
dirty-cpu-test erlang:iolist_size/1
dirty-cpu-test erlang:make_tuple/2
dirty-cpu-test erlang:make_tuple/3
diff --git a/erts/emulator/beam/erl_drv_nif.h b/erts/emulator/beam/erl_drv_nif.h
index 31b4817fb1..a5ecbfff06 100644
--- a/erts/emulator/beam/erl_drv_nif.h
+++ b/erts/emulator/beam/erl_drv_nif.h
@@ -53,7 +53,9 @@ typedef enum {
enum ErlNifSelectFlags {
ERL_NIF_SELECT_READ = (1 << 0),
ERL_NIF_SELECT_WRITE = (1 << 1),
- ERL_NIF_SELECT_STOP = (1 << 2)
+ ERL_NIF_SELECT_STOP = (1 << 2),
+ ERL_NIF_SELECT_CANCEL = (1 << 3),
+ ERL_NIF_SELECT_CUSTOM_MSG= (1 << 4)
};
/*
diff --git a/erts/emulator/beam/erl_goodfit_alloc.c b/erts/emulator/beam/erl_goodfit_alloc.c
index 01d4aa54ff..68b9579433 100644
--- a/erts/emulator/beam/erl_goodfit_alloc.c
+++ b/erts/emulator/beam/erl_goodfit_alloc.c
@@ -226,6 +226,8 @@ erts_gfalc_start(GFAllctr_t *gfallctr,
allctr->add_mbc = NULL;
allctr->remove_mbc = NULL;
allctr->largest_fblk_in_mbc = NULL;
+ allctr->first_fblk_in_mbc = NULL;
+ allctr->next_fblk_in_mbc = NULL;
allctr->init_atoms = init_atoms;
#ifdef ERTS_ALLOC_UTIL_HARD_DEBUG
diff --git a/erts/emulator/beam/erl_init.c b/erts/emulator/beam/erl_init.c
index 41bec17dfa..c0a86ea738 100644
--- a/erts/emulator/beam/erl_init.c
+++ b/erts/emulator/beam/erl_init.c
@@ -128,7 +128,7 @@ const Eterm etp_hole_marker = 0;
static int modified_sched_thread_suggested_stack_size = 0;
-Eterm erts_init_process_id;
+Eterm erts_init_process_id = ERTS_INVALID_PID;
/*
* Note about VxWorks: All variables must be initialized by executable code,
@@ -163,7 +163,6 @@ int erts_initialized = 0;
* Configurable parameters.
*/
-Uint display_items; /* no of items to display in traces etc */
int H_MIN_SIZE; /* The minimum heap grain */
int BIN_VH_MIN_SIZE; /* The minimum binary virtual*/
int H_MAX_SIZE; /* The maximum heap size */
@@ -354,6 +353,7 @@ erl_init(int ncpu,
erts_init_bif();
erts_init_bif_chksum();
erts_init_bif_binary();
+ erts_init_bif_guard();
erts_init_bif_persistent_term();
erts_init_bif_re();
erts_init_unicode(); /* after RE to get access to PCRE unicode */
@@ -376,6 +376,7 @@ erl_init(int ncpu,
}
static Eterm
+
erl_spawn_system_process(Process* parent, Eterm mod, Eterm func, Eterm args,
ErlSpawnOpts *so)
{
@@ -397,16 +398,15 @@ erl_spawn_system_process(Process* parent, Eterm mod, Eterm func, Eterm args,
}
static Eterm
-erl_first_process_otp(char* modname, void* code, unsigned size, int argc, char** argv)
+erl_first_process_otp(char* mod_name, int argc, char** argv)
{
int i;
- Eterm start_mod;
Eterm args;
Eterm res;
Eterm* hp;
Process parent;
ErlSpawnOpts so;
- Eterm env;
+ Eterm boot_mod;
/*
* We need a dummy parent process to be able to call erl_create_process().
@@ -422,16 +422,14 @@ erl_first_process_otp(char* modname, void* code, unsigned size, int argc, char**
args = CONS(hp, new_binary(&parent, (byte*)argv[i], len), args);
hp += 2;
}
- env = new_binary(&parent, code, size);
+ boot_mod = erts_atom_put((byte *) mod_name, sys_strlen(mod_name),
+ ERTS_ATOM_ENC_LATIN1, 1);
args = CONS(hp, args, NIL);
hp += 2;
- args = CONS(hp, env, args);
-
- start_mod = erts_atom_put((byte *) modname, sys_strlen(modname),
- ERTS_ATOM_ENC_LATIN1, 1);
+ args = CONS(hp, boot_mod, args);
so.flags = erts_default_spo_flags;
- res = erl_spawn_system_process(&parent, start_mod, am_start, args, &so);
+ res = erl_spawn_system_process(&parent, am_erl_init, am_start, args, &so);
ASSERT(is_internal_pid(res));
erts_proc_unlock(&parent, ERTS_PROC_LOCK_MAIN);
@@ -527,7 +525,6 @@ erts_preloaded(Process* p)
/* static variables that must not change (use same values at restart) */
static char* program;
static char* init = "init";
-static char* boot = "boot";
static int boot_argc;
static char** boot_argv;
@@ -581,9 +578,6 @@ void erts_usage(void)
int this_rel = this_rel_num();
erts_fprintf(stderr, "Usage: %s [flags] [ -- [init_args] ]\n", progname(program));
erts_fprintf(stderr, "The flags are:\n\n");
-
- /* erts_fprintf(stderr, "-# number set the number of items to be used in traces etc\n"); */
-
erts_fprintf(stderr, "-a size suggested stack size in kilo words for threads\n");
erts_fprintf(stderr, " in the async-thread pool, valid range is [%d-%d]\n",
ERTS_ASYNC_THREAD_MIN_STACK_SIZE,
@@ -591,13 +585,9 @@ void erts_usage(void)
erts_fprintf(stderr, "-A number set number of threads in async thread pool,\n");
erts_fprintf(stderr, " valid range is [0-%d]\n",
ERTS_MAX_NO_OF_ASYNC_THREADS);
-
erts_fprintf(stderr, "-B[c|d|i] c to have Ctrl-c interrupt the Erlang shell,\n");
erts_fprintf(stderr, " d (or no extra option) to disable the break\n");
erts_fprintf(stderr, " handler, i to ignore break signals\n");
-
- /* erts_fprintf(stderr, "-b func set the boot function (default boot)\n"); */
-
erts_fprintf(stderr, "-c bool enable or disable time correction\n");
erts_fprintf(stderr, "-C mode set time warp mode; valid modes are:\n");
erts_fprintf(stderr, " no_time_warp|single_time_warp|multi_time_warp\n");
@@ -616,7 +606,6 @@ void erts_usage(void)
erts_pd_initial_size);
erts_fprintf(stderr, "-hmqd val set default message queue data flag for processes,\n");
erts_fprintf(stderr, " valid values are: off_heap | on_heap\n");
-
erts_fprintf(stderr, "-IOp number set number of pollsets to be used to poll for I/O,\n");
erts_fprintf(stderr, " This value has to be equal or smaller than the\n");
erts_fprintf(stderr, " number of poll threads. If the current platform\n");
@@ -627,9 +616,7 @@ void erts_usage(void)
erts_fprintf(stderr, " number of poll threads.");
erts_fprintf(stderr, "-IOPt number set number of threads to be used to poll for I/O\n");
erts_fprintf(stderr, " as a percentage of the number of schedulers.");
-
- /* erts_fprintf(stderr, "-i module set the boot module (default init)\n"); */
-
+ erts_fprintf(stderr, "-i module set the boot module (default init)\n");
erts_fprintf(stderr, "-n[s|a|d] Control behavior of signals to ports\n");
erts_fprintf(stderr, " Note that this flag is deprecated!\n");
erts_fprintf(stderr, "-M<X> <Y> memory allocator switches,\n");
@@ -644,7 +631,6 @@ void erts_usage(void)
erts_fprintf(stderr, "-R number set compatibility release number,\n");
erts_fprintf(stderr, " valid range [%d-%d]\n",
this_rel-2, this_rel);
-
erts_fprintf(stderr, "-r force ets memory block to be moved on realloc\n");
erts_fprintf(stderr, "-rg amount set reader groups limit\n");
erts_fprintf(stderr, "-sbt type set scheduler bind type, valid types are:\n");
@@ -715,9 +701,7 @@ void erts_usage(void)
erts_fprintf(stderr, "-T number set modified timing level, valid range is [0-%d]\n",
ERTS_MODIFIED_TIMING_LEVELS-1);
erts_fprintf(stderr, "-V print Erlang version\n");
-
erts_fprintf(stderr, "-v turn on chatty mode (GCs will be reported etc)\n");
-
erts_fprintf(stderr, "-W<i|w|e> set error logger warnings mapping,\n");
erts_fprintf(stderr, " see error_logger documentation for details\n");
erts_fprintf(stderr, "-zdbbl size set the distribution buffer busy limit in kilobytes\n");
@@ -808,7 +792,6 @@ early_init(int *argc, char **argv) /*
erts_sched_compact_load = 1;
erts_printf_eterm_func = erts_printf_term;
- display_items = 200;
erts_backtrace_depth = DEFAULT_BACKTRACE_SIZE;
erts_async_max_threads = ERTS_DEFAULT_NO_ASYNC_THREADS;
erts_async_thread_suggested_stack_size = ERTS_ASYNC_THREAD_MIN_STACK_SIZE;
@@ -1315,25 +1298,9 @@ erl_start(int argc, char **argv)
/*
* NOTE: -M flags are handled (and removed from argv) by
- * erts_alloc_init().
