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-rw-r--r--erts/configure.in47
-rw-r--r--erts/emulator/Makefile.in12
-rw-r--r--erts/emulator/beam/beam_bp.c19
-rw-r--r--erts/emulator/beam/beam_debug.c44
-rw-r--r--erts/emulator/beam/beam_emu.c39
-rw-r--r--erts/emulator/beam/beam_load.c43
-rw-r--r--erts/emulator/beam/erl_vm.h11
-rw-r--r--erts/emulator/beam/macros.tab2
-rw-r--r--erts/emulator/beam/ops.tab265
-rwxr-xr-xerts/emulator/utils/beam_makeops486
10 files changed, 648 insertions, 320 deletions
diff --git a/erts/configure.in b/erts/configure.in
index 9dec562f33..508e99a415 100644
--- a/erts/configure.in
+++ b/erts/configure.in
@@ -2766,6 +2766,20 @@ if test X${enable_hipe} = Xyes && test X$ARCH = Xamd64; then
LDFLAGS=$saved_LDFLAGS])])])
fi
+if test X${enable_hipe} = Xyes; then
+ case $OPSYS in
+ linux)
+ ppcBEAMLDFLAGS="-Wl,-m,elf32ppc"
+ ppc64BEAMLDFLAGS="-Wl,-m,elf64ppc,-T,hipe/elf64ppc.x"
+ ;;
+ darwin)
+ amd64BEAMLDFLAGS="-pagezero_size 0x10000000"
+ ;;
+ esac
+ archVarName="${ARCH}BEAMLDFLAGS"
+ eval HIPEBEAMLDFLAGS=\$$archVarName
+fi
+AC_SUBST(HIPEBEAMLDFLAGS)
if test X${enable_fp_exceptions} = Xauto ; then
case $host_os in
@@ -3760,6 +3774,39 @@ dnl
LM_FIND_EMU_CC
dnl
+dnl Test whether code pointers are always short (32 bits).
+dnl
+
+AC_MSG_CHECKING([whether the code model is small])
+saved_LDFLAGS="$LDFLAGS"
+LDFLAGS="$LDFLAGS $HIPEBEAMLDFLAGS"
+AC_TRY_RUN([
+ #include <stdlib.h>
+ int main() {
+ if ((unsigned long long)&main < (1ull << 32)) {
+ exit(0);
+ }
+ exit(1);
+ }
+],
+erl_code_model_small=yes,
+erl_code_model_small=no,
+erl_code_model_small=no)
+AC_MSG_RESULT([$erl_code_model_small])
+LDFLAGS="$saved_LDFLAGS"
+case $erl_code_model_small in
+ yes)
+ AC_DEFINE(CODE_MODEL_SMALL,[1],
+ [Define if the code model is small (code fits below 2Gb)])
+ CODE_MODEL=small
+ ;;
+ no)
+ CODE_MODEL=unknown
+ ;;
+esac
+AC_SUBST(CODE_MODEL)
+
+dnl
dnl DTrace & LTTNG
dnl
case $DYNAMIC_TRACE_FRAMEWORK in
diff --git a/erts/emulator/Makefile.in b/erts/emulator/Makefile.in
index eb39c5e4ec..297c64de49 100644
--- a/erts/emulator/Makefile.in
+++ b/erts/emulator/Makefile.in
@@ -240,16 +240,7 @@ ARCH=@ARCH@
ultrasparcCFLAGS=-Wa,-xarch=v8plusa
ARCHCFLAGS=$($(ARCH)CFLAGS)
-ifdef HIPE_ENABLED
-ifeq ($(OPSYS),linux)
-ppcBEAMLDFLAGS=-Wl,-m,elf32ppc
-ppc64BEAMLDFLAGS=-Wl,-m,elf64ppc,-T,hipe/elf64ppc.x
-endif
-ifeq ($(OPSYS),darwin)
-amd64BEAMLDFLAGS=-pagezero_size 0x10000000
-endif
-HIPEBEAMLDFLAGS=$($(ARCH)BEAMLDFLAGS)
-endif
+HIPEBEAMLDFLAGS=@HIPEBEAMLDFLAGS@
ERTS_BUILD_FALLBACK_POLL=@ERTS_BUILD_FALLBACK_POLL@
@@ -577,6 +568,7 @@ $(TTF_DIR)/beam_tr_funcs.h \
$(TTF_DIR)/OPCODES-GENERATED: $(OPCODE_TABLES) utils/beam_makeops
$(gen_verbose)LANG=C $(PERL) utils/beam_makeops \
-wordsize @EXTERNAL_WORD_SIZE@ \
+ -code-model @CODE_MODEL@ \
-outdir $(TTF_DIR) \
-DUSE_VM_PROBES=$(if $(USE_VM_PROBES),1,0) \
-DNO_FPE_SIGNALS=$(if $filter(unreliable,$(FPE)),1,0) \
diff --git a/erts/emulator/beam/beam_bp.c b/erts/emulator/beam/beam_bp.c
index c81380c14d..871670e8c3 100644
--- a/erts/emulator/beam/beam_bp.c
+++ b/erts/emulator/beam/beam_bp.c
@@ -419,9 +419,11 @@ erts_install_breakpoints(BpFunctions* f)
for (i = 0; i < n; i++) {
ErtsCodeInfo* ci = f->matching[i].ci;
- BeamInstr *pc = erts_codeinfo_to_code(ci);
GenericBp* g = ci->u.gen_bp;
- if (*pc != br && g) {
+ BeamInstr volatile *pc = erts_codeinfo_to_code(ci);
+ BeamInstr instr = *pc;
+
+ if (!BeamIsOpCode(instr, op_i_generic_breakpoint) && g) {
Module* modp = f->matching[i].mod;
/*
@@ -435,11 +437,16 @@ erts_install_breakpoints(BpFunctions* f)
/*
* The following write is not protected by any lock. We
* assume that the hardware guarantees that a write of an
- * aligned word-size (or half-word) writes is atomic
- * (i.e. that other processes executing this code will not
- * see a half pointer).
+ * aligned word-size writes is atomic (i.e. that other
+ * processes executing this code will not see a half
+ * pointer).
+ *
+ * The contents of *pc is marked 'volatile' to ensure that
+ * the compiler will do a single full-word write, and not
+ * try any fancy optimizations to write a half word.
*/
- *pc = br;
+ instr = BeamSetCodeAddr(instr, br);
+ *pc = instr;
modp->curr.num_breakpoints++;
}
}
diff --git a/erts/emulator/beam/beam_debug.c b/erts/emulator/beam/beam_debug.c
index 0f332da63f..70078c8c59 100644
--- a/erts/emulator/beam/beam_debug.c
+++ b/erts/emulator/beam/beam_debug.c
@@ -201,7 +201,7 @@ void debug_dump_code(BeamInstr *I, int num)
for (i = 0; i < NUM_SPECIFIC_OPS; i++) {
if (BeamIsOpCode(instr, i) && opc[i].name[0] != '\0') {
code_ptr += print_op(ERTS_PRINT_DSBUF, (void *) dsbufp,
- i, opc[i].sz-1, code_ptr+1) + 1;
+ i, opc[i].sz-1, code_ptr) + 1;
break;
}
}
@@ -321,7 +321,7 @@ erts_debug_disassemble_1(BIF_ALIST_1)
for (i = 0; i < NUM_SPECIFIC_OPS; i++) {
if (BeamIsOpCode(instr, i) && opc[i].name[0] != '\0') {
code_ptr += print_op(ERTS_PRINT_DSBUF, (void *) dsbufp,
- i, opc[i].sz-1, code_ptr+1) + 1;
+ i, opc[i].sz-1, code_ptr) + 1;
break;
}
}
@@ -405,8 +405,11 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
* Avoid copying because instructions containing bignum operands
* are bigger than actually declared.
*/
- ap = (BeamInstr *) addr;
+ addr++;
+ ap = addr;
} else {
+ BeamInstr instr_word = addr++[0];
+
/*
* Copy all arguments to a local buffer for the unpacking.
