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-rw-r--r--erts/emulator/beam/beam_debug.c102
-rw-r--r--erts/emulator/beam/beam_emu.c1599
-rw-r--r--erts/emulator/beam/beam_load.c151
-rw-r--r--erts/emulator/beam/beam_load.h1
-rw-r--r--erts/emulator/beam/erl_term.c6
-rw-r--r--erts/emulator/beam/erl_term.h52
-rw-r--r--erts/emulator/beam/erl_vm.h1
-rw-r--r--erts/emulator/beam/ops.tab863
-rwxr-xr-xerts/emulator/utils/beam_makeops85
9 files changed, 1207 insertions, 1653 deletions
diff --git a/erts/emulator/beam/beam_debug.c b/erts/emulator/beam/beam_debug.c
index 8a35ad17c6..ea1f2cd012 100644
--- a/erts/emulator/beam/beam_debug.c
+++ b/erts/emulator/beam/beam_debug.c
@@ -432,39 +432,33 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
while (*sign) {
switch (*sign) {
case 'r': /* x(0) */
- erts_print(to, to_arg, "x(0)");
+ erts_print(to, to_arg, "r(0)");
break;
case 'x': /* x(N) */
- if (reg_index(ap[0]) == 0) {
- erts_print(to, to_arg, "x[0]");
- } else {
- erts_print(to, to_arg, "x(%d)", reg_index(ap[0]));
+ {
+ Uint n = ap[0] / sizeof(Eterm);
+ erts_print(to, to_arg, "x(%d)", n);
+ ap++;
}
- ap++;
break;
case 'y': /* y(N) */
- erts_print(to, to_arg, "y(%d)", reg_index(ap[0]) - CP_SIZE);
- ap++;
+ {
+ Uint n = ap[0] / sizeof(Eterm) - CP_SIZE;
+ erts_print(to, to_arg, "y(%d)", n);
+ ap++;
+ }
break;
case 'n': /* Nil */
erts_print(to, to_arg, "[]");
break;
case 's': /* Any source (tagged constant or register) */
- tag = beam_reg_tag(*ap);
- if (tag == X_REG_DEF) {
- if (reg_index(*ap) == 0) {
- erts_print(to, to_arg, "x[0]");
- } else {
- erts_print(to, to_arg, "x(%d)", reg_index(*ap));
- }
+ tag = loader_tag(*ap);
+ if (tag == LOADER_X_REG) {
+ erts_print(to, to_arg, "x(%d)", loader_x_reg_index(*ap));
ap++;
break;
- } else if (tag == Y_REG_DEF) {
- erts_print(to, to_arg, "y(%d)", reg_index(*ap) - CP_SIZE);
- ap++;
- break;
- } else if (tag == R_REG_DEF) {
- erts_print(to, to_arg, "x(0)");
+ } else if (tag == LOADER_Y_REG) {
+ erts_print(to, to_arg, "y(%d)", loader_y_reg_index(*ap) - CP_SIZE);
ap++;
break;
}
@@ -481,20 +475,12 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
ap++;
break;
case 'd': /* Destination (x(0), x(N), y(N)) */
- switch (beam_reg_tag(*ap)) {
- case X_REG_DEF:
- if (reg_index(*ap) == 0) {
- erts_print(to, to_arg, "x[0]");
- } else {
- erts_print(to, to_arg, "x(%d)", reg_index(*ap));
- }
- break;
- case Y_REG_DEF:
- erts_print(to, to_arg, "y(%d)", reg_index(*ap) - CP_SIZE);
- break;
- case R_REG_DEF:
- erts_print(to, to_arg, "x(0)");
- break;
+ if (*ap & 1) {
+ erts_print(to, to_arg, "y(%d)",
+ *ap / sizeof(Eterm) - CP_SIZE);
+ } else {
+ erts_print(to, to_arg, "x(%d)",
+ *ap / sizeof(Eterm));
}
ap++;
break;
@@ -561,7 +547,7 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
ap++;
break;
case 'l': /* fr(N) */
- erts_print(to, to_arg, "fr(%d)", reg_index(ap[0]));
+ erts_print(to, to_arg, "fr(%d)", loader_reg_index(ap[0]));
ap++;
break;
default:
@@ -580,7 +566,6 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
unpacked = ap;
ap = addr + size;
switch (op) {
- case op_i_select_val_lins_rfI:
case op_i_select_val_lins_xfI:
case op_i_select_val_lins_yfI:
{
@@ -600,7 +585,6 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
}
}
break;
- case op_i_select_val_bins_rfI:
case op_i_select_val_bins_xfI:
case op_i_select_val_bins_yfI:
{
@@ -614,7 +598,6 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
}
}
break;
- case op_i_select_tuple_arity_rfI:
case op_i_select_tuple_arity_xfI:
case op_i_select_tuple_arity_yfI:
{
@@ -639,7 +622,6 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
}
}
break;
- case op_i_jump_on_val_rfII:
case op_i_jump_on_val_xfII:
case op_i_jump_on_val_yfII:
{
@@ -651,7 +633,6 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
}
}
break;
- case op_i_jump_on_val_zero_rfI:
case op_i_jump_on_val_zero_xfI:
case op_i_jump_on_val_zero_yfI:
{
@@ -663,7 +644,6 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
}
}
break;
- case op_i_put_tuple_rI:
case op_i_put_tuple_xI:
case op_i_put_tuple_yI:
case op_new_map_dII:
@@ -673,20 +653,16 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
int n = unpacked[-1];
while (n > 0) {
- if (!is_header(ap[0])) {
+ switch (loader_tag(ap[0])) {
+ case LOADER_X_REG:
+ 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]));
+ break;
+ default:
erts_print(to, to_arg, " %T", (Eterm) ap[0]);
- } else {
- switch ((ap[0] >> 2) & 0x03) {
- case R_REG_DEF:
- erts_print(to, to_arg, " x(0)");
- break;
- case X_REG_DEF:
- erts_print(to, to_arg, " x(%d)", ap[0] >> 4);
- break;
- case Y_REG_DEF:
- erts_print(to, to_arg, " y(%d)", ap[0] >> 4);
- break;
- }
+ break;
}
ap++, size++, n--;
}
@@ -699,18 +675,16 @@ print_op(int to, void *to_arg, int op, int size, BeamInstr* addr)
while (n > 0) {
if (n % 3 == 1) {
erts_print(to, to_arg, " %X", ap[0]);
- } else if (!is_header(ap[0])) {
- erts_print(to, to_arg, " %T", (Eterm) ap[0]);
} else {
- switch ((ap[0] >> 2) & 0x03) {
- case R_REG_DEF:
- erts_print(to, to_arg, " x(0)");
+ switch (loader_tag(ap[0])) {
+ case LOADER_X_REG:
+ erts_print(to, to_arg, " x(%d)", loader_x_reg_index(ap[0]));
break;
- case X_REG_DEF:
- erts_print(to, to_arg, " x(%d)", ap[0] >> 4);
+ case LOADER_Y_REG:
+ erts_print(to, to_arg, " y(%d)", loader_y_reg_index(ap[0]));
break;
- case Y_REG_DEF:
- erts_print(to, to_arg, " y(%d)", ap[0] >> 4);
+ default:
+ erts_print(to, to_arg, " %T", (Eterm) ap[0]);
break;
}
}
diff --git a/erts/emulator/beam/beam_emu.c b/erts/emulator/beam/beam_emu.c
index 806b31654c..a296713a0a 100644
--- a/erts/emulator/beam/beam_emu.c
+++ b/erts/emulator/beam/beam_emu.c
@@ -99,10 +99,7 @@ do { \
do { \
int i_; \
int Arity_ = PC[-1]; \
- if (Arity_ > 0) { \
- CHECK_TERM(r(0)); \
- } \
- for (i_ = 1; i_ < Arity_; i_++) { \
+ for (i_ = 0; i_ < Arity_; i_++) { \
CHECK_TERM(x(i_)); \
} \
} while (0)
@@ -151,25 +148,21 @@ do { \
ASSERT(VALID_INSTR(* (Eterm *)(ip))); \
I = (ip)
-#define FetchArgs(S1, S2) tmp_arg1 = (S1); tmp_arg2 = (S2)
+/*
+ * Register target (X or Y register).
+ */
+#define REG_TARGET(Target) (*(((Target) & 1) ? &yb(Target-1) : &xb(Target)))
/*
* Store a result into a register given a destination descriptor.
*/
-#define StoreResult(Result, DestDesc) \
- do { \
- Eterm stb_reg; \
- stb_reg = (DestDesc); \
- CHECK_TERM(Result); \
- switch (beam_reg_tag(stb_reg)) { \
- case R_REG_DEF: \
- r(0) = (Result); break; \
- case X_REG_DEF: \
- xb(x_reg_offset(stb_reg)) = (Result); break; \
- default: \
- yb(y_reg_offset(stb_reg)) = (Result); break; \
- } \
+#define StoreResult(Result, DestDesc) \
+ do { \
+ Eterm stb_reg; \
+ stb_reg = (DestDesc); \
+ CHECK_TERM(Result); \
+ REG_TARGET(stb_reg) = (Result); \
} while (0)
#define StoreSimpleDest(Src, Dest) Dest = (Src)
@@ -180,22 +173,16 @@ do { \
* be just before the next instruction.
*/
-#define StoreBifResult(Dst, Result) \
- do { \
- BeamInstr* stb_next; \
- Eterm stb_reg; \
- stb_reg = Arg(Dst); \
- I += (Dst) + 2; \
- stb_next = (BeamInstr *) *I; \
- CHECK_TERM(Result); \
- switch (beam_reg_tag(stb_reg)) { \
- case R_REG_DEF: \
- r(0) = (Result); Goto(stb_next); \
- case X_REG_DEF: \
- xb(x_reg_offset(stb_reg)) = (Result); Goto(stb_next); \
- default: \
- yb(y_reg_offset(stb_reg)) = (Result); Goto(stb_next); \
- } \
+#define StoreBifResult(Dst, Result) \
+ do { \
+ BeamInstr* stb_next; \
+ Eterm stb_reg; \
+ stb_reg = Arg(Dst); \
+ I += (Dst) + 2; \
+ stb_next = (BeamInstr *) *I; \
+ CHECK_TERM(Result); \
+ REG_TARGET(stb_reg) = (Result); \
+ Goto(stb_next); \
} while (0)
#define ClauseFail() goto jump_f
@@ -293,7 +280,7 @@ void** beam_ops;
#define Ib(N) (N)
#define x(N) reg[N]
#define y(N) E[N]
-#define r(N) x##N
+#define r(N) x(N)
/*
* Makes sure that there are StackNeed + HeapNeed + 1 words available
@@ -309,12 +296,10 @@ void** beam_ops;
needed = (StackNeed) + 1; \
if (E - HTOP < (needed + (HeapNeed))) { \
SWAPOUT; \
- reg[0] = r(0); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
FCALLS -= erts_garbage_collect(c_p, needed + (HeapNeed), reg, (M)); \
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
- r(0) = reg[0]; \
SWAPIN; \
} \
E -= needed; \
@@ -363,12 +348,10 @@ void** beam_ops;
unsigned need = (Nh); \
if ((E - HTOP < need) || (MSO(c_p).overhead + (VNh) >= BIN_VHEAP_SZ(c_p))) {\
SWAPOUT; \
- reg[0] = r(0); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
FCALLS -= erts_garbage_collect(c_p, need, reg, (Live)); \
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
- r(0) = reg[0]; \
SWAPIN; \
} \
HEAP_SPACE_VERIFIED(need); \
@@ -386,12 +369,10 @@ void** beam_ops;
unsigned need = (Nh); \
if (E - HTOP < need) { \
SWAPOUT; \
- reg[0] = r(0); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
FCALLS -= erts_garbage_collect(c_p, need, reg, (Live)); \
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
- r(0) = reg[0]; \
SWAPIN; \
} \
HEAP_SPACE_VERIFIED(need); \
@@ -408,15 +389,11 @@ void** beam_ops;
unsigned need = (Nh); \
if (E - HTOP < need) { \
SWAPOUT; \
- reg[0] = r(0); \
reg[Live] = Extra; \
PROCESS_MAIN_CHK_LOCKS(c_p); \
FCALLS -= erts_garbage_collect(c_p, need, reg, (Live)+1); \
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p); \
PROCESS_MAIN_CHK_LOCKS(c_p); \
- if (Live > 0) { \
- r(0) = reg[0]; \
- } \
Extra = reg[Live]; \
SWAPIN; \
} \
@@ -439,7 +416,6 @@ void** beam_ops;
#define MakeFun(FunP, NumFree) \
do { \
SWAPOUT; \
- reg[0] = r(0); \
r(0) = new_fun(c_p, reg, (ErlFunEntry *) FunP, NumFree); \
SWAPIN; \
} while (0)
@@ -531,15 +507,19 @@ void** beam_ops;
ASSERT(VALID_INSTR(Dst)); \
Goto(Dst)
-#define GetR(pos, tr) \
- do { \
- tr = Arg(pos); \
- switch (beam_reg_tag(tr)) { \
- case R_REG_DEF: tr = r(0); break; \
- case X_REG_DEF: tr = xb(x_reg_offset(tr)); break; \
- case Y_REG_DEF: ASSERT(y_reg_offset(tr) >= 1); tr = yb(y_reg_offset(tr)); break; \
- } \
- CHECK_TERM(tr); \
+#define GetR(pos, tr) \
+ do { \
+ tr = Arg(pos); \
+ switch (loader_tag(tr)) { \
+ case LOADER_X_REG: \
+ tr = x(loader_x_reg_index(tr)); \
+ break; \
+ case LOADER_Y_REG: \
+ ASSERT(loader_y_reg_index(tr) >= 1); \
+ tr = y(loader_y_reg_index(tr)); \
+ break; \
+ } \
+ CHECK_TERM(tr); \
} while (0)
#define GetArg1(N, Dst) GetR((N), Dst)
@@ -557,24 +537,93 @@ void** beam_ops;
HTOP += 2; \
} while (0)
+#define Swap(R1, R2) \
+ do { \
+ Eterm V = R1; \
+ R1 = R2; \
+ R2 = V; \
+ } while (0)
+
+#define SwapTemp(R1, R2, Tmp) \
+ do { \
+ Eterm V = R1; \
+ R1 = R2; \
+ R2 = Tmp = V; \
+ } while (0)
+
#define Move(Src, Dst, Store) \
do { \
Eterm term = (Src); \
Store(term, Dst); \
} while (0)
-#define Move2(S1, D1, S2, D2) D1 = (S1); D2 = (S2)
+#define Move2Par(S1, D1, S2, D2) \
+ do { \
+ Eterm V1, V2; \
+ V1 = (S1); V2 = (S2); D1 = V1; D2 = V2; \
+ } while (0)
+
+#define MoveShift(Src, SD, D) \
+ do { \
+ Eterm V; \
+ V = Src; D = SD; SD = V; \
+ } while (0)
+
+#define MoveDup(Src, D1, D2) \
+ do { \
+ D1 = D2 = (Src); \
+ } while (0)
+
#define Move3(S1, D1, S2, D2, S3, D3) D1 = (S1); D2 = (S2); D3 = (S3)
-#define MoveGenDest(src, dstp) \
- if ((dstp) == NULL) { r(0) = (src); } else { *(dstp) = src; }
+#define MoveWindow3(S1, S2, S3, D) \
+ do { \
+ Eterm xt0, xt1, xt2; \
+ Eterm *y = &D; \
+ xt0 = S1; \
+ xt1 = S2; \
+ xt2 = S3; \
+ y[0] = xt0; \
+ y[1] = xt1; \
+ y[2] = xt2; \
+ } while (0)
+
+#define MoveWindow4(S1, S2, S3, S4, D) \
+ do { \
+ Eterm xt0, xt1, xt2, xt3; \
+ Eterm *y = &D; \
+ xt0 = S1; \
+ xt1 = S2; \
+ xt2 = S3; \
+ xt3 = S4; \
+ y[0] = xt0; \
+ y[1] = xt1; \
+ y[2] = xt2; \
+ y[3] = xt3; \
+ } while (0)
-#define MoveReturn(Src, Dest) \
- (Dest) = (Src); \
- I = c_p->cp; \
- ASSERT(VALID_INSTR(*c_p->cp)); \
- c_p->cp = 0; \
- CHECK_TERM(r(0)); \
+#define MoveWindow5(S1, S2, S3, S4, S5, D) \
+ do { \
+ Eterm xt0, xt1, xt2, xt3, xt4; \
+ Eterm *y = &D; \
+ xt0 = S1; \
+ xt1 = S2; \
+ xt2 = S3; \
+ xt3 = S4; \
+ xt4 = S5; \
+ y[0] = xt0; \
+ y[1] = xt1; \
+ y[2] = xt2; \
+ y[3] = xt3; \
+ y[4] = xt4; \
+ } while (0)
+
+#define MoveReturn(Src) \
+ x(0) = (Src); \
+ I = c_p->cp; \
+ ASSERT(VALID_INSTR(*c_p->cp)); \
+ c_p->cp = 0; \
+ CHECK_TERM(r(0)); \
Goto(*I)
#define DeallocateReturn(Deallocate) \
@@ -586,26 +635,26 @@ void** beam_ops;
Goto(*I); \
} while (0)
-#define MoveDeallocateReturn(Src, Dest, Deallocate) \
- (Dest) = (Src); \
+#define MoveDeallocateReturn(Src, Deallocate) \
+ x(0) = (Src); \
DeallocateReturn(Deallocate)
-#define MoveCall(Src, Dest, CallDest, Size) \
- (Dest) = (Src); \
+#define MoveCall(Src, CallDest, Size) \
+ x(0) = (Src); \
SET_CP(c_p, I+Size+1); \
- SET_I((BeamInstr *) CallDest); \
+ SET_I((BeamInstr *) CallDest); \
Dispatch();
-#define MoveCallLast(Src, Dest, CallDest, Deallocate) \
- (Dest) = (Src); \
- RESTORE_CP(E); \
- E = ADD_BYTE_OFFSET(E, (Deallocate)); \
- SET_I((BeamInstr *) CallDest); \
+#define MoveCallLast(Src, CallDest, Deallocate) \
+ x(0) = (Src); \
+ RESTORE_CP(E); \
+ E = ADD_BYTE_OFFSET(E, (Deallocate)); \
+ SET_I((BeamInstr *) CallDest); \
Dispatch();
-#define MoveCallOnly(Src, Dest, CallDest) \
- (Dest) = (Src); \
- SET_I((BeamInstr *) CallDest); \
+#define MoveCallOnly(Src, CallDest) \
+ x(0) = (Src); \
+ SET_I((BeamInstr *) CallDest); \
Dispatch();
#define MoveJump(Src) \
@@ -613,57 +662,56 @@ void** beam_ops;
SET_I((BeamInstr *) Arg(0)); \
Goto(*I);
-#define GetList(Src, H, T) do { \
- Eterm* tmp_ptr = list_val(Src); \
- H = CAR(tmp_ptr); \
- T = CDR(tmp_ptr); } while (0)
-
-#define GetTupleElement(Src, Element, Dest) \
- do { \
- tmp_arg1 = (Eterm) (((unsigned char *) tuple_val(Src)) + (Element));\
- (Dest) = (*(Eterm *) tmp_arg1); \
- } while (0)
-
-#define ExtractNextElement(Dest) \
- tmp_arg1 += sizeof(Eterm); \
- (Dest) = (* (Eterm *) (((unsigned char *) tmp_arg1)))
-
-#define ExtractNextElement2(Dest) \
- do { \
- Eterm* ene_dstp = &(Dest); \
- ene_dstp[0] = ((Eterm *) tmp_arg1)[1]; \
- ene_dstp[1] = ((Eterm *) tmp_arg1)[2]; \
- tmp_arg1 += sizeof(Eterm) + sizeof(Eterm); \
+#define GetList(Src, H, T) \
+ do { \
+ Eterm* tmp_ptr = list_val(Src); \
+ Eterm hd, tl; \
+ hd = CAR(tmp_ptr); \
+ tl = CDR(tmp_ptr); \
+ H = hd; T = tl; \
} while (0)
-#define ExtractNextElement3(Dest) \
- do { \
- Eterm* ene_dstp = &(Dest); \
- ene_dstp[0] = ((Eterm *) tmp_arg1)[1]; \
- ene_dstp[1] = ((Eterm *) tmp_arg1)[2]; \
- ene_dstp[2] = ((Eterm *) tmp_arg1)[3]; \
- tmp_arg1 += 3*sizeof(Eterm); \
+#define GetTupleElement(Src, Element, Dest) \
+ do { \
+ Eterm* src; \
+ src = ADD_BYTE_OFFSET(tuple_val(Src), (Element)); \
+ (Dest) = *src; \
} while (0)
-#define ExtractNextElement4(Dest) \
- do { \
- Eterm* ene_dstp = &(Dest); \
- ene_dstp[0] = ((Eterm *) tmp_arg1)[1]; \
- ene_dstp[1] = ((Eterm *) tmp_arg1)[2]; \
- ene_dstp[2] = ((Eterm *) tmp_arg1)[3]; \
- ene_dstp[3] = ((Eterm *) tmp_arg1)[4]; \
- tmp_arg1 += 4*sizeof(Eterm); \
+#define GetTupleElement2(Src, Element, Dest) \
+ do { \
+ Eterm* src; \
+ Eterm* dst; \
+ Eterm E1, E2; \
+ src = ADD_BYTE_OFFSET(tuple_val(Src), (Element)); \
+ dst = &(Dest); \
+ E1 = src[0]; \
+ E2 = src[1]; \
+ dst[0] = E1; \
+ dst[1] = E2; \
} while (0)
-#define ExtractElement(Element, Dest) \
- do { \
- tmp_arg1 += (Element); \
- (Dest) = (* (Eterm *) tmp_arg1); \
+#define GetTupleElement3(Src, Element, Dest) \
+ do { \
+ Eterm* src; \
+ Eterm* dst; \
+ Eterm E1, E2, E3; \
+ src = ADD_BYTE_OFFSET(tuple_val(Src), (Element)); \
+ dst = &(Dest); \
+ E1 = src[0]; \
+ E2 = src[1]; \
+ E3 = src[2]; \
+ dst[0] = E1; \
+ dst[1] = E2; \
+ dst[2] = E3; \
} while (0)
#define EqualImmed(X, Y, Action) if (X != Y) { Action; }
#define NotEqualImmed(X, Y, Action) if (X == Y) { Action; }
#define EqualExact(X, Y, Action) if (!EQ(X,Y)) { Action; }
+#define NotEqualExact(X, Y, Action) if (EQ(X,Y)) { Action; }
+#define Equal(X, Y, Action) if (!CMP_EQ(X,Y)) { Action; }
+#define NotEqual(X, Y, Action) if (!CMP_NE(X,Y)) { Action; }
#define IsLessThan(X, Y, Action) if (CMP_GE(X, Y)) { Action; }
#define IsGreaterEqual(X, Y, Action) if (CMP_LT(X, Y)) { Action; }
@@ -689,17 +737,26 @@ void** beam_ops;
if (is_not_list(Src)) { Fail; } \
A(Need, Alive)
-#define IsNonemptyListTestHeap(Src, Need, Alive, Fail) \
- if (is_not_list(Src)) { Fail; } \
+#define IsNonemptyListTestHeap(Need, Alive, Fail) \
+ if (is_not_list(x(0))) { Fail; } \
TestHeap(Need, Alive)
+#define IsNonemptyListGetList(Src, H, T, Fail) \
+ if (is_not_list(Src)) { \
+ Fail; \
+ } else { \
+ Eterm* tmp_ptr = list_val(Src); \
+ Eterm hd, tl; \
+ hd = CAR(tmp_ptr); \
+ tl = CDR(tmp_ptr); \
+ H = hd; T = tl; \
+ }
+
#define IsTuple(X, Action) if (is_not_tuple(X)) Action
-#define IsArity(Pointer, Arity, Fail) \
- if (*(Eterm *) \
- (tmp_arg1 = (Eterm) (tuple_val(Pointer))) != (Arity)) \
- { \
- Fail; \
+#define IsArity(Pointer, Arity, Fail) \
+ if (*tuple_val(Pointer) != (Arity)) { \
+ Fail; \
}
#define IsMap(Src, Fail) if (!is_map(Src)) { Fail; }
@@ -736,14 +793,21 @@ void** beam_ops;
} \
} while (0)
-#define IsTupleOfArity(Src, Arity, Fail) \
- do { \
- if (is_not_tuple(Src) || \
- *(Eterm *) \
- (tmp_arg1 = (Eterm) (tuple_val(Src))) != Arity) { \
- Fail; \
- } \
+#ifdef DEBUG
+#define IsTupleOfArity(Src, Arityval, Fail) \
+ do { \
+ if (!(is_tuple(Src) && *tuple_val(Src) == Arityval)) { \
+ Fail; \
+ } \
+ } while (0)
+#else
+#define IsTupleOfArity(Src, Arityval, Fail) \
+ do { \
+ if (!(is_boxed(Src) && *tuple_val(Src) == Arityval)) { \
+ Fail; \
+ } \
} while (0)
+#endif
#define IsBoolean(X, Fail) if ((X) != am_true && (X) != am_false) { Fail; }
@@ -770,6 +834,7 @@ void** beam_ops;
#define BsGetFieldSize(Bits, Unit, Fail, Target) \
do { \
Sint _signed_size; Uint _uint_size; \
+ Uint temp_bits; \
if (is_small(Bits)) { \
_signed_size = signed_val(Bits); \
if (_signed_size < 0) { Fail; } \
@@ -784,6 +849,7 @@ void** beam_ops;
#define BsGetUncheckedFieldSize(Bits, Unit, Fail, Target) \
do { \
Sint _signed_size; Uint _uint_size; \
+ Uint temp_bits; \
if (is_small(Bits)) { \
_signed_size = signed_val(Bits); \
if (_signed_size < 0) { Fail; } \
@@ -995,23 +1061,17 @@ init_emulator(void)
*/
#if defined(__GNUC__) && defined(sparc) && !defined(DEBUG)
-# define REG_x0 asm("%l0")
# define REG_xregs asm("%l1")
# define REG_htop asm("%l2")
# define REG_stop asm("%l3")
# define REG_I asm("%l4")
# define REG_fcalls asm("%l5")
-# define REG_tmp_arg1 asm("%l6")
-# define REG_tmp_arg2 asm("%l7")
#else
-# define REG_x0
# define REG_xregs
# define REG_htop
# define REG_stop
# define REG_I
# define REG_fcalls
-# define REG_tmp_arg1
-# define REG_tmp_arg2
#endif
#ifdef USE_VM_PROBES
@@ -1129,11 +1189,6 @@ void process_main(void)
ERTS_DECLARE_DUMMY(Eterm pid);
#endif
- /*
- * X register zero; also called r(0)
- */
- register Eterm x0 REG_x0 = NIL;
-
/* Pointer to X registers: x(1)..x(N); reg[0] is used when doing GC,
* in all other cases x0 is used.