- *
- * The -d, -m, -S, -t, and -T flags was removed in
- * Erlang 5.3/OTP R9C.
- *
- * -S, and -T has been reused in Erlang 5.5/OTP R11B.
- *
- * -d has been reused in a patch R12B-4.
+ * erts_alloc_init().
*/
- case '#' :
- arg = get_arg(argv[i]+2, argv[i+1], &i);
- if ((display_items = atoi(arg)) == 0) {
- erts_fprintf(stderr, "bad display items%s\n", arg);
- erts_usage();
- }
- VERBOSE(DEBUG_SYSTEM,
- ("using display items %d\n",display_items));
- break;
case 'p':
if (!sys_strncmp(argv[i],"-pc",3)) {
int printable_chars = ERL_PRINTABLE_CHARACTERS_LATIN1;
@@ -1612,11 +1579,6 @@ erl_start(int argc, char **argv)
init = get_arg(argv[i]+2, argv[i+1], &i);
break;
- case 'b':
- /* define name of initial function */
- boot = get_arg(argv[i]+2, argv[i+1], &i);
- break;
-
case 'B':
if (argv[i][2] == 'i') /* +Bi */
ignore_break = 1;
@@ -2302,8 +2264,8 @@ erl_start(int argc, char **argv)
erts_initialized = 1;
- erts_init_process_id = erl_first_process_otp("otp_ring0", NULL, 0,
- boot_argc, boot_argv);
+ erts_init_process_id = erl_first_process_otp(init, boot_argc, boot_argv);
+ ASSERT(erts_init_process_id != ERTS_INVALID_PID);
{
/*
diff --git a/erts/emulator/beam/erl_lock_check.c b/erts/emulator/beam/erl_lock_check.c
index 1416c5f96c..3aab4828cc 100644
--- a/erts/emulator/beam/erl_lock_check.c
+++ b/erts/emulator/beam/erl_lock_check.c
@@ -42,6 +42,7 @@
#include "erl_term.h"
#include "erl_threads.h"
#include "erl_atom_table.h"
+#include "erl_utils.h"
typedef struct {
char *name;
@@ -91,6 +92,8 @@ static erts_lc_lock_order_t erts_lock_order[] = {
{ "db_tab", "address" },
{ "db_tab_fix", "address" },
{ "db_hash_slot", "address" },
+ { "erl_db_catree_base_node", NULL },
+ { "erl_db_catree_route_node", "index" },
{ "resource_monitors", "address" },
{ "driver_list", NULL },
{ "proc_msgq", "pid" },
@@ -193,6 +196,12 @@ struct lc_locked_lock_t_ {
unsigned int line;
erts_lock_flags_t flags;
erts_lock_options_t taken_options;
+ /*
+ * Pointer back to the lock instance if it exists or NULL for proc locks.
+ * If set, we use it to allow trylock of other lock instance
+ * but with identical lock order as an already locked lock.
+ */
+ erts_lc_lock_t *lck;
};
typedef struct {
@@ -406,6 +415,10 @@ new_locked_lock(lc_thread_t* thr,
ll->line = line;
ll->flags = lck->flags;
ll->taken_options = options;
+ if ((lck->flags & ERTS_LOCK_FLAGS_MASK_TYPE) == ERTS_LOCK_FLAGS_TYPE_PROCLOCK)
+ ll->lck = NULL;
+ else
+ ll->lck = lck;
return ll;
}
@@ -709,6 +722,14 @@ erts_lc_get_lock_order_id(char *name)
return (Sint16) -1;
}
+static int
+lc_is_term_order(Sint16 id)
+{
+ return erts_lock_order[id].internal_order != NULL
+ && sys_strcmp(erts_lock_order[id].internal_order, "term") == 0;
+}
+
+
static int compare_locked_by_id(lc_locked_lock_t *locked_lock, erts_lc_lock_t *comparand)
{
if(locked_lock->id < comparand->id) {
@@ -720,18 +741,23 @@ static int compare_locked_by_id(lc_locked_lock_t *locked_lock, erts_lc_lock_t *c
return 0;
}
-static int compare_locked_by_id_extra(lc_locked_lock_t *locked_lock, erts_lc_lock_t *comparand)
+static int compare_locked_by_id_extra(lc_locked_lock_t *ll, erts_lc_lock_t *comparand)
{
- int order = compare_locked_by_id(locked_lock, comparand);
+ int order = compare_locked_by_id(ll, comparand);
if(order) {
return order;
- } else if(locked_lock->extra < comparand->extra) {
+ }
+ if (ll->flags & ERTS_LOCK_FLAGS_PROPERTY_TERM_ORDER) {
+ ASSERT(!is_header(ll->extra) && !is_header(comparand->extra));
+ return CMP(ll->extra, comparand->extra);
+ }
+
+ if(ll->extra < comparand->extra) {
return -1;
- } else if(locked_lock->extra > comparand->extra) {
+ } else if(ll->extra > comparand->extra) {
return 1;
}
-
return 0;
}
@@ -970,7 +996,8 @@ erts_lc_trylock_force_busy_flg(erts_lc_lock_t *lck, erts_lock_options_t options)
return 0;
}
else {
- lc_locked_lock_t *tl_lck;
+ lc_locked_lock_t *ll;
+ int order;
ASSERT(thr->locked.last);
@@ -979,25 +1006,25 @@ erts_lc_trylock_force_busy_flg(erts_lc_lock_t *lck, erts_lock_options_t options)
type_order_violation("trylocking ", thr, lck);
#endif
- if (thr->locked.last->id < lck->id
- || (thr->locked.last->id == lck->id
- && thr->locked.last->extra < lck->extra))
- return 0;
+ ll = thr->locked.last;
+ order = compare_locked_by_id_extra(ll, lck);
+
+ if (order < 0)
+ return 0;
/*
- * Lock order violation
+ * TryLock order violation
*/
-
- /* Check that we are not trying to lock this lock twice */
- for (tl_lck = thr->locked.last; tl_lck; tl_lck = tl_lck->prev) {
- if (tl_lck->id < lck->id
- || (tl_lck->id == lck->id && tl_lck->extra <= lck->extra)) {
- if (tl_lck->id == lck->id && tl_lck->extra == lck->extra)
- lock_twice("Trylocking", thr, lck, options);
- break;
- }
- }
+ /* Check that we are not trying to lock this lock twice */
+ do {
+ if (order == 0 && (ll->lck == lck || !ll->lck))
+ lock_twice("Trylocking", thr, lck, options);
+ ll = ll->prev;
+ if (!ll)
+ break;
+ order = compare_locked_by_id_extra(ll, lck);
+ } while (order >= 0);
#ifndef ERTS_LC_ALLWAYS_FORCE_BUSY_TRYLOCK_ON_LOCK_ORDER_VIOLATION
/* We only force busy if a lock order violation would occur
@@ -1044,10 +1071,10 @@ void erts_lc_trylock_flg_x(int locked, erts_lc_lock_t *lck, erts_lock_options_t
#endif
for (tl_lck = thr->locked.last; tl_lck; tl_lck = tl_lck->prev) {
- if (tl_lck->id < lck->id
- || (tl_lck->id == lck->id && tl_lck->extra <= lck->extra)) {
- if (tl_lck->id == lck->id && tl_lck->extra == lck->extra)
- lock_twice("Trylocking", thr, lck, options);
+ int order = compare_locked_by_id_extra(tl_lck, lck);
+ if (order <= 0) {
+ if (order == 0 && (tl_lck->lck == lck || !tl_lck->lck))