*/
@@ -431,23 +434,22 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
case 'q':
*ap++ = *--sp;
break;
- case 'i': /* Initialize packing accumulator. */
- *ap++ = packed;
- break;
- case 's':
- *ap++ = packed & 0x3ff;
- packed >>= 10;
+#ifdef ARCH_64
+ case '1': /* Tightest shift */
+ *ap++ = (packed & BEAM_TIGHTEST_MASK) << 3;
+ packed >>= BEAM_TIGHTEST_SHIFT;
break;
- case '0': /* Tight shift */
+#endif
+ case '2': /* Tight shift */
*ap++ = packed & BEAM_TIGHT_MASK;
packed >>= BEAM_TIGHT_SHIFT;
break;
- case '6': /* Shift 16 steps */
+ case '3': /* Loose shift */
*ap++ = packed & BEAM_LOOSE_MASK;
packed >>= BEAM_LOOSE_SHIFT;
break;
#ifdef ARCH_64
- case 'w': /* Shift 32 steps */
+ case '4': /* Shift 32 steps */
*ap++ = packed & BEAM_WIDE_MASK;
packed >>= BEAM_WIDE_SHIFT;
break;
@@ -458,8 +460,18 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
case 'P':
packed = *--sp;
break;
+#if defined(ARCH_64) && defined(CODE_MODEL_SMALL)
+ case '#': /* -1 */
+ case '$': /* -2 */
+ case '%': /* -3 */
+ case '&': /* -4 */
+ case '\'': /* -5 */
+ case '(': /* -6 */
+ packed = (packed << BEAM_WIDE_SHIFT) | BeamExtraData(instr_word);
+ break;
+#endif
default:
- ASSERT(0);
+ erts_exit(ERTS_ERROR_EXIT, "beam_debug: invalid packing op: %c\n", *prog);
}
}
ap = args;
@@ -744,7 +756,7 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
erts_print(to, to_arg, " x(%d)", loader_x_reg_index(ap[0]));
break;
case LOADER_Y_REG:
- erts_print(to, to_arg, " x(%d)", loader_y_reg_index(ap[0]));
+ erts_print(to, to_arg, " y(%d)", loader_y_reg_index(ap[0]) - CP_SIZE);
break;
default:
erts_print(to, to_arg, " %T", (Eterm) ap[0]);
@@ -765,7 +777,7 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
erts_print(to, to_arg, " x(%d)", loader_x_reg_index(ap[0]));
break;
case LOADER_Y_REG:
- erts_print(to, to_arg, " x(%d)", loader_y_reg_index(ap[0]));
+ erts_print(to, to_arg, " y(%d)", loader_y_reg_index(ap[0]) - CP_SIZE);
break;
default:
erts_print(to, to_arg, " %T", (Eterm) ap[0]);
@@ -788,7 +800,7 @@ print_op(fmtfn_t to, void *to_arg, int op, int size, BeamInstr* addr)
erts_print(to, to_arg, " x(%d)", loader_x_reg_index(ap[0]));
break;
case LOADER_Y_REG:
- erts_print(to, to_arg, " y(%d)", loader_y_reg_index(ap[0]));
+ erts_print(to, to_arg, " y(%d)", loader_y_reg_index(ap[0]) - CP_SIZE);
break;
default:
erts_print(to, to_arg, " %T", (Eterm) ap[0]);
diff --git a/erts/emulator/beam/beam_emu.c b/erts/emulator/beam/beam_emu.c
index 9a77c63390..aa94fbf536 100644
--- a/erts/emulator/beam/beam_emu.c
+++ b/erts/emulator/beam/beam_emu.c
@@ -50,14 +50,16 @@
#if defined(NO_JUMP_TABLE)
# define OpCase(OpCode) case op_##OpCode
# define CountCase(OpCode) case op_count_##OpCode
-# define IsOpCode(InstrWord, OpCode) ((InstrWord) == (BeamInstr)op_##OpCode)
-# define Goto(Rel) {Go = (Rel); goto emulator_loop;}
+# define IsOpCode(InstrWord, OpCode) (BeamCodeAddr(InstrWord) == (BeamInstr)op_##OpCode)
+# define Goto(Rel) {Go = BeamCodeAddr(Rel); goto emulator_loop;}
+# define GotoPF(Rel) Goto(Rel)
#else
# define OpCase(OpCode) lb_##OpCode
# define CountCase(OpCode) lb_count_##OpCode
-# define IsOpCode(InstrWord, OpCode) ((InstrWord) == (BeamInstr)&&lb_##OpCode)
-# define Goto(Rel) goto *((void *)Rel)
-# define LabelAddr(Label) &&Label
+# define IsOpCode(InstrWord, OpCode) (BeamCodeAddr(InstrWord) == (BeamInstr)&&lb_##OpCode)
+# define Goto(Rel) goto *((void *)BeamCodeAddr(Rel))
+# define GotoPF(Rel) goto *((void *)Rel)
+# define LabelAddr(Label) &&Label
#endif
#ifdef ERTS_ENABLE_LOCK_CHECK
@@ -131,11 +133,11 @@ do { \
/* We don't check the range if an ordinary switch is used */
#ifdef NO_JUMP_TABLE
-#define VALID_INSTR(IP) ((UWord)(IP) < (NUMBER_OF_OPCODES*2+10))
+# define VALID_INSTR(IP) (BeamCodeAddr(IP) < (NUMBER_OF_OPCODES*2+10))
#else
-#define VALID_INSTR(IP) \
- ((SWord)LabelAddr(emulator_loop) <= (SWord)(IP) && \
- (SWord)(IP) < (SWord)LabelAddr(end_emulator_loop))
+# define VALID_INSTR(IP) \
+ ((BeamInstr)LabelAddr(emulator_loop) <= BeamCodeAddr(IP) && \
+ BeamCodeAddr(IP) < (BeamInstr)LabelAddr(end_emulator_loop))
#endif /* NO_JUMP_TABLE */
#define SET_CP(p, ip) \
@@ -234,15 +236,18 @@ void** beam_ops;
#define fb(N) ((Sint)(Sint32)(N))
#define jb(N) ((Sint)(Sint32)(N))
#define tb(N) (N)
-#define xb(N) (*(Eterm *) (((unsigned char *)reg) + (N)))
-#define yb(N) (*(Eterm *) (((unsigned char *)E) + (N)))
+#define xb(N) (*ADD_BYTE_OFFSET(reg, N))
+#define yb(N) (*ADD_BYTE_OFFSET(E, N))
#define Sb(N) (*REG_TARGET_PTR(N))
#define lb(N) (*(double *) (((unsigned char *)&(freg[0].fd)) + (N)))
#define Qb(N) (N)
#define Ib(N) (N)
+
#define x(N) reg[N]
#define y(N) E[N]
#define r(N) x(N)
+#define Q(N) (N*sizeof(Eterm *))
+#define l(N) (freg[N].fd)
/*
* Check that we haven't used the reductions and jump to function pointed to by
@@ -1006,6 +1011,18 @@ init_emulator_finish(void)
int i;
Export* ep;
+#if defined(ARCH_64) && defined(CODE_MODEL_SMALL)
+ for (i = 0; i < NUMBER_OF_OPCODES; i++) {
+ BeamInstr instr = BeamOpCodeAddr(i);
+ if (instr >= (1ull << 32)) {
+ erts_exit(ERTS_ERROR_EXIT,
+ "This run-time was supposed be compiled with all code below 2Gb,\n"
+ "but the instruction '%s' is located at %016lx.\n",
+ opc[i].name, instr);
+ }
+ }
+#endif
+
beam_apply[0] = BeamOpCodeAddr(op_i_apply);
beam_apply[1] = BeamOpCodeAddr(op_normal_exit);
beam_exit[0] = BeamOpCodeAddr(op_error_action_code);
diff --git a/erts/emulator/beam/beam_load.c b/erts/emulator/beam/beam_load.c
index 9835b1c096..00dd28b26c 100644
--- a/erts/emulator/beam/beam_load.c
+++ b/erts/emulator/beam/beam_load.c
@@ -2578,23 +2578,31 @@ load_code(LoaderState* stp)
sp++;
}
break;
- case 'i': /* Initialize packing accumulator. */
- packed = code[--ci];
+#ifdef ARCH_64
+ case '1': /* Tightest shift (always 10 bits) */
+ ci--;
+ ASSERT((code[ci] & ~0x1FF8ull) == 0); /* Fits in 10 bits */
+ packed = (packed << BEAM_TIGHTEST_SHIFT);
+ packed |= code[ci] >> 3;
+ if (packed_label) {
+ packed_label->packed++;
+ }
break;
- case '0': /* Tight shift */
+#endif
+ case '2': /* Tight shift (10 or 16 bits) */
packed = (packed << BEAM_TIGHT_SHIFT) | code[--ci];
if (packed_label) {
packed_label->packed++;
}
break;
- case '6': /* Shift 16 steps */
+ case '3': /* Loose shift (16 bits) */
packed = (packed << BEAM_LOOSE_SHIFT) | code[--ci];
if (packed_label) {
packed_label->packed++;
}
break;
#ifdef ARCH_64
- case 'w': /* Shift 32 steps */
+ case '4': /* Wide shift (32 bits) */
{
Uint w = code[--ci];
@@ -2646,8 +2654,31 @@ load_code(LoaderState* stp)
sp++;
packed = 0;
break;
+#if defined(ARCH_64) && defined(CODE_MODEL_SMALL)