*/
@@ -1161,13 +1216,6 @@ void process_main(void)
register Sint FCALLS REG_fcalls = 0;
/*
- * Temporaries used for picking up arguments for instructions.
- */
- register Eterm tmp_arg1 REG_tmp_arg1 = NIL;
- register Eterm tmp_arg2 REG_tmp_arg2 = NIL;
- Eterm tmp_big[2];
-
- /*
* X registers and floating point registers are located in
* scheduler specific data.
*/
@@ -1178,8 +1226,6 @@ void process_main(void)
*/
int neg_o_reds = 0;
- Eterm (*arith_func)(Process* p, Eterm* reg, Uint live);
-
#ifdef ERTS_OPCODE_COUNTER_SUPPORT
static void* counting_opcodes[] = { DEFINE_COUNTING_OPCODES };
#else
@@ -1190,8 +1236,6 @@ void process_main(void)
#endif
#endif
- Uint temp_bits; /* Temporary used by BsSkipBits2 & BsGetInteger2 */
-
Eterm pt_arity; /* Used by do_put_tuple */
Uint64 start_time = 0; /* Monitor long schedule */
@@ -1265,7 +1309,7 @@ void process_main(void)
int i;
argp = c_p->arg_reg;
- for (i = c_p->arity - 1; i > 0; i--) {
+ for (i = c_p->arity - 1; i >= 0; i--) {
reg[i] = argp[i];
CHECK_TERM(reg[i]);
}
@@ -1289,12 +1333,6 @@ void process_main(void)
}
next = (BeamInstr *) *I;
- r(0) = c_p->arg_reg[0];
-#ifdef HARDDEBUG
- if (c_p->arity > 0) {
- CHECK_TERM(r(0));
- }
-#endif
SWAPIN;
ASSERT(VALID_INSTR(next));
@@ -1333,26 +1371,24 @@ void process_main(void)
#endif
#include "beam_hot.h"
-#define STORE_ARITH_RESULT(res) StoreBifResult(2, (res));
-#define ARITH_FUNC(name) erts_gc_##name
-
{
Eterm increment_reg_val;
Eterm increment_val;
Uint live;
Eterm result;
- OpCase(i_increment_yIId):
- increment_reg_val = yb(Arg(0));
+ OpCase(i_increment_rIId):
+ increment_reg_val = x(0);
+ I--;
goto do_increment;
OpCase(i_increment_xIId):
increment_reg_val = xb(Arg(0));
goto do_increment;
- OpCase(i_increment_rIId):
- increment_reg_val = r(0);
- I--;
+ OpCase(i_increment_yIId):
+ increment_reg_val = yb(Arg(0));
+ goto do_increment;
do_increment:
increment_val = Arg(1);
@@ -1361,229 +1397,133 @@ void process_main(void)
ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i));
if (MY_IS_SSMALL(i)) {
result = make_small(i);
- store_result:
StoreBifResult(3, result);
}
}
live = Arg(2);
SWAPOUT;
- reg[0] = r(0);
reg[live] = increment_reg_val;
reg[live+1] = make_small(increment_val);
result = erts_gc_mixed_plus(c_p, reg, live);
- r(0) = reg[0];
SWAPIN;
ERTS_HOLE_CHECK(c_p);
if (is_value(result)) {
- goto store_result;
+ StoreBifResult(3, result);
}
ASSERT(c_p->freason != BADMATCH || is_value(c_p->fvalue));
goto find_func_info;
}
-#define DO_BIG_ARITH(Func,Arg1,Arg2) \
- do { \
- Uint live = Arg(1); \
- SWAPOUT; \
- reg[0] = r(0); \
- reg[live] = (Arg1); \
- reg[live+1] = (Arg2); \
- result = (Func)(c_p, reg, live); \
- r(0) = reg[0]; \
- SWAPIN; \
- ERTS_HOLE_CHECK(c_p); \
- if (is_value(result)) { \
- StoreBifResult(4,result); \
- } \
- goto lb_Cl_error; \
- } while(0)
+#define DO_OUTLINED_ARITH_2(name, Op1, Op2) \
+ do { \
+ Eterm result; \
+ Uint live = Arg(1); \
+ \
+ SWAPOUT; \
+ reg[live] = Op1; \
+ reg[live+1] = Op2; \
+ result = erts_gc_##name(c_p, reg, live); \
+ SWAPIN; \
+ ERTS_HOLE_CHECK(c_p); \
+ if (is_value(result)) { \
+ StoreBifResult(4, result); \
+ } \
+ goto lb_Cl_error; \
+ } while (0)
- OpCase(i_plus_jIxxd):
{
+ Eterm PlusOp1, PlusOp2;
Eterm result;
- if (is_both_small(xb(Arg(2)), xb(Arg(3)))) {
- Sint i = signed_val(xb(Arg(2))) + signed_val(xb(Arg(3)));
+ OpCase(i_plus_jIxxd):
+ PlusOp1 = xb(Arg(2));
+ PlusOp2 = xb(Arg(3));
+ goto do_plus;
+
+ OpCase(i_plus_jIxyd):
+ PlusOp1 = xb(Arg(2));
+ PlusOp2 = yb(Arg(3));
+ goto do_plus;
+
+ OpCase(i_plus_jIssd):
+ GetArg2(2, PlusOp1, PlusOp2);
+ goto do_plus;
+
+ do_plus:
+ if (is_both_small(PlusOp1, PlusOp2)) {
+ Sint i = signed_val(PlusOp1) + signed_val(PlusOp2);
ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i));
if (MY_IS_SSMALL(i)) {
result = make_small(i);
StoreBifResult(4, result);
}
}
- DO_BIG_ARITH(ARITH_FUNC(mixed_plus), xb(Arg(2)), xb(Arg(3)));
+ DO_OUTLINED_ARITH_2(mixed_plus, PlusOp1, PlusOp2);
}
- OpCase(i_plus_jId):
{
+ Eterm MinusOp1, MinusOp2;
Eterm result;
- if (is_both_small(tmp_arg1, tmp_arg2)) {
- Sint i = signed_val(tmp_arg1) + signed_val(tmp_arg2);
- ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i));
- if (MY_IS_SSMALL(i)) {
- result = make_small(i);
- STORE_ARITH_RESULT(result);
- }
- }
- arith_func = ARITH_FUNC(mixed_plus);
- goto do_big_arith2;
- }
-
OpCase(i_minus_jIxxd):
- {
- Eterm result;
-
- if (is_both_small(xb(Arg(2)), xb(Arg(3)))) {
- Sint i = signed_val(xb(Arg(2))) - signed_val(xb(Arg(3)));
- ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i));
- if (MY_IS_SSMALL(i)) {
- result = make_small(i);
- StoreBifResult(4, result);
- }
- }
- DO_BIG_ARITH(ARITH_FUNC(mixed_minus), xb(Arg(2)), xb(Arg(3)));
- }
+ MinusOp1 = xb(Arg(2));
+ MinusOp2 = xb(Arg(3));
+ goto do_minus;
- OpCase(i_minus_jId):
- {
- Eterm result;
+ OpCase(i_minus_jIssd):
+ GetArg2(2, MinusOp1, MinusOp2);
+ goto do_minus;
- if (is_both_small(tmp_arg1, tmp_arg2)) {
- Sint i = signed_val(tmp_arg1) - signed_val(tmp_arg2);
+ do_minus:
+ if (is_both_small(MinusOp1, MinusOp2)) {
+ Sint i = signed_val(MinusOp1) - signed_val(MinusOp2);
ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i));
if (MY_IS_SSMALL(i)) {
result = make_small(i);
- STORE_ARITH_RESULT(result);
+ StoreBifResult(4, result);
}
}
- arith_func = ARITH_FUNC(mixed_minus);
- goto do_big_arith2;
+ DO_OUTLINED_ARITH_2(mixed_minus, MinusOp1, MinusOp2);
}
- OpCase(i_is_lt_f):
- if (CMP_GE(tmp_arg1, tmp_arg2)) {
- ClauseFail();
- }
- Next(1);
-
- OpCase(i_is_ge_f):
- if (CMP_LT(tmp_arg1, tmp_arg2)) {
- ClauseFail();
- }
- Next(1);
-
- OpCase(i_is_eq_f):
- if (CMP_NE(tmp_arg1, tmp_arg2)) {
- ClauseFail();
- }
- Next(1);
-
- OpCase(i_is_ne_f):
- if (CMP_EQ(tmp_arg1, tmp_arg2)) {
- ClauseFail();
- }
- Next(1);
-
- OpCase(i_is_eq_exact_f):
- if (!EQ(tmp_arg1, tmp_arg2)) {
- ClauseFail();
- }
- Next(1);
-
{
Eterm is_eq_exact_lit_val;
- OpCase(i_is_eq_exact_literal_xfc):
- is_eq_exact_lit_val = xb(Arg(0));
- I++;
+ OpCase(i_is_eq_exact_literal_fxc):
+ is_eq_exact_lit_val = xb(Arg(1));
goto do_is_eq_exact_literal;
- OpCase(i_is_eq_exact_literal_yfc):
- is_eq_exact_lit_val = yb(Arg(0));
- I++;
+ OpCase(i_is_eq_exact_literal_fyc):
+ is_eq_exact_lit_val = yb(Arg(1));
goto do_is_eq_exact_literal;
- OpCase(i_is_eq_exact_literal_rfc):
- is_eq_exact_lit_val = r(0);
-
do_is_eq_exact_literal:
- if (!eq(Arg(1), is_eq_exact_lit_val)) {
+ if (!eq(Arg(2), is_eq_exact_lit_val)) {
ClauseFail();
}
- Next(2);
+ Next(3);
}
{
Eterm is_ne_exact_lit_val;
- OpCase(i_is_ne_exact_literal_xfc):
- is_ne_exact_lit_val = xb(Arg(0));
- I++;
+ OpCase(i_is_ne_exact_literal_fxc):
+ is_ne_exact_lit_val = xb(Arg(1));
goto do_is_ne_exact_literal;
- OpCase(i_is_ne_exact_literal_yfc):
- is_ne_exact_lit_val = yb(Arg(0));
- I++;
+ OpCase(i_is_ne_exact_literal_fyc):
+ is_ne_exact_lit_val = yb(Arg(1));
goto do_is_ne_exact_literal;
- OpCase(i_is_ne_exact_literal_rfc):
- is_ne_exact_lit_val = r(0);
-
do_is_ne_exact_literal:
- if (eq(Arg(1), is_ne_exact_lit_val)) {
+ if (eq(Arg(2), is_ne_exact_lit_val)) {
ClauseFail();
}
- Next(2);
+ Next(3);
}
- OpCase(move_window3_xxxy): {
- BeamInstr *next;
- Eterm xt0, xt1, xt2;
- Eterm *y = (Eterm *)(((unsigned char *)E) + (Arg(3)));
- PreFetch(4, next);
- xt0 = xb(Arg(0));
- xt1 = xb(Arg(1));
- xt2 = xb(Arg(2));
- y[0] = xt0;
- y[1] = xt1;
- y[2] = xt2;
- NextPF(4, next);
- }
- OpCase(move_window4_xxxxy): {
- BeamInstr *next;
- Eterm xt0, xt1, xt2, xt3;
- Eterm *y = (Eterm *)(((unsigned char *)E) + (Arg(4)));
- PreFetch(5, next);
- xt0 = xb(Arg(0));
- xt1 = xb(Arg(1));
- xt2 = xb(Arg(2));
- xt3 = xb(Arg(3));
- y[0] = xt0;
- y[1] = xt1;
- y[2] = xt2;
- y[3] = xt3;
- NextPF(5, next);
- }
- OpCase(move_window5_xxxxxy): {
- BeamInstr *next;
- Eterm xt0, xt1, xt2, xt3, xt4;
- Eterm *y = (Eterm *)(((unsigned char *)E) + (Arg(5)));
- PreFetch(6, next);
- xt0 = xb(Arg(0));
- xt1 = xb(Arg(1));
- xt2 = xb(Arg(2));
- xt3 = xb(Arg(3));
- xt4 = xb(Arg(4));
- y[0] = xt0;
- y[1] = xt1;
- y[2] = xt2;
- y[3] = xt3;
- y[4] = xt4;
- NextPF(6, next);
- }
-
- OpCase(i_move_call_only_fcr): {
+ OpCase(i_move_call_only_fc): {
r(0) = Arg(1);
}
/* FALL THROUGH */
@@ -1593,7 +1533,7 @@ void process_main(void)
Dispatch();
}
- OpCase(i_move_call_last_fPcr): {
+ OpCase(i_move_call_last_fPc): {
r(0) = Arg(2);
}
/* FALL THROUGH */
@@ -1605,7 +1545,7 @@ void process_main(void)
Dispatch();
}
- OpCase(i_move_call_crf): {
+ OpCase(i_move_call_cf): {
r(0) = Arg(0);
I++;
}
@@ -1617,7 +1557,7 @@ void process_main(void)
Dispatch();
}
- OpCase(i_move_call_ext_last_ePcr): {
+ OpCase(i_move_call_ext_last_ePc): {
r(0) = Arg(2);
}
/* FALL THROUGH */
@@ -1633,7 +1573,7 @@ void process_main(void)
DTRACE_GLOBAL_CALL_FROM_EXPORT(c_p, Arg(0));
Dispatchx();
- OpCase(i_move_call_ext_cre): {
+ OpCase(i_move_call_ext_ce): {
r(0) = Arg(0);
I++;
}
@@ -1643,7 +1583,7 @@ void process_main(void)
DTRACE_GLOBAL_CALL_FROM_EXPORT(c_p, Arg(0));
Dispatchx();
- OpCase(i_move_call_ext_only_ecr): {
+ OpCase(i_move_call_ext_only_ec): {
r(0) = Arg(1);
}
/* FALL THROUGH */
@@ -1709,7 +1649,6 @@ void process_main(void)
PRE_BIF_SWAPOUT(c_p);
c_p->fcalls = FCALLS - 1;
- reg[0] = r(0);
result = erl_send(c_p, r(0), x(1));
PreFetch(0, next);
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
@@ -1717,7 +1656,6 @@ void process_main(void)
PROCESS_MAIN_CHK_LOCKS(c_p);
if (c_p->mbuf || MSO(c_p).overhead >= BIN_VHEAP_SZ(c_p)) {
result = erts_gc_after_bif_call(c_p, result, reg, 2);
- r(0) = reg[0];
E = c_p->stop;
}
HTOP = HEAP_TOP(c_p);
@@ -1730,7 +1668,6 @@ void process_main(void)
SET_CP(c_p, I+1);
SET_I(c_p->i);
SWAPIN;
- r(0) = reg[0];
Dispatch();
}
goto find_func_info;
@@ -1740,29 +1677,23 @@ void process_main(void)
Eterm element_index;
Eterm element_tuple;
- OpCase(i_element_xjsd):
- element_tuple = xb(Arg(0));
- I++;
+ OpCase(i_element_jxsd):
+ element_tuple = xb(Arg(1));
goto do_element;
- OpCase(i_element_yjsd):
- element_tuple = yb(Arg(0));
- I++;
+ OpCase(i_element_jysd):
+ element_tuple = yb(Arg(1));
goto do_element;
- OpCase(i_element_rjsd):
- element_tuple = r(0);
- /* Fall through */
-
do_element:
- GetArg1(1, element_index);
+ GetArg1(2, element_index);
if (is_small(element_index) && is_tuple(element_tuple)) {
Eterm* tp = tuple_val(element_tuple);
if ((signed_val(element_index) >= 1) &&
(signed_val(element_index) <= arityval(*tp))) {
Eterm result = tp[signed_val(element_index)];
- StoreBifResult(2, result);
+ StoreBifResult(3, result);
}
}
}
@@ -1776,29 +1707,24 @@ void process_main(void)
{
Eterm fast_element_tuple;
- OpCase(i_fast_element_rjId):
- fast_element_tuple = r(0);
+ OpCase(i_fast_element_jxId):
+ fast_element_tuple = xb(Arg(1));
+ goto do_fast_element;
+
+ OpCase(i_fast_element_jyId):
+ fast_element_tuple = yb(Arg(1));
+ goto do_fast_element;
do_fast_element:
if (is_tuple(fast_element_tuple)) {
Eterm* tp = tuple_val(fast_element_tuple);
- Eterm pos = Arg(1); /* Untagged integer >= 1 */
+ Eterm pos = Arg(2); /* Untagged integer >= 1 */
if (pos <= arityval(*tp)) {
Eterm result = tp[pos];
- StoreBifResult(2, result);
+ StoreBifResult(3, result);
}
}
goto badarg;
-
- OpCase(i_fast_element_xjId):
- fast_element_tuple = xb(Arg(0));
- I++;
- goto do_fast_element;
-
- OpCase(i_fast_element_yjId):
- fast_element_tuple = yb(Arg(0));
- I++;
- goto do_fast_element;
}
OpCase(catch_yf):
@@ -1904,7 +1830,7 @@ void process_main(void)
* Pick up the next message and place it in x(0).
* If no message, jump to a wait or wait_timeout instruction.