+ lock_twice("Trylocking", thr, lck, options);
if (locked) {
ll->next = tl_lck->next;
ll->prev = tl_lck;
@@ -1089,10 +1116,10 @@ void erts_lc_require_lock_flg(erts_lc_lock_t *lck, erts_lock_options_t options,
for (l_lck2 = thr->required.last;
l_lck2;
l_lck2 = l_lck2->prev) {
- if (l_lck2->id < lck->id
- || (l_lck2->id == lck->id && l_lck2->extra < lck->extra))
+ int order = compare_locked_by_id_extra(l_lck2, lck);
+ if (order < 0)
break;
- else if (l_lck2->id == lck->id && l_lck2->extra == lck->extra)
+ if (order == 0)
require_twice(thr, lck);
}
if (!l_lck2) {
@@ -1150,6 +1177,7 @@ void erts_lc_lock_flg_x(erts_lc_lock_t *lck, erts_lock_options_t options,
{
lc_thread_t *thr;
lc_locked_lock_t *new_ll;
+ int order;
if (lck->inited != ERTS_LC_INITITALIZED)
uninitialized_lock();
@@ -1165,10 +1193,10 @@ void erts_lc_lock_flg_x(erts_lc_lock_t *lck, erts_lock_options_t options,
thr->locked.last = thr->locked.first = new_ll;
ASSERT(0 < lck->id && lck->id < ERTS_LOCK_ORDER_SIZE);
thr->matrix.m[lck->id][0] = 1;
+ return;
}
- else if (thr->locked.last->id < lck->id
- || (thr->locked.last->id == lck->id
- && thr->locked.last->extra < lck->extra)) {
+ order = compare_locked_by_id_extra(thr->locked.last, lck);
+ if (order < 0) {
lc_locked_lock_t* ll;
if (LOCK_IS_TYPE_ORDER_VIOLATION(lck->flags, thr->locked.last->flags)) {
type_order_violation("locking ", thr, lck);
@@ -1186,7 +1214,7 @@ void erts_lc_lock_flg_x(erts_lc_lock_t *lck, erts_lock_options_t options,
thr->locked.last->next = new_ll;
thr->locked.last = new_ll;
}
- else if (thr->locked.last->id == lck->id && thr->locked.last->extra == lck->extra)
+ else if (order == 0)
lock_twice("Locking", thr, lck, options);
else
lock_order_violation(thr, lck);
@@ -1298,7 +1326,6 @@ void
erts_lc_init_lock(erts_lc_lock_t *lck, char *name, erts_lock_flags_t flags)
{
lck->id = erts_lc_get_lock_order_id(name);
-
lck->extra = (UWord) &lck->extra;
ASSERT(is_not_immed(lck->extra));
lck->flags = flags;
@@ -1311,8 +1338,13 @@ erts_lc_init_lock_x(erts_lc_lock_t *lck, char *name, erts_lock_flags_t flags, Et
{
lck->id = erts_lc_get_lock_order_id(name);
lck->extra = extra;
- ASSERT(is_immed(lck->extra));
lck->flags = flags;
+ if (lc_is_term_order(lck->id)) {
+ lck->flags |= ERTS_LOCK_FLAGS_PROPERTY_TERM_ORDER;
+ ASSERT(!is_header(lck->extra));
+ }
+ else
+ ASSERT(is_immed(lck->extra));
lck->taken_options = 0;
lck->inited = ERTS_LC_INITITALIZED;
}
diff --git a/erts/emulator/beam/erl_lock_check.h b/erts/emulator/beam/erl_lock_check.h
index d10e32985a..b32f27d9f9 100644
--- a/erts/emulator/beam/erl_lock_check.h
+++ b/erts/emulator/beam/erl_lock_check.h
@@ -104,7 +104,7 @@ Eterm erts_lc_dump_graph(void);
#define erts_lc_lock(lck) erts_lc_lock_x(lck,__FILE__,__LINE__)
#define erts_lc_trylock(res,lck) erts_lc_trylock_x(res,lck,__FILE__,__LINE__)
-#define erts_lc_lock_flg(lck) erts_lc_lock_flg_x(lck,__FILE__,__LINE__)
-#define erts_lc_trylock_flg(res,lck) erts_lc_trylock_flg_x(res,lck,__FILE__,__LINE__)
+#define erts_lc_lock_flg(lck,flg) erts_lc_lock_flg_x(lck,flg,__FILE__,__LINE__)
+#define erts_lc_trylock_flg(res,lck,flg) erts_lc_trylock_flg_x(res,lck,flg,__FILE__,__LINE__)
#endif /* #ifndef ERTS_LOCK_CHECK_H__ */
diff --git a/erts/emulator/beam/erl_lock_count.h b/erts/emulator/beam/erl_lock_count.h
index 89d95a73cf..0d47b16e0b 100644
--- a/erts/emulator/beam/erl_lock_count.h
+++ b/erts/emulator/beam/erl_lock_count.h
@@ -532,7 +532,7 @@ ERTS_GLB_INLINE
void lcnt_dec_lock_state__(ethr_atomic_t *l_state) {
ethr_sint_t state = ethr_atomic_dec_read_acqb(l_state);
- /* We can not assume that state is >= -1 here; unlock and unacquire might
+ /* We cannot assume that state is >= -1 here; unlock and unacquire might
* bring it below -1 and race to increment it back. */
if(state < 0) {
diff --git a/erts/emulator/beam/erl_lock_flags.h b/erts/emulator/beam/erl_lock_flags.h
index d711f69456..2db133b598 100644
--- a/erts/emulator/beam/erl_lock_flags.h
+++ b/erts/emulator/beam/erl_lock_flags.h
@@ -28,15 +28,17 @@
/* Property/category are bitfields to simplify their use in masks. */
#define ERTS_LOCK_FLAGS_MASK_CATEGORY (0xFFC0)
-#define ERTS_LOCK_FLAGS_MASK_PROPERTY (0x0030)
+#define ERTS_LOCK_FLAGS_MASK_PROPERTY (0x0038)
/* Type is a plain number. */
-#define ERTS_LOCK_FLAGS_MASK_TYPE (0x000F)
+#define ERTS_LOCK_FLAGS_MASK_TYPE (0x0007)
#define ERTS_LOCK_FLAGS_TYPE_SPINLOCK (1)
#define ERTS_LOCK_FLAGS_TYPE_MUTEX (2)
#define ERTS_LOCK_FLAGS_TYPE_PROCLOCK (3)
+/* Lock checker use real term order instead of raw word compare */
+#define ERTS_LOCK_FLAGS_PROPERTY_TERM_ORDER (1 << 3)
/* "Static" guarantees that the lock will never be destroyed once created. */
#define ERTS_LOCK_FLAGS_PROPERTY_STATIC (1 << 4)
#define ERTS_LOCK_FLAGS_PROPERTY_READ_WRITE (1 << 5)
diff --git a/erts/emulator/beam/erl_map.c b/erts/emulator/beam/erl_map.c
index cba17d3e6a..93816542cd 100644
--- a/erts/emulator/beam/erl_map.c
+++ b/erts/emulator/beam/erl_map.c
@@ -125,15 +125,20 @@ BIF_RETTYPE map_size_1(BIF_ALIST_1) {
flatmap_t *mp = (flatmap_t*)flatmap_val(BIF_ARG_1);
BIF_RET(make_small(flatmap_get_size(mp)));
} else if (is_hashmap(BIF_ARG_1)) {
- Eterm *head, *hp, res;
- Uint size, hsz=0;
+ Eterm *head;
+ Uint size;
head = hashmap_val(BIF_ARG_1);
size = head[1];
- (void) erts_bld_uint(NULL, &hsz, size);
- hp = HAlloc(BIF_P, hsz);
- res = erts_bld_uint(&hp, NULL, size);
- BIF_RET(res);
+
+ /*
+ * As long as a small has 28 bits (on a 32-bit machine) for
+ * the integer itself, it is impossible to build a map whose
+ * size would not fit in a small. Add an assertion in case we
+ * ever decreases the number of bits in a small.