+ case '#': /* -1 */
+ case '$': /* -2 */
+ case '%': /* -3 */
+ case '&': /* -4 */
+ case '\'': /* -5 */
+ case '(': /* -6 */
+ /* Pack accumulator contents into instruction word. */
+ {
+ Sint pos = ci - (*prog - '#' + 1);
+ /* Are the high 32 bits of the instruction word zero? */
+ ASSERT((code[pos] & ~((1ull << BEAM_WIDE_SHIFT)-1)) == 0);
+ code[pos] |= packed << BEAM_WIDE_SHIFT;
+ if (packed_label) {
+ ASSERT(packed_label->packed == 1);
+ packed_label->pos = pos;
+ packed_label->packed = 2;
+ packed_label = 0;
+ }
+ packed >>= BEAM_WIDE_SHIFT;
+ }
+ break;
+#endif
default:
- ASSERT(0);
+ erts_exit(ERTS_ERROR_EXIT, "beam_load: invalid packing op: %c\n", *prog);
}
}
ASSERT(sp == stack); /* Incorrect program? */
diff --git a/erts/emulator/beam/erl_vm.h b/erts/emulator/beam/erl_vm.h
index 661538eadd..76980b5871 100644
--- a/erts/emulator/beam/erl_vm.h
+++ b/erts/emulator/beam/erl_vm.h
@@ -209,6 +209,15 @@ extern void** beam_ops;
# define BeamOpCodeAddr(OpCode) ((BeamInstr)beam_ops[(OpCode)])
#endif
-#define BeamIsOpCode(InstrWord, OpCode) ((InstrWord) == BeamOpCodeAddr(OpCode))
+#if defined(ARCH_64) && defined(CODE_MODEL_SMALL)
+# define BeamCodeAddr(InstrWord) ((BeamInstr)(Uint32)(InstrWord))
+# define BeamSetCodeAddr(InstrWord, Addr) (((InstrWord) & ~((1ull << 32)-1)) | (Addr))
+# define BeamExtraData(InstrWord) ((InstrWord) >> 32)
+#else
+# define BeamCodeAddr(InstrWord) ((BeamInstr)(InstrWord))
+# define BeamSetCodeAddr(InstrWord, Addr) (Addr)
+#endif
+
+#define BeamIsOpCode(InstrWord, OpCode) (BeamCodeAddr(InstrWord) == BeamOpCodeAddr(OpCode))
#endif /* __ERL_VM_H__ */
diff --git a/erts/emulator/beam/macros.tab b/erts/emulator/beam/macros.tab
index 0d175a7ec6..e0b5f56b53 100644
--- a/erts/emulator/beam/macros.tab
+++ b/erts/emulator/beam/macros.tab
@@ -38,7 +38,7 @@ REFRESH_GEN_DEST() {
// zero, except in a few bit syntax instructions.)
SET_I_REL(Offset) {
- ASSERT(VALID_INSTR(*(I + ($Offset))));
+ ASSERT(VALID_INSTR(*(I + ($Offset) + $IP_ADJUSTMENT)));
I += $Offset + $IP_ADJUSTMENT;
}
diff --git a/erts/emulator/beam/ops.tab b/erts/emulator/beam/ops.tab
index 75ff40606b..4a915c7762 100644
--- a/erts/emulator/beam/ops.tab
+++ b/erts/emulator/beam/ops.tab
@@ -99,21 +99,21 @@ line Loc | func_info M F A => func_info M F A | line Loc
line I
-allocate t t
-allocate_heap t I t
+allocate t t?
+allocate_heap t I t?
%cold
deallocate Q
%hot
init y
-allocate_zero t t
-allocate_heap_zero t I t
+allocate_zero t t?
+allocate_heap_zero t I t?
trim N Remaining => i_trim N
i_trim t
-test_heap I t
+test_heap I t?
allocate_heap S u==0 R => allocate S R
allocate_heap_zero S u==0 R => allocate_zero S R
@@ -158,19 +158,19 @@ is_tuple Fail=f S | select_tuple_arity S=d Fail=f Size=u Rest=* => \
select_tuple_arity S=d Fail=f Size=u Rest=* => \
gen_select_tuple_arity(S, Fail, Size, Rest)
-i_select_val_bins xy f I
+i_select_val_bins xy f? I
-i_select_val_lins xy f I
+i_select_val_lins xy f? I
-i_select_val2 xy f c c
+i_select_val2 xy f? c c
-i_select_tuple_arity xy f I
+i_select_tuple_arity xy f? I
-i_select_tuple_arity2 xy f A A
+i_select_tuple_arity2 xy f? A A
-i_jump_on_val_zero xy f I
+i_jump_on_val_zero xy f? I
-i_jump_on_val xy f I W
+i_jump_on_val xy f? I W
get_list xy xy xy
@@ -213,9 +213,9 @@ i_get_tuple_element2y x P y y
i_get_tuple_element3 x P x
%cold
-is_number f x
-is_number f y
+is_number f? xy
%hot
+
is_number Fail=f i =>
is_number Fail=f na => jump Fail
is_number Fail Literal=q => move Literal x | is_number Fail x
@@ -446,37 +446,37 @@ is_ne_exact Lbl C=c R=xy => is_ne_exact Lbl R C
is_ne_exact Lbl R=xy C=ian => i_is_ne_exact_immed Lbl R C
is_ne_exact Lbl R=xy C=q => i_is_ne_exact_literal Lbl R C
-i_is_eq_exact_immed f rxy c
+i_is_eq_exact_immed f? rxy c
-i_is_eq_exact_literal f xy c
+i_is_eq_exact_literal f? xy c
-i_is_ne_exact_immed f xy c
+i_is_ne_exact_immed f? xy c
-i_is_ne_exact_literal f xy c
+i_is_ne_exact_literal f? xy c
is_eq_exact Lbl Y=y X=x => is_eq_exact Lbl X Y
-is_eq_exact f x xy
-is_eq_exact f y y
+is_eq_exact f? x xy
+is_eq_exact f? y y
-is_ne_exact f S S
+is_ne_exact f? S S
-is_lt f x x
-is_lt f x c
-is_lt f c x
+is_lt f? x x
+is_lt f? x c
+is_lt f? c x
%cold
-is_lt f s s
+is_lt f? s s
%hot
-is_ge f x x
-is_ge f x c
-is_ge f c x
+is_ge f? x x
+is_ge f? x c
+is_ge f? c x
%cold
-is_ge f s s
+is_ge f? s s
%hot
-is_eq f s s
+is_eq f? s s
-is_ne f s s
+is_ne f? s s
#
# Putting things.
@@ -583,7 +583,7 @@ is_tagged_tuple Fail Literal=q Arity Atom => \
move Literal x | is_tagged_tuple Fail x Arity Atom
is_tagged_tuple Fail=f c Arity Atom => jump Fail
-is_tagged_tuple f rxy A a
+is_tagged_tuple f? rxy A a
# Test tuple & arity (head)
@@ -591,14 +591,14 @@ is_tuple Fail Literal=q => move Literal x | is_tuple Fail x
is_tuple Fail=f c => jump Fail
is_tuple Fail=f S=xy | test_arity Fail=f S=xy Arity => is_tuple_of_arity Fail S Arity
-is_tuple_of_arity f rxy A
+is_tuple_of_arity f? rxy A
-is_tuple f rxy
+is_tuple f? rxy
test_arity Fail Literal=q Arity => move Literal x | test_arity Fail x Arity
test_arity Fail=f c Arity => jump Fail
-test_arity f xy A
+test_arity f? xy A
get_tuple_element Reg=x P1 D1=x | get_tuple_element Reg=x P2 D2=x | \
get_tuple_element Reg=x P3 D3=x | \
@@ -619,16 +619,16 @@ is_integer Fail Literal=q => move Literal x | is_integer Fail x
is_integer Fail=f S=x | allocate Need Regs => is_integer_allocate Fail S Need Regs
-is_integer_allocate f x t t
+is_integer_allocate f? x t t
-is_integer f xy
+is_integer f? xy
is_list Fail=f n =>
is_list Fail Literal=q => move Literal x | is_list Fail x
is_list Fail=f c => jump Fail
-is_list f x
+is_list f? x
%cold
-is_list f y
+is_list f? y
%hot
is_nonempty_list Fail=f S=x | allocate Need Rs => is_nonempty_list_allocate Fail S Need Rs
@@ -638,21 +638,21 @@ is_nonempty_list F=f x==0 | test_heap I1 I2 => is_nonempty_list_test_heap F I1 I
is_nonempty_list Fail=f S=x | get_list S D1=x D2=x => \
is_nonempty_list_get_list Fail S D1 D2
-is_nonempty_list_allocate f rx t t
-is_nonempty_list_test_heap f I t
-is_nonempty_list_get_list f rx x x
-is_nonempty_list f xy
+is_nonempty_list_allocate f? rx t t
+is_nonempty_list_test_heap f? I t
+is_nonempty_list_get_list f? rx x x
+is_nonempty_list f? xy
-is_atom f x
+is_atom f? x
%cold
-is_atom f y
+is_atom f? y
%hot
is_atom Fail=f a =>
is_atom Fail=f niq => jump Fail
-is_float f x
+is_float f? x
%cold
-is_float f y
+is_float f? y
%hot
is_float Fail=f nai => jump Fail
is_float Fail Literal=q => move Literal x | is_float Fail x
@@ -660,13 +660,13 @@ is_float Fail Literal=q => move Literal x | is_float Fail x