*/
- OpCase(i_loop_rec_fr):
+ OpCase(i_loop_rec_f):
{
BeamInstr *next;
ErlMessage* msgp;
@@ -1938,13 +1864,11 @@ void process_main(void)
ErtsMoveMsgAttachmentIntoProc(msgp, c_p, E, HTOP, FCALLS,
{
SWAPOUT;
- reg[0] = r(0);
PROCESS_MAIN_CHK_LOCKS(c_p);
},
{
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
PROCESS_MAIN_CHK_LOCKS(c_p);
- r(0) = reg[0];
SWAPIN;
});
if (is_non_value(ERL_MESSAGE_TERM(msgp))) {
@@ -2218,10 +2142,6 @@ void process_main(void)
select_val2 = xb(Arg(0));
goto do_select_tuple_arity2;
- OpCase(i_select_tuple_arity2_rfAAff):
- select_val2 = r(0);
- I--;
-
do_select_tuple_arity2:
if (is_not_tuple(select_val2)) {
goto select_val2_fail;
@@ -2237,10 +2157,6 @@ void process_main(void)
select_val2 = xb(Arg(0));
goto do_select_val2;
- OpCase(i_select_val2_rfccff):
- select_val2 = r(0);
- I--;
-
do_select_val2:
if (select_val2 == Arg(2)) {
I += 3;
@@ -2264,10 +2180,6 @@ void process_main(void)
select_val = yb(Arg(0));
goto do_select_tuple_arity;
- OpCase(i_select_tuple_arity_rfI):
- select_val = r(0);
- I--;
-
do_select_tuple_arity:
if (is_tuple(select_val)) {
select_val = *tuple_val(select_val);
@@ -2284,10 +2196,6 @@ void process_main(void)
select_val = yb(Arg(0));
goto do_linear_search;
- OpCase(i_select_val_lins_rfI):
- select_val = r(0);
- I--;
-
do_linear_search: {
BeamInstr *vs = &Arg(3);
int ix = 0;
@@ -2314,10 +2222,6 @@ void process_main(void)
select_val = yb(Arg(0));
goto do_binary_search;
- OpCase(i_select_val_bins_rfI):
- select_val = r(0);
- I--;
-
do_binary_search:
{
struct Pairs {
@@ -2378,10 +2282,6 @@ void process_main(void)
jump_on_val_zero_index = xb(Arg(0));
goto do_jump_on_val_zero_index;
- OpCase(i_jump_on_val_zero_rfI):
- jump_on_val_zero_index = r(0);
- I--;
-
do_jump_on_val_zero_index:
if (is_small(jump_on_val_zero_index)) {
jump_on_val_zero_index = signed_val(jump_on_val_zero_index);
@@ -2406,10 +2306,6 @@ void process_main(void)
jump_on_val_index = xb(Arg(0));
goto do_jump_on_val_index;
- OpCase(i_jump_on_val_rfII):
- jump_on_val_index = r(0);
- I--;
-
do_jump_on_val_index:
if (is_small(jump_on_val_index)) {
jump_on_val_index = (Uint) (signed_val(jump_on_val_index) - Arg(3));
@@ -2429,15 +2325,12 @@ void process_main(void)
do {
Eterm term = *I++;
- switch (term & _TAG_IMMED1_MASK) {
- case (R_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER:
- *hp++ = r(0);
+ switch (loader_tag(term)) {
+ case LOADER_X_REG:
+ *hp++ = x(loader_x_reg_index(term));
break;
- case (X_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER:
- *hp++ = x(term >> _TAG_IMMED1_SIZE);
- break;
- case (Y_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER:
- *hp++ = y(term >> _TAG_IMMED1_SIZE);
+ case LOADER_Y_REG:
+ *hp++ = y(loader_y_reg_index(term));
break;
default:
*hp++ = term;
@@ -2451,31 +2344,26 @@ void process_main(void)
OpCase(new_map_dII): {
Eterm res;
- x(0) = r(0);
SWAPOUT;
res = new_map(c_p, reg, I-1);
SWAPIN;
- r(0) = x(0);
StoreResult(res, Arg(0));
Next(3+Arg(2));
}
-#define PUT_TERM_REG(term, desc) \
-do { \
- switch ((desc) & _TAG_IMMED1_MASK) { \
- case (R_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER: \
- r(0) = (term); \
- break; \
- case (X_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER: \
- x((desc) >> _TAG_IMMED1_SIZE) = (term); \
- break; \
- case (Y_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER: \
- y((desc) >> _TAG_IMMED1_SIZE) = (term); \
- break; \
- default: \
- ASSERT(0); \
- break; \
- } \
+#define PUT_TERM_REG(term, desc) \
+do { \
+ switch (loader_tag(desc)) { \
+ case LOADER_X_REG: \
+ x(loader_x_reg_index(desc)) = (term); \
+ break; \
+ case LOADER_Y_REG: \
+ y(loader_y_reg_index(desc)) = (term); \
+ break; \
+ default: \
+ ASSERT(0); \
+ break; \
+ } \
} while(0)
OpCase(i_get_map_elements_fsI): {
@@ -2546,12 +2434,10 @@ do { \
Eterm map;
GetArg1(1, map);
- x(0) = r(0);
SWAPOUT;
res = update_map_assoc(c_p, reg, map, I);
SWAPIN;
if (is_value(res)) {
- r(0) = x(0);
StoreResult(res, Arg(2));
Next(5+Arg(4));
} else {
@@ -2570,12 +2456,10 @@ do { \
Eterm map;
GetArg1(1, map);
- x(0) = r(0);
SWAPOUT;
res = update_map_exact(c_p, reg, map, I);
SWAPIN;
if (is_value(res)) {
- r(0) = x(0);
StoreResult(res, Arg(2));
Next(5+Arg(4));
} else {
@@ -2657,13 +2541,10 @@ do { \
{
typedef Eterm (*GcBifFunction)(Process*, Eterm*, Uint);
GcBifFunction bf;
- Eterm arg;
Eterm result;
Uint live = (Uint) Arg(3);
- GetArg1(2, arg);
- reg[0] = r(0);
- reg[live] = arg;
+ GetArg1(2, x(live));
bf = (GcBifFunction) Arg(1);
c_p->fcalls = FCALLS;
SWAPOUT;
@@ -2674,7 +2555,6 @@ do { \
ERTS_SMP_REQ_PROC_MAIN_LOCK(c_p);
PROCESS_MAIN_CHK_LOCKS(c_p);
SWAPIN;
- r(0) = reg[0];
ERTS_HOLE_CHECK(c_p);
FCALLS = c_p->fcalls;
if (is_value(result)) {
@@ -2684,12 +2564,12 @@ do { \
SET_I((BeamInstr *) Arg(0));
Goto(*I);
}
- reg[0] = arg;
+ x(0) = x(live);
I = handle_error(c_p, I, reg, translate_gc_bif((void *) bf));
goto post_error_handling;
}
- OpCase(i_gc_bif2_jIId): /* Note, one less parameter than the i_gc_bif1
+ OpCase(i_gc_bif2_jIIssd): /* Note, one less parameter than the i_gc_bif1
and i_gc_bif3 */
{
typedef Eterm (*GcBifFunction)(Process*, Eterm*, Uint);
@@ -2697,9 +2577,13 @@ do { \
Eterm result;
Uint live = (Uint) Arg(2);
- reg[0] = r(0);
- reg[live++] = tmp_arg1;
- reg[live] = tmp_arg2;
+ GetArg2(3, x(live), x(live+1));
+ /*
+ * 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).
+ */
+ live++;
bf = (GcBifFunction) Arg(1);
c_p->fcalls = FCALLS;
SWAPOUT;
@@ -2710,35 +2594,37 @@ do { \
ERTS_SMP_REQ_PROC_MAIN_LOCK(c_p);
PROCESS_MAIN_CHK_LOCKS(c_p);
SWAPIN;
- r(0) = reg[0];
ERTS_HOLE_CHECK(c_p);
FCALLS = c_p->fcalls;
if (is_value(result)) {
- StoreBifResult(3, result);
+ StoreBifResult(5, result);
}
if (Arg(0) != 0) {
SET_I((BeamInstr *) Arg(0));
Goto(*I);
}
- reg[0] = tmp_arg1;
- reg[1] = tmp_arg2;
+ live--;
+ x(0) = x(live);
+ x(1) = x(live+1);
I = handle_error(c_p, I, reg, translate_gc_bif((void *) bf));
goto post_error_handling;
}
- OpCase(i_gc_bif3_jIsId):
+ OpCase(i_gc_bif3_jIIssd):
{
typedef Eterm (*GcBifFunction)(Process*, Eterm*, Uint);
GcBifFunction bf;
- Eterm arg;
Eterm result;
- Uint live = (Uint) Arg(3);
+ Uint live = (Uint) Arg(2);
- GetArg1(2, arg);
- reg[0] = r(0);
- reg[live++] = arg;
- reg[live++] = tmp_arg1;
- reg[live] = tmp_arg2;
+ x(live) = x(SCRATCH_X_REG);
+ GetArg2(3, x(live+1), x(live+2));
+ /*
+ * 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).
+ */
+ live += 2;
bf = (GcBifFunction) Arg(1);
c_p->fcalls = FCALLS;
SWAPOUT;
@@ -2749,19 +2635,19 @@ do { \
ERTS_SMP_REQ_PROC_MAIN_LOCK(c_p);
PROCESS_MAIN_CHK_LOCKS(c_p);
SWAPIN;
- r(0) = reg[0];
ERTS_HOLE_CHECK(c_p);
FCALLS = c_p->fcalls;
if (is_value(result)) {
- StoreBifResult(4, result);
+ StoreBifResult(5, result);
}
if (Arg(0) != 0) {
SET_I((BeamInstr *) Arg(0));
Goto(*I);
}
- reg[0] = arg;
- reg[1] = tmp_arg1;
- reg[2] = tmp_arg2;
+ live -= 2;
+ x(0) = x(live);
+ x(1) = x(live+1);
+ x(2) = x(live+2);
I = handle_error(c_p, I, reg, translate_gc_bif((void *) bf));
goto post_error_handling;
}
@@ -2769,12 +2655,13 @@ do { \
/*
* Guards bifs and, or, xor in guards.
*/
- OpCase(i_bif2_fbd):
+ OpCase(i_bif2_fbssd):
{
- Eterm tmp_reg[2] = {tmp_arg1, tmp_arg2};
+ Eterm tmp_reg[2];
Eterm (*bf)(Process*, Eterm*);
Eterm result;
+ GetArg2(2, tmp_reg[0], tmp_reg[1]);
bf = (BifFunction) Arg(1);
c_p->fcalls = FCALLS;
PROCESS_MAIN_CHK_LOCKS(c_p);
@@ -2786,7 +2673,7 @@ do { \
ERTS_HOLE_CHECK(c_p);
FCALLS = c_p->fcalls;
if (is_value(result)) {
- StoreBifResult(2, result);
+ StoreBifResult(4, result);
}
SET_I((BeamInstr *) Arg(0));
Goto(*I);
@@ -2795,12 +2682,13 @@ do { \
/*
* Guards bifs and, or, xor, relational operators in body.
*/
- OpCase(i_bif2_body_bd):
+ OpCase(i_bif2_body_bssd):
{
- Eterm tmp_reg[2] = {tmp_arg1, tmp_arg2};
+ Eterm tmp_reg[2];
Eterm (*bf)(Process*, Eterm*);
Eterm result;
+ GetArg2(1, tmp_reg[0], tmp_reg[1]);
bf = (BifFunction) Arg(0);
PROCESS_MAIN_CHK_LOCKS(c_p);
ASSERT(!ERTS_PROC_IS_EXITING(c_p));
@@ -2811,10 +2699,10 @@ do { \
ERTS_HOLE_CHECK(c_p);
if (is_value(result)) {
ASSERT(!is_CP(result));
- StoreBifResult(1, result);
+ StoreBifResult(3, result);
}
- reg[0] = tmp_arg1;
- reg[1] = tmp_arg2;
+ reg[0] = tmp_reg[0];
+ reg[1] = tmp_reg[1];
SWAPOUT;
I = handle_error(c_p, I, reg, bf);
goto post_error_handling;
@@ -2838,7 +2726,6 @@ do { \
PreFetch(1, next);
ASSERT(!ERTS_PROC_IS_EXITING(c_p));
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
- reg[0] = r(0);
result = (*bf)(c_p, reg, I);
ASSERT(!ERTS_PROC_IS_EXITING(c_p) || is_non_value(result));
ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
@@ -2860,7 +2747,6 @@ do { \
SET_CP(c_p, I+2);
SET_I(c_p->i);
SWAPIN;
- r(0) = reg[0];
Dispatch();
}
@@ -2876,111 +2762,81 @@ do { \
* Arithmetic operations.
*/
- OpCase(i_times_jId):
+ OpCase(i_times_jIssd):
{
- arith_func = ARITH_FUNC(mixed_times);
- goto do_big_arith2;
+ Eterm Op1, Op2;
+ GetArg2(2, Op1, Op2);
+ DO_OUTLINED_ARITH_2(mixed_times, Op1, Op2);
}
- OpCase(i_m_div_jId):
+ OpCase(i_m_div_jIssd):
{
- arith_func = ARITH_FUNC(mixed_div);
- goto do_big_arith2;
+ Eterm Op1, Op2;
+ GetArg2(2, Op1, Op2);
+ DO_OUTLINED_ARITH_2(mixed_div, Op1, Op2);
}
- OpCase(i_int_div_jId):
+ OpCase(i_int_div_jIssd):
{
- Eterm result;
+ Eterm Op1, Op2;
- if (tmp_arg2 == SMALL_ZERO) {
+ GetArg2(2, Op1, Op2);
+ if (Op2 == SMALL_ZERO) {
goto badarith;
- } else if (is_both_small(tmp_arg1, tmp_arg2)) {
- Sint ires = signed_val(tmp_arg1) / signed_val(tmp_arg2);
+ } else if (is_both_small(Op1, Op2)) {
+ Sint ires = signed_val(Op1) / signed_val(Op2);
if (MY_IS_SSMALL(ires)) {
- result = make_small(ires);
- STORE_ARITH_RESULT(result);
+ Eterm result = make_small(ires);
+ StoreBifResult(4, result);
}
}
- arith_func = ARITH_FUNC(int_div);
- goto do_big_arith2;
+ DO_OUTLINED_ARITH_2(int_div, Op1, Op2);
}
- OpCase(i_rem_jIxxd):
{
- Eterm result;
+ Eterm RemOp1, RemOp2;
- if (xb(Arg(3)) == SMALL_ZERO) {
- goto badarith;
- } else if (is_both_small(xb(Arg(2)), xb(Arg(3)))) {
- result = make_small(signed_val(xb(Arg(2))) % signed_val(xb(Arg(3))));
+ OpCase(i_rem_jIxxd):
+ RemOp1 = xb(Arg(2));
+ RemOp2 = xb(Arg(3));
+ goto do_rem;
+
+ OpCase(i_rem_jIssd):
+ GetArg2(2, RemOp1, RemOp2);
+ goto do_rem;
+
+ do_rem:
+ if (RemOp2 == SMALL_ZERO) {
+ goto badarith;
+ } else if (is_both_small(RemOp1, RemOp2)) {
+ Eterm result = make_small(signed_val(RemOp1) % signed_val(RemOp2));
StoreBifResult(4, result);
+ } else {
+ DO_OUTLINED_ARITH_2(int_rem, RemOp1, RemOp2);
}
- DO_BIG_ARITH(ARITH_FUNC(int_rem),xb(Arg(2)),xb(Arg(3)));
}
- OpCase(i_rem_jId):
{
- Eterm result;
-
- if (tmp_arg2 == SMALL_ZERO) {
- goto badarith;
- } else if (is_both_small(tmp_arg1, tmp_arg2)) {
- result = make_small(signed_val(tmp_arg1) % signed_val(tmp_arg2));
- STORE_ARITH_RESULT(result);
- } else {
- arith_func = ARITH_FUNC(int_rem);
- goto do_big_arith2;
- }
- }
+ Eterm BandOp1, BandOp2;
OpCase(i_band_jIxcd):
- {
- Eterm result;
+ BandOp1 = xb(Arg(2));
+ BandOp2 = Arg(3);
+ goto do_band;
+
+ OpCase(i_band_jIssd):
+ GetArg2(2, BandOp1, BandOp2);
+ goto do_band;
- if (is_both_small(xb(Arg(2)), Arg(3))) {
+ do_band:
+ if (is_both_small(BandOp1, BandOp2)) {
/*
* No need to untag -- TAG & TAG == TAG.
*/
- result = xb(Arg(2)) & Arg(3);
+ Eterm result = BandOp1 & BandOp2;
StoreBifResult(4, result);
}
- DO_BIG_ARITH(ARITH_FUNC(band),xb(Arg(2)),Arg(3));
- }
-
- OpCase(i_band_jId):
- {
- Eterm result;
-
- if (is_both_small(tmp_arg1, tmp_arg2)) {
- /*
- * No need to untag -- TAG & TAG == TAG.
- */
- result = tmp_arg1 & tmp_arg2;
- STORE_ARITH_RESULT(result);
- }
- arith_func = ARITH_FUNC(band);
- goto do_big_arith2;
- }
-
-#undef DO_BIG_ARITH
-
- do_big_arith2:
- {
- Eterm result;
- Uint live = Arg(1);
-
- SWAPOUT;
- reg[0] = r(0);
- reg[live] = tmp_arg1;
- reg[live+1] = tmp_arg2;
- result = arith_func(c_p, reg, live);
- r(0) = reg[0];
- SWAPIN;
- ERTS_HOLE_CHECK(c_p);
- if (is_value(result)) {
- STORE_ARITH_RESULT(result);
- }
- goto lb_Cl_error;
+ DO_OUTLINED_ARITH_2(band, BandOp1, BandOp2);
}
/*
@@ -3001,97 +2857,102 @@ do { \
goto find_func_info;
}
- OpCase(i_bor_jId):
+ OpCase(i_bor_jIssd):
{
- Eterm result;
+ Eterm Op1, Op2;
- if (is_both_small(tmp_arg1, tmp_arg2)) {
+ GetArg2(2, Op1, Op2);
+ if (is_both_small(Op1, Op2)) {
/*
* No need to untag -- TAG | TAG == TAG.
*/
- result = tmp_arg1 | tmp_arg2;
- STORE_ARITH_RESULT(result);
+ Eterm result = Op1 | Op2;
+ StoreBifResult(4, result);
}
- arith_func = ARITH_FUNC(bor);
- goto do_big_arith2;
+ DO_OUTLINED_ARITH_2(bor, Op1, Op2);
}
- OpCase(i_bxor_jId):
+ OpCase(i_bxor_jIssd):
{
- Eterm result;
+ Eterm Op1, Op2;
- if (is_both_small(tmp_arg1, tmp_arg2)) {
+ GetArg2(2, Op1, Op2);
+ if (is_both_small(Op1, Op2)) {
/*
* We could extract the tag from one argument, but a tag extraction
* could mean a shift. Therefore, play it safe here.
*/
- result = make_small(signed_val(tmp_arg1) ^ signed_val(tmp_arg2));
- STORE_ARITH_RESULT(result);
+ Eterm result = make_small(signed_val(Op1) ^ signed_val(Op2));
+ StoreBifResult(4, result);
}
- arith_func = ARITH_FUNC(bxor);
- goto do_big_arith2;
+ DO_OUTLINED_ARITH_2(bxor, Op1, Op2);
}
{
+ Eterm Op1, Op2;
Sint i;
Sint ires;
Eterm* bigp;
+ Eterm tmp_big[2];
- OpCase(i_bsr_jId):
- if (is_small(tmp_arg2)) {
- i = -signed_val(tmp_arg2);
- if (is_small(tmp_arg1)) {
+ OpCase(i_bsr_jIssd):
+ GetArg2(2, Op1, Op2);
+ if (is_small(Op2)) {
+ i = -signed_val(Op2);
+ if (is_small(Op1)) {
goto small_shift;
- } else if (is_big(tmp_arg1)) {
+ } else if (is_big(Op1)) {
if (i == 0) {
- StoreBifResult(2, tmp_arg1);
+ StoreBifResult(4, Op1);
}
goto big_shift;
}
- } else if (is_big(tmp_arg2)) {
+ } else if (is_big(Op2)) {
/*
* N bsr NegativeBigNum == N bsl MAX_SMALL
* N bsr PositiveBigNum == N bsl MIN_SMALL
*/
- tmp_arg2 = make_small(bignum_header_is_neg(*big_val(tmp_arg2)) ?
+ Op2 = make_small(bignum_header_is_neg(*big_val(Op2)) ?
MAX_SMALL : MIN_SMALL);
goto do_bsl;
}
goto badarith;
- OpCase(i_bsl_jId):
+ OpCase(i_bsl_jIssd):
+ GetArg2(2, Op1, Op2);
+
do_bsl:
- if (is_small(tmp_arg2)) {
- i = signed_val(tmp_arg2);
+ if (is_small(Op2)) {
+ i = signed_val(Op2);
- if (is_small(tmp_arg1)) {
+ if (is_small(Op1)) {
small_shift:
- ires = signed_val(tmp_arg1);
+ ires = signed_val(Op1);
if (i == 0 || ires == 0) {
- StoreBifResult(2, tmp_arg1);
+ StoreBifResult(4, Op1);
} else if (i < 0) { /* Right shift */
i = -i;
if (i >= SMALL_BITS-1) {
- tmp_arg1 = (ires < 0) ? SMALL_MINUS_ONE : SMALL_ZERO;
+ Op1 = (ires < 0) ? SMALL_MINUS_ONE : SMALL_ZERO;
} else {
- tmp_arg1 = make_small(ires >> i);
+ Op1 = make_small(ires >> i);
}
- StoreBifResult(2, tmp_arg1);
+ StoreBifResult(4, Op1);
} else if (i < SMALL_BITS-1) { /* Left shift */
if ((ires > 0 && ((~(Uint)0 << ((SMALL_BITS-1)-i)) & ires) == 0) ||
((~(Uint)0 << ((SMALL_BITS-1)-i)) & ~ires) == 0) {
- tmp_arg1 = make_small(ires << i);
- StoreBifResult(2, tmp_arg1);
+ Op1 = make_small(ires << i);
+ StoreBifResult(4, Op1);
}
}
- tmp_arg1 = small_to_big(ires, tmp_big);
+ Op1 = small_to_big(ires, tmp_big);
big_shift:
if (i > 0) { /* Left shift. */
- ires = big_size(tmp_arg1) + (i / D_EXP);
+ ires = big_size(Op1) + (i / D_EXP);
} else { /* Right shift. */
- ires = big_size(tmp_arg1);
+ ires = big_size(Op1);
if (ires <= (-i / D_EXP))
ires = 3; /* ??? */
else
@@ -3109,14 +2970,14 @@ do { \
c_p->freason = SYSTEM_LIMIT;
goto lb_Cl_error;
}
- TestHeapPreserve(ires+1, Arg(1), tmp_arg1);
+ TestHeapPreserve(ires+1, Arg(1), Op1);
bigp = HTOP;
- tmp_arg1 = big_lshift(tmp_arg1, i, bigp);
- if (is_big(tmp_arg1)) {
+ Op1 = big_lshift(Op1, i, bigp);
+ if (is_big(Op1)) {
HTOP += bignum_header_arity(*HTOP) + 1;
}
HEAP_SPACE_VERIFIED(0);
- if (is_nil(tmp_arg1)) {
+ if (is_nil(Op1)) {
/*
* This result must have been only slight larger
* than allowed since it wasn't caught by the
@@ -3126,25 +2987,25 @@ do { \
goto lb_Cl_error;
}
ERTS_HOLE_CHECK(c_p);
- StoreBifResult(2, tmp_arg1);
+ StoreBifResult(4, Op1);
}
- } else if (is_big(tmp_arg1)) {
+ } else if (is_big(Op1)) {
if (i == 0) {
- StoreBifResult(2, tmp_arg1);
+ StoreBifResult(4, Op1);
}
goto big_shift;
}
- } else if (is_big(tmp_arg2)) {
- if (bignum_header_is_neg(*big_val(tmp_arg2))) {
+ } else if (is_big(Op2)) {
+ if (bignum_header_is_neg(*big_val(Op2))) {
/*
* N bsl NegativeBigNum is either 0 or -1, depending on
* the sign of N. Since we don't believe this case
* is common, do the calculation with the minimum
* amount of code.