+ */
+ ASSERT(IS_USMALL(0, size));
+ BIF_RET(make_small(size));
}
BIF_P->fvalue = BIF_ARG_1;
@@ -1505,25 +1510,6 @@ int hashmap_key_hash_cmp(Eterm* ap, Eterm* bp)
return ap ? -1 : 1;
}
-/* maps:new/0 */
-
-BIF_RETTYPE maps_new_0(BIF_ALIST_0) {
- Eterm* hp;
- Eterm tup;
- flatmap_t *mp;
-
- hp = HAlloc(BIF_P, (MAP_HEADER_FLATMAP_SZ + 1));
- tup = make_tuple(hp);
- *hp++ = make_arityval(0);
-
- mp = (flatmap_t*)hp;
- mp->thing_word = MAP_HEADER_FLATMAP;
- mp->size = 0;
- mp->keys = tup;
-
- BIF_RET(make_flatmap(mp));
-}
-
/* maps:put/3 */
BIF_RETTYPE maps_put_3(BIF_ALIST_3) {
@@ -1707,11 +1693,16 @@ int erts_maps_update(Process *p, Eterm key, Eterm value, Eterm map, Eterm *res)
return 0;
found_key:
- *hp++ = value;
- vs++;
- if (++i < n)
- sys_memcpy(hp, vs, (n - i)*sizeof(Eterm));
- *res = make_flatmap(shp);
+ if(*vs == value) {
+ HRelease(p, shp + MAP_HEADER_FLATMAP_SZ + n, shp);
+ *res = map;
+ } else {
+ *hp++ = value;
+ vs++;
+ if (++i < n)
+ sys_memcpy(hp, vs, (n - i)*sizeof(Eterm));
+ *res = make_flatmap(shp);
+ }
return 1;
}
@@ -1767,9 +1758,7 @@ Eterm erts_maps_put(Process *p, Eterm key, Eterm value, Eterm map) {
if (is_immed(key)) {
for( i = 0; i < n; i ++) {
if (ks[i] == key) {
- *hp++ = value;
- vs++;
- c = 1;
+ goto found_key;
} else {
*hp++ = *vs++;
}
@@ -1777,18 +1766,13 @@ Eterm erts_maps_put(Process *p, Eterm key, Eterm value, Eterm map) {
} else {
for( i = 0; i < n; i ++) {
if (EQ(ks[i], key)) {
- *hp++ = value;
- vs++;
- c = 1;
+ goto found_key;
} else {
*hp++ = *vs++;
}
}
}
- if (c)
- return res;
-
/* the map will grow */
if (n >= MAP_SMALL_MAP_LIMIT) {
@@ -1843,6 +1827,18 @@ Eterm erts_maps_put(Process *p, Eterm key, Eterm value, Eterm map) {
*/
*shp = make_pos_bignum_header(0);
return res;
+
+found_key:
+ if(*vs == value) {
+ HRelease(p, shp + MAP_HEADER_FLATMAP_SZ + n, shp);
+ return map;
+ } else {
+ *hp++ = value;
+ vs++;
+ if (++i < n)
+ sys_memcpy(hp, vs, (n - i)*sizeof(Eterm));
+ return res;
+ }
}
ASSERT(is_hashmap(map));
diff --git a/erts/emulator/beam/erl_message.c b/erts/emulator/beam/erl_message.c
index a3274d7443..942bec84cf 100644
--- a/erts/emulator/beam/erl_message.c
+++ b/erts/emulator/beam/erl_message.c
@@ -532,9 +532,7 @@ erts_try_alloc_message_on_heap(Process *pp,
if ((*psp) & ERTS_PSFLGS_VOLATILE_HEAP)
goto in_message_fragment;
- else if (
- *plp & ERTS_PROC_LOCK_MAIN
- ) {
+ else if (*plp & ERTS_PROC_LOCK_MAIN) {
try_on_heap:
if (((*psp) & ERTS_PSFLGS_VOLATILE_HEAP)
|| (pp->flags & F_DISABLE_GC)
diff --git a/erts/emulator/beam/erl_nif.c b/erts/emulator/beam/erl_nif.c
index ee6e6085b6..a48d0391f6 100644
--- a/erts/emulator/beam/erl_nif.c
+++ b/erts/emulator/beam/erl_nif.c
@@ -707,6 +707,29 @@ error:
return reds;
}
+/** @brief Create a message with the content of process independent \c msg_env.
+ * Invalidates \c msg_env.
+ */
+ErtsMessage* erts_create_message_from_nif_env(ErlNifEnv* msg_env)
+{
+ struct enif_msg_environment_t* menv = (struct enif_msg_environment_t*)msg_env;
+ ErtsMessage* mp;
+
+ flush_env(msg_env);
+ mp = erts_alloc_message(0, NULL);
+ mp->data.heap_frag = menv->env.heap_frag;
+ ASSERT(mp->data.heap_frag == MBUF(&menv->phony_proc));
+ if (mp->data.heap_frag != NULL) {
+ /* Move all offheap's from phony proc to the first fragment.
+ Quick and dirty... */
+ ASSERT(!is_offheap(&mp->data.heap_frag->off_heap));
+ mp->data.heap_frag->off_heap = MSO(&menv->phony_proc);
+ clear_offheap(&MSO(&menv->phony_proc));
+ menv->env.heap_frag = NULL;
+ MBUF(&menv->phony_proc) = NULL;
+ }
+ return mp;
+}
int enif_send(ErlNifEnv* env, const ErlNifPid* to_pid,
ErlNifEnv* msg_env, ERL_NIF_TERM msg)
@@ -803,20 +826,8 @@ int enif_send(ErlNifEnv* env, const ErlNifPid* to_pid,
}
#endif
}
- flush_env(msg_env);
- mp = erts_alloc_message(0, NULL);
+ mp = erts_create_message_from_nif_env(msg_env);
ERL_MESSAGE_TOKEN(mp) = token;
- mp->data.heap_frag = menv->env.heap_frag;
- ASSERT(mp->data.heap_frag == MBUF(&menv->phony_proc));
- if (mp->data.heap_frag != NULL) {
- /* Move all offheap's from phony proc to the first fragment.
- Quick and dirty... */
- ASSERT(!is_offheap(&mp->data.heap_frag->off_heap));
- mp->data.heap_frag->off_heap = MSO(&menv->phony_proc);
- clear_offheap(&MSO(&menv->phony_proc));
- menv->env.heap_frag = NULL;
- MBUF(&menv->phony_proc) = NULL;
- }
} else {
erts_literal_area_t litarea;
ErlOffHeap *ohp;
@@ -1040,7 +1051,7 @@ ERL_NIF_TERM enif_make_copy(ErlNifEnv* dst_env, ERL_NIF_TERM src_term)
Eterm* hp;
/*
* No preserved sharing allowed as long as literals are also preserved.
- * Process independent environment can not be reached by purge.
+ * Process independent environment cannot be reached by purge.
*/
sz = size_object(src_term);
hp = alloc_heap(dst_env, sz);
diff --git a/erts/emulator/beam/erl_nif.h b/erts/emulator/beam/erl_nif.h
index 4c09496ef1..3fd1a8fd4c 100644
--- a/erts/emulator/beam/erl_nif.h
+++ b/erts/emulator/beam/erl_nif.h
@@ -54,10 +54,16 @@
** 2.13: 20.1 add enif_ioq
** 2.14: 21.0 add enif_ioq_peek_head, enif_(mutex|cond|rwlock|thread)_name
** enif_vfprintf, enif_vsnprintf, enif_make_map_from_arrays
+** 2.15: 22.0 ERL_NIF_SELECT_CANCEL, enif_select_(read|write)
*/
#define ERL_NIF_MAJOR_VERSION 2
-#define ERL_NIF_MINOR_VERSION 14
-#define ERL_NIF_MIN_ERTS_VERSION "erts-10.0 (OTP-21)"
+#define ERL_NIF_MINOR_VERSION 15
+/*
+ * WHEN CHANGING INTERFACE VERSION, also replace erts version below
+ * with ticket syntax like "erts-@OTP-12345@", or a temporary placeholder
+ * between two @ like "erts-@MyName@", if you don't know what a ticket is.
+ */
+#define ERL_NIF_MIN_ERTS_VERSION "erts-@OTP-15095@ (OTP-22)"
/*
* The emulator will refuse to load a nif-lib with a major version
@@ -160,6 +166,8 @@ typedef int ErlNifEvent;
#define ERL_NIF_SELECT_STOP_SCHEDULED (1 << 1)
#define ERL_NIF_SELECT_INVALID_EVENT (1 << 2)
#define ERL_NIF_SELECT_FAILED (1 << 3)
+#define ERL_NIF_SELECT_READ_CANCELLED (1 << 4)
+#define ERL_NIF_SELECT_WRITE_CANCELLED (1 << 5)
typedef enum
{
diff --git a/erts/emulator/beam/erl_nif_api_funcs.h b/erts/emulator/beam/erl_nif_api_funcs.h
index 81f64f2390..129166562d 100644
--- a/erts/emulator/beam/erl_nif_api_funcs.h
+++ b/erts/emulator/beam/erl_nif_api_funcs.h
@@ -210,6 +210,9 @@ ERL_NIF_API_FUNC_DECL(int,enif_vsnprintf,(char*, size_t, const char *fmt, va_lis
ERL_NIF_API_FUNC_DECL(int,enif_make_map_from_arrays,(ErlNifEnv *env, ERL_NIF_TERM keys[], ERL_NIF_TERM values[], size_t cnt, ERL_NIF_TERM *map_out));
+ERL_NIF_API_FUNC_DECL(int,enif_select_x,(ErlNifEnv* env, ErlNifEvent e, enum ErlNifSelectFlags flags, void* obj, const ErlNifPid* pid, ERL_NIF_TERM msg, ErlNifEnv* msg_env));