is_nil Fail=f n =>
is_nil Fail=f qia => jump Fail
-is_nil f xy
+is_nil f? xy
is_binary Fail Literal=q => move Literal x | is_binary Fail x
is_binary Fail=f c => jump Fail
-is_binary f x
+is_binary f? x
%cold
-is_binary f y
+is_binary f? y
%hot
# XXX Deprecated.
@@ -674,27 +674,27 @@ is_bitstr Fail Term => is_bitstring Fail Term
is_bitstring Fail Literal=q => move Literal x | is_bitstring Fail x
is_bitstring Fail=f c => jump Fail
-is_bitstring f x
+is_bitstring f? x
%cold
-is_bitstring f y
+is_bitstring f? y
%hot
is_reference Fail=f cq => jump Fail
-is_reference f x
+is_reference f? x
%cold
-is_reference f y
+is_reference f? y
%hot
is_pid Fail=f cq => jump Fail
-is_pid f x
+is_pid f? x
%cold
-is_pid f y
+is_pid f? y
%hot
is_port Fail=f cq => jump Fail
-is_port f x
+is_port f? x
%cold
-is_port f y
+is_port f? y
%hot
is_boolean Fail=f a==am_true =>
@@ -702,19 +702,19 @@ is_boolean Fail=f a==am_false =>
is_boolean Fail=f ac => jump Fail
%cold
-is_boolean f xy
+is_boolean f? xy
%hot
is_function2 Fail=f acq Arity => jump Fail
is_function2 Fail=f Fun a => jump Fail
-is_function2 f S s
+is_function2 f? S s
# Allocating & initializing.
allocate Need Regs | init Y => allocate_init Need Regs Y
init Y1 | init Y2 => init2 Y1 Y2
-allocate_init t t y
+allocate_init t t? y
#################################################################
# External function and bif calls.
@@ -1004,13 +1004,13 @@ node y
# Note: 'I' is sufficient because this instruction will only be used
# if the arity fits in 24 bits.
-i_fast_element xy j I d
+i_fast_element xy j? I d
-i_element xy j s d
+i_element xy j? s d
-bif1 f b s d
+bif1 f? b s d
bif1_body b s d
-i_bif2 f b s s d
+i_bif2 f? b s s d
i_bif2_body b s s d
#
@@ -1062,7 +1062,7 @@ make_fun2 OldIndex=u => gen_make_fun2(OldIndex)
i_make_fun W t
%hot
-is_function f xy
+is_function f? xy
is_function Fail=f c => jump Fail
func_info M F A => i_func_info u M F A
@@ -1091,24 +1091,24 @@ i_bs_match_string x f W W
bs_get_integer2 Fail=f Ms=x 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 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
%if ARCH_64
-i_bs_get_integer_32 x f x
+i_bs_get_integer_32 x f? x
%endif
# Fetching binaries from binaries.
bs_get_binary2 Fail=f Ms=x 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? 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
# Fetching float from binaries.
bs_get_float2 Fail=f Ms=x Live=u Sz=s Unit=u Flags=u Dst=d => \
@@ -1116,29 +1116,32 @@ bs_get_float2 Fail=f Ms=x Live=u Sz=s Unit=u Flags=u Dst=d => \
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? x t s t x
# Miscellanous
bs_skip_bits2 Fail=f Ms=x 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? x W
+i_bs_skip_bits2 f? x xy t
+i_bs_skip_bits_all2 f? x 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_zero_tail2 f? x
+bs_test_tail_imm2 f? x 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? x t
+bs_test_unit8 f? x
# An y register operand for bs_context_to_binary is rare,
# but can happen because of inlining.
+bs_context_to_binary Y=y | line L | badmatch Y => \
+ move Y x | bs_context_to_binary x | line L | badmatch x
+
bs_context_to_binary Y=y => move Y x | bs_context_to_binary x
bs_context_to_binary x
@@ -1147,14 +1150,14 @@ bs_context_to_binary x
# 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
+i_bs_get_utf8 x f? x
bs_skip_utf8 Fail=f Ms=x 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
-i_bs_get_utf16 x f t x
+i_bs_get_utf16 x f? t x
bs_get_utf32 Fail=f Ms=x Live=u Flags=u Dst=d => \
bs_get_integer2 Fail Ms Live i=32 u=1 Flags Dst | \
@@ -1183,13 +1186,13 @@ bs_init2 Fail Sz Words=u==0 Regs Flags Dst => \
bs_init2 Fail Sz Words Regs Flags Dst => \
i_bs_init_fail_heap Sz Words Fail Regs Dst
-i_bs_init_fail xy j t x
+i_bs_init_fail xy j? t? x
-i_bs_init_fail_heap s I j t x
+i_bs_init_fail_heap s I j? t? x
-i_bs_init W t x
+i_bs_init W t? x
-i_bs_init_heap W I t x
+i_bs_init_heap W I t? x
bs_init_bits Fail Sz=o Words Regs Flags Dst => system_limit Fail
@@ -1202,16 +1205,16 @@ bs_init_bits Fail Sz Words=u==0 Regs Flags Dst => \
bs_init_bits Fail Sz Words Regs Flags Dst => \
i_bs_init_bits_fail_heap Sz Words Fail Regs Dst
-i_bs_init_bits_fail xy j t x
+i_bs_init_bits_fail xy j? t? x
-i_bs_init_bits_fail_heap s I j t x
+i_bs_init_bits_fail_heap s I j? t? x
-i_bs_init_bits W t x
-i_bs_init_bits_heap W I t x
+i_bs_init_bits W t? x
+i_bs_init_bits_heap W I t? x
bs_add Fail S1=i==0 S2 Unit=u==1 D => move S2 D
-bs_add j s s t x
+bs_add j? s s t? x
bs_append Fail Size Extra Live Unit Bin Flags Dst => \
move Bin x | i_bs_append Fail Extra Live Unit Size Dst
@@ -1221,8 +1224,8 @@ bs_private_append Fail Size Unit Bin Flags Dst => \
bs_init_writable
-i_bs_append j I t t s x
-i_bs_private_append j t s S x
+i_bs_append j? I t? t s x
+i_bs_private_append j? t s S x
#
# Storing integers into binaries.
@@ -1231,8 +1234,8 @@ i_bs_private_append j t s S x
bs_put_integer Fail=j Sz=sq Unit=u Flags=u Src=s => \
gen_put_integer(Fail, Sz, Unit, Flags, Src)
-i_new_bs_put_integer j s t s
-i_new_bs_put_integer_imm j W t s
+i_new_bs_put_integer j? s t s
+i_new_bs_put_integer_imm j? W t s
#
# Utf8/utf16/utf32 support. (R12B-5)
@@ -1248,14 +1251,14 @@ i_bs_utf16_size s x
bs_put_utf8 Fail u Src=s => i_bs_put_utf8 Fail Src
-i_bs_put_utf8 j s
+i_bs_put_utf8 j? s
-bs_put_utf16 j t s
+bs_put_utf16 j? t s
bs_put_utf32 Fail=j Flags=u Src=s => \
i_bs_validate_unicode Fail Src | bs_put_integer Fail i=32 u=1 Flags Src
-i_bs_validate_unicode j s
+i_bs_validate_unicode j? s
#
# Storing floats into binaries.
@@ -1265,8 +1268,8 @@ bs_put_float Fail Sz=q Unit Flags Val => badarg Fail
bs_put_float Fail=j Sz=s Unit=u Flags=u Src=s => \
gen_put_float(Fail, Sz, Unit, Flags, Src)