*/
- tmp_arg2 = make_small(MIN_SMALL);
+ Op2 = make_small(MIN_SMALL);
goto do_bsl;
- } else if (is_small(tmp_arg1) || is_big(tmp_arg1)) {
+ } else if (is_small(Op1) || is_big(Op1)) {
/*
* N bsl PositiveBigNum is too large to represent.
*/
@@ -3169,10 +3030,8 @@ do { \
} else {
Uint live = Arg(2);
SWAPOUT;
- reg[0] = r(0);
reg[live] = bnot_val;
bnot_val = erts_gc_bnot(c_p, reg, live);
- r(0) = reg[0];
SWAPIN;
ERTS_HOLE_CHECK(c_p);
if (is_nil(bnot_val)) {
@@ -3192,7 +3051,6 @@ do { \
next = apply(c_p, r(0), x(1), x(2), reg);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, I+1);
SET_I(next);
Dispatch();
@@ -3207,7 +3065,6 @@ do { \
next = apply(c_p, r(0), x(1), x(2), reg);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, (BeamInstr *) E[0]);
E = ADD_BYTE_OFFSET(E, Arg(0));
SET_I(next);
@@ -3223,7 +3080,6 @@ do { \
next = apply(c_p, r(0), x(1), x(2), reg);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_I(next);
Dispatch();
}
@@ -3234,12 +3090,10 @@ do { \
OpCase(apply_I): {
BeamInstr *next;
- reg[0] = r(0);
SWAPOUT;
next = fixed_apply(c_p, reg, Arg(0));
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, I+2);
SET_I(next);
Dispatch();
@@ -3251,12 +3105,10 @@ do { \
OpCase(apply_last_IP): {
BeamInstr *next;
- reg[0] = r(0);
SWAPOUT;
next = fixed_apply(c_p, reg, Arg(0));
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, (BeamInstr *) E[0]);
E = ADD_BYTE_OFFSET(E, Arg(1));
SET_I(next);
@@ -3273,7 +3125,6 @@ do { \
next = apply_fun(c_p, r(0), x(1), reg);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, I+1);
SET_I(next);
Dispatchfun();
@@ -3288,7 +3139,6 @@ do { \
next = apply_fun(c_p, r(0), x(1), reg);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, (BeamInstr *) E[0]);
E = ADD_BYTE_OFFSET(E, Arg(0));
SET_I(next);
@@ -3304,7 +3154,6 @@ do { \
next = apply_fun(c_p, r(0), x(1), reg);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_I(next);
Dispatchfun();
}
@@ -3315,12 +3164,9 @@ do { \
BeamInstr *next;
SWAPOUT;
- reg[0] = r(0);
-
next = call_fun(c_p, Arg(0), reg, THE_NON_VALUE);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, I+2);
SET_I(next);
Dispatchfun();
@@ -3332,11 +3178,9 @@ do { \
BeamInstr *next;
SWAPOUT;
- reg[0] = r(0);
next = call_fun(c_p, Arg(0), reg, THE_NON_VALUE);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_CP(c_p, (BeamInstr *) E[0]);
E = ADD_BYTE_OFFSET(E, Arg(1));
SET_I(next);
@@ -3421,10 +3265,9 @@ do { \
*/
argp = c_p->arg_reg;
- for (i = c_p->arity - 1; i > 0; i--) {
+ for (i = c_p->arity - 1; i >= 0; i--) {
argp[i] = reg[i];
}
- c_p->arg_reg[0] = r(0);
SWAPOUT;
c_p->i = I;
goto do_schedule1;
@@ -3437,19 +3280,14 @@ do { \
Eterm* p;
PreFetch(3, next);
- GetArg2(0, element, tuple);
+ GetArg1(0, element);
+ tuple = REG_TARGET(Arg(1));
ASSERT(is_tuple(tuple));
p = (Eterm *) ((unsigned char *) tuple_val(tuple) + Arg(2));
*p = element;
NextPF(3, next);
}
- OpCase(i_is_ne_exact_f):
- if (EQ(tmp_arg1, tmp_arg2)) {
- ClauseFail();
- }
- Next(1);
-
OpCase(normal_exit): {
SWAPOUT;
c_p->freason = EXC_NORMAL;
@@ -3516,25 +3354,14 @@ do { \
{
Eterm badmatch_val;
- OpCase(badmatch_y):
- badmatch_val = yb(Arg(0));
- goto do_badmatch;
-
OpCase(badmatch_x):
badmatch_val = xb(Arg(0));
- goto do_badmatch;
-
- OpCase(badmatch_r):
- badmatch_val = r(0);
-
- do_badmatch:
c_p->fvalue = badmatch_val;
c_p->freason = BADMATCH;
}
/* Fall through here */
find_func_info: {
- reg[0] = r(0);
SWAPOUT;
I = handle_error(c_p, I, reg, NULL);
goto post_error_handling;
@@ -3552,9 +3379,7 @@ do { \
* code[4]: Not used
*/
SWAPOUT;
- reg[0] = r(0);
I = call_error_handler(c_p, I-3, reg, am_undefined_function);
- r(0) = reg[0];
SWAPIN;
if (I) {
Goto(*I);
@@ -3563,14 +3388,12 @@ do { \
/* Fall through */
OpCase(error_action_code): {
handle_error:
- reg[0] = r(0);
SWAPOUT;
I = handle_error(c_p, NULL, reg, NULL);
post_error_handling:
if (I == 0) {
goto do_schedule;
} else {
- r(0) = reg[0];
ASSERT(!is_value(r(0)));
if (c_p->mbuf) {
erts_garbage_collect(c_p, 0, reg+1, 3);
@@ -3613,7 +3436,6 @@ do { \
NifF* fp = vbf = (NifF*) I[1];
struct enif_environment_t env;
erts_pre_nif(&env, c_p, (struct erl_module_nif*)I[2]);
- reg[0] = r(0);
nif_bif_result = (*fp)(&env, bif_nif_arity, reg);
if (env.exception_thrown)
nif_bif_result = THE_NON_VALUE;
@@ -3652,7 +3474,7 @@ do { \
bif_nif_arity = I[-1];
ASSERT(bif_nif_arity <= 4);
ERTS_SMP_UNREQ_PROC_MAIN_LOCK(c_p);
- reg[0] = r(0);
+ ERTS_VERIFY_UNUSED_TEMP_ALLOC(c_p);
{
Eterm (*bf)(Process*, Eterm*, BeamInstr*) = vbf;
ASSERT(!ERTS_PROC_IS_EXITING(c_p));
@@ -3682,7 +3504,6 @@ do { \
Goto(*I);
} else if (c_p->freason == TRAP) {
SET_I(c_p->i);
- r(0) = reg[0];
if (c_p->flags & F_HIBERNATE_SCHED) {
c_p->flags &= ~F_HIBERNATE_SCHED;
goto do_schedule;
@@ -3709,16 +3530,6 @@ do { \
OpCase(case_end_x):
case_end_val = xb(Arg(0));
- goto do_case_end;
-
- OpCase(case_end_y):
- case_end_val = yb(Arg(0));
- goto do_case_end;
-
- OpCase(case_end_r):
- case_end_val = r(0);
-
- do_case_end:
c_p->fvalue = case_end_val;
c_p->freason = EXC_CASE_CLAUSE;
goto find_func_info;
@@ -3766,19 +3577,13 @@ do { \
goto do_bs_init_bits_known;
}
- OpCase(i_bs_init_bits_fail_heap_IjId): {
- /* tmp_arg1 was fetched by an i_fetch instruction */
- num_bits_term = tmp_arg1;
- alloc = Arg(0);
- I++;
+ OpCase(i_bs_init_bits_fail_heap_sIjId): {
+ GetArg1(0, num_bits_term);
+ alloc = Arg(1);
+ I += 2;
goto do_bs_init_bits;
}
- OpCase(i_bs_init_bits_fail_rjId): {
- num_bits_term = r(0);
- alloc = 0;
- goto do_bs_init_bits;
- }
OpCase(i_bs_init_bits_fail_yjId): {
num_bits_term = yb(Arg(0));
I++;
@@ -3898,52 +3703,48 @@ do { \
}
{
- OpCase(i_bs_init_fail_heap_IjId): {
- /* tmp_arg1 was fetched by an i_fetch instruction */
- tmp_arg2 = Arg(0);
- I++;
- goto do_bs_init;
- }
+ Eterm BsOp1, BsOp2;
- OpCase(i_bs_init_fail_rjId): {
- tmp_arg1 = r(0);
- tmp_arg2 = 0;
+ OpCase(i_bs_init_fail_heap_sIjId): {
+ GetArg1(0, BsOp1);
+ BsOp2 = Arg(1);
+ I += 2;
goto do_bs_init;
}
OpCase(i_bs_init_fail_yjId): {
- tmp_arg1 = yb(Arg(0));
- tmp_arg2 = 0;
+ BsOp1 = yb(Arg(0));
+ BsOp2 = 0;
I++;
goto do_bs_init;
}
OpCase(i_bs_init_fail_xjId): {
- tmp_arg1 = xb(Arg(0));
- tmp_arg2 = 0;
+ BsOp1 = xb(Arg(0));
+ BsOp2 = 0;
I++;
}
/* FALL THROUGH */
do_bs_init:
- if (is_small(tmp_arg1)) {
- Sint size = signed_val(tmp_arg1);
+ if (is_small(BsOp1)) {
+ Sint size = signed_val(BsOp1);
if (size < 0) {
goto badarg;
}
- tmp_arg1 = (Eterm) size;
+ BsOp1 = (Eterm) size;
} else {
Uint bytes;
- if (!term_to_Uint(tmp_arg1, &bytes)) {
+ if (!term_to_Uint(BsOp1, &bytes)) {
c_p->freason = bytes;
goto lb_Cl_error;
}
if ((bytes >> (8*sizeof(Uint)-3)) != 0) {
goto system_limit;
}
- tmp_arg1 = (Eterm) bytes;
+ BsOp1 = (Eterm) bytes;
}
- if (tmp_arg1 <= ERL_ONHEAP_BIN_LIMIT) {
+ if (BsOp1 <= ERL_ONHEAP_BIN_LIMIT) {
goto do_heap_bin_alloc;
} else {
goto do_proc_bin_alloc;
@@ -3951,15 +3752,15 @@ do { \
OpCase(i_bs_init_heap_IIId): {
- tmp_arg1 = Arg(0);
- tmp_arg2 = Arg(1);
+ BsOp1 = Arg(0);
+ BsOp2 = Arg(1);
I++;
goto do_proc_bin_alloc;
}
OpCase(i_bs_init_IId): {
- tmp_arg1 = Arg(0);
- tmp_arg2 = 0;
+ BsOp1 = Arg(0);
+ BsOp2 = 0;
}
/* FALL THROUGH */
do_proc_bin_alloc: {
@@ -3968,13 +3769,13 @@ do { \
erts_bin_offset = 0;
erts_writable_bin = 0;
- TestBinVHeap(tmp_arg1 / sizeof(Eterm),
- tmp_arg2 + PROC_BIN_SIZE + ERL_SUB_BIN_SIZE, Arg(1));
+ TestBinVHeap(BsOp1 / sizeof(Eterm),
+ BsOp2 + PROC_BIN_SIZE + ERL_SUB_BIN_SIZE, Arg(1));
/*
* Allocate the binary struct itself.
*/
- bptr = erts_bin_nrml_alloc(tmp_arg1);
+ bptr = erts_bin_nrml_alloc(BsOp1);
erts_refc_init(&bptr->refc, 1);
erts_current_bin = (byte *) bptr->orig_bytes;
@@ -3984,28 +3785,28 @@ do { \
pb = (ProcBin *) HTOP;
HTOP += PROC_BIN_SIZE;
pb->thing_word = HEADER_PROC_BIN;
- pb->size = tmp_arg1;
+ pb->size = BsOp1;
pb->next = MSO(c_p).first;
MSO(c_p).first = (struct erl_off_heap_header*) pb;
pb->val = bptr;
pb->bytes = (byte*) bptr->orig_bytes;
pb->flags = 0;
- OH_OVERHEAD(&(MSO(c_p)), tmp_arg1 / sizeof(Eterm));
+ OH_OVERHEAD(&(MSO(c_p)), BsOp1 / sizeof(Eterm));
StoreBifResult(2, make_binary(pb));
}
OpCase(i_bs_init_heap_bin_heap_IIId): {
- tmp_arg1 = Arg(0);
- tmp_arg2 = Arg(1);
+ BsOp1 = Arg(0);
+ BsOp2 = Arg(1);
I++;
goto do_heap_bin_alloc;
}
OpCase(i_bs_init_heap_bin_IId): {
- tmp_arg1 = Arg(0);
- tmp_arg2 = 0;
+ BsOp1 = Arg(0);
+ BsOp2 = 0;
}
/* Fall through */
do_heap_bin_alloc:
@@ -4013,33 +3814,36 @@ do { \
ErlHeapBin* hb;
Uint bin_need;
- bin_need = heap_bin_size(tmp_arg1);
+ bin_need = heap_bin_size(BsOp1);
erts_bin_offset = 0;
erts_writable_bin = 0;
- TestHeap(bin_need+tmp_arg2+ERL_SUB_BIN_SIZE, Arg(1));
+ TestHeap(bin_need+BsOp2+ERL_SUB_BIN_SIZE, Arg(1));
hb = (ErlHeapBin *) HTOP;
HTOP += bin_need;
- hb->thing_word = header_heap_bin(tmp_arg1);
- hb->size = tmp_arg1;
+ hb->thing_word = header_heap_bin(BsOp1);
+ hb->size = BsOp1;
erts_current_bin = (byte *) hb->data;
- tmp_arg1 = make_binary(hb);
- StoreBifResult(2, tmp_arg1);
+ BsOp1 = make_binary(hb);
+ StoreBifResult(2, BsOp1);
}
}
- OpCase(i_bs_add_jId): {
- Uint Unit = Arg(1);
- if (is_both_small(tmp_arg1, tmp_arg2)) {
- Sint Arg1 = signed_val(tmp_arg1);
- Sint Arg2 = signed_val(tmp_arg2);
+ OpCase(bs_add_jssId): {
+ Eterm Op1, Op2;
+ Uint Unit = Arg(3);
+
+ GetArg2(1, Op1, Op2);
+ if (is_both_small(Op1, Op2)) {
+ Sint Arg1 = signed_val(Op1);
+ Sint Arg2 = signed_val(Op2);
if (Arg1 >= 0 && Arg2 >= 0) {
- BsSafeMul(Arg2, Unit, goto system_limit, tmp_arg1);
- tmp_arg1 += Arg1;
+ BsSafeMul(Arg2, Unit, goto system_limit, Op1);
+ Op1 += Arg1;
store_bs_add_result:
- if (MY_IS_SSMALL((Sint) tmp_arg1)) {
- tmp_arg1 = make_small(tmp_arg1);
+ if (MY_IS_SSMALL((Sint) Op1)) {
+ Op1 = make_small(Op1);
} else {
/*
* May generate a heap fragment, but in this
@@ -4051,10 +3855,10 @@ do { \
* references (such as the heap).
*/
SWAPOUT;
- tmp_arg1 = erts_make_integer(tmp_arg1, c_p);
+ Op1 = erts_make_integer(Op1, c_p);
HTOP = HEAP_TOP(c_p);
}
- StoreBifResult(2, tmp_arg1);
+ StoreBifResult(4, Op1);
}
goto badarg;
} else {
@@ -4077,16 +3881,16 @@ do { \
* an Uint, the reason is SYSTEM_LIMIT.
*/
- if (!term_to_Uint(tmp_arg1, &a)) {
+ if (!term_to_Uint(Op1, &a)) {
if (a == BADARG) {
goto badarg;
}
- if (!term_to_Uint(tmp_arg2, &b)) {
+ if (!term_to_Uint(Op2, &b)) {
c_p->freason = b;
goto lb_Cl_error;
}
goto system_limit;
- } else if (!term_to_Uint(tmp_arg2, &b)) {
+ } else if (!term_to_Uint(Op2, &b)) {
c_p->freason = b;
goto lb_Cl_error;
}
@@ -4096,8 +3900,8 @@ do { \
*/
BsSafeMul(b, Unit, goto system_limit, c);
- tmp_arg1 = a + c;
- if (tmp_arg1 < a) {
+ Op1 = a + c;
+ if (Op1 < a) {
/*
* If the result is less than one of the
* arguments, there must have been an overflow.
@@ -4119,48 +3923,43 @@ do { \
}
/*
- * tmp_arg1 = Number of bytes to build
- * tmp_arg2 = Source binary
- * Operands: Fail ExtraHeap Live Unit Dst
+ * x(SCRATCH_X_REG);
+ * Operands: Fail ExtraHeap Live Unit Size Dst
*/
- OpCase(i_bs_append_jIIId): {
+ OpCase(i_bs_append_jIIIsd): {
Uint live = Arg(2);
Uint res;
+ Eterm Size;
+ GetArg1(4, Size);
SWAPOUT;
- reg[0] = r(0);
- reg[live] = tmp_arg2;
- res = erts_bs_append(c_p, reg, live, tmp_arg1, Arg(1), Arg(3));
- r(0) = reg[0];
+ reg[live] = x(SCRATCH_X_REG);
+ res = erts_bs_append(c_p, reg, live, Size, Arg(1), Arg(3));
SWAPIN;
if (is_non_value(res)) {
/* c_p->freason is already set (may be either BADARG or SYSTEM_LIMIT). */
goto lb_Cl_error;
}
- StoreBifResult(4, res);
+ StoreBifResult(5, res);
}
/*
- * tmp_arg1 = Number of bytes to build
- * tmp_arg2 = Source binary
- * Operands: Fail Unit Dst
+ * Operands: Fail Size Src Unit Dst
*/
- OpCase(i_bs_private_append_jId): {
+ OpCase(i_bs_private_append_jIssd): {
Eterm res;
+ Eterm Size, Src;
- res = erts_bs_private_append(c_p, tmp_arg2, tmp_arg1, Arg(1));
+ GetArg2(2, Size, Src);
+ res = erts_bs_private_append(c_p, Src, Size, Arg(1));
if (is_non_value(res)) {
/* c_p->freason is already set (may be either BADARG or SYSTEM_LIMIT). */
goto lb_Cl_error;
}
- StoreBifResult(2, res);
+ StoreBifResult(4, res);
}
- /*
- * tmp_arg1 = Initial size of writable binary
- * Operands: Live Dst
- */
OpCase(bs_init_writable): {
SWAPOUT;
r(0) = erts_bs_init_writable(c_p, r(0));
@@ -4255,26 +4054,29 @@ do { \
/*
* Only used for validating a value matched out.
- *
- * tmp_arg1 = Integer to validate
- * tmp_arg2 = Match context
*/
- OpCase(i_bs_validate_unicode_retract_j): {
- /*
- * There is no need to untag the integer, but it IS necessary
- * to make sure it is small (a bignum pointer could fall in
- * the valid range).
- */
- if (is_not_small(tmp_arg1) || tmp_arg1 > make_small(0x10FFFFUL) ||
- (make_small(0xD800UL) <= tmp_arg1 &&
- tmp_arg1 <= make_small(0xDFFFUL))) {
- ErlBinMatchBuffer *mb = ms_matchbuffer(tmp_arg2);
+ OpCase(i_bs_validate_unicode_retract_jss): {
+ Eterm i; /* Integer to validate */
- mb->offset -= 32;
- goto badarg;
- }
- Next(1);
- }
+ /*
+ * There is no need to untag the integer, but it IS necessary
+ * to make sure it is small (a bignum pointer could fall in
+ * the valid range).
+ */
+
+ GetArg1(1, i);
+ if (is_not_small(i) || i > make_small(0x10FFFFUL) ||
+ (make_small(0xD800UL) <= i && i <= make_small(0xDFFFUL))) {
+ Eterm ms; /* Match context */
+ ErlBinMatchBuffer* mb;
+
+ GetArg1(2, ms);
+ mb = ms_matchbuffer(ms);
+ mb->offset -= 32;
+ goto badarg;
+ }
+ Next(3);
+ }
/*
* Matching of binaries.