+
+
/*
** ADD NEW ENTRIES HERE (before this comment) !!!
*/
@@ -392,6 +395,7 @@ ERL_NIF_API_FUNC_DECL(int,enif_make_map_from_arrays,(ErlNifEnv *env, ERL_NIF_TER
# define enif_vfprintf ERL_NIF_API_FUNC_MACRO(enif_vfprintf)
# define enif_vsnprintf ERL_NIF_API_FUNC_MACRO(enif_vsnprintf)
# define enif_make_map_from_arrays ERL_NIF_API_FUNC_MACRO(enif_make_map_from_arrays)
+# define enif_select_x ERL_NIF_API_FUNC_MACRO(enif_select_x)
/*
** ADD NEW ENTRIES HERE (before this comment)
@@ -623,6 +627,12 @@ static ERL_NIF_INLINE ERL_NIF_TERM enif_make_list9(ErlNifEnv* env,
#ifndef enif_make_pid
# define enif_make_pid(ENV, PID) ((void)(ENV),(const ERL_NIF_TERM)((PID)->pid))
+# define enif_select_read(ENV, E, OBJ, PID, MSG, MSG_ENV) \
+ enif_select_x(ENV, E, ERL_NIF_SELECT_READ | ERL_NIF_SELECT_CUSTOM_MSG, \
+ OBJ, PID, MSG, MSG_ENV)
+# define enif_select_write(ENV, E, OBJ, PID, MSG, MSG_ENV) \
+ enif_select_x(ENV, E, ERL_NIF_SELECT_WRITE | ERL_NIF_SELECT_CUSTOM_MSG, \
+ OBJ, PID, MSG, MSG_ENV)
#if SIZEOF_LONG == 8
# define enif_get_int64 enif_get_long
diff --git a/erts/emulator/beam/erl_process.c b/erts/emulator/beam/erl_process.c
index dca502c939..c2799f6612 100644
--- a/erts/emulator/beam/erl_process.c
+++ b/erts/emulator/beam/erl_process.c
@@ -3370,7 +3370,12 @@ scheduler_wait(int *fcalls, ErtsSchedulerData *esdp, ErtsRunQueue *rq)
ErtsMonotonicTime current_time = 0;
aux_work = erts_atomic32_read_acqb(&ssi->aux_work);
- if (aux_work && !ERTS_SCHEDULER_IS_DIRTY(esdp)) {
+
+ if (aux_work && ERTS_SCHEDULER_IS_DIRTY(esdp)) {
+ ERTS_INTERNAL_ERROR("Executing aux work on a dirty scheduler.");
+ }
+
+ if (aux_work) {
if (!thr_prgr_active) {
erts_thr_progress_active(erts_thr_prgr_data(esdp), thr_prgr_active = 1);
sched_wall_time_change(esdp, 1);
@@ -3382,16 +3387,14 @@ scheduler_wait(int *fcalls, ErtsSchedulerData *esdp, ErtsRunQueue *rq)
}
if (aux_work) {
- if (!ERTS_SCHEDULER_IS_DIRTY(esdp)) {
- flgs = erts_atomic32_read_acqb(&ssi->flags);
- current_time = erts_get_monotonic_time(esdp);
- if (current_time >= erts_next_timeout_time(esdp->next_tmo_ref)) {
- if (!thr_prgr_active) {
- erts_thr_progress_active(erts_thr_prgr_data(esdp), thr_prgr_active = 1);
- sched_wall_time_change(esdp, 1);
- }
- erts_bump_timers(esdp->timer_wheel, current_time);
+ flgs = erts_atomic32_read_acqb(&ssi->flags);
+ current_time = erts_get_monotonic_time(esdp);
+ if (current_time >= erts_next_timeout_time(esdp->next_tmo_ref)) {
+ if (!thr_prgr_active) {
+ erts_thr_progress_active(erts_thr_prgr_data(esdp), thr_prgr_active = 1);
+ sched_wall_time_change(esdp, 1);
}
+ erts_bump_timers(esdp->timer_wheel, current_time);
}
}
else {
@@ -4134,9 +4137,7 @@ schedule_bound_processes(ErtsRunQueue *rq,
static ERTS_INLINE void
clear_proc_dirty_queue_bit(Process *p, ErtsRunQueue *rq, int prio_bit)
{
-#ifdef DEBUG
erts_aint32_t old;
-#endif
erts_aint32_t qb = prio_bit;
if (rq == ERTS_DIRTY_CPU_RUNQ)
qb <<= ERTS_PDSFLGS_IN_CPU_PRQ_MASK_OFFSET;
@@ -4144,13 +4145,8 @@ clear_proc_dirty_queue_bit(Process *p, ErtsRunQueue *rq, int prio_bit)
ASSERT(rq == ERTS_DIRTY_IO_RUNQ);
qb <<= ERTS_PDSFLGS_IN_IO_PRQ_MASK_OFFSET;
}
-#ifdef DEBUG
- old = (int)
-#else
- (void)
-#endif
- erts_atomic32_read_band_mb(&p->dirty_state, ~qb);
- ASSERT(old & qb);
+ old = (int) erts_atomic32_read_band_mb(&p->dirty_state, ~qb);
+ ASSERT(old & qb); (void)old;
}
@@ -7293,9 +7289,7 @@ msb_scheduler_type_switch(ErtsSchedType sched_type,
Uint32 nrml_prio, dcpu_prio, dio_prio;
ErtsSchedType exec_type;
ErtsRunQueue *exec_rq;
-#ifdef DEBUG
erts_aint32_t dbg_val;
-#endif
ASSERT(schdlr_sspnd.msb.ongoing);
@@ -7410,16 +7404,12 @@ msb_scheduler_type_switch(ErtsSchedType sched_type,
* Suspend this scheduler and wake up scheduler
* number one of another type...
*/
-#ifdef DEBUG
dbg_val =
-#else
- (void)
-#endif
erts_atomic32_read_bset_mb(&esdp->ssi->flags,
(ERTS_SSI_FLG_SUSPENDED
| ERTS_SSI_FLG_MSB_EXEC),
ERTS_SSI_FLG_SUSPENDED);
- ASSERT(dbg_val & ERTS_SSI_FLG_MSB_EXEC);
+ ASSERT(dbg_val & ERTS_SSI_FLG_MSB_EXEC); (void)dbg_val;
switch (exec_type) {
case ERTS_SCHED_NORMAL:
@@ -7437,11 +7427,7 @@ msb_scheduler_type_switch(ErtsSchedType sched_type,
break;
}
-#ifdef DEBUG
dbg_val =
-#else
- (void)
-#endif
erts_atomic32_read_bset_mb(&exec_rq->scheduler->ssi->flags,
(ERTS_SSI_FLG_SUSPENDED
| ERTS_SSI_FLG_MSB_EXEC),
@@ -9018,11 +9004,8 @@ erts_suspend(Process* c_p, ErtsProcLocks c_p_locks, Port *busy_port)
suspend = 1;
if (suspend) {
-#ifdef DEBUG
- int res =
-#endif
- suspend_process(c_p, c_p);
- ASSERT(res);
+ int res = suspend_process(c_p, c_p);
+ ASSERT(res); (void)res;
}
if (!(c_p_locks & ERTS_PROC_LOCK_STATUS))
@@ -12650,9 +12633,7 @@ erts_continue_exit_process(Process *p)
yield:
-#ifdef DEBUG
ASSERT(yield_allowed);
-#endif
ERTS_LC_ASSERT(curr_locks == erts_proc_lc_my_proc_locks(p));
ERTS_LC_ASSERT(ERTS_PROC_LOCK_MAIN & curr_locks);
diff --git a/erts/emulator/beam/erl_process_dump.c b/erts/emulator/beam/erl_process_dump.c
index ac5054ea10..10ea401022 100644
--- a/erts/emulator/beam/erl_process_dump.c
+++ b/erts/emulator/beam/erl_process_dump.c
@@ -1005,6 +1005,10 @@ dump_module_literals(fmtfn_t to, void *to_arg, ErtsLiteralArea* lit_area)
}
size = 1 + header_arity(w);
switch (w & _HEADER_SUBTAG_MASK) {
+ case FUN_SUBTAG:
+ ASSERT(((ErlFunThing*)(htop))->num_free == 0);
+ size += 1;
+ break;
case MAP_SUBTAG:
if (is_flatmap_header(w)) {
size += 1 + flatmap_get_size(htop);
diff --git a/erts/emulator/beam/erl_unicode.c b/erts/emulator/beam/erl_unicode.c
index d225916ac5..1d6869a7cd 100644
--- a/erts/emulator/beam/erl_unicode.c
+++ b/erts/emulator/beam/erl_unicode.c
@@ -1358,11 +1358,9 @@ Uint erts_atom_to_string_length(Eterm atom)
else {
byte* err_pos;
Uint num_chars;
-#ifdef DEBUG
int ares =
-#endif
erts_analyze_utf8(ap->name, ap->len, &err_pos, &num_chars, NULL);
- ASSERT(ares == ERTS_UTF8_OK);
+ ASSERT(ares == ERTS_UTF8_OK); (void)ares;
return num_chars;
}
diff --git a/erts/emulator/beam/erl_vm.h b/erts/emulator/beam/erl_vm.h
index 4089fac48e..35eae18394 100644
--- a/erts/emulator/beam/erl_vm.h
+++ b/erts/emulator/beam/erl_vm.h
@@ -41,8 +41,8 @@
#define MAX_REG 1024 /* Max number of x(N) registers used */
/*
- * The new arithmetic operations need some extra X registers in the register array.