-i_new_bs_put_float j s t s
-i_new_bs_put_float_imm j W t s
+i_new_bs_put_float j? s t s
+i_new_bs_put_float_imm j? W t s
#
# Storing binaries into binaries.
@@ -1275,9 +1278,9 @@ i_new_bs_put_float_imm j W t s
bs_put_binary Fail=j Sz=s Unit=u Flags=u Src=s => \
gen_put_binary(Fail, Sz, Unit, Flags, Src)
-i_new_bs_put_binary j s t s
-i_new_bs_put_binary_imm j W s
-i_new_bs_put_binary_all j s t
+i_new_bs_put_binary j? s t s
+i_new_bs_put_binary_imm j? W s
+i_new_bs_put_binary_all j? s t
#
# Warning: The i_bs_put_string and i_new_bs_put_string instructions
@@ -1391,12 +1394,12 @@ new_map Dst Live Size Rest=* | is_small_map_literal_keys(Size, Rest) => \
new_map d t I
i_new_small_map_lit d t q
update_map_assoc s d t I
-update_map_exact j s d t I
+update_map_exact j? s d t I
is_map Fail Lit=q | literal_is_map(Lit) =>
is_map Fail cq => jump Fail
-is_map f xy
+is_map f? xy
## Transform has_map_fields #{ K1 := _, K2 := _ } to has_map_elements
@@ -1410,14 +1413,14 @@ get_map_elements Fail Src=xy Size=u==2 Rest=* => \
get_map_elements Fail Src Size Rest=* | map_key_sort(Size, Rest) => \
gen_get_map_elements(Fail, Src, Size, Rest)
-i_get_map_elements f s I
+i_get_map_elements f? s I
i_get_map_element Fail Src=xy Key=y Dst => \
move Key x | i_get_map_element Fail Src x Dst
-i_get_map_element_hash f xy c I xy
+i_get_map_element_hash f? xy c I xy
-i_get_map_element f xy x xy
+i_get_map_element f? xy x xy
#
# Convert the plus operations to a generic plus instruction.
@@ -1485,32 +1488,32 @@ gc_bif1 Fail I u$bif:erlang:bnot/1 Src Dst=d => i_int_bnot Fail Src I Dst
i_increment rxy W t d
-i_plus x xy j t d
-i_plus s s j t d
+i_plus x xy j? t d
+i_plus s s j? t d
-i_minus x x j t d
-i_minus s s j t d
+i_minus x x j? t d
+i_minus s s j? t d
-i_times j t s s d
+i_times j? t s s d
-i_m_div j t s s d
-i_int_div j t s s d
+i_m_div j? t s s d
+i_int_div j? t s s d
-i_rem x x j t d
-i_rem s s j t d
+i_rem x x j? t d
+i_rem s s j? t d
-i_bsl s s j t d
-i_bsr s s j t d
+i_bsl s s j? t d
+i_bsr s s j? t d
-i_band x c j t d
-i_band s s j t d
+i_band x c j? t d
+i_band s s j? t d
-i_bor j I s s d
-i_bxor j I s s d
+i_bor j? I s s d
+i_bxor j? I s s d
i_int_bnot Fail Src=c Live Dst => move Src x | i_int_bnot Fail x Live Dst
-i_int_bnot j S t d
+i_int_bnot j? S t d
#
# Old guard BIFs that creates heap fragments are no longer allowed.
@@ -1534,9 +1537,9 @@ gc_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)
-i_gc_bif1 j W s t d
+i_gc_bif1 j? W s t? d
-i_gc_bif2 j W t s s d
+i_gc_bif2 j? W t? s s d
ii_gc_bif3/7
@@ -1545,7 +1548,7 @@ ii_gc_bif3/7
ii_gc_bif3 Fail Bif Live S1 S2 S3 Dst => \
move S1 x | i_gc_bif3 Fail Bif Live S2 S3 Dst
-i_gc_bif3 j W t s s d
+i_gc_bif3 j? W t? s s d
#
# The following instruction is specially handled in beam_load.c
diff --git a/erts/emulator/utils/beam_makeops b/erts/emulator/utils/beam_makeops
index 64a9a49ac8..d7791d23fa 100755
--- a/erts/emulator/utils/beam_makeops
+++ b/erts/emulator/utils/beam_makeops
@@ -24,6 +24,17 @@ use constant COLD => 0;
use constant WARM => 1;
use constant HOT => 2;
+# Instructions for packing
+use constant PACK_JUMP => 1;
+use constant PACK_IN_INSTR_WORD => 2;
+use constant PACK_OPT_IN_INSTR_WORD => 4;
+
+# Packing commands
+use constant PACK_CMD_TIGHTEST => '1';
+use constant PACK_CMD_TIGHT => '2';
+use constant PACK_CMD_LOOSE => '3';
+use constant PACK_CMD_WIDE => '4';
+
$BEAM_FORMAT_NUMBER = undef;
my $target = \&emulator_output;
@@ -32,30 +43,15 @@ my $verbose = 0;
my $hotness = 1;
my $num_file_opcodes = 0;
my $wordsize = 32;
-my %defs; # Defines (from command line).
+my $code_pointers_are_short = 0; # Whether code pointers (to C code) are short.
+my $code_model = 'unknown';
+my %defs; # Defines (from command line).
# This is shift counts and mask for the packer.
my $WHOLE_WORD = '';
-my @pack_instr;
-my @pack_shift;
-my @pack_mask;
-
-$pack_instr[2] = ['6', 'i'];
-$pack_instr[3] = ['0', '0', 'i'];
-$pack_instr[4] = ['6', '6', '6', 'i']; # Only for 64 bit wordsize
-
-$pack_shift[2] = ['0', 'BEAM_LOOSE_SHIFT'];
-$pack_shift[3] = ['0', 'BEAM_TIGHT_SHIFT', '(2*BEAM_TIGHT_SHIFT)'];
-$pack_shift[4] = ['0', 'BEAM_LOOSE_SHIFT', # Only for 64 bit wordsize
- '(2*BEAM_LOOSE_SHIFT)',
- '(3*BEAM_LOOSE_SHIFT)'];
-
-$pack_mask[2] = ['BEAM_LOOSE_MASK', $WHOLE_WORD];
-$pack_mask[3] = ['BEAM_TIGHT_MASK', 'BEAM_TIGHT_MASK', 'BEAM_TIGHT_MASK'];
-$pack_mask[4] = ['BEAM_LOOSE_MASK', # Only for 64 bit wordsize
- 'BEAM_LOOSE_MASK',
- 'BEAM_LOOSE_MASK',
- $WHOLE_WORD];
+
+my @basic_pack_options = (0);
+my @extended_pack_options = @basic_pack_options;
# There are two types of instructions: generic and specific.
# The generic instructions are those generated by the Beam compiler.
@@ -250,6 +246,7 @@ while (@ARGV && $ARGV[0] =~ /^-(.*)/) {
($target = \&compiler_output), next if /^compiler/;
($outdir = shift), next if /^outdir/;
($wordsize = shift), next if /^wordsize/;
+ ($code_model = shift), next if /^code-model/;
($verbose = 1), next if /^v/;
($defs{$1} = $2), next if /^D(\w+)=(\w+)/;
die "$0: Bad option: -$_\n";
@@ -261,14 +258,21 @@ if ($wordsize == 32) {
} elsif ($wordsize == 64) {
$defs{'ARCH_32'} = 0;
$defs{'ARCH_64'} = 1;
+ $code_pointers_are_short = $code_model eq 'small';
}
#
-# Initialize number of arguments per packed word.
+# Initialize pack options.
#
if ($wordsize == 64) {
- $pack_mask[3] = ['BEAM_TIGHT_MASK', 'BEAM_TIGHT_MASK', $WHOLE_WORD];
+ @basic_pack_options = (0,PACK_JUMP);
+ @extended_pack_options = @basic_pack_options;
+ if ($code_pointers_are_short) {
+ foreach (@basic_pack_options) {
+ push @extended_pack_options, $_ | PACK_IN_INSTR_WORD;
+ }
+ }
}
#
@@ -450,15 +454,7 @@ while (<>) {
# Parse specific instructions (only present in emulator/loader):
# Name Arg1 Arg2...
#
- my($name, @args) = split;
- error("too many operands")
- if @args > $max_spec_operands;
- syntax_check($name, @args);
- my $arity = @args;
- if (defined $gen_opnum{$name,$arity} and $obsolete[$gen_opnum{$name,$arity}]) {
- error("specific instructions may not be specified for obsolete instructions");
- }
- save_specific_ops($name, $arity, $hotness, @args);
+ my($name,$arity) = parse_specific_op($_);
if (defined $op_num) {
error("specific instructions must not be numbered");
} elsif (!defined($gen_arity{$name}) && !defined($unnumbered{$name,$arity})) {
@@ -531,10 +527,9 @@ sub emulator_output {
foreach $key (keys %specific_op) {
foreach (@{$specific_op{$key}}) {
my($name, $hotness, @args) = @$_;
- my $sign = join('', @args);
my $print_name = print_name($name, @args);
- my($size, $code, $pack_spec) = cg_basic($name, @args);
+ my($size, $code, $pack_spec) = cg_basic(name => $name, args => \@args);
if (defined $code) {
$code = "OpCase($print_name):\n$code";
push @generated_code, [$hotness,$code,($print_name)];
@@ -602,6 +597,7 @@ sub emulator_output {
foreach (@{$specific_op{$key}}) {
my($name, $hot, @args) = @{$_};
my($sign) = join('', @args);
+ $sign =~ s/[?]//g;