@@ -4286,9 +4088,6 @@ do { \
Uint slots;
Eterm context;
- OpCase(i_bs_start_match2_rfIId): {
- context = r(0);
-
do_start_match:
slots = Arg(2);
if (!is_boxed(context)) {
@@ -4335,7 +4134,7 @@ do { \
ClauseFail();
}
NextPF(4, next);
- }
+
OpCase(i_bs_start_match2_xfIId): {
context = xb(Arg(0));
I++;
@@ -4348,18 +4147,6 @@ do { \
}
}
- OpCase(bs_test_zero_tail2_fr): {
- BeamInstr *next;
- ErlBinMatchBuffer *_mb;
-
- PreFetch(1, next);
- _mb = (ErlBinMatchBuffer*) ms_matchbuffer(r(0));
- if (_mb->size != _mb->offset) {
- ClauseFail();
- }
- NextPF(1, next);
- }
-
OpCase(bs_test_zero_tail2_fx): {
BeamInstr *next;
ErlBinMatchBuffer *_mb;
@@ -4372,16 +4159,6 @@ do { \
NextPF(2, next);
}
- OpCase(bs_test_tail_imm2_frI): {
- BeamInstr *next;
- ErlBinMatchBuffer *_mb;
- PreFetch(2, next);
- _mb = ms_matchbuffer(r(0));
- if (_mb->size - _mb->offset != Arg(1)) {
- ClauseFail();
- }
- NextPF(2, next);
- }
OpCase(bs_test_tail_imm2_fxI): {
BeamInstr *next;
ErlBinMatchBuffer *_mb;
@@ -4393,16 +4170,6 @@ do { \
NextPF(3, next);
}
- OpCase(bs_test_unit_frI): {
- BeamInstr *next;
- ErlBinMatchBuffer *_mb;
- PreFetch(2, next);
- _mb = ms_matchbuffer(r(0));
- if ((_mb->size - _mb->offset) % Arg(1)) {
- ClauseFail();
- }
- NextPF(2, next);
- }
OpCase(bs_test_unit_fxI): {
BeamInstr *next;
ErlBinMatchBuffer *_mb;
@@ -4414,16 +4181,6 @@ do { \
NextPF(3, next);
}
- OpCase(bs_test_unit8_fr): {
- BeamInstr *next;
- ErlBinMatchBuffer *_mb;
- PreFetch(1, next);
- _mb = ms_matchbuffer(r(0));
- if ((_mb->size - _mb->offset) & 7) {
- ClauseFail();
- }
- NextPF(1, next);
- }
OpCase(bs_test_unit8_fx): {
BeamInstr *next;
ErlBinMatchBuffer *_mb;
@@ -4438,19 +4195,11 @@ do { \
{
Eterm bs_get_integer8_context;
- OpCase(i_bs_get_integer_8_rfd): {
- bs_get_integer8_context = r(0);
- goto do_bs_get_integer_8;
- }
-
OpCase(i_bs_get_integer_8_xfd): {
- bs_get_integer8_context = xb(Arg(0));
- I++;
- }
-
- do_bs_get_integer_8: {
ErlBinMatchBuffer *_mb;
Eterm _result;
+ bs_get_integer8_context = xb(Arg(0));
+ I++;
_mb = ms_matchbuffer(bs_get_integer8_context);
if (_mb->size - _mb->offset < 8) {
ClauseFail();
@@ -4468,15 +4217,10 @@ do { \
{
Eterm bs_get_integer_16_context;
- OpCase(i_bs_get_integer_16_rfd):
- bs_get_integer_16_context = r(0);
- goto do_bs_get_integer_16;
-
OpCase(i_bs_get_integer_16_xfd):
bs_get_integer_16_context = xb(Arg(0));
I++;
- do_bs_get_integer_16:
{
ErlBinMatchBuffer *_mb;
Eterm _result;
@@ -4497,17 +4241,10 @@ do { \
{
Eterm bs_get_integer_32_context;
- OpCase(i_bs_get_integer_32_rfId):
- bs_get_integer_32_context = r(0);
- goto do_bs_get_integer_32;
-
-
OpCase(i_bs_get_integer_32_xfId):
bs_get_integer_32_context = xb(Arg(0));
I++;
-
- do_bs_get_integer_32:
{
ErlBinMatchBuffer *_mb;
Uint32 _integer;
@@ -4536,103 +4273,82 @@ do { \
}
}
- /* Operands: Size Live Fail Flags Dst */
- OpCase(i_bs_get_integer_imm_rIIfId): {
- tmp_arg1 = r(0);
- /* Operands: Size Live Fail Flags Dst */
- goto do_bs_get_integer_imm_test_heap;
- }
+ {
+ Eterm Ms, Sz;
- /* Operands: x(Reg) Size Live Fail Flags Dst */
+ /* Operands: x(Reg) Size Live Fail Flags Dst */
OpCase(i_bs_get_integer_imm_xIIfId): {
- tmp_arg1 = xb(Arg(0));
- I++;
- /* Operands: Size Live Fail Flags Dst */
- goto do_bs_get_integer_imm_test_heap;
- }
-
- /*
- * tmp_arg1 = match context
- * Operands: Size Live Fail Flags Dst
- */
- do_bs_get_integer_imm_test_heap: {
- Uint wordsneeded;
- tmp_arg2 = Arg(0);
- wordsneeded = 1+WSIZE(NBYTES(tmp_arg2));
- TestHeapPreserve(wordsneeded, Arg(1), tmp_arg1);
- I += 2;
- /* Operands: Fail Flags Dst */
- goto do_bs_get_integer_imm;
- }
-
- /* Operands: Size Fail Flags Dst */
- OpCase(i_bs_get_integer_small_imm_rIfId): {
- tmp_arg1 = r(0);
- tmp_arg2 = Arg(0);
- I++;
- /* Operands: Fail Flags Dst */
- goto do_bs_get_integer_imm;
- }
+ Uint wordsneeded;
+ Ms = xb(Arg(0));
+ Sz = Arg(1);
+ wordsneeded = 1+WSIZE(NBYTES(Sz));
+ TestHeapPreserve(wordsneeded, Arg(2), Ms);
+ I += 3;
+ /* Operands: Fail Flags Dst */
+ goto do_bs_get_integer_imm;
+ }
- /* Operands: x(Reg) Size Fail Flags Dst */
+ /* Operands: x(Reg) Size Fail Flags Dst */
OpCase(i_bs_get_integer_small_imm_xIfId): {
- tmp_arg1 = xb(Arg(0));
- tmp_arg2 = Arg(1);
- I += 2;
- /* Operands: Fail Flags Dst */
- goto do_bs_get_integer_imm;
- }
+ Ms = xb(Arg(0));
+ Sz = Arg(1);
+ I += 2;
+ /* Operands: Fail Flags Dst */
+ goto do_bs_get_integer_imm;
+ }
- /*
- * tmp_arg1 = match context
- * tmp_arg2 = size of field
- * Operands: Fail Flags Dst
- */
+ /*
+ * Ms = match context
+ * Sz = size of field
+ * Operands: Fail Flags Dst
+ */
do_bs_get_integer_imm: {
- ErlBinMatchBuffer* mb;
- Eterm result;
+ ErlBinMatchBuffer* mb;
+ Eterm result;
- mb = ms_matchbuffer(tmp_arg1);
- LIGHT_SWAPOUT;
- result = erts_bs_get_integer_2(c_p, tmp_arg2, Arg(1), mb);
- LIGHT_SWAPIN;
- HEAP_SPACE_VERIFIED(0);
- if (is_non_value(result)) {
- ClauseFail();
+ mb = ms_matchbuffer(Ms);
+ LIGHT_SWAPOUT;
+ result = erts_bs_get_integer_2(c_p, Sz, Arg(1), mb);
+ LIGHT_SWAPIN;
+ HEAP_SPACE_VERIFIED(0);
+ if (is_non_value(result)) {
+ ClauseFail();
+ }
+ StoreBifResult(2, result);
}
- StoreBifResult(2, result);
}
/*
- * tmp_arg1 = Match context
- * tmp_arg2 = Size field
- * Operands: Fail Live FlagsAndUnit Dst
+ * Operands: Fail Live FlagsAndUnit Ms Sz Dst
*/
- OpCase(i_bs_get_integer_fIId): {
+ OpCase(i_bs_get_integer_fIIssd): {
Uint flags;
Uint size;
+ Eterm Ms;
+ Eterm Sz;
ErlBinMatchBuffer* mb;
Eterm result;
flags = Arg(2);
- BsGetFieldSize(tmp_arg2, (flags >> 3), ClauseFail(), size);
+ GetArg2(3, Ms, Sz);
+ BsGetFieldSize(Sz, (flags >> 3), ClauseFail(), size);
if (size >= SMALL_BITS) {
Uint wordsneeded;
- /* check bits size before potential gc.
+ /* Check bits size before potential gc.
* We do not want a gc and then realize we don't need
- * the allocated space (i.e. if the op fails)
+ * the allocated space (i.e. if the op fails).
*
- * remember to reacquire the matchbuffer after gc.
+ * Remember to re-acquire the matchbuffer after gc.
*/
- mb = ms_matchbuffer(tmp_arg1);
+ mb = ms_matchbuffer(Ms);
if (mb->size - mb->offset < size) {
ClauseFail();
}
wordsneeded = 1+WSIZE(NBYTES((Uint) size));
- TestHeapPreserve(wordsneeded, Arg(1), tmp_arg1);
+ TestHeapPreserve(wordsneeded, Arg(1), Ms);
}
- mb = ms_matchbuffer(tmp_arg1);
+ mb = ms_matchbuffer(Ms);
LIGHT_SWAPOUT;
result = erts_bs_get_integer_2(c_p, size, flags, mb);
LIGHT_SWAPIN;
@@ -4640,18 +4356,13 @@ do { \
if (is_non_value(result)) {
ClauseFail();
}
- StoreBifResult(3, result);
+ StoreBifResult(5, result);
}
{
Eterm get_utf8_context;
/* Operands: MatchContext Fail Dst */
- OpCase(i_bs_get_utf8_rfd): {
- get_utf8_context = r(0);
- goto do_bs_get_utf8;
- }
-
OpCase(i_bs_get_utf8_xfd): {
get_utf8_context = xb(Arg(0));
I++;
@@ -4662,7 +4373,7 @@ do { \
* Operands: Fail Dst
*/
- do_bs_get_utf8: {
+ {
Eterm result = erts_bs_get_utf8(ms_matchbuffer(get_utf8_context));
if (is_non_value(result)) {
ClauseFail();
@@ -4675,12 +4386,7 @@ do { \
Eterm get_utf16_context;
/* Operands: MatchContext Fail Flags Dst */
- OpCase(i_bs_get_utf16_rfId): {
- get_utf16_context = r(0);
- goto do_bs_get_utf16;
- }
-
- OpCase(i_bs_get_utf16_xfId): {
+ OpCase(i_bs_get_utf16_xfId): {
get_utf16_context = xb(Arg(0));
I++;
}
@@ -4689,7 +4395,7 @@ do { \
* get_utf16_context = match_context
* Operands: Fail Flags Dst
*/
- do_bs_get_utf16: {
+ {
Eterm result = erts_bs_get_utf16(ms_matchbuffer(get_utf16_context),
Arg(1));
if (is_non_value(result)) {
@@ -4708,26 +4414,10 @@ do { \
Uint orig;
Uint hole_size;
- OpCase(bs_context_to_binary_r): {
- context_to_binary_context = x0;
- I -= 2;
- goto do_context_to_binary;
- }
-
- /* Unfortunately, inlining can generate this instruction. */
- OpCase(bs_context_to_binary_y): {
- context_to_binary_context = yb(Arg(0));
- goto do_context_to_binary0;
- }
-
- OpCase(bs_context_to_binary_x): {
+ OpCase(bs_context_to_binary_x):
context_to_binary_context = xb(Arg(0));
-
- do_context_to_binary0:
I--;
- }
- do_context_to_binary:
if (is_boxed(context_to_binary_context) &&
header_is_bin_matchstate(*boxed_val(context_to_binary_context))) {
ErlBinMatchState* ms;
@@ -4739,17 +4429,11 @@ do { \
}
Next(2);
- OpCase(i_bs_get_binary_all_reuse_rfI): {
- context_to_binary_context = x0;
- goto do_bs_get_binary_all_reuse;
- }
-
OpCase(i_bs_get_binary_all_reuse_xfI): {
context_to_binary_context = xb(Arg(0));
I++;
}
- do_bs_get_binary_all_reuse:
mb = ms_matchbuffer(context_to_binary_context);
size = mb->size - mb->offset;
if (size % Arg(1) != 0) {
@@ -4777,16 +4461,11 @@ do { \
{
Eterm match_string_context;
- OpCase(i_bs_match_string_rfII): {
- match_string_context = r(0);
- goto do_bs_match_string;
- }
OpCase(i_bs_match_string_xfII): {
match_string_context = xb(Arg(0));
I++;
}
- do_bs_match_string:
{
BeamInstr *next;
byte* bytes;
@@ -4814,14 +4493,6 @@ do { \
}
}
- OpCase(i_bs_save2_rI): {
- BeamInstr *next;
- ErlBinMatchState *_ms;
- PreFetch(1, next);
- _ms = (ErlBinMatchState*) boxed_val((Eterm) r(0));
- _ms->save_offset[Arg(0)] = _ms->mb.offset;
- NextPF(1, next);
- }
OpCase(i_bs_save2_xI): {
BeamInstr *next;
ErlBinMatchState *_ms;
@@ -4831,14 +4502,6 @@ do { \
NextPF(2, next);
}
- OpCase(i_bs_restore2_rI): {
- BeamInstr *next;
- ErlBinMatchState *_ms;
- PreFetch(1, next);
- _ms = (ErlBinMatchState*) boxed_val((Eterm) r(0));
- _ms->mb.offset = _ms->save_offset[Arg(0)];
- NextPF(1, next);
- }
OpCase(i_bs_restore2_xI): {
BeamInstr *next;
ErlBinMatchState *_ms;
@@ -4886,9 +4549,7 @@ do { \
BeamInstr real_I;
ASSERT(I[-5] == (BeamInstr) BeamOp(op_i_func_info_IaaI));
SWAPOUT;
- reg[0] = r(0);
real_I = erts_generic_breakpoint(c_p, I, reg);
- r(0) = reg[0];
SWAPIN;
ASSERT(VALID_INSTR(real_I));
Goto(real_I);
@@ -4948,7 +4609,7 @@ do { \
BeamInstr *next;
PreFetch(2, next);
- GetR(0, targ1);
+ targ1 = REG_TARGET(Arg(0));
/* Arg(0) == HEADER_FLONUM */
GET_DOUBLE(targ1, *(FloatDef*)ADD_BYTE_OFFSET(freg, fr));
NextPF(2, next);
@@ -4968,7 +4629,7 @@ do { \
Eterm fr = Arg(1);
BeamInstr *next;
- GetR(0, targ1);
+ targ1 = REG_TARGET(Arg(0));
PreFetch(2, next);
if (is_small(targ1)) {
fb(fr) = (double) signed_val(targ1);
@@ -5064,7 +4725,12 @@ do { \
#ifdef HIPE
{
- unsigned cmd;
+#define HIPE_MODE_SWITCH(Cmd) \
+ SWAPOUT; \
+ c_p->fcalls = FCALLS; \
+ c_p->def_arg_reg[4] = -neg_o_reds; \
+ c_p = hipe_mode_switch(c_p, Cmd, reg); \
+ goto L_post_hipe_mode_switch
OpCase(hipe_trap_call): {
/*
@@ -5078,52 +4744,45 @@ do { \
*/
ASSERT(I[-5] == (Uint) OpCode(i_func_info_IaaI));
c_p->hipe.u.ncallee = (void(*)(void)) I[-4];
- cmd = HIPE_MODE_SWITCH_CMD_CALL | (I[-1] << 8);
++hipe_trap_count;
- goto L_hipe_mode_switch;
+ HIPE_MODE_SWITCH(HIPE_MODE_SWITCH_CMD_CALL | (I[-1] << 8));
}
OpCase(hipe_trap_call_closure): {
ASSERT(I[-5] == (Uint) OpCode(i_func_info_IaaI));
c_p->hipe.u.ncallee = (void(*)(void)) I[-4];
- cmd = HIPE_MODE_SWITCH_CMD_CALL_CLOSURE | (I[-1] << 8);
++hipe_trap_count;
- goto L_hipe_mode_switch;
+ HIPE_MODE_SWITCH(HIPE_MODE_SWITCH_CMD_CALL_CLOSURE | (I[-1] << 8));
}
OpCase(hipe_trap_return): {
- cmd = HIPE_MODE_SWITCH_CMD_RETURN;
- goto L_hipe_mode_switch;
+ HIPE_MODE_SWITCH(HIPE_MODE_SWITCH_CMD_RETURN);
}
OpCase(hipe_trap_throw): {
- cmd = HIPE_MODE_SWITCH_CMD_THROW;
- goto L_hipe_mode_switch;
+ HIPE_MODE_SWITCH(HIPE_MODE_SWITCH_CMD_THROW);
}
OpCase(hipe_trap_resume): {
- cmd = HIPE_MODE_SWITCH_CMD_RESUME;
- goto L_hipe_mode_switch;
+ HIPE_MODE_SWITCH(HIPE_MODE_SWITCH_CMD_RESUME);
}
- L_hipe_mode_switch:
- /* XXX: this abuse of def_arg_reg[] is horrid! */
- SWAPOUT;
- c_p->fcalls = FCALLS;
- c_p->def_arg_reg[4] = -neg_o_reds;
- reg[0] = r(0);
- c_p = hipe_mode_switch(c_p, cmd, reg);
+#undef HIPE_MODE_SWITCH
+
+ L_post_hipe_mode_switch:
reg = ERTS_PROC_GET_SCHDATA(c_p)->x_reg_array;
freg = ERTS_PROC_GET_SCHDATA(c_p)->f_reg_array;
ERL_BITS_RELOAD_STATEP(c_p);
+ /* XXX: this abuse of def_arg_reg[] is horrid! */
neg_o_reds = -c_p->def_arg_reg[4];
FCALLS = c_p->fcalls;
SWAPIN;
switch( c_p->def_arg_reg[3] ) {
case HIPE_MODE_SWITCH_RES_RETURN:
ASSERT(is_value(reg[0]));
- MoveReturn(reg[0], r(0));
+ SET_I(c_p->cp);
+ c_p->cp = 0;
+ Goto(*I);
case HIPE_MODE_SWITCH_RES_CALL_EXPORTED:
c_p->i = c_p->hipe.u.callee_exp->addressv[erts_active_code_ix()];
/*fall through*/
case HIPE_MODE_SWITCH_RES_CALL_BEAM:
SET_I(c_p->i);
- r(0) = reg[0];
Dispatch();
case HIPE_MODE_SWITCH_RES_CALL_CLOSURE:
/* This can be used to call any function value, but currently it's
@@ -5134,7 +4793,6 @@ do { \
next = call_fun(c_p, c_p->arity - 1, reg, THE_NON_VALUE);
SWAPIN;
if (next != NULL) {
- r(0) = reg[0];
SET_I(next);
Dispatchfun();
}
@@ -5194,9 +4852,7 @@ do { \
OpCase(i_debug_breakpoint): {
SWAPOUT;
- reg[0] = r(0);
I = call_error_handler(c_p, I-3, reg, am_breakpoint);
- r(0) = reg[0];
SWAPIN;
if (I) {
Goto(*I);
@@ -6587,23 +6243,20 @@ static Eterm get_map_element_hash(Eterm map, Eterm key, Uint32 hx)
return vs ? *vs : THE_NON_VALUE;
}
-#define GET_TERM(term, dest) \
-do { \
- Eterm src = (Eterm)(term); \
- switch (src & _TAG_IMMED1_MASK) { \
- case (R_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER: \
- dest = x(0); \
- break; \
- case (X_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER: \
- dest = x(src >> _TAG_IMMED1_SIZE); \
- break; \
- case (Y_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER: \
- dest = y(src >> _TAG_IMMED1_SIZE); \
- break; \
- default: \
- dest = src; \
- break; \
- } \
+#define GET_TERM(term, dest) \
+do { \
+ Eterm src = (Eterm)(term); \
+ switch (loader_tag(src)) { \
+ case LOADER_X_REG: \
+ dest = x(loader_x_reg_index(src)); \
+ break; \
+ case LOADER_Y_REG: \
+ dest = y(loader_y_reg_index(src)); \
+ break; \
+ default: \
+ dest = src; \
+ break; \
+ } \
} while(0)
diff --git a/erts/emulator/beam/beam_load.c b/erts/emulator/beam/beam_load.c
index 10baab506a..a9d47eb7b0 100644
--- a/erts/emulator/beam/beam_load.c
+++ b/erts/emulator/beam/beam_load.c
@@ -1847,9 +1847,7 @@ load_code(LoaderState* stp)
case TAG_o:
break;
case TAG_x:
- if (last_op->a[arg].val == 0) {
- last_op->a[arg].type = TAG_r;
- } else if (last_op->a[arg].val >= MAX_REG) {
+ if (last_op->a[arg].val >= MAX_REG) {
LoadError1(stp, "invalid x register number: %u",
last_op->a[arg].val);
}
@@ -2055,7 +2053,42 @@ load_code(LoaderState* stp)
if (((opc[specific].mask[0] & mask[0]) == mask[0]) &&
((opc[specific].mask[1] & mask[1]) == mask[1]) &&
((opc[specific].mask[2] & mask[2]) == mask[2])) {
- break;
+
+ if (!opc[specific].involves_r) {
+ break; /* No complications - match */
+ }
+
+ /*
+ * The specific operation uses the 'r' operand,
+ * which is shorthand for x(0). Now things
+ * get complicated. First we must check whether
+ * all operands that should be of type 'r' use
+ * x(0) (as opposed to some other X register).
+ */
+ for (arg = 0; arg < arity; arg++) {
+ if (opc[specific].involves_r & (1 << arg) &&
+ tmp_op->a[arg].type == TAG_x) {
+ if (tmp_op->a[arg].val != 0) {
+ break; /* Other X register than 0 */
+ }
+ }
+ }
+
+ if (arg == arity) {
+ /*
+ * All 'r' operands use x(0) in the generic
+ * operation. That means a match. Now we
+ * will need to rewrite the generic instruction
+ * to actually use 'r' instead of 'x(0)'.
+ */
+ for (arg = 0; arg < arity; arg++) {
+ if (opc[specific].involves_r & (1 << arg) &&
+ tmp_op->a[arg].type == TAG_x) {
+ tmp_op->a[arg].type = TAG_r;
+ }
+ }
+ break; /* Match */
+ }
}
specific++;
}
@@ -2166,14 +2199,11 @@ load_code(LoaderState* stp)
break;
case 's': /* Any source (tagged constant or register) */
switch (tag) {
- case TAG_r:
- code[ci++] = make_rreg();
- break;
case TAG_x:
- code[ci++] = make_xreg(tmp_op->a[arg].val);
+ code[ci++] = make_loader_x_reg(tmp_op->a[arg].val);
break;
case TAG_y:
- code[ci++] = make_yreg(tmp_op->a[arg].val);
+ code[ci++] = make_loader_y_reg(tmp_op->a[arg].val);
break;
case TAG_i:
code[ci++] = (BeamInstr) make_small((Uint)tmp_op->a[arg].val);
@@ -2184,6 +2214,10 @@ load_code(LoaderState* stp)
case TAG_n:
code[ci++] = NIL;
break;
+ case TAG_q:
+ new_literal_patch(stp, ci);
+ code[ci++] = tmp_op->a[arg].val;
+ break;
default:
LoadError1(stp, "bad tag %d for general source",
tmp_op->a[arg].type);
@@ -2192,14 +2226,11 @@ load_code(LoaderState* stp)
break;
case 'd': /* Destination (x(0), x(N), y(N) */
switch (tag) {
- case TAG_r:
- code[ci++] = make_rreg();
- break;
case TAG_x:
- code[ci++] = make_xreg(tmp_op->a[arg].val);
+ code[ci++] = tmp_op->a[arg].val * sizeof(Eterm);
break;
case TAG_y:
- code[ci++] = make_yreg(tmp_op->a[arg].val);
+ code[ci++] = tmp_op->a[arg].val * sizeof(Eterm) + 1;
break;
default:
LoadError1(stp, "bad tag %d for destination",
@@ -2356,20 +2387,13 @@ load_code(LoaderState* stp)
stp->labels[tmp_op->a[arg].val].patches = ci;
ci++;
break;
- case TAG_r:
- CodeNeed(1);
- code[ci++] = (R_REG_DEF << _TAG_PRIMARY_SIZE) |
- TAG_PRIMARY_HEADER;
- break;
case TAG_x:
CodeNeed(1);
- code[ci++] = (tmp_op->a[arg].val << _TAG_IMMED1_SIZE) |
- (X_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER;
+ code[ci++] = make_loader_x_reg(tmp_op->a[arg].val);
break;
case TAG_y:
CodeNeed(1);
- code[ci++] = (tmp_op->a[arg].val << _TAG_IMMED1_SIZE) |
- (Y_REG_DEF << _TAG_PRIMARY_SIZE) | TAG_PRIMARY_HEADER;
+ code[ci++] = make_loader_y_reg(tmp_op->a[arg].val);
break;
case TAG_n:
CodeNeed(1);
@@ -2457,7 +2481,6 @@ load_code(LoaderState* stp)
stp->on_load = ci;
break;
case op_bs_put_string_II:
- case op_i_bs_match_string_rfII:
case op_i_bs_match_string_xfII:
new_string_patch(stp, ci-1);
break;
@@ -2679,6 +2702,12 @@ same_label(LoaderState* stp, GenOpArg Target, GenOpArg Label)
Target.val == Label.val;
}
+static int
+is_killed(LoaderState* stp, GenOpArg Reg, GenOpArg Live)
+{
+ return Reg.type == TAG_x && Live.type == TAG_u &&
+ Live.val <= Reg.val;
+}
/*
* Generate an instruction for element/2.