- * so does the gc_bif's (i_gc_bif3 need 3 extra).
+ * The new trapping length/1 implementation need 3 extra registers in the
+ * register array.
*/
#define ERTS_X_REGS_ALLOCATED (MAX_REG+3)
@@ -146,6 +146,21 @@
(HEAP_TOP(p) = HEAP_TOP(p) + (sz), HEAP_TOP(p) - (sz))))
#endif
+/*
+ * Always allocate in a heap fragment, never on the heap.
+ */
+#if defined(VALGRIND)
+/* Running under valgrind, allocate exactly as much as needed.*/
+# define HeapFragOnlyAlloc(p, sz) \
+ (ASSERT((sz) >= 0), \
+ ErtsHAllocLockCheck(p), \
+ erts_heap_alloc((p),(sz),0))
+#else
+# define HeapFragOnlyAlloc(p, sz) \
+ (ASSERT((sz) >= 0), \
+ ErtsHAllocLockCheck(p), \
+ erts_heap_alloc((p),(sz),512))
+#endif
/*
* Description for each instruction (defined here because the name and
diff --git a/erts/emulator/beam/global.h b/erts/emulator/beam/global.h
index 36b753ca9c..29de162b42 100644
--- a/erts/emulator/beam/global.h
+++ b/erts/emulator/beam/global.h
@@ -131,6 +131,7 @@ extern Eterm erts_nif_call_function(Process *p, Process *tracee,
int erts_call_dirty_nif(ErtsSchedulerData *esdp, Process *c_p,
BeamInstr *I, Eterm *reg);
+ErtsMessage* erts_create_message_from_nif_env(ErlNifEnv* msg_env);
/* Driver handle (wrapper for old plain handle) */
@@ -292,7 +293,6 @@ union erl_off_heap_ptr {
/* controls warning mapping in error_logger */
extern Eterm node_cookie;
-extern Uint display_items; /* no of items to display in traces etc */
extern int erts_backtrace_depth;
extern erts_atomic32_t erts_max_gen_gcs;
@@ -892,6 +892,11 @@ void erts_init_bif(void);
Eterm erl_send(Process *p, Eterm to, Eterm msg);
int erts_set_group_leader(Process *proc, Eterm new_gl);
+/* erl_bif_guard.c */
+
+void erts_init_bif_guard(void);
+Eterm erts_trapping_length_1(Process* p, Eterm* args);
+
/* erl_bif_op.c */
Eterm erl_is_function(Process* p, Eterm arg1, Eterm arg2);
diff --git a/erts/emulator/beam/instrs.tab b/erts/emulator/beam/instrs.tab
index 42c1168f85..e55c4a112d 100644
--- a/erts/emulator/beam/instrs.tab
+++ b/erts/emulator/beam/instrs.tab
@@ -238,6 +238,7 @@ HANDLE_APPLY_FUN_ERROR() {
}
DISPATCH_FUN(I) {
+ //| -no_next
SET_I($I);
Dispatchfun();
}
@@ -299,6 +300,7 @@ i_call_fun_last(Fun, Deallocate) {
}
return() {
+ //| -no_next
SET_I(c_p->cp);
DTRACE_RETURN_FROM_PC(c_p);
@@ -559,17 +561,19 @@ update_list(Hd, Dst) {
HTOP += 2;
}
-i_put_tuple := i_put_tuple.make.fill;
-
-i_put_tuple.make(Dst) {
- $Dst = make_tuple(HTOP);
-}
-
-i_put_tuple.fill(Arity) {
+put_tuple2(Dst, Arity) {
Eterm* hp = HTOP;
Eterm arity = $Arity;
+ /*
+ * If operands are not packed (in the 32-bit VM),
+ * is is not safe to use $Dst directly after I
+ * has been updated.
+ */
+ Eterm* dst_ptr = &($Dst);
+
//| -no_next
+ ASSERT(arity != 0);
*hp++ = make_arityval(arity);
I = $NEXT_INSTRUCTION;
do {
@@ -586,6 +590,7 @@ i_put_tuple.fill(Arity) {
break;
}
} while (--arity != 0);
+ *dst_ptr = make_tuple(HTOP);
HTOP = hp;
ASSERT(VALID_INSTR(* (Eterm *)I));
Goto(*I);
@@ -704,12 +709,18 @@ is_function(Fail, Src) {
}
}
-is_function2(Fail, Fun, Arity) {
+cold_is_function2(Fail, Fun, Arity) {
if (erl_is_function(c_p, $Fun, $Arity) != am_true ) {
$FAIL($Fail);
}
}
+hot_is_function2(Fail, Fun, Arity) {
+ if (!is_function2($Fun, $Arity)) {
+ $FAIL($Fail);
+ }
+}
+
is_integer(Fail, Src) {
if (is_not_integer($Src)) {
$FAIL($Fail);
@@ -948,6 +959,7 @@ build_stacktrace() {
}
raw_raise() {
+ //| -no_prefetch
Eterm class = x(0);
Eterm value = x(1);
Eterm stacktrace = x(2);
diff --git a/erts/emulator/beam/ops.tab b/erts/emulator/beam/ops.tab
index e76d896ffc..8e730e42d6 100644
--- a/erts/emulator/beam/ops.tab
+++ b/erts/emulator/beam/ops.tab
@@ -483,9 +483,16 @@ is_eq f? s s
is_ne f? s s
#
-# Putting things.
+# Putting tuples.
+#
+# Code compiled with OTP 22 and later uses put_tuple2 to
+# to construct a tuple.
+#
+# Code compiled before OTP 22 uses put_tuple + one put instruction
+# per element. Translate to put_tuple2.
#
+i_put_tuple/2
put_tuple Arity Dst => i_put_tuple Dst u
i_put_tuple Dst Arity Puts=* | put S1 | put S2 | \
@@ -495,11 +502,13 @@ i_put_tuple Dst Arity Puts=* | put S1 | put S2 | \
i_put_tuple Dst Arity Puts=* | put S => \
tuple_append_put(Arity, Dst, Puts, S)
-i_put_tuple/2
+i_put_tuple Dst Arity Puts=* => put_tuple2 Dst Arity Puts
-i_put_tuple xy I
+put_tuple2 xy I
#
+# Putting lists.
+#
# The instruction "put_list Const [] Dst" were generated in rare
# circumstances up to and including OTP 18. Starting with OTP 19,
# AFAIK, it should never be generated.
@@ -710,11 +719,12 @@ is_boolean Fail=f ac => jump Fail
is_boolean f? xy
%hot
-is_function2 Fail=f Literal=q Arity | literal_is_export(Literal) =>
-is_function2 Fail=f c Arity => jump Fail
-is_function2 Fail=f Fun a => jump Fail
+is_function2 Fail=f Fun Arity => gen_is_function2(Fail, Fun, Arity)
-is_function2 f? S s
+%cold
+cold_is_function2 f? x x
+%hot
+hot_is_function2 f? S t
# Allocating & initializing.
allocate Need Regs | init Y => allocate_init Need Regs Y
@@ -993,10 +1003,11 @@ bif1 Fail Bif=u$bif:erlang:get/1 Src=s Dst=d => gen_get(Src, Dst)
bif2 Jump=j u$bif:erlang:element/2 S1=s S2=xy Dst=d => gen_element(Jump, S1, S2, Dst)