# The primitive types should sort before other types.
@@ -619,6 +615,7 @@ sub emulator_output {
my $print_name = $items{$sort_key};
my $info = $spec_op_info{$print_name};
my(@args) = @{$info->{'args'}};
+ @args = map { s/[?]$//; $_ } @args;
my $arity = @args;
#
@@ -732,12 +729,19 @@ sub emulator_output {
print "#if !defined(ARCH_64)\n";
print qq[ #error "64-bit architecture assumed, but ARCH_64 not defined"\n];
print "#endif\n";
+ if ($code_pointers_are_short) {
+ print "#if !defined(CODE_MODEL_SMALL)\n";
+ print qq[ #error "small code model assumed, but CODE_MODEL_SMALL not defined"\n];
+ print "#endif\n";
+ }
print "#define BEAM_WIDE_MASK 0xFFFFFFFFull\n";
print "#define BEAM_LOOSE_MASK 0xFFFFull\n";
print "#define BEAM_TIGHT_MASK 0xFFFFull\n";
+ print "#define BEAM_TIGHTEST_MASK 0x3FFull\n";
print "#define BEAM_WIDE_SHIFT 32\n";
print "#define BEAM_LOOSE_SHIFT 16\n";
print "#define BEAM_TIGHT_SHIFT 16\n";
+ print "#define BEAM_TIGHTEST_SHIFT 10\n";
}
print "\n";
@@ -852,6 +856,7 @@ sub emulator_output {
sub print_name {
my($name,@args) = @_;
my $sign = join '', @args;
+ $sign =~ s/[?]//g;
$sign ne '' ? "${name}_$sign" : $name;
}
@@ -971,40 +976,54 @@ sub compiler_output {
}
#
-# Check an operation for validity.
+# Parse and store a specific operation.
#
-sub syntax_check {
- my($name, @args) = @_;
- my($i);
+sub parse_specific_op {
+ my($name, @args) = split " ", shift;
+ my $arity = @args;
+ # Check for various errors.
error("Bad opcode name '$name'")
unless $name =~ /^[a-z][\w\d_]*$/;
- for ($i = 0; $i < @args; $i++) {
- foreach my $type (split(//, $args[$i])) {
+ error("too many operands")
+ if @args > $max_spec_operands;
+ for (my $i = 0; $i < $arity; $i++) {
+ my $arg = $args[$i];
+ $arg =~ s/[?]$//;
+ foreach my $type (split(//, $arg)) {
error("Argument " . ($i+1) . ": invalid type '$type'")
unless defined $arg_size{$type};
}
}
-}
-
-sub save_specific_ops {
- my($name,$arity,$hot,@args) = @_;
- my(@res) = ("");
+ if (defined $gen_opnum{$name,$arity} and $obsolete[$gen_opnum{$name,$arity}]) {
+ error("specific instructions may not be specified for obsolete instructions");
+ }
+ # Expand operands with multiple types to multiple instructions.
+ # (For example, "get_list xy xy xy" will be expanded to six instructions.)
+ my @res = ([]);
foreach my $arg (@args) {
- my @new_res = ();
+ my @old_res = @res;
+ @res = ();
+ my $marker = ($arg =~ s/[?]$//) ? '?' : '';
foreach my $type (split(//, $arg)) {
- foreach my $args (@res) {
- push @new_res, "$args$type";
+ foreach my $args_ref (@old_res) {
+ my @args = @$args_ref;
+ push @args, "$type$marker";
+ push @res, \@args;
}
}
- @res = @new_res;
}
+
+ # Store each specific instruction.
my $key = "$name/$arity";
- foreach my $args (@res) {
- @args = split //, $args;
- push @{$specific_op{$key}}, [$name,$hot,@args];
+ foreach my $args_ref (@res) {
+ @args = @$args_ref;
+ push @{$specific_op{$key}}, [$name,$hotness,@args];
}
+
+ # Done.
+ ($name,$arity);
}
sub parse_c_args {
@@ -1110,9 +1129,28 @@ sub combine_instruction_group {
# Variables.
my %offsets;
my @instrs;
- my %num_references;
+ my %num_references; # Number of references from other sub instructions.
my $group_size = 999;
+ #
+ # Calculate the number of references from other sub instructions.
+ # This number is useful in several ways:
+ #
+ # * If this number is 0, it is only used as the entry point for a
+ # function, implying that it does not need a label and that operands
+ # can be packed into the instruction word.
+ #
+ # * We'll use this number in the sort key, as a tie breaker for sub instructions
+ # at the same instruction offset.
+ #
+ foreach my $ref_instr (@in_instrs) {
+ my(undef,undef,$first_sub,@other_subs) = @$ref_instr;
+ $num_references{$first_sub} += 0; # Make sure it is defined.
+ foreach my $sub (@other_subs) {
+ $num_references{$sub}++;
+ }
+ }
+
# Do basic error checking. Associate operands of instructions
# with the correct micro instructions. Calculate offsets for micro
# instructions.
@@ -1138,12 +1176,13 @@ sub combine_instruction_group {
foreach (0..$#c_args) {
push @first, shift @rest;
}
- my $size = cg_combined_size($s, 1, @first);
+ my $size = cg_combined_size(name => $s,
+ first => $num_references{$s} == 0,
+ args => \@first);
$offsets{$s} = $offset
unless defined $offsets{$s} and $offsets{$s} < $offset;
$offset += $size - 1;
my $label = micro_label($s);
- $num_references{$label} = 0;
push @new_subs, [$opcase,$label,$s,$size-1,@first];
$opcase = '';
}
@@ -1162,9 +1201,8 @@ sub combine_instruction_group {
my($opcase,$label,$s,$size,@args) = @{$subs[$i]};
my $next = '';
(undef,$next) = @{$subs[$i+1]} if $i < $#subs;
- $num_references{$next}++ if $next;
my $instr_info = "$opcase:$label:$next:$s:$size:@args";
- push @all_instrs, [$label,$offsets{$s},$instr_info];
+ push @all_instrs, [$label,$s,$offsets{$s},$instr_info];
}
}
@@ -1172,8 +1210,8 @@ sub combine_instruction_group {
my %label_to_offset;
my %order_to_offset;
foreach my $instr (@all_instrs) {
- my($label,$offset,$instr_info) = @$instr;
- my $sort_key = sprintf("%02d.%02d", $offset, $num_references{$label});
+ my($label,$s,$offset,$instr_info) = @$instr;
+ my $sort_key = sprintf("%02d.%02d", $offset, $num_references{$s});
push @{$order_to_instrs{$sort_key}}, $instr_info;
$label_to_offset{$label} = $offset;
$order_to_offset{$sort_key} = $offset;
@@ -1212,7 +1250,7 @@ sub combine_instruction_group {
$gcode .= "OpCase($opcase):\n";
push @opcase_labels, $opcase;
}
- if ($num_references{$label}) {
+ if ($num_references{$s}) {
$gcode .= "$label:\n";
}
@@ -1229,8 +1267,13 @@ sub combine_instruction_group {
}
my($gen_code,$down,$up) =
- cg_combined_code($s, 1, $flags, $offset,
- $group_size-$offset, $inc, @first);
+ cg_combined_code(name => $s,
+ first => $num_references{$s} == 0,
+ extra_comments => $flags,
+ offset => $offset,
+ comp_size => $group_size-$offset,
+ inc => $inc,
+ args =>\@first);
my $spec_label = "$opcase$label";
$down{$spec_label} = $down;
$up{$spec_label} = $up;
@@ -1279,8 +1322,8 @@ sub micro_label {
#
sub cg_basic {
- my($name,@args) = @_;
- my($size,$code,$pack_spec) = code_gen($name, 1, '', 0, undef, undef, @args);
+ my %params = (@_, pack_options => \@extended_pack_options);
+ my($size,$code,$pack_spec) = code_gen(%params);
$pack_spec = build_pack_spec($pack_spec);
($size,$code,$pack_spec);
}
@@ -1290,8 +1333,10 @@ sub cg_basic {
#
sub cg_combined_size {
- my($name,$pack,@args) = @_;
- my($size) = code_gen($name, $pack, '', 0, undef, undef, @args);
+ my %params = (@_, pack_options => \@basic_pack_options);
+ $params{pack_options} = \@extended_pack_options
+ if $params{first};
+ my($size) = code_gen(%params);
$size;
}
@@ -1300,8 +1345,10 @@ sub cg_combined_size {
#
sub cg_combined_code {
- my($name,$pack,$extra_comments,$offset,$comp_size,$inc,@args) = @_;
- my($size,$code,$pack_spec) = code_gen(@_);
+ my %params = (@_, pack_options => \@basic_pack_options);
+ $params{pack_options} = \@extended_pack_options
+ if $params{first};
+ my($size,$code,$pack_spec) = code_gen(%params);
if ($pack_spec eq '') {
($code,'','');
} else {
@@ -1311,8 +1358,16 @@ sub cg_combined_code {
}
sub code_gen {
- my($name,$pack,$extra_comments,$offset,$comp_size,$inc,@args) = @_;
- my $group_size = defined $comp_size ? $comp_size + $inc : undef;
+ my %params = (extra_comments => '',
+ offset => 0,
+ inc => 0,
+ @_);
+ my $name = $params{name};
+ my $extra_comments = $params{extra_comments};
+ my $offset = $params{offset};
+ my $inc = $params{inc};
+ my @args = @{$params{args}};
+
my $size = 0;
my $flags = '';
my @f;
@@ -1326,8 +1381,9 @@ sub code_gen {
#
my $c_code_ref = $c_code{$name};
- if ($pack and defined $c_code_ref and $name ne 'catch') {
- ($var_decls, $pack_spec, @args) = do_pack($offset, @args);
+ if (defined $c_code_ref and $name ne 'catch') {
+ my $pack_options = $params{pack_options};
+ ($var_decls, $pack_spec, @args) = do_pack($name, $offset, $pack_options, @args);
}
#
@@ -1337,6 +1393,7 @@ sub code_gen {
my $need_block = 0;
my $arg_offset = $offset;
+ @args = map { s/[?]$//g; $_ } @args;
foreach (@args) {
my($this_size) = $arg_size{$_};
SWITCH:
@@ -1399,7 +1456,7 @@ sub code_gen {
return ($size+1, undef, '');
}
- $group_size = $size unless defined $group_size;
+ my $group_size = ($params{comp_size} || $size) + $inc;