@@ -2695,17 +2724,17 @@ gen_element(LoaderState* stp, GenOpArg Fail, GenOpArg Index,
op->next = NULL;
if (Index.type == TAG_i && Index.val > 0 &&
- (Tuple.type == TAG_r || Tuple.type == TAG_x || Tuple.type == TAG_y)) {
+ (Tuple.type == TAG_x || Tuple.type == TAG_y)) {
op->op = genop_i_fast_element_4;
- op->a[0] = Tuple;
- op->a[1] = Fail;
+ op->a[0] = Fail;
+ op->a[1] = Tuple;
op->a[2].type = TAG_u;
op->a[2].val = Index.val;
op->a[3] = Dst;
} else {
op->op = genop_i_element_4;
- op->a[0] = Tuple;
- op->a[1] = Fail;
+ op->a[0] = Fail;
+ op->a[1] = Tuple;
op->a[2] = Index;
op->a[3] = Dst;
}
@@ -2831,23 +2860,16 @@ gen_get_integer2(LoaderState* stp, GenOpArg Fail, GenOpArg Ms, GenOpArg Live,
goto generic;
}
} else {
- GenOp* op2;
- NEW_GENOP(stp, op2);
-
- op->op = genop_i_fetch_2;
- op->arity = 2;
- op->a[0] = Ms;
- op->a[1] = Size;
- op->next = op2;
-
- op2->op = genop_i_bs_get_integer_4;
- op2->arity = 4;
- op2->a[0] = Fail;
- op2->a[1] = Live;
- op2->a[2].type = TAG_u;
- op2->a[2].val = (Unit.val << 3) | Flags.val;
- op2->a[3] = Dst;
- op2->next = NULL;
+ op->op = genop_i_bs_get_integer_6;
+ op->arity = 6;
+ op->a[0] = Fail;
+ op->a[1] = Live;
+ op->a[2].type = TAG_u;
+ op->a[2].val = (Unit.val << 3) | Flags.val;
+ op->a[3] = Ms;
+ op->a[4] = Size;
+ op->a[5] = Dst;
+ op->next = NULL;
return op;
}
op->next = NULL;
@@ -3898,9 +3920,7 @@ gen_make_fun2(LoaderState* stp, GenOpArg idx)
/*
* Rewrite gc_bifs with one parameter (the common case). Utilized
* in ops.tab to rewrite instructions calling bif's in guards
- * to use a garbage collecting implementation. The instructions
- * are sometimes once again rewritten to handle literals (putting the
- * parameter in the mostly unused r[0] before the instruction is executed).
+ * to use a garbage collecting implementation.
*/
static GenOp*
gen_guard_bif1(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
@@ -3955,10 +3975,6 @@ gen_guard_bif1(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
/*
* This is used by the ops.tab rule that rewrites gc_bifs with two parameters.
- * The instruction returned is then again rewritten to an i_load instruction
- * followed by i_gc_bif2_jIId, to handle literals properly.
- * As opposed to the i_gc_bif1_jIsId, the instruction i_gc_bif2_jIId is
- * always rewritten, regardless of if there actually are any literals.
*/
static GenOp*
gen_guard_bif2(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
@@ -3985,23 +4001,19 @@ gen_guard_bif2(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
op->a[2].val = stp->import[Bif.val].arity;
return op;
}
- op->op = genop_ii_gc_bif2_6;
+ op->op = genop_i_gc_bif2_6;
op->arity = 6;
op->a[0] = Fail;
op->a[1].type = TAG_u;
- op->a[2] = S1;
- op->a[3] = S2;
- op->a[4] = Live;
+ op->a[2] = Live;
+ op->a[3] = S1;
+ op->a[4] = S2;
op->a[5] = Dst;
return op;
}
/*
* This is used by the ops.tab rule that rewrites gc_bifs with three parameters.
- * The instruction returned is then again rewritten to a move instruction that
- * uses r[0] for temp storage, followed by an i_load instruction,
- * followed by i_gc_bif3_jIsId, to handle literals properly. Rewriting
- * always occur, as with the gc_bif2 counterpart.
*/
static GenOp*
gen_guard_bif3(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
@@ -4032,10 +4044,10 @@ gen_guard_bif3(LoaderState* stp, GenOpArg Fail, GenOpArg Live, GenOpArg Bif,
op->arity = 7;
op->a[0] = Fail;
op->a[1].type = TAG_u;
- op->a[2] = S1;
- op->a[3] = S2;
- op->a[4] = S3;
- op->a[5] = Live;
+ op->a[2] = Live;
+ op->a[3] = S1;
+ op->a[4] = S2;
+ op->a[5] = S3;
op->a[6] = Dst;
op->next = NULL;
return op;
@@ -4322,7 +4334,7 @@ gen_has_map_fields(LoaderState* stp, GenOpArg Fail, GenOpArg Src,
for (i = 0; i < n; i++) {
op->a[3+2*i] = Rest[i];
op->a[3+2*i+1].type = TAG_x;
- op->a[3+2*i+1].val = 0; /* x(0); normally not used */
+ op->a[3+2*i+1].val = SCRATCH_X_REG; /* Ignore result */
}
return op;
}
@@ -4800,7 +4812,8 @@ transform_engine(LoaderState* st)
if (var[i].type != instr->a[ap].type)
goto restart;
switch (var[i].type) {
- case TAG_r: case TAG_n: break;
+ case TAG_n:
+ break;
default:
if (var[i].val != instr->a[ap].val)
goto restart;
@@ -5867,7 +5880,7 @@ make_stub(BeamInstr* fp, Eterm mod, Eterm func, Uint arity, Uint native, BeamIns
fp[4] = arity;
#ifdef HIPE
if (native) {
- fp[5] = BeamOpCode(op_move_return_nr);
+ fp[5] = BeamOpCode(op_move_return_n);
hipe_mfa_save_orig_beam_op(mod, func, arity, fp+5);
}
#endif
@@ -6303,7 +6316,7 @@ erts_make_stub_module(Process* p, Eterm Mod, Eterm Beam, Eterm Info)
#ifdef HIPE
op = (Eterm) BeamOpCode(op_hipe_trap_call); /* Might be changed later. */
#else
- op = (Eterm) BeamOpCode(op_move_return_nr);
+ op = (Eterm) BeamOpCode(op_move_return_n);
#endif
fp = make_stub(fp, Mod, func, arity, (Uint)native_address, op);
}
diff --git a/erts/emulator/beam/beam_load.h b/erts/emulator/beam/beam_load.h
index d5af634fad..eedb5ee4cd 100644
--- a/erts/emulator/beam/beam_load.h
+++ b/erts/emulator/beam/beam_load.h
@@ -52,6 +52,7 @@ extern BeamInstr* em_call_error_handler;
extern BeamInstr* em_apply_bif;
extern BeamInstr* em_call_nif;
+
/*
* The following variables keep a sorted list of address ranges for
* each module. It allows us to quickly find a function given an
diff --git a/erts/emulator/beam/erl_term.c b/erts/emulator/beam/erl_term.c
index 89459fb278..3a5fbcc284 100644
--- a/erts/emulator/beam/erl_term.c
+++ b/erts/emulator/beam/erl_term.c
@@ -173,9 +173,7 @@ ET_DEFINE_CHECKED(Uint,external_thing_data_words,ExternalThing*,is_thing_ptr);
ET_DEFINE_CHECKED(Eterm,make_cp,UWord *,_is_taggable_pointer);
ET_DEFINE_CHECKED(UWord *,cp_val,Eterm,is_CP);
ET_DEFINE_CHECKED(Uint,catch_val,Eterm,is_catch);
-ET_DEFINE_CHECKED(Uint,x_reg_offset,Uint,_is_xreg);
-ET_DEFINE_CHECKED(Uint,y_reg_offset,Uint,_is_yreg);
-ET_DEFINE_CHECKED(Uint,x_reg_index,Uint,_is_xreg);
-ET_DEFINE_CHECKED(Uint,y_reg_index,Uint,_is_yreg);
+ET_DEFINE_CHECKED(Uint,loader_x_reg_index,Uint,_is_loader_x_reg);
+ET_DEFINE_CHECKED(Uint,loader_y_reg_index,Uint,_is_loader_y_reg);
#endif /* ET_DEBUG */
diff --git a/erts/emulator/beam/erl_term.h b/erts/emulator/beam/erl_term.h
index b928e4ca1e..089eecf024 100644
--- a/erts/emulator/beam/erl_term.h
+++ b/erts/emulator/beam/erl_term.h
@@ -1027,44 +1027,40 @@ _ET_DECLARE_CHECKED(Uint,catch_val,Eterm)
/*
* Overloaded tags.
*
- * SMALL = 15
- * ATOM/NIL=7
+ * In the loader, we want to tag a term in a way so that it can
+ * be any literal (atom/integer/float/tuple/list/binary) or a
+ * register.
*
- * Note that the two least significant bits in SMALL/ATOM/NIL always are 3;
- * thus, we can distinguish register from literals by looking at only these
- * two bits.
+ * We can achive that by overloading the PID and PORT tags to
+ * mean X and Y registers. That works because there are no
+ * pid or port literals.
*/
-#define X_REG_DEF 0
-#define Y_REG_DEF 1
-#define R_REG_DEF 2
+#define _LOADER_TAG_XREG _TAG_IMMED1_PID
+#define _LOADER_TAG_YREG _TAG_IMMED1_PORT
+#define _LOADER_TAG_SIZE _TAG_IMMED1_SIZE
+#define _LOADER_MASK _TAG_IMMED1_MASK
-#define beam_reg_tag(x) ((x) & 3)
+#define LOADER_X_REG _LOADER_TAG_XREG
+#define LOADER_Y_REG _LOADER_TAG_YREG
-#define make_rreg() R_REG_DEF
-#define make_xreg(ix) (((ix) * sizeof(Eterm)) | X_REG_DEF)
-#define make_yreg(ix) (((ix) * sizeof(Eterm)) | Y_REG_DEF)
+#define make_loader_x_reg(R) (((R) << _LOADER_TAG_SIZE) | _LOADER_TAG_XREG)
+#define make_loader_y_reg(R) (((R) << _LOADER_TAG_SIZE) | _LOADER_TAG_YREG)
-#define _is_xreg(x) (beam_reg_tag(x) == X_REG_DEF)
-#define _is_yreg(x) (beam_reg_tag(x) == Y_REG_DEF)
+#define loader_reg_index(R) ((R) >> _LOADER_TAG_SIZE)
-#define _unchecked_x_reg_offset(R) ((R) - X_REG_DEF)
-_ET_DECLARE_CHECKED(Uint,x_reg_offset,Uint)
-#define x_reg_offset(R) _ET_APPLY(x_reg_offset,(R))
+#define loader_tag(T) ((T) & _LOADER_MASK)
-#define _unchecked_y_reg_offset(R) ((R) - Y_REG_DEF)
-_ET_DECLARE_CHECKED(Uint,y_reg_offset,Uint)
-#define y_reg_offset(R) _ET_APPLY(y_reg_offset,(R))
+#define _is_loader_x_reg(x) (loader_tag(x) == _LOADER_TAG_XREG)
+#define _is_loader_y_reg(x) (loader_tag(x) == _LOADER_TAG_YREG)
-#define reg_index(R) ((R) / sizeof(Eterm))
+#define _unchecked_loader_x_reg_index(R) ((R) >> _LOADER_TAG_SIZE)
+_ET_DECLARE_CHECKED(Uint,loader_x_reg_index,Uint)
+#define loader_x_reg_index(R) _ET_APPLY(loader_x_reg_index,(R))
-#define _unchecked_x_reg_index(R) ((R) >> 2)
-_ET_DECLARE_CHECKED(Uint,x_reg_index,Uint)
-#define x_reg_index(R) _ET_APPLY(x_reg_index,(R))
-
-#define _unchecked_y_reg_index(R) ((R) >> 2)
-_ET_DECLARE_CHECKED(Uint,y_reg_index,Uint)
-#define y_reg_index(R) _ET_APPLY(y_reg_index,(R))
+#define _unchecked_loader_y_reg_index(R) ((R) >> _LOADER_TAG_SIZE)
+_ET_DECLARE_CHECKED(Uint,loader_y_reg_index,Uint)
+#define loader_y_reg_index(R) _ET_APPLY(loader_y_reg_index,(R))
/*
* Backwards compatibility definitions:
diff --git a/erts/emulator/beam/erl_vm.h b/erts/emulator/beam/erl_vm.h
index cfc978b5a5..98f27a1725 100644
--- a/erts/emulator/beam/erl_vm.h
+++ b/erts/emulator/beam/erl_vm.h
@@ -141,6 +141,7 @@
typedef struct op_entry {
char* name; /* Name of instruction. */
Uint32 mask[3]; /* Signature mask. */
+ unsigned involves_r; /* Needs special attention when matching. */
int sz; /* Number of loaded words. */
char* pack; /* Instructions for packing engine. */
char* sign; /* Signature string. */
diff --git a/erts/emulator/beam/ops.tab b/erts/emulator/beam/ops.tab
index 1d32e72247..46fefb88af 100644
--- a/erts/emulator/beam/ops.tab
+++ b/erts/emulator/beam/ops.tab
@@ -39,8 +39,8 @@ too_old_compiler | never() =>
# necessary.) Since the instructions don't work correctly in R12B, simply
# refuse to load the module.
-func_info M=a a==am_module_info A=u==0 | label L | move n r => too_old_compiler
-func_info M=a a==am_module_info A=u==1 | label L | move n r => too_old_compiler
+func_info M=a a==am_module_info A=u==0 | label L | move n x==0 => too_old_compiler
+func_info M=a a==am_module_info A=u==1 | label L | move n x==0 => too_old_compiler
# The undocumented and unsupported guard BIF is_constant/1 was removed
# in R13. The is_constant/2 operation is marked as obsolete in genop.tab,
@@ -76,17 +76,6 @@ return
# with the following call instruction, we need to make sure that
# there is no line/1 instruction between the move and the call.
#
-
-move S r | line Loc | call_ext Ar Func => \
- line Loc | move S r | call_ext Ar Func
-move S r | line Loc | call_ext_last Ar Func=u$is_bif D => \
- line Loc | move S r | call_ext_last Ar Func D
-move S r | line Loc | call_ext_only Ar Func=u$is_bif => \
- line Loc | move S r | call_ext_only Ar Func
-move S r | line Loc | call Ar Func => \
- line Loc | move S r | call Ar Func
-
-#
# A tail-recursive call to an external function (non-BIF) will
# never be saved on the stack, so there is no reason to keep
# the line instruction. (The compiler did not remove the line
@@ -94,10 +83,14 @@ move S r | line Loc | call Ar Func => \
# BIFs and ordinary Erlang functions.)
#
-line Loc | call_ext_last Ar Func=u$is_not_bif D => \
- call_ext_last Ar Func D
-line Loc | call_ext_only Ar Func=u$is_not_bif => \
- call_ext_only Ar Func
+move S X0=x==0 | line Loc | call_ext Ar Func => \
+ line Loc | move S X0 | call_ext Ar Func
+move S X0=x==0 | line Loc | call_ext_last Ar Func=u$is_not_bif D => \
+ move S X0 | call_ext_last Ar Func D
+move S X0=x==0 | line Loc | call_ext_only Ar Func=u$is_not_bif => \
+ move S X0 | call_ext_only Ar Func
+move S X0=x==0 | line Loc | call Ar Func => \
+ line Loc | move S X0 | call Ar Func
line Loc | func_info M F A => func_info M F A | line Loc
@@ -167,31 +160,24 @@ 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 r f I
i_select_val_bins x f I
i_select_val_bins y f I
-i_select_val_lins r f I
i_select_val_lins x f I
i_select_val_lins y f I
-i_select_val2 r f c c f f
i_select_val2 x f c c f f
i_select_val2 y f c c f f
-i_select_tuple_arity r f I
i_select_tuple_arity x f I
i_select_tuple_arity y f I
-i_select_tuple_arity2 r f A A f f
i_select_tuple_arity2 x f A A f f
i_select_tuple_arity2 y f A A f f
-i_jump_on_val_zero r f I
i_jump_on_val_zero x f I
i_jump_on_val_zero y f I
-i_jump_on_val r f I I
i_jump_on_val x f I I
i_jump_on_val y f I I
@@ -203,30 +189,21 @@ is_ne_exact L1 S1 S2 | jump Fail | label L2 | same_label(L1, L2) => \
%macro: get_list GetList -pack
get_list x x x
get_list x x y
-get_list x x r
get_list x y x
get_list x y y
-get_list x y r
-get_list x r x
-get_list x r y
get_list y x x
get_list y x y
-get_list y x r
get_list y y x
get_list y y y
-get_list y y r
-get_list y r x
-get_list y r y
+# The following get_list instructions using x(0) are frequently used.
get_list r x x
+get_list r r y
+get_list x r x
get_list r x y
-get_list r x r
-get_list r y x
-get_list r y y
get_list r y r
-get_list r r x
-get_list r r y
+get_list r x r
# Old-style catch.
catch y f
@@ -237,33 +214,31 @@ try Y F => catch Y F
try_case Y => try_end Y
try_end y
-try_case_end Literal=q => move Literal x | try_case_end x
try_case_end s
# Destructive set tuple element
-set_tuple_element Lit=q Tuple Pos => move Lit x | set_tuple_element x Tuple Pos
set_tuple_element s d P
# Get tuple element
%macro: i_get_tuple_element GetTupleElement -pack
i_get_tuple_element x P x
-i_get_tuple_element r P x
i_get_tuple_element y P x
-i_get_tuple_element x P r
-i_get_tuple_element y P r
%cold
-i_get_tuple_element r P r
i_get_tuple_element x P y
-i_get_tuple_element r P y
i_get_tuple_element y P y
%hot
+%macro: i_get_tuple_element2 GetTupleElement2 -pack
+i_get_tuple_element2 x P x
+
+%macro: i_get_tuple_element3 GetTupleElement3 -pack
+i_get_tuple_element3 x P x
+
%macro: is_number IsNumber -fail_action
%cold
-is_number f r
is_number f x
is_number f y
%hot
@@ -273,16 +248,12 @@ is_number Fail Literal=q => move Literal x | is_number Fail x
jump f
-case_end Literal=cq => move Literal x | case_end x
-badmatch Literal=cq => move Literal x | badmatch x
+case_end NotInX=cy => move NotInX x | case_end x
+badmatch NotInX=cy => move NotInX x | badmatch x
-case_end r
case_end x
-case_end y
-badmatch r
badmatch x
-badmatch y
if_end
raise s s
@@ -291,7 +262,7 @@ raise s s
badarg j
system_limit j
-move C=cxy r | jump Lbl => move_jump Lbl C
+move C=cxy x==0 | jump Lbl => move_jump Lbl C
%macro: move_jump MoveJump -nonext
move_jump f n
@@ -309,8 +280,6 @@ move_window/6
# x -> y
-move S1=r S2=y | move X1=x Y1=y => move2 S1 S2 X1 Y1
-
move X1=x Y1=y | move X2=x Y2=y | move X3=x Y3=y | succ(Y1,Y2) | succ(Y2,Y3) => \
move_window X1 X2 X3 Y1 Y3
@@ -323,24 +292,76 @@ move_window X1=x X2=x X3=x X4=x Y1=y Y4=y | move X5=x Y5=y | succ(Y4,Y5) => \
move_window X1=x X2=x X3=x Y1=y Y3=y => move_window3 X1 X2 X3 Y1
move_window X1=x X2=x X3=x X4=x Y1=y Y4=y => move_window4 X1 X2 X3 X4 Y1
+%macro: move_window3 MoveWindow3 -pack
+%macro: move_window4 MoveWindow4 -pack
+%macro: move_window5 MoveWindow5 -pack
+
move_window3 x x x y
move_window4 x x x x y
move_window5 x x x x x y
-move X1=x Y1=y | move X2=x Y2=y => move2 X1 Y1 X2 Y2
-move Y1=y X1=x | move Y2=y X2=x => move2 Y1 X1 Y2 X2
-move X1=x X2=x | move X3=x X4=x => move2 X1 X2 X3 X4
+# Swap registers.
+move R1=x Tmp=x | move R2=xy R1 | move Tmp R2 => swap_temp R1 R2 Tmp
+
+swap_temp R1 R2 Tmp | line Loc | apply Live | is_killed(Tmp, Live) => \
+ swap R1 R2 | line Loc | apply Live
+
+swap_temp R1 R2 Tmp | line Loc | call Live Addr | is_killed(Tmp, Live) => \
+ swap R1 R2 | line Loc | call Live Addr
+swap_temp R1 R2 Tmp | call_only Live Addr | \
+ is_killed(Tmp, Live) => swap R1 R2 | call_only Live Addr
+swap_temp R1 R2 Tmp | call_last Live Addr D | \
+ is_killed(Tmp, Live) => swap R1 R2 | call_last Live Addr D
-move S1=x S2=r | move S3=x S4=x => move2 S1 S2 S3 S4
-move S1=x S2=r | move X1=x Y1=y => move2 S1 S2 X1 Y1
-move S1=y S2=r | move X1=x Y1=y => move2 S1 S2 X1 Y1
+swap_temp R1 R2 Tmp | line Loc | call_ext Live Addr | is_killed(Tmp, Live) => \
+ swap R1 R2 | line Loc | call_ext Live Addr
+swap_temp R1 R2 Tmp | line Loc | call_ext_only Live Addr | \
+ is_killed(Tmp, Live) => swap R1 R2 | line Loc | call_ext_only Live Addr
+swap_temp R1 R2 Tmp | line Loc | call_ext_last Live Addr D | \
+ is_killed(Tmp, Live) => swap R1 R2 | line Loc | call_ext_last Live Addr D
-move Y1=y X1=x | move S1=r D1=x => move2 Y1 X1 S1 D1
-move S1=r D1=x | move Y1=y X1=x => move2 S1 D1 Y1 X1
+%macro: swap_temp SwapTemp -pack
+swap_temp x x x
+swap_temp x y x
-move2 X1=x Y1=y X2=x Y2=y | move X3=x Y3=y => move3 X1 Y1 X2 Y2 X3 Y3
-move2 Y1=y X1=x Y2=y X2=x | move Y3=y X3=x => move3 Y1 X1 Y2 X2 Y3 X3
-move2 X1=x X2=x X3=x X4=x | move X5=x X6=x => move3 X1 X2 X3 X4 X5 X6
+%macro: swap Swap -pack
+swap x x
+swap x y
+
+move Src=x D1=x | move Src=x D2=x => move_dup Src D1 D2
+move Src=x SD=x | move SD=x D=x => move_dup Src SD D
+move Src=x D1=x | move Src=x D2=y => move_dup Src D1 D2
+move Src=y SD=x | move SD=x D=y => move_dup Src SD D
+move Src=x SD=x | move SD=x D=y => move_dup Src SD D
+move Src=y SD=x | move SD=x D=x => move_dup Src SD D
+
+move SD=x D=x | move Src=xy SD=x => move_shift Src SD D
+move SD=y D=x | move Src=x SD=y => move_shift Src SD D
+move SD=x D=y | move Src=x SD=x => move_shift Src SD D
+
+# The transformations above guarantee that the source for
+# the second move is not the same as the destination for
+# the first move. That means that we can do the moves in
+# parallel (fetch both values, then store them) which could
+# be faster.