-bif1 p Bif S1 Dst => bif1_body Bif S1 Dst
+bif1 p Bif S1 Dst => i_bif1_body S1 Bif Dst
+bif1 Fail=f Bif S1 Dst => i_bif1 S1 Fail Bif Dst
-bif2 p Bif S1 S2 Dst => i_bif2_body Bif S1 S2 Dst
-bif2 Fail Bif S1 S2 Dst => i_bif2 Fail Bif S1 S2 Dst
+bif2 p Bif S1 S2 Dst => i_bif2_body S2 S1 Bif Dst
+bif2 Fail=f Bif S1 S2 Dst => i_bif2 S2 S1 Fail Bif Dst
i_get_hash c I d
i_get s d
@@ -1014,10 +1025,12 @@ i_fast_element xy j? I d
i_element xy j? s d
-bif1 f? b s d
-bif1_body b s d
-i_bif2 f? b s s d
-i_bif2_body b s s d
+i_bif1 s f? b d
+i_bif1_body s b d
+i_bif2 s s f? b d
+i_bif2_body s s b d
+i_bif3 s s s f? b d
+i_bif3_body s s s b d
#
# Internal calls.
@@ -1080,67 +1093,73 @@ func_info M F A => i_func_info u M F A
%warm
bs_start_match2 Fail=f ica X Y D => jump Fail
bs_start_match2 Fail Bin X Y D => i_bs_start_match2 Bin Fail X Y D
-i_bs_start_match2 xy f t t x
+i_bs_start_match2 xy f t t d
bs_save2 Reg Index => gen_bs_save(Reg, Index)
-i_bs_save2 x t
+i_bs_save2 xy t
bs_restore2 Reg Index => gen_bs_restore(Reg, Index)
-i_bs_restore2 x t
+i_bs_restore2 xy t
# Matching integers
bs_match_string Fail Ms Bits Val => i_bs_match_string Ms Fail Bits Val
-i_bs_match_string x f W W
+i_bs_match_string xy f W W
# Fetching integers from binaries.
-bs_get_integer2 Fail=f Ms=x Live=u Sz=sq Unit=u Flags=u Dst=d => \
+bs_get_integer2 Fail=f Ms=xy Live=u Sz=sq Unit=u Flags=u Dst=d => \
gen_get_integer2(Fail, Ms, Live, Sz, Unit, Flags, Dst)
-i_bs_get_integer_small_imm x W f? t x
-i_bs_get_integer_imm x W t f? t x
-i_bs_get_integer f? t t x s x
-i_bs_get_integer_8 x f? x
-i_bs_get_integer_16 x f? x
+i_bs_get_integer_small_imm Ms Bits Fail Flags Y=y => \
+ i_bs_get_integer_small_imm Ms Bits Fail Flags x | move x Y
+
+i_bs_get_integer_imm Ms Bits Live Fail Flags Y=y => \
+ i_bs_get_integer_imm Ms Bits Live Fail Flags x | move x Y
+
+i_bs_get_integer_small_imm xy W f? t x
+i_bs_get_integer_imm xy W t f? t x
+i_bs_get_integer f? t t xy s d
+i_bs_get_integer_8 xy f? d
+i_bs_get_integer_16 xy f? d
%if ARCH_64
-i_bs_get_integer_32 x f? x
+i_bs_get_integer_32 xy f? d
%endif
# Fetching binaries from binaries.
-bs_get_binary2 Fail=f Ms=x Live=u Sz=sq Unit=u Flags=u Dst=d => \
+bs_get_binary2 Fail=f Ms=xy Live=u Sz=sq Unit=u Flags=u Dst=d => \
gen_get_binary2(Fail, Ms, Live, Sz, Unit, Flags, Dst)
-i_bs_get_binary_imm2 f? x t W t x
-i_bs_get_binary2 f x t? s t x
-i_bs_get_binary_all2 f? x t t x
-i_bs_get_binary_all_reuse x f? t
+i_bs_get_binary_imm2 f? xy t W t d
+i_bs_get_binary2 f xy t? s t d
+i_bs_get_binary_all2 f? xy t t d
+i_bs_get_binary_all_reuse xy f? t
# Fetching float from binaries.
-bs_get_float2 Fail=f Ms=x Live=u Sz=s Unit=u Flags=u Dst=d => \
+bs_get_float2 Fail=f Ms=xy Live=u Sz=s Unit=u Flags=u Dst=d => \
gen_get_float2(Fail, Ms, Live, Sz, Unit, Flags, Dst)
bs_get_float2 Fail=f Ms=x Live=u Sz=q Unit=u Flags=u Dst=d => jump Fail
-i_bs_get_float2 f? x t s t x
+i_bs_get_float2 f? xy t s t d
# Miscellanous
-bs_skip_bits2 Fail=f Ms=x Sz=sq Unit=u Flags=u => \
+bs_skip_bits2 Fail=f Ms=xy Sz=sq Unit=u Flags=u => \
gen_skip_bits2(Fail, Ms, Sz, Unit, Flags)
-i_bs_skip_bits_imm2 f? x W
-i_bs_skip_bits2 f? x xy t
-i_bs_skip_bits_all2 f? x t
+i_bs_skip_bits_imm2 f? xy W
+i_bs_skip_bits2 f? xy xy t
+i_bs_skip_bits_all2 f? xy t
-bs_test_tail2 Fail=f Ms=x Bits=u==0 => bs_test_zero_tail2 Fail Ms
-bs_test_tail2 Fail=f Ms=x Bits=u => bs_test_tail_imm2 Fail Ms Bits
-bs_test_zero_tail2 f? x
-bs_test_tail_imm2 f? x W
+bs_test_tail2 Fail=f Ms=xy Bits=u==0 => bs_test_zero_tail2 Fail Ms
+bs_test_tail2 Fail=f Ms=xy Bits=u => bs_test_tail_imm2 Fail Ms Bits
+bs_test_zero_tail2 f? xy
+bs_test_tail_imm2 f? xy W
bs_test_unit F Ms Unit=u==8 => bs_test_unit8 F Ms
-bs_test_unit f? x t
-bs_test_unit8 f? x
+bs_test_unit f? xy t
+bs_test_unit8 f? xy
# An y register operand for bs_context_to_binary is rare,
# but can happen because of inlining.
@@ -1152,23 +1171,55 @@ bs_context_to_binary Y=y => move Y x | bs_context_to_binary x
bs_context_to_binary x
+# Gets a bitstring from the tail of a context.
+bs_get_tail xy d t
+
+# New bs_start_match variant for contexts with external position storage.
+#
+# bs_get/set_position is used to save positions into registers instead of
+# "slots" in the context itself, which lets us continue matching even after
+# we've passed it off to another function.
+
+%if ARCH_64
+bs_start_match3 Fail Bin Live Ctx | bs_get_position Ctx Pos=x Ignored => \
+ i_bs_start_match3_gp Bin Live Fail Ctx Pos
+i_bs_start_match3_gp xy t f d x
+%endif
+
+bs_start_match3 Fail=f ica Live Dst => jump Fail
+bs_start_match3 Fail Bin Live Dst => i_bs_start_match3 Bin Live Fail Dst
+
+i_bs_start_match3 xy t f d
+
+# Match context position instructions. 64-bit assumes that all positions can
+# fit into an unsigned small.
+
+%if ARCH_64
+ bs_get_position Src Dst Live => i_bs_get_position Src Dst
+ i_bs_get_position xy xy
+ bs_set_position xy xy
+%else
+ bs_get_position xy d t?
+ bs_set_position xy xy
+%endif
+
#
# Utf8/utf16/utf32 support. (R12B-5)
#
-bs_get_utf8 Fail=f Ms=x u u Dst=d => i_bs_get_utf8 Ms Fail Dst
-i_bs_get_utf8 x f? x
+bs_get_utf8 Fail=f Ms=xy u u Dst=d => i_bs_get_utf8 Ms Fail Dst
+i_bs_get_utf8 xy f? d
-bs_skip_utf8 Fail=f Ms=x u u => i_bs_get_utf8 Ms Fail x
+bs_skip_utf8 Fail=f Ms=xy u u => i_bs_get_utf8 Ms Fail x
-bs_get_utf16 Fail=f Ms=x u Flags=u Dst=d => i_bs_get_utf16 Ms Fail Flags Dst
-bs_skip_utf16 Fail=f Ms=x u Flags=u => i_bs_get_utf16 Ms Fail Flags x
+bs_get_utf16 Fail=f Ms=xy u Flags=u Dst=d => i_bs_get_utf16 Ms Fail Flags Dst
+bs_skip_utf16 Fail=f Ms=xy u Flags=u => i_bs_get_utf16 Ms Fail Flags x
-i_bs_get_utf16 x f? t x
+i_bs_get_utf16 xy f? t d
-bs_get_utf32 Fail=f Ms=x Live=u Flags=u Dst=d => \
+bs_get_utf32 Fail=f Ms=xy Live=u Flags=u Dst=d => \
bs_get_integer2 Fail Ms Live i=32 u=1 Flags Dst | \
i_bs_validate_unicode_retract Fail Dst Ms
-bs_skip_utf32 Fail=f Ms=x Live=u Flags=u => \
+bs_skip_utf32 Fail=f Ms=xy Live=u Flags=u => \
bs_get_integer2 Fail Ms Live i=32 u=1 Flags x | \
i_bs_validate_unicode_retract Fail x Ms
@@ -1182,6 +1233,9 @@ i_bs_validate_unicode_retract j s S
bs_init2 Fail Sz Words Regs Flags Dst | binary_too_big(Sz) => system_limit Fail
+bs_init2 Fail Sz Words Regs Flags Dst=y => \
+ bs_init2 Fail Sz Words Regs Flags x | move x Dst
+
bs_init2 Fail Sz=u Words=u==0 Regs Flags Dst => i_bs_init Sz Regs Dst
bs_init2 Fail Sz=u Words Regs Flags Dst => \
@@ -1202,6 +1256,8 @@ i_bs_init_heap W I t? x
bs_init_bits Fail Sz=o Words Regs Flags Dst => system_limit Fail
+bs_init_bits Fail Sz Words Regs Flags Dst=y => \
+ bs_init_bits Fail Sz Words Regs Flags x | move x Dst
bs_init_bits Fail Sz=u Words=u==0 Regs Flags Dst => i_bs_init_bits Sz Regs Dst
bs_init_bits Fail Sz=u Words Regs Flags Dst => i_bs_init_bits_heap Sz Words Regs Dst
@@ -1230,7 +1286,7 @@ bs_private_append Fail Size Unit Bin Flags Dst => \
bs_init_writable
-i_bs_append j? I t? t s x
+i_bs_append j? I t? t s xy
i_bs_private_append j? t s S x
#
@@ -1447,80 +1503,80 @@ gc_bif2 Fail Live u$bif:erlang:sminus/2 S1 S2 Dst => \
#
# Optimize addition and subtraction of small literals using
-# the i_increment/4 instruction (in bodies, not in guards).