#
# Generate main body of the implementation.
@@ -1418,7 +1475,7 @@ sub code_gen {
$bindings{$var} = $f[$i];
}
$bindings{'NEXT_INSTRUCTION'} = "I+" . ($group_size+$offset+1);
- $bindings{'IP_ADJUSTMENT'} = defined $inc ? $inc : 0;
+ $bindings{'IP_ADJUSTMENT'} = $inc;
$c_code = eval { expand_all($c_code, \%bindings) };
unless (defined $c_code) {
warn $@;
@@ -1441,10 +1498,10 @@ sub code_gen {
"ASSERT(VALID_INSTR(*I));\n" .
"Goto(*I);";
} else {
- $var_decls .= "BeamInstr next_pf = I[$instr_offset];\n";
+ $var_decls .= "BeamInstr next_pf = BeamCodeAddr(I[$instr_offset]);\n";
$dispatch_next = "\nI += $instr_offset;\n" .
"ASSERT(VALID_INSTR(next_pf));\n" .
- "Goto(next_pf);";
+ "GotoPF(next_pf);";
}
#
@@ -1603,9 +1660,51 @@ sub needs_do_wrapper {
}
sub do_pack {
- my($offset,@args) = @_;
+ my($name,$offset,$pack_opts_ref,@args) = @_;
+ my @pack_opts = @$pack_opts_ref;
+ my $opt_arg_pos = -1;
+
+ # Look for an optional use operand not as the first argument.
+ if (@args and $args[0] !~ /[?]$/) {
+ for (my $pos = 0; $pos < @args; $pos++) {
+ if ($args[$pos] =~ /[?]$/) {
+ $opt_arg_pos = $pos;
+ last;
+ }
+ }
+ }
+
+ @args = map { s/[?]$//; $_ } @args; # Remove any optional use marker.
+
+ # If there is an optional operand, extend the array of pack options.
+ if ($opt_arg_pos >= 0) {
+ my @new_pack_opts = grep { $_ & PACK_IN_INSTR_WORD } @pack_opts;
+ @new_pack_opts = map {
+ ($_ & ~ PACK_IN_INSTR_WORD) | PACK_OPT_IN_INSTR_WORD;
+ } @new_pack_opts;
+ push @pack_opts, @new_pack_opts;
+ }
+
+ my $ret = ['', ':', @args];
+ my $score = 0;
+
+ foreach my $options (@pack_opts) {
+ my $this_opt_arg_pos = ($options & PACK_OPT_IN_INSTR_WORD) ? $opt_arg_pos : -1;
+ my($this_score,$this_result) =
+ do_pack_one($name, $options, $this_opt_arg_pos, $offset, @args);
+ if ($this_score > $score) {
+ $ret = $this_result;
+ $score = $this_score;
+ }
+ }
+ return @$ret;
+}
+
+sub do_pack_one {
+ my($name,$options,$opt_arg_pos,$offset,@args) = @_;
my($packable_args) = 0;
my @bits_needed; # Bits needed for each argument.
+ my $pack_in_iw = $options & PACK_IN_INSTR_WORD;
#
# Define the minimum number of bits needed for the packable argument types.
@@ -1619,6 +1718,10 @@ sub do_pack {
't' => 16);
if ($wordsize == 64) {
$bits_needed{'I'} = 32;
+ if ($options & PACK_JUMP) {
+ $bits_needed{'f'} = 32;
+ $bits_needed{'j'} = 32;
+ }
}
#
@@ -1631,51 +1734,48 @@ sub do_pack {
} else {
push @bits_needed, 0;
}
- }
-
- #
- # Try to pack 'f' and 'j', but not at expense at worse packing
- # for other operands. For example, given the arguments "f x x", we
- # want the 'x' operands to be packed, not 'f' and 'x' packed and
- # the final 'x' not packed.
- #
-
- if ($wordsize == 64 and $packable_args == 1) {
- for (my $i = 0; $i < @args; $i++) {
- if ($args[$i] =~ /^[fj]$/) {
- $bits_needed[$i] = 32;
- $packable_args++;
- last;
- }
+ if ($arg =~ /^[fj]$/) {
+ # Only pack the first occurrence of 'f' or 'j'.
+ delete $bits_needed{'f'};
+ delete $bits_needed{'j'};
}
}
#
- # Nothing to pack unless there are at least 2 packable arguments.
+ # Return if there is nothing to pack.
#
- return ('', ':', @args) if $packable_args < 2;
+ if ($packable_args == 0) {
+ return (-1);
+ } elsif ($packable_args == 1 and $options == 0) {
+ return (-1);
+ }
#
# Determine how many arguments we should pack into each word.
#
my @args_per_word;
my @need_wide_mask;
- my $bits = 0;
- my $word = 0;
- $args_per_word[0] = 0;
- $need_wide_mask[0] = 0;
- for (my $i = 0; $i < @args; $i++) {
- if ($bits_needed[$i]) {
- my $needed = $bits_needed[$i];
-
- my $next_word = sub {
- $word++;
- $args_per_word[$word] = 0;
- $need_wide_mask[$word] = 0;
- $bits = 0;
- };
+ my $bits;
+ my $this_wordsize;
+ my $word = -1;
+
+ my $next_word = sub {
+ $word++;
+ $args_per_word[$word] = 0;
+ $need_wide_mask[$word] = 0;
+ $bits = 0;
+ $this_wordsize = $wordsize;
+ };
+
+ $next_word->();
+ $this_wordsize = 32 if $pack_in_iw;
+ for (my $arg_num = 0; $arg_num < @args; $arg_num++) {
+ my $needed = $bits_needed[$arg_num];
+
+ next unless $needed;
+ next if $arg_num == $opt_arg_pos;
- if ($bits+$needed > $wordsize) { # Does not fit.
+ if ($bits+$needed > $this_wordsize) { # Does not fit.
$next_word->();
}
if ($args_per_word[$word] == 4) { # Can't handle more than 4 args.
@@ -1695,15 +1795,16 @@ sub do_pack {
# Can only pack two things in a word where one
# item is 32 bits. Force the next item into
# the next word.
- $bits = $wordsize;
+ $bits = $this_wordsize;
}
- }
}
#
# Try to balance packing between words.
#
- if ($args_per_word[$#args_per_word] == 1) {
+ if (@args_per_word == 1 and $args_per_word[0] == 1 and $pack_in_iw) {
+ # Don't rebalance.