+
+move X1=x Y1=y | move X2=x Y2=y => move2_par X1 Y1 X2 Y2
+move Y1=y X1=x | move Y2=y X2=x => move2_par Y1 X1 Y2 X2
+
+move X1=x X2=x | move X3=x X4=x => move2_par X1 X2 X3 X4
+
+move X1=x X2=x | move X3=x Y1=y => move2_par X1 X2 X3 Y1
+
+move S1=x S2=x | move X1=x Y1=y => move2_par S1 S2 X1 Y1
+
+move S1=y S2=x | move X1=x Y1=y => move2_par S1 S2 X1 Y1
+
+move Y1=y X1=x | move S1=x D1=x => move2_par Y1 X1 S1 D1
+move S1=x D1=x | move Y1=y X1=x => move2_par S1 D1 Y1 X1
+
+move2_par X1=x Y1=y X2=x Y2=y | move X3=x Y3=y => move3 X1 Y1 X2 Y2 X3 Y3
+move2_par Y1=y X1=x Y2=y X2=x | move Y3=y X3=x => move3 Y1 X1 Y2 X2 Y3 X3
+move2_par X1=x X2=x X3=x X4=x | move X5=x X6=x => move3 X1 X2 X3 X4 X5 X6
move C=aiq X=x==1 => move_x1 C
move C=aiq X=x==2 => move_x2 C
@@ -348,21 +369,32 @@ move C=aiq X=x==2 => move_x2 C
move_x1 c
move_x2 c
-%macro: move2 Move2 -pack
-move2 x y x y
-move2 y x y x
-move2 x x x x
+%macro: move_shift MoveShift -pack
+move_shift x x x
+move_shift y x x
+move_shift x y x
+move_shift x x y
+
+%macro: move_dup MoveDup -pack
+move_dup x x x
+move_dup x x y
+move_dup y x x
+move_dup y x y
-move2 x r x x
+%macro: move2_par Move2Par -pack
-move2 x r x y
-move2 r y x y
-move2 y r x y
+move2_par x y x y
+move2_par y x y x
+move2_par x x x x
-move2 r x y x
-move2 y x r x
+move2_par x x x y
-%macro: move3 Move3
+move2_par y x x y
+
+move2_par x x y x
+move2_par y x x x
+
+%macro: move3 Move3 -pack
move3 x y x y x y
move3 y x y x y x
move3 x x x x x x
@@ -375,20 +407,22 @@ move S=c D=y => move S x | move x D
%macro:move Move -pack -gen_dest
move x x
move x y
-move x r
move y x
-move y r
-move r x
-move r y
-move c r
move c x
move n x
-move n r
move y y
+# The following move instructions using x(0) are frequently used.
+
+move x r
+move r x
+move y r
+move c r
+move r y
+
# Receive operations.
-loop_rec Fail Src | smp_mark_target_label(Fail) => i_loop_rec Fail Src
+loop_rec Fail x==0 | smp_mark_target_label(Fail) => i_loop_rec Fail
label L | wait_timeout Fail Src | smp_already_locked(L) => label L | i_wait_timeout_locked Fail Src
wait_timeout Fail Src => i_wait_timeout Fail Src
@@ -403,7 +437,7 @@ label L | timeout | smp_already_locked(L) => label L | timeout_locked
remove_message
timeout
timeout_locked
-i_loop_rec f r
+i_loop_rec f
loop_rec_end f
wait f
wait_locked f
@@ -421,93 +455,57 @@ send
# Optimized comparisons with one immediate/literal operand.
#
-is_eq_exact Lbl R=rxy C=ian => i_is_eq_exact_immed Lbl R C
-is_eq_exact Lbl R=rxy C=q => i_is_eq_exact_literal R Lbl C
+is_eq_exact Lbl R=xy C=ian => i_is_eq_exact_immed Lbl R C
+is_eq_exact Lbl R=xy C=q => i_is_eq_exact_literal Lbl R C
-is_ne_exact Lbl R=rxy C=ian => i_is_ne_exact_immed Lbl R C
-is_ne_exact Lbl R=rxy C=q => i_is_ne_exact_literal R Lbl 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
%macro: i_is_eq_exact_immed EqualImmed -fail_action
i_is_eq_exact_immed f r c
i_is_eq_exact_immed f x c
i_is_eq_exact_immed f y c
-i_is_eq_exact_literal r f c
-i_is_eq_exact_literal x f c
-i_is_eq_exact_literal y f c
+i_is_eq_exact_literal f x c
+i_is_eq_exact_literal f y c
%macro: i_is_ne_exact_immed NotEqualImmed -fail_action
-i_is_ne_exact_immed f r c
i_is_ne_exact_immed f x c
i_is_ne_exact_immed f y c
-i_is_ne_exact_literal r f c
-i_is_ne_exact_literal x f c
-i_is_ne_exact_literal y f c
-
-#
-# Common Compare Specializations
-# We don't do all of them since we want
-# to keep the instruction set small-ish
-#
-
-is_eq_exact Lbl S1=xy S2=r => is_eq_exact Lbl S2 S1
-is_eq_exact Lbl S1=rx S2=xy => i_is_eq_exact_spec Lbl S1 S2
-%macro: i_is_eq_exact_spec EqualExact -fail_action
-
-i_is_eq_exact_spec f x x
-i_is_eq_exact_spec f x y
-i_is_eq_exact_spec f r x
-i_is_eq_exact_spec f r y
-%cold
-i_is_eq_exact_spec f r r
-%hot
+i_is_ne_exact_literal f x c
+i_is_ne_exact_literal f y c
-is_lt Lbl S1=rxc S2=rxc => i_is_lt_spec Lbl S1 S2
+is_eq_exact Lbl Y=y X=x => is_eq_exact Lbl X Y
+%macro: is_eq_exact EqualExact -fail_action -pack
+is_eq_exact f x x
+is_eq_exact f x y
+is_eq_exact f s s
-%macro: i_is_lt_spec IsLessThan -fail_action
-
-i_is_lt_spec f x x
-i_is_lt_spec f x r
-i_is_lt_spec f x c
-i_is_lt_spec f r x
-i_is_lt_spec f r c
-i_is_lt_spec f c x
-i_is_lt_spec f c r
+%macro: is_lt IsLessThan -fail_action
+is_lt f x x
+is_lt f x c
+is_lt f c x
%cold
-i_is_lt_spec f r r
-i_is_lt_spec f c c
+is_lt f s s
%hot
-is_ge Lbl S1=xc S2=xc => i_is_ge_spec Lbl S1 S2
-
-%macro: i_is_ge_spec IsGreaterEqual -fail_action
-
-i_is_ge_spec f x x
-i_is_ge_spec f x c
-i_is_ge_spec f c x
+%macro: is_ge IsGreaterEqual -fail_action
+is_ge f x x
+is_ge f x c
+is_ge f c x
%cold
-i_is_ge_spec f c c
+is_ge f s s
%hot
-#
-# All other comparisons.
-#
+%macro: is_ne_exact NotEqualExact -fail_action
+is_ne_exact f s s
-is_eq_exact Lbl S1 S2 => i_fetch S1 S2 | i_is_eq_exact Lbl
-is_ne_exact Lbl S1 S2 => i_fetch S1 S2 | i_is_ne_exact Lbl
+%macro: is_eq Equal -fail_action
+is_eq f s s
-is_lt Lbl S1 S2 => i_fetch S1 S2 | i_is_lt Lbl
-is_ge Lbl S1 S2 => i_fetch S1 S2 | i_is_ge Lbl
-is_eq Lbl S1 S2 => i_fetch S1 S2 | i_is_eq Lbl
-is_ne Lbl S1 S2 => i_fetch S1 S2 | i_is_ne Lbl
-
-i_is_eq_exact f
-i_is_ne_exact f
-i_is_lt f
-i_is_ge f
-i_is_eq f
-i_is_ne f
+%macro: is_ne NotEqual -fail_action
+is_ne f s s
#
# Putting things.
@@ -525,7 +523,6 @@ i_put_tuple Dst Arity Puts=* | put S => \
i_put_tuple/2
%macro:i_put_tuple PutTuple -pack -goto:do_put_tuple
-i_put_tuple r I
i_put_tuple x I
i_put_tuple y I
@@ -542,74 +539,36 @@ put_list x n x
put_list y n x
put_list x x x
put_list y x x
-put_list x x r
-put_list y r r
put_list y y x
put_list x y x
-put_list r x x
-put_list r y x
-put_list r x r
-put_list y y r
-put_list y r x
-put_list r n x
-put_list x r x
-put_list x y r
-put_list y x r
put_list y x x
-put_list x r r
-
# put_list SrcReg Constant Dst
-put_list r c r
-put_list r c x
-put_list r c y
-put_list x c r
put_list x c x
put_list x c y
-put_list y c r
put_list y c x
-put_list y c y
# put_list Constant SrcReg Dst
-put_list c r r
-put_list c r x
-put_list c r y
-put_list c x r
put_list c x x
-put_list c x y
-
-put_list c y r
put_list c y x
-put_list c y y
-%cold
-put_list s s d
-%hot
+# The following put_list instructions using x(0) are frequently used.
-%macro: i_fetch FetchArgs -pack
-i_fetch c r
-i_fetch c x
-i_fetch c y
-i_fetch r c
-i_fetch r x
-i_fetch r y
-i_fetch x c
-i_fetch x r
-i_fetch x x
-i_fetch x y
-i_fetch y c
-i_fetch y r
-i_fetch y x
-i_fetch y y
+put_list y r r
+put_list x r r
+put_list r n r
+put_list r n x
+put_list r x x
+put_list r x r
+put_list x x r
%cold
-i_fetch c c
-i_fetch s s
+put_list s s d
%hot
#
@@ -631,27 +590,27 @@ return_trace
# Note: There is no 'move_return y r', since there never are any y registers
# when we do move_return (if we have y registers, we must do move_deallocate_return).
-move S r | return => move_return S r
+move S x==0 | return => move_return S
%macro: move_return MoveReturn -nonext
-move_return x r
-move_return c r
-move_return n r
+move_return x
+move_return c
+move_return n
-move S r | deallocate D | return => move_deallocate_return S r D
+move S x==0 | deallocate D | return => move_deallocate_return S D
%macro: move_deallocate_return MoveDeallocateReturn -pack -nonext
-move_deallocate_return x r Q
-move_deallocate_return y r Q
-move_deallocate_return c r Q
-move_deallocate_return n r Q
+move_deallocate_return x Q
+move_deallocate_return y Q
+move_deallocate_return c Q
+move_deallocate_return n Q
deallocate D | return => deallocate_return D
%macro: deallocate_return DeallocateReturn -nonext
deallocate_return Q
-test_heap Need u==1 | put_list Y=y r r => test_heap_1_put_list Need Y
+test_heap Need u==1 | put_list Y=y x==0 x==0 => test_heap_1_put_list Need Y
%macro: test_heap_1_put_list TestHeapPutList -pack
test_heap_1_put_list I y
@@ -660,18 +619,18 @@ test_heap_1_put_list I y
is_tuple Fail Literal=q => move Literal x | is_tuple Fail x
is_tuple Fail=f c => jump Fail
-is_tuple Fail=f S=rxy | test_arity Fail=f S=rxy Arity => is_tuple_of_arity Fail S Arity
+is_tuple Fail=f S=xy | test_arity Fail=f S=xy Arity => is_tuple_of_arity Fail S Arity
%macro:is_tuple_of_arity IsTupleOfArity -fail_action
+is_tuple_of_arity f r A
is_tuple_of_arity f x A
is_tuple_of_arity f y A
-is_tuple_of_arity f r A
%macro: is_tuple IsTuple -fail_action
+is_tuple f r
is_tuple f x
is_tuple f y
-is_tuple f r
test_arity Fail Literal=q Arity => move Literal x | test_arity Fail x Arity
test_arity Fail=f c Arity => jump Fail
@@ -679,95 +638,63 @@ test_arity Fail=f c Arity => jump Fail
%macro: test_arity IsArity -fail_action
test_arity f x A
test_arity f y A
-test_arity f r A
-
-is_tuple_of_arity Fail=f Reg Arity | get_tuple_element Reg P=u==0 Dst=xy => \
- is_tuple_of_arity Fail Reg Arity | extract_next_element Dst | original_reg Reg P
-
-test_arity Fail Reg Arity | get_tuple_element Reg P=u==0 Dst=xy => \
- test_arity Fail Reg Arity | extract_next_element Dst | original_reg Reg P
-
-original_reg Reg P1 | get_tuple_element Reg P2 Dst=xy | succ(P1, P2) => \
- extract_next_element Dst | original_reg Reg P2
-
-get_tuple_element Reg P Dst => i_get_tuple_element Reg P Dst | original_reg Reg P
-
-original_reg Reg Pos =>
-
-original_reg/2
-
-extract_next_element D1=xy | original_reg Reg P1 | get_tuple_element Reg P2 D2=xy | \
-succ(P1, P2) | succ(D1, D2) => \
- extract_next_element2 D1 | original_reg Reg P2
-
-extract_next_element2 D1=xy | original_reg Reg P1 | get_tuple_element Reg P2 D2=xy | \
-succ(P1, P2) | succ2(D1, D2) => \
- extract_next_element3 D1 | original_reg Reg P2
-
-#extract_next_element3 D1=xy | original_reg Reg P1 | get_tuple_element Reg P2 D2=xy | \
-#succ(P1, P2) | succ3(D1, D2) => \
-# extract_next_element4 D1 | original_reg Reg P2
-
-%macro: extract_next_element ExtractNextElement -pack
-extract_next_element x
-extract_next_element y
-%macro: extract_next_element2 ExtractNextElement2 -pack
-extract_next_element2 x
-extract_next_element2 y
+get_tuple_element Reg=x P1 D1=x | get_tuple_element Reg=x P2 D2=x | \
+ get_tuple_element Reg=x P3 D3=x | \
+ succ(P1, P2) | succ(P2, P3) | \
+ succ(D1, D2) | succ(D2, D3) => i_get_tuple_element3 Reg P1 D1
-%macro: extract_next_element3 ExtractNextElement3 -pack
-extract_next_element3 x
-extract_next_element3 y
+get_tuple_element Reg=x P1 D1=x | get_tuple_element Reg=x P2 D2=x | \
+ succ(P1, P2) | succ(D1, D2) => i_get_tuple_element2 Reg P1 D1
-#%macro: extract_next_element4 ExtractNextElement4 -pack
-#extract_next_element4 x
-#extract_next_element4 y
+get_tuple_element Reg P Dst => i_get_tuple_element Reg P Dst
is_integer Fail=f i =>
is_integer Fail=f an => jump Fail
is_integer Fail Literal=q => move Literal x | is_integer Fail x
-is_integer Fail=f S=rx | allocate Need Regs => is_integer_allocate Fail S Need Regs
+is_integer Fail=f S=x | allocate Need Regs => is_integer_allocate Fail S Need Regs
%macro: is_integer_allocate IsIntegerAllocate -fail_action
is_integer_allocate f x I I
-is_integer_allocate f r I I
%macro: is_integer IsInteger -fail_action
is_integer f x
is_integer f y
-is_integer f r
is_list Fail=f n =>
is_list Fail Literal=q => move Literal x | is_list Fail x
is_list Fail=f c => jump Fail
%macro: is_list IsList -fail_action
-is_list f r
is_list f x
%cold
is_list f y
%hot
-is_nonempty_list Fail=f S=rx | allocate Need Rs => is_nonempty_list_allocate Fail S Need Rs
+is_nonempty_list Fail=f S=x | allocate Need Rs => is_nonempty_list_allocate Fail S Need Rs
%macro:is_nonempty_list_allocate IsNonemptyListAllocate -fail_action -pack
-is_nonempty_list_allocate f x I t
is_nonempty_list_allocate f r I t
+is_nonempty_list_allocate f x I t
-is_nonempty_list F=f r | test_heap I1 I2 => is_non_empty_list_test_heap F r I1 I2
+is_nonempty_list F=f x==0 | test_heap I1 I2 => is_non_empty_list_test_heap F I1 I2
%macro: is_non_empty_list_test_heap IsNonemptyListTestHeap -fail_action -pack
-is_non_empty_list_test_heap f r I t
+is_non_empty_list_test_heap f I t
+
+is_nonempty_list Fail=f S=x | get_list S D1=x D2=x => \
+ is_nonempty_list_get_list Fail S D1 D2
+
+%macro: is_nonempty_list_get_list IsNonemptyListGetList -fail_action -pack
+is_nonempty_list_get_list f r x x
+is_nonempty_list_get_list f x x x
%macro: is_nonempty_list IsNonemptyList -fail_action
is_nonempty_list f x
is_nonempty_list f y
-is_nonempty_list f r
%macro: is_atom IsAtom -fail_action
is_atom f x
-is_atom f r
%cold
is_atom f y
%hot
@@ -775,7 +702,6 @@ is_atom Fail=f a =>
is_atom Fail=f niq => jump Fail
%macro: is_float IsFloat -fail_action
-is_float f r
is_float f x
%cold
is_float f y
@@ -789,12 +715,10 @@ is_nil Fail=f qia => jump Fail
%macro: is_nil IsNil -fail_action
is_nil f x
is_nil f y
-is_nil f r
is_binary Fail Literal=q => move Literal x | is_binary Fail x
is_binary Fail=f c => jump Fail
%macro: is_binary IsBinary -fail_action
-is_binary f r
is_binary f x
%cold
is_binary f y
@@ -806,7 +730,6 @@ 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
%macro: is_bitstring IsBitstring -fail_action
-is_bitstring f r
is_bitstring f x
%cold
is_bitstring f y
@@ -814,7 +737,6 @@ is_bitstring f y
is_reference Fail=f cq => jump Fail
%macro: is_reference IsRef -fail_action
-is_reference f r
is_reference f x
%cold
is_reference f y
@@ -822,7 +744,6 @@ is_reference f y
is_pid Fail=f cq => jump Fail
%macro: is_pid IsPid -fail_action
-is_pid f r
is_pid f x
%cold
is_pid f y
@@ -830,7 +751,6 @@ is_pid f y
is_port Fail=f cq => jump Fail
%macro: is_port IsPort -fail_action
-is_port f r
is_port f x
%cold
is_port f y
@@ -842,14 +762,12 @@ is_boolean Fail=f ac => jump Fail
%cold
%macro: is_boolean IsBoolean -fail_action
-is_boolean f r
is_boolean f x
is_boolean f y
%hot
is_function2 Fail=f acq Arity => jump Fail
is_function2 Fail=f Fun a => jump Fail
-is_function2 Fail Fun Literal=q => move Literal x | is_function2 Fail Fun x
is_function2 f s s
%macro: is_function2 IsFunction2 -fail_action
@@ -989,76 +907,76 @@ call_ext_only u==3 u$func:erlang:hibernate/3 => i_hibernate
%unless USE_VM_PROBES
call_ext Arity u$func:erlang:dt_get_tag/0 => \
- move a=am_undefined r
+ move a=am_undefined x=0
call_ext_last Arity u$func:erlang:dt_get_tag/0 D => \
- move a=am_undefined r | deallocate D | return
+ move a=am_undefined x=0 | deallocate D | return
call_ext_only Arity u$func:erlang:dt_get_tag/0 => \
- move a=am_undefined r | return
-
-move Any r | call_ext Arity u$func:erlang:dt_put_tag/1 => \
- move a=am_undefined r
-move Any r | call_ext_last Arity u$func:erlang:dt_put_tag/1 D => \
- move a=am_undefined r | deallocate D | return
-move Any r | call_ext_only Arity u$func:erlang:dt_put_tag/1 => \
- move a=am_undefined r | return
+ move a=am_undefined x=0 | return
+
+move Any x==0 | call_ext Arity u$func:erlang:dt_put_tag/1 => \
+ move a=am_undefined x=0
+move Any x==0 | call_ext_last Arity u$func:erlang:dt_put_tag/1 D => \
+ move a=am_undefined x=0 | deallocate D | return
+move Any x==0 | call_ext_only Arity u$func:erlang:dt_put_tag/1 => \
+ move a=am_undefined x=0 | return
call_ext Arity u$func:erlang:dt_put_tag/1 => \
- move a=am_undefined r
+ move a=am_undefined x=0
call_ext_last Arity u$func:erlang:dt_put_tag/1 D => \
- move a=am_undefined r | deallocate D | return
+ move a=am_undefined x=0 | deallocate D | return
call_ext_only Arity u$func:erlang:dt_put_tag/1 => \
- move a=am_undefined r | return
+ move a=am_undefined x=0 | return
call_ext Arity u$func:erlang:dt_get_tag_data/0 => \
- move a=am_undefined r
+ move a=am_undefined x=0
call_ext_last Arity u$func:erlang:dt_get_tag_data/0 D => \
- move a=am_undefined r | deallocate D | return
+ move a=am_undefined x=0 | deallocate D | return
call_ext_only Arity u$func:erlang:dt_get_tag_data/0 => \
- move a=am_undefined r | return
-
-move Any r | call_ext Arity u$func:erlang:dt_spread_tag/1 => \
- move a=am_true r
-move Any r | call_ext_last Arity u$func:erlang:dt_spread_tag/1 D => \
- move a=am_true r | deallocate D | return
-move Any r | call_ext_only Arity u$func:erlang:dt_spread_tag/1 => \
- move a=am_true r | return
+ move a=am_undefined x=0 | return
+
+move Any x==0 | call_ext Arity u$func:erlang:dt_spread_tag/1 => \
+ move a=am_true x=0
+move Any x==0 | call_ext_last Arity u$func:erlang:dt_spread_tag/1 D => \
+ move a=am_true x=0 | deallocate D | return
+move Any x==0 | call_ext_only Arity u$func:erlang:dt_spread_tag/1 => \
+ move a=am_true x=0 | return
call_ext Arity u$func:erlang:dt_spread_tag/1 => \
- move a=am_true r
+ move a=am_true x=0
call_ext_last Arity u$func:erlang:dt_spread_tag/1 D => \
- move a=am_true r | deallocate D | return
+ move a=am_true x=0 | deallocate D | return
call_ext_only Arity u$func:erlang:dt_spread_tag/1 => \
- move a=am_true r | return
-
-move Any r | call_ext Arity u$func:erlang:dt_restore_tag/1 => \
- move a=am_true r
-move Any r | call_ext_last Arity u$func:erlang:dt_restore_tag/1 D => \
- move a=am_true r | deallocate D | return
-move Any r | call_ext_only Arity u$func:erlang:dt_restore_tag/1 => \
- move a=am_true r | return
+ move a=am_true x=0 | return
+
+move Any x==0 | call_ext Arity u$func:erlang:dt_restore_tag/1 => \
+ move a=am_true x=0
+move Any x==0 | call_ext_last Arity u$func:erlang:dt_restore_tag/1 D => \
+ move a=am_true x=0 | deallocate D | return
+move Any x==0 | call_ext_only Arity u$func:erlang:dt_restore_tag/1 => \
+ move a=am_true x=0 | return
call_ext Arity u$func:erlang:dt_restore_tag/1 => \
- move a=am_true r
+ move a=am_true x=0
call_ext_last Arity u$func:erlang:dt_restore_tag/1 D => \
- move a=am_true r | deallocate D | return
+ move a=am_true x=0 | deallocate D | return
call_ext_only Arity u$func:erlang:dt_restore_tag/1 => \
- move a=am_true r | return
-
-move Any r | call_ext Arity u$func:erlang:dt_prepend_vm_tag_data/1 => \
- move Any r
-move Any r | call_ext_last Arity u$func:erlang:dt_prepend_vm_tag_data/1 D => \
- move Any r | deallocate D | return
-move Any r | call_ext_only Arity u$func:erlang:dt_prepend_vm_tag_data/1 => \
- move Any r | return
+ move a=am_true x=0 | return
+
+move Any x==0 | call_ext Arity u$func:erlang:dt_prepend_vm_tag_data/1 => \
+ move Any x=0
+move Any x==0 | call_ext_last Arity u$func:erlang:dt_prepend_vm_tag_data/1 D => \
+ move Any x=0 | deallocate D | return
+move Any x==0 | call_ext_only Arity u$func:erlang:dt_prepend_vm_tag_data/1 => \
+ move Any x=0 | return
call_ext Arity u$func:erlang:dt_prepend_vm_tag_data/1 =>
call_ext_last Arity u$func:erlang:dt_prepend_vm_tag_data/1 D => \
deallocate D | return
call_ext_only Arity u$func:erlang:dt_prepend_vm_tag_data/1 => \
return
-move Any r | call_ext Arity u$func:erlang:dt_append_vm_tag_data/1 => \
- move Any r
-move Any r | call_ext_last Arity u$func:erlang:dt_append_vm_tag_data/1 D => \
- move Any r | deallocate D | return
-move Any r | call_ext_only Arity u$func:erlang:dt_append_vm_tag_data/1 => \
- move Any r | return
+move Any x==0 | call_ext Arity u$func:erlang:dt_append_vm_tag_data/1 => \
+ move Any x=0
+move Any x==0 | call_ext_last Arity u$func:erlang:dt_append_vm_tag_data/1 D => \
+ move Any x=0 | deallocate D | return
+move Any x==0 | call_ext_only Arity u$func:erlang:dt_append_vm_tag_data/1 => \
+ move Any x=0 | return
call_ext Arity u$func:erlang:dt_append_vm_tag_data/1 =>
call_ext_last Arity u$func:erlang:dt_append_vm_tag_data/1 D => \
deallocate D | return
@@ -1066,7 +984,7 @@ call_ext_only Arity u$func:erlang:dt_append_vm_tag_data/1 => \