+# the i_increment/3 instruction (in bodies, not in guards).
#
gen_plus p Live Int=i Reg=d Dst => \
- gen_increment(Reg, Int, Live, Dst)
+ gen_increment(Reg, Int, Dst)
gen_plus p Live Reg=d Int=i Dst => \
- gen_increment(Reg, Int, Live, Dst)
+ gen_increment(Reg, Int, Dst)
gen_minus p Live Reg=d Int=i Dst | negation_is_small(Int) => \
- gen_increment_from_minus(Reg, Int, Live, Dst)
+ gen_increment_from_minus(Reg, Int, Dst)
#
-# GCing arithmetic instructions.
+# Arithmetic instructions.
#
-gen_plus Fail Live S1 S2 Dst => i_plus S1 S2 Fail Live Dst
+gen_plus Fail Live S1 S2 Dst => i_plus S1 S2 Fail Dst
-gen_minus Fail Live S1 S2 Dst => i_minus S1 S2 Fail Live Dst
+gen_minus Fail Live S1 S2 Dst => i_minus S1 S2 Fail Dst
gc_bif2 Fail Live u$bif:erlang:stimes/2 S1 S2 Dst => \
- i_times Fail Live S1 S2 Dst
+ i_times Fail S1 S2 Dst
gc_bif2 Fail Live u$bif:erlang:div/2 S1 S2 Dst => \
- i_m_div Fail Live S1 S2 Dst
+ i_m_div Fail S1 S2 Dst
gc_bif2 Fail Live u$bif:erlang:intdiv/2 S1 S2 Dst => \
- i_int_div Fail Live S1 S2 Dst
+ i_int_div Fail S1 S2 Dst
gc_bif2 Fail Live u$bif:erlang:rem/2 S1 S2 Dst => \
- i_rem S1 S2 Fail Live Dst
+ i_rem S1 S2 Fail Dst
gc_bif2 Fail Live u$bif:erlang:bsl/2 S1 S2 Dst => \
- i_bsl S1 S2 Fail Live Dst
+ i_bsl S1 S2 Fail Dst
gc_bif2 Fail Live u$bif:erlang:bsr/2 S1 S2 Dst => \
- i_bsr S1 S2 Fail Live Dst
+ i_bsr S1 S2 Fail Dst
gc_bif2 Fail Live u$bif:erlang:band/2 S1 S2 Dst => \
- i_band S1 S2 Fail Live Dst
+ i_band S1 S2 Fail Dst
gc_bif2 Fail Live u$bif:erlang:bor/2 S1 S2 Dst => \
- i_bor Fail Live S1 S2 Dst
+ i_bor Fail S1 S2 Dst
gc_bif2 Fail Live u$bif:erlang:bxor/2 S1 S2 Dst => \
- i_bxor Fail Live S1 S2 Dst
+ i_bxor Fail S1 S2 Dst
-gc_bif1 Fail I u$bif:erlang:bnot/1 Src Dst=d => i_int_bnot Fail Src I Dst
+gc_bif1 Fail Live u$bif:erlang:bnot/1 Src Dst=d => i_int_bnot Fail Src Dst
-i_increment rxy W t d
+i_increment rxy W d
-i_plus x xy j? t d
-i_plus s s j? t d
+i_plus x xy j? d
+i_plus s s j? d
-i_minus x x j? t d
-i_minus s s j? t d
+i_minus x x j? d
+i_minus s s j? d
-i_times j? t s s d
+i_times j? s s d
-i_m_div j? t s s d
-i_int_div j? t s s d
+i_m_div j? s s d
+i_int_div j? s s d
-i_rem x x j? t d
-i_rem s s j? t d
+i_rem x x j? d
+i_rem s s j? d
-i_bsl s s j? t d
-i_bsr s s j? t d
+i_bsl s s j? d
+i_bsr s s j? d
-i_band x c j? t d
-i_band s s j? t d
+i_band x c j? d
+i_band s s j? d
-i_bor j? I s s d
-i_bxor j? I s s d
+i_bor j? s s d
+i_bxor j? s s d
-i_int_bnot Fail Src=c Live Dst => move Src x | i_int_bnot Fail x Live Dst
+i_int_bnot Fail Src=c Dst => move Src x | i_int_bnot Fail x Dst
-i_int_bnot j? S t d
+i_int_bnot j? S d
#
# Old guard BIFs that creates heap fragments are no longer allowed.
@@ -1533,29 +1589,27 @@ bif1 Fail u$bif:erlang:round/1 s d => too_old_compiler
bif1 Fail u$bif:erlang:trunc/1 s d => too_old_compiler
#
-# Guard BIFs.
+# Handle the length/1 guard BIF specially to make it trappable.
#
-gc_bif1 Fail I Bif Src Dst => \
- gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif2 Fail I Bif S1 S2 Dst => \
- gen_guard_bif2(Fail, I, Bif, S1, S2, Dst)
-gc_bif3 Fail I Bif S1 S2 S3 Dst => \
- gen_guard_bif3(Fail, I, Bif, S1, S2, S3, Dst)
+gc_bif1 Fail=j Live u$bif:erlang:length/1 Src Dst => \
+ i_length_setup Live Src | i_length Fail Live Dst
-i_gc_bif1 j? W s t? d
+i_length_setup t xyc
-i_gc_bif2 j? W t? s s d
+i_length j? t d
-ii_gc_bif3/7
+#
+# Guard BIFs.
+#
+gc_bif1 p Live Bif Src Dst => i_bif1_body Src Bif Dst
+gc_bif1 Fail=f Live Bif Src Dst => i_bif1 Src Fail Bif Dst
-# A specific instruction can only have 6 operands, so we must
-# pass one of the arguments in an x register.
-ii_gc_bif3 Fail Bif Live S1 S2 S3 Dst => \
- move S1 x | i_gc_bif3 Fail Bif Live S2 S3 Dst
+gc_bif2 p Live Bif S1 S2 Dst => i_bif2_body S2 S1 Bif Dst
+gc_bif2 Fail=f Live Bif S1 S2 Dst => i_bif2 S2 S1 Fail Bif Dst
-i_gc_bif3 j? W t? s s d
+gc_bif3 p Live Bif S1 S2 S3 Dst => i_bif3_body S3 S2 S1 Bif Dst
+gc_bif3 Fail=f Live Bif S1 S2 S3 Dst => i_bif3 S3 S2 S1 Fail Bif Dst
#
# The following instruction is specially handled in beam_load.c
diff --git a/erts/emulator/beam/utils.c b/erts/emulator/beam/utils.c
index a231638b50..1e7b494a91 100644
--- a/erts/emulator/beam/utils.c
+++ b/erts/emulator/beam/utils.c
@@ -1569,7 +1569,7 @@ make_hash2(Eterm term)
* MUST BE USED AS INPUT FOR THE HASH. Two different terms must always have a
* chance of hashing different when salted: hash([Salt|A]) vs hash([Salt|B]).
*
- * This is why we can not use cached hash values for atoms for example.
+ * This is why we cannot use cached hash values for atoms for example.
*
*/