+ } elsif ($args_per_word[$#args_per_word] == 1) {
if ($args_per_word[$#args_per_word-1] < 3) {
pop @args_per_word;
} else {
@@ -1728,12 +1829,19 @@ sub do_pack {
# beginning).
my $up = ''; # Pack commands (storing back while
# moving forward).
+ my $arg_num = 0; # Number of argument.
- # Skip an unpackable argument.
+ # Skip an unpackable argument. Also handle packing of
+ # an single operand into the instruction word.
my $skip_unpackable = sub {
my($arg) = @_;
- if ($arg_size{$arg}) {
+ if ($arg_num == $opt_arg_pos) {
+ my $pack = chr(ord('#') + $arg_num);
+ $down = PACK_CMD_WIDE . "$pack$down";
+ my $unpack = "BeamExtraData(I[0])";
+ $args[$arg_num] = "packed:$arg:0:${arg}b($unpack)";
+ } elsif ($arg_size{$arg}) {
# Save the argument on the pack engine's stack.
my $push = 'g';
if ($type_bit{$arg} & $type_bit{'q'}) {
@@ -1753,43 +1861,50 @@ sub do_pack {
# the packing engine works from right-to-left, but we must generate
# the instructions from left-to-right because we must calculate
# instruction sizes from left-to-right.
-
- my $arg_num = 0;
for (my $word = 0; $word < @args_per_word; $word++) {
my $ap = 0; # Argument number within word.
my $packed_var = "tmp_packed" . ($word+1);
my $args_per_word = $args_per_word[$word];
- my @shift;
- my @mask;
- my @instr;
-
- if ($need_wide_mask[$word]) {
- @shift = ('0', 'BEAM_WIDE_SHIFT');
- @mask = ('BEAM_WIDE_MASK', $WHOLE_WORD);
- @instr = ('w', 'w');
- } else {
- @shift = @{$pack_shift[$args_per_word]};
- @mask = @{$pack_mask[$args_per_word]};
- @instr = @{$pack_instr[$args_per_word]};
- }
+ my $pack_word_size = ($pack_in_iw && $word == 0) ? 32 : $wordsize;
+
+ my($shref,$mref,$iref,$unpack_suffix) =
+ get_pack_parameters($name, $args_per_word, $pack_word_size,
+ $need_wide_mask[$word]);
+ my @shift = @$shref;
+ my @mask = @$mref;
+ my @instr = @$iref;
while ($ap < $args_per_word) {
my $reg = $args[$arg_num];
my $this_size = $arg_size{$reg};
+
if ($bits_needed[$arg_num]) {
$this_size = 0;
if ($ap == 0) {
- $pack_prefix .= "Eterm $packed_var = " .
- arg_offset($size+$offset) . ";\n";
- $up .= "p";
- $down = "P$down";
- $this_size = 1;
+ my $packed_data;
+ if ($pack_in_iw and $word == 0) {
+ $packed_data = "BeamExtraData(I[0])";
+ if ($args_per_word == 1) {
+ $packed_var = $packed_data;
+ } else {
+ $pack_prefix .= "Eterm $packed_var = $packed_data;\n";
+ }
+ my $pack = chr(ord('#') + $size);
+ $down = "$pack$down";
+ } else {
+ $packed_data = arg_offset($size + $offset);
+ $pack_prefix .= "Eterm $packed_var = $packed_data;\n";
+ $down = "P$down";
+ $up .= "p";
+ $this_size = 1;
+ }
}
$down = "$instr[$ap]$down";
my $unpack = make_unpack($packed_var, $shift[$ap], $mask[$ap]);
- $args[$arg_num] = "packed:$reg:$this_size:$reg" . "b($unpack)";
+ my $macro = "$reg$unpack_suffix";
+ $args[$arg_num] = "packed:$reg:$this_size:$macro($unpack)";
$ap++;
} else {
@@ -1804,12 +1919,107 @@ sub do_pack {
# Skip any unpackable arguments at the end.
#
while ($arg_num < @args) {
- $skip_unpackable->($args[$arg_num]);
+ my $arg = $args[$arg_num];
+ $skip_unpackable->($arg);
+ $size += $arg_size{$arg};
$arg_num++;
}
my $pack_spec = "$down:$up";
- return ($pack_prefix, $pack_spec, @args);
+ my $score = pack_score($options, @args);
+
+ return ($score, [$pack_prefix,$pack_spec,@args]);
+}
+
+sub get_pack_parameters {
+ my($name,$args_per_word,$pack_word_size,$wide_mask) = @_;
+ my(@shift,@mask,@instr);
+ my $unpack_suffix = 'b';
+
+ if ($wide_mask and $args_per_word > 1) {
+ @shift = ('0', 'BEAM_WIDE_SHIFT');
+ @mask = ('BEAM_WIDE_MASK', $WHOLE_WORD);
+ @instr = (PACK_CMD_WIDE) x 2;
+ } elsif ($args_per_word == 1) {
+ @shift = ('0');
+ @mask = ($WHOLE_WORD);
+ @instr = (PACK_CMD_WIDE);
+ } elsif ($args_per_word == 2) {
+ if ($pack_word_size != $wordsize) {
+ # 64-bit word size, pack 32 bits into instruction word.
+ @shift = ('0', 'BEAM_TIGHT_SHIFT');
+ @mask = ('BEAM_TIGHT_MASK', $WHOLE_WORD);
+ @instr = (PACK_CMD_TIGHT) x 2;
+ } else {
+ # 32/64 bit word size
+ @shift = ('0', 'BEAM_LOOSE_SHIFT');
+ @mask = ('BEAM_LOOSE_MASK', $WHOLE_WORD);
+ @instr = (PACK_CMD_LOOSE) x 2;
+ }
+ } elsif ($args_per_word == 3) {
+ if ($pack_word_size != $wordsize) {
+ # 64-bit word size, pack 3 register numbers into instruction word.
+ @shift = ('0', 'BEAM_TIGHTEST_SHIFT', '(2*BEAM_TIGHTEST_SHIFT)');
+ @mask = ('BEAM_TIGHTEST_MASK', 'BEAM_TIGHTEST_MASK', $WHOLE_WORD);
+ @instr = (PACK_CMD_TIGHTEST) x 3;
+ $unpack_suffix = '';
+ } else {
+ # 32/64 bit word size.
+ @shift = ('0', 'BEAM_TIGHT_SHIFT', '(2*BEAM_TIGHT_SHIFT)');
+ if ($wordsize == 32) {
+ @mask = ('BEAM_TIGHT_MASK') x 3;
+ } elsif ($wordsize == 64) {
+ @mask = ('BEAM_TIGHT_MASK', 'BEAM_TIGHT_MASK', $WHOLE_WORD);
+ }
+ @instr = (PACK_CMD_TIGHT) x 3;
+ }
+ } elsif ($args_per_word == 4) {
+ # 64 bit word size only.
+ @shift = ('0',
+ 'BEAM_LOOSE_SHIFT',
+ '(2*BEAM_LOOSE_SHIFT)',
+ '(3*BEAM_LOOSE_SHIFT)');
+ @mask = ('BEAM_LOOSE_MASK', 'BEAM_LOOSE_MASK',
+ 'BEAM_LOOSE_MASK', $WHOLE_WORD);
+ @instr = (PACK_CMD_LOOSE) x 4;
+ }
+
+ unless (@shift) {
+ error("$name: internal packing error: args_per_word=$args_per_word, " .
+ "pack_word_size=$pack_word_size");
+ }
+
+ (\@shift,\@mask,\@instr,$unpack_suffix);
+}
+
+sub pack_score {
+ my($options,@args) = @_;
+ my $size = 0;
+
+ # Calculate the number of words.
+ foreach (@args) {
+ if (/^packed:[^:]*:(\d+)/) {
+ $size += $1;
+ } else {
+ $size += $arg_size{$_}
+ }
+ }
+
+ # Less numbers of words give a higher score; for the same number of
+ # words, using PACK_JUMP or PACK_IN_INSTR_WORD gives a lower score.
+ my $score = 1 + 10*($max_spec_operands - $size);
+ if (($options & PACK_OPT_IN_INSTR_WORD) != 0) {
+ $score += 4;
+ } elsif ($options == PACK_IN_INSTR_WORD) {
+ $score += 0;
+ } elsif ($options == PACK_JUMP) {
+ $score += 1;
+ } elsif ($options == (PACK_JUMP|PACK_IN_INSTR_WORD)) {
+ $score += 2;
+ } elsif ($options == 0) {
+ $score += 3;
+ }
+ $score;
}
sub make_unpack {