return
# Can happen after one of the transformations above.
-move Discarded r | move Something r => move Something r
+move Discarded x==0 | move Something x==0 => move Something x=0
%endif
@@ -1091,9 +1009,9 @@ call_ext_only Ar=u Bif=u$is_bif => \
# with call instructions.
#
-move S=c r | call_ext Ar=u Func=u$is_not_bif => i_move_call_ext S r Func
-move S=c r | call_ext_last Ar=u Func=u$is_not_bif D => i_move_call_ext_last Func D S r
-move S=c r | call_ext_only Ar=u Func=u$is_not_bif => i_move_call_ext_only Func S r
+move S=c x==0 | call_ext Ar=u Func=u$is_not_bif => i_move_call_ext S Func
+move S=c x==0 | call_ext_last Ar=u Func=u$is_not_bif D => i_move_call_ext_last Func D S
+move S=c x==0 | call_ext_only Ar=u Func=u$is_not_bif => i_move_call_ext_only Func S
call_ext Ar Func => i_call_ext Func
call_ext_last Ar Func D => i_call_ext_last Func D
@@ -1120,78 +1038,71 @@ bif0 u$bif:erlang:node/0 Dst=d => node Dst
bif1 Fail Bif=u$bif:erlang:get/1 Src=s Dst=d => i_get Src Dst
-bif2 Jump=j u$bif:erlang:element/2 S1=s S2=rxy Dst=d => gen_element(Jump, S1, S2, Dst)
+bif2 Jump=j u$bif:erlang:element/2 S1=s S2=xy Dst=d => gen_element(Jump, S1, S2, Dst)
-bif1 Fail Bif Literal=q Dst => move Literal x | bif1 Fail Bif x Dst
bif1 p Bif S1 Dst => bif1_body Bif S1 Dst
-bif1_body Bif Literal=q Dst => move Literal x | bif1_body Bif x Dst
-
-bif2 p Bif S1 S2 Dst => i_fetch S1 S2 | i_bif2_body Bif Dst
-bif2 Fail Bif S1 S2 Dst => i_fetch S1 S2 | i_bif2 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
i_get s d
%macro: self Self
-self r
self x
self y
%macro: node Node
-node r
node x
%cold
node y
%hot
-i_fast_element r j I d
-i_fast_element x j I d
-i_fast_element y j I d
+i_fast_element j x I d
+i_fast_element j y I d
-i_element r j s d
-i_element x j s d
-i_element y j s d
+i_element j x s d
+i_element j y s d
bif1 f b s d
bif1_body b s d
-i_bif2 f b d
-i_bif2_body b d
+i_bif2 f b s s d
+i_bif2_body b s s d
#
# Internal calls.
#
-move S=c r | call Ar P=f => i_move_call S r P
-move S=s r | call Ar P=f => move_call S r P
+move S=c x==0 | call Ar P=f => i_move_call S P
+move S=s x==0 | call Ar P=f => move_call S P
-i_move_call c r f
+i_move_call c f
%macro:move_call MoveCall -arg_f -size -nonext
-move_call/3
+move_call/2
-move_call x r f
-move_call y r f
+move_call x f
+move_call y f
-move S=c r | call_last Ar P=f D => i_move_call_last P D S r
-move S r | call_last Ar P=f D => move_call_last S r P D
+move S=c x==0 | call_last Ar P=f D => i_move_call_last P D S
+move S x==0 | call_last Ar P=f D => move_call_last S P D
-i_move_call_last f P c r
+i_move_call_last f P c
%macro:move_call_last MoveCallLast -arg_f -nonext -pack
-move_call_last/4
-move_call_last x r f Q
-move_call_last y r f Q
+move_call_last/3
+move_call_last x f Q
+move_call_last y f Q
-move S=c r | call_only Ar P=f => i_move_call_only P S r
-move S=x r | call_only Ar P=f => move_call_only S r P
+move S=c x==0 | call_only Ar P=f => i_move_call_only P S
+move S=x x==0 | call_only Ar P=f => move_call_only S P
-i_move_call_only f c r
+i_move_call_only f c
%macro:move_call_only MoveCallOnly -arg_f -nonext
-move_call_only/3
+move_call_only/2
-move_call_only x r f
+move_call_only x f
call Ar Func => i_call Func
call_last Ar Func D => i_call_last Func D
@@ -1205,9 +1116,9 @@ i_call_ext e
i_call_ext_last e P
i_call_ext_only e
-i_move_call_ext c r e
-i_move_call_ext_last e P c r
-i_move_call_ext_only e c r
+i_move_call_ext c e
+i_move_call_ext_last e P c
+i_move_call_ext_only e c
# Fun calls.
@@ -1227,7 +1138,6 @@ i_make_fun I t
%macro: is_function IsFunction -fail_action
is_function f x
is_function f y
-is_function f r
is_function Fail=f c => jump Fail
func_info M F A => i_func_info u M F A
@@ -1239,131 +1149,105 @@ func_info M F A => i_func_info u M F A
%cold
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 r f I I d
i_bs_start_match2 x f I I d
i_bs_start_match2 y f I I d
bs_save2 Reg Index => gen_bs_save(Reg, Index)
-i_bs_save2 r I
i_bs_save2 x I
bs_restore2 Reg Index => gen_bs_restore(Reg, Index)
-i_bs_restore2 r I
i_bs_restore2 x I
# Matching integers
bs_match_string Fail Ms Bits Val => i_bs_match_string Ms Fail Bits Val
-i_bs_match_string r f I I
i_bs_match_string x f I I
# Fetching integers from binaries.
-bs_get_integer2 Fail=f Ms=rx Live=u Sz=sq Unit=u Flags=u Dst=d => \
+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 r I f I d
i_bs_get_integer_small_imm x I f I d
-i_bs_get_integer_imm r I I f I d
i_bs_get_integer_imm x I I f I d
-i_bs_get_integer f I I d
-i_bs_get_integer_8 r f d
+i_bs_get_integer f I I s s d
i_bs_get_integer_8 x f d
-i_bs_get_integer_16 r f d
i_bs_get_integer_16 x f d
-i_bs_get_integer_32 r f I d
i_bs_get_integer_32 x f I d
# Fetching binaries from binaries.
-bs_get_binary2 Fail=f Ms=rx Live=u Sz=sq Unit=u Flags=u Dst=d => \
+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)
%macro: i_bs_get_binary_imm2 BsGetBinaryImm_2 -fail_action -gen_dest
%macro: i_bs_get_binary2 BsGetBinary_2 -fail_action -gen_dest
%macro: i_bs_get_binary_all2 BsGetBinaryAll_2 -fail_action -gen_dest
-i_bs_get_binary_imm2 f r I I I d
i_bs_get_binary_imm2 f x I I I d
-i_bs_get_binary2 f r I s I d
i_bs_get_binary2 f x I s I d
-i_bs_get_binary_all2 f r I I d
i_bs_get_binary_all2 f x I I d
-i_bs_get_binary_all_reuse r f I
i_bs_get_binary_all_reuse x f I
# Fetching float from binaries.
-bs_get_float2 Fail=f Ms=rx Live=u Sz=s Unit=u Flags=u Dst=d => \
+bs_get_float2 Fail=f Ms=x 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=rx Live=u Sz=q Unit=u Flags=u Dst=d => jump Fail
+bs_get_float2 Fail=f Ms=x Live=u Sz=q Unit=u Flags=u Dst=d => jump Fail
%macro: i_bs_get_float2 BsGetFloat2 -fail_action -gen_dest
-i_bs_get_float2 f r I s I d
i_bs_get_float2 f x I s I d
# Miscellanous
-bs_skip_bits2 Fail=f Ms=rx Sz=s Unit=u Flags=u => \
- gen_skip_bits2(Fail, Ms, Sz, Unit, Flags)
-bs_skip_bits2 Fail=f Ms=rx Sz=q Unit=u Flags=u => \
+bs_skip_bits2 Fail=f Ms=x Sz=sq Unit=u Flags=u => \
gen_skip_bits2(Fail, Ms, Sz, Unit, Flags)
%macro: i_bs_skip_bits_imm2 BsSkipBitsImm2 -fail_action
-i_bs_skip_bits_imm2 f r I
i_bs_skip_bits_imm2 f x I
%macro: i_bs_skip_bits2 BsSkipBits2 -fail_action
-i_bs_skip_bits2 f r x I
-i_bs_skip_bits2 f r y I
i_bs_skip_bits2 f x x I
-i_bs_skip_bits2 f x r I
i_bs_skip_bits2 f x y I
%macro: i_bs_skip_bits_all2 BsSkipBitsAll2 -fail_action
-i_bs_skip_bits_all2 f r I
i_bs_skip_bits_all2 f x I
-bs_test_tail2 Fail=f Ms=rx Bits=u==0 => bs_test_zero_tail2 Fail Ms
-bs_test_tail2 Fail=f Ms=rx Bits=u => bs_test_tail_imm2 Fail Ms Bits
-bs_test_zero_tail2 f r
+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 r I
bs_test_tail_imm2 f x I
bs_test_unit F Ms Unit=u==8 => bs_test_unit8 F Ms
-bs_test_unit f r I
bs_test_unit f x I
-bs_test_unit8 f r
bs_test_unit8 f x
-bs_context_to_binary r
+# An y register operand for bs_context_to_binary is rare,
+# but can happen because of inlining.
+
+bs_context_to_binary Y=y => move Y x | bs_context_to_binary x
+
bs_context_to_binary x
-bs_context_to_binary y
#
# Utf8/utf16/utf32 support. (R12B-5)
#
-bs_get_utf8 Fail=f Ms=rx u u Dst=d => i_bs_get_utf8 Ms Fail Dst
-i_bs_get_utf8 r f d
+bs_get_utf8 Fail=f Ms=x u u Dst=d => i_bs_get_utf8 Ms Fail Dst
i_bs_get_utf8 x f d
-bs_skip_utf8 Fail=f Ms=rx u u => i_bs_get_utf8 Ms Fail x
+bs_skip_utf8 Fail=f Ms=x u u => i_bs_get_utf8 Ms Fail x
-bs_get_utf16 Fail=f Ms=rx u Flags=u Dst=d => i_bs_get_utf16 Ms Fail Flags Dst
-bs_skip_utf16 Fail=f Ms=rx u Flags=u => i_bs_get_utf16 Ms Fail Flags 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 r f I d
i_bs_get_utf16 x f I d
-bs_get_utf32 Fail=f Ms=rx Live=u Flags=u Dst=d => \
+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 | \
- i_fetch Dst Ms | \
- i_bs_validate_unicode_retract Fail
-bs_skip_utf32 Fail=f Ms=rx Live=u Flags=u => \
+ i_bs_validate_unicode_retract Fail Dst Ms
+bs_skip_utf32 Fail=f Ms=x Live=u Flags=u => \
bs_get_integer2 Fail Ms Live i=32 u=1 Flags x | \
- i_fetch x Ms | \
- i_bs_validate_unicode_retract Fail
+ i_bs_validate_unicode_retract Fail x Ms
-i_bs_validate_unicode_retract j
+i_bs_validate_unicode_retract j s s
%hot
#
@@ -1385,13 +1269,12 @@ bs_init2 Fail Sz=u Words Regs Flags Dst => \
bs_init2 Fail Sz Words=u==0 Regs Flags Dst => \
i_bs_init_fail Sz Fail Regs Dst
bs_init2 Fail Sz Words Regs Flags Dst => \
- i_fetch Sz r | i_bs_init_fail_heap Words Fail Regs Dst
+ i_bs_init_fail_heap Sz Words Fail Regs Dst
-i_bs_init_fail r j I d
i_bs_init_fail x j I d
i_bs_init_fail y j I d
-i_bs_init_fail_heap I j I d
+i_bs_init_fail_heap s I j I d
i_bs_init I I d
i_bs_init_heap_bin I I d
@@ -1408,39 +1291,35 @@ bs_init_bits Fail Sz=u Words Regs Flags Dst => i_bs_init_bits_heap Sz Words Reg
bs_init_bits Fail Sz Words=u==0 Regs Flags Dst => \
i_bs_init_bits_fail Sz Fail Regs Dst
bs_init_bits Fail Sz Words Regs Flags Dst => \
- i_fetch Sz r | i_bs_init_bits_fail_heap Words Fail Regs Dst
+ i_bs_init_bits_fail_heap Sz Words Fail Regs Dst
-i_bs_init_bits_fail r j I d
i_bs_init_bits_fail x j I d
i_bs_init_bits_fail y j I d
-i_bs_init_bits_fail_heap I j I d
+i_bs_init_bits_fail_heap s I j I d
i_bs_init_bits I I d
i_bs_init_bits_heap I I I d
bs_add Fail S1=i==0 S2 Unit=u==1 D => move S2 D
-bs_add Fail S1 S2 Unit D => i_fetch S1 S2 | i_bs_add Fail Unit D
-i_bs_add j I d
+bs_add j s s I d
bs_append Fail Size Extra Live Unit Bin Flags Dst => \
- i_fetch Size Bin | i_bs_append Fail Extra Live Unit Dst
+ move Bin x | i_bs_append Fail Extra Live Unit Size Dst
bs_private_append Fail Size Unit Bin Flags Dst => \
- i_fetch Size Bin | i_bs_private_append Fail Unit Dst
+ i_bs_private_append Fail Unit Size Bin Dst
bs_init_writable
-i_bs_append j I I I d
-i_bs_private_append j I d
+i_bs_append j I I I s d
+i_bs_private_append j I s s d
#
# Storing integers into binaries.
#
-bs_put_integer Fail=j Sz=s Unit=u Flags=u Literal=q => \
- move Literal x | bs_put_integer Fail Sz Unit Flags x
bs_put_integer Fail=j Sz=sq Unit=u Flags=u Src=s => \
gen_put_integer(Fail, Sz, Unit, Flags, Src)
@@ -1454,32 +1333,22 @@ i_new_bs_put_integer_imm j I I s
# Utf8/utf16/utf32 support. (R12B-5)
#
-bs_utf8_size Fail Literal=q Dst=d => \
- move Literal x | bs_utf8_size Fail x Dst
bs_utf8_size j Src=s Dst=d => i_bs_utf8_size Src Dst
i_bs_utf8_size s d
-bs_utf16_size Fail Literal=q Dst=d => \
- move Literal x | bs_utf16_size Fail x Dst
bs_utf16_size j Src=s Dst=d => i_bs_utf16_size Src Dst
i_bs_utf16_size s d
-bs_put_utf8 Fail=j Flags=u Literal=q => \
- move Literal x | bs_put_utf8 Fail Flags x
bs_put_utf8 Fail u Src=s => i_bs_put_utf8 Fail Src
i_bs_put_utf8 j s
-bs_put_utf16 Fail=j Flags=u Literal=q => \
- move Literal x | bs_put_utf16 Fail Flags x
bs_put_utf16 Fail Flags=u Src=s => i_bs_put_utf16 Fail Flags Src
i_bs_put_utf16 j I s
-bs_put_utf32 Fail=j Flags=u Literal=q => \
- move Literal x | bs_put_utf32 Fail Flags x
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
@@ -1490,9 +1359,6 @@ i_bs_validate_unicode j s
#
bs_put_float Fail Sz=q Unit Flags Val => badarg Fail
-bs_put_float Fail=j Sz Unit=u Flags=u Literal=q => \
- move Literal x | bs_put_float Fail Sz Unit Flags x
-
bs_put_float Fail=j Sz=s Unit=u Flags=u Src=s => \
gen_put_float(Fail, Sz, Unit, Flags, Src)
@@ -1506,8 +1372,6 @@ i_new_bs_put_float_imm j I I s
# Storing binaries into binaries.
#
-bs_put_binary Fail Sz Unit Flags Literal=q => \
- move Literal x | bs_put_binary Fail Sz Unit Flags x
bs_put_binary Fail=j Sz=s Unit=u Flags=u Src=s => \
gen_put_binary(Fail, Sz, Unit, Flags, Src)
@@ -1600,7 +1464,6 @@ is_map Fail Lit=q | literal_is_map(Lit) =>
is_map Fail cq => jump Fail
%macro: is_map IsMap -fail_action
-is_map f r
is_map f x
is_map f y
@@ -1611,101 +1474,120 @@ has_map_fields Fail Src Size Rest=* => \
## Transform get_map_elements(s) #{ K1 := V1, K2 := V2 }
-get_map_elements Fail Src=rxy Size=u==2 Rest=* => \
+get_map_elements Fail Src=xy Size=u==2 Rest=* => \
gen_get_map_element(Fail, Src, Size, 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_element Fail Src=rxy Key=ry Dst => \
+i_get_map_element Fail Src=xy Key=y Dst => \
move Key x | i_get_map_element Fail Src x Dst
%macro: i_get_map_element_hash GetMapElementHash -fail_action
-i_get_map_element_hash f r c I r
-i_get_map_element_hash f x c I r
-i_get_map_element_hash f y c I r
-i_get_map_element_hash f r c I x
i_get_map_element_hash f x c I x
i_get_map_element_hash f y c I x
-i_get_map_element_hash f r c I y
i_get_map_element_hash f x c I y
i_get_map_element_hash f y c I y
%macro: i_get_map_element GetMapElement -fail_action
-i_get_map_element f r x r
-i_get_map_element f x x r
-i_get_map_element f y x r
-i_get_map_element f r x x
i_get_map_element f x x x
i_get_map_element f y x x
-i_get_map_element f r x y
i_get_map_element f x x y
i_get_map_element f y x y
#
+# Convert the plus operations to a generic plus instruction.
+#
+gen_plus/5
+gen_minus/5
+
+gc_bif1 Fail Live u$bif:erlang:splus/1 Src Dst => \
+ gen_plus Fail Live Src i Dst
+gc_bif2 Fail Live u$bif:erlang:splus/2 S1 S2 Dst => \
+ gen_plus Fail Live S1 S2 Dst
+
+gc_bif1 Fail Live u$bif:erlang:sminus/1 Src Dst => \
+ gen_minus Fail Live i Src Dst
+gc_bif2 Fail Live u$bif:erlang:sminus/2 S1 S2 Dst => \
+ gen_minus Fail Live S1 S2 Dst
+
+#
# Optimize addition and subtraction of small literals using
# the i_increment/4 instruction (in bodies, not in guards).
#
-gc_bif2 p Live u$bif:erlang:splus/2 Int=i Reg=d Dst => \
+gen_plus p Live Int=i Reg=d Dst => \
gen_increment(Reg, Int, Live, Dst)
-gc_bif2 p Live u$bif:erlang:splus/2 Reg=d Int=i Dst => \
+gen_plus p Live Reg=d Int=i Dst => \
gen_increment(Reg, Int, Live, Dst)
-gc_bif2 p Live u$bif:erlang:sminus/2 Reg=d Int=i Dst | \
- negation_is_small(Int) => \
+gen_minus p Live Reg=d Int=i Dst | negation_is_small(Int) => \
gen_increment_from_minus(Reg, Int, Live, Dst)
#
# GCing arithmetic instructions.
#
-gc_bif2 Fail I u$bif:erlang:splus/2 S1=x S2=x Dst=d => i_plus Fail I S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:splus/2 S1 S2 Dst=d => i_fetch S1 S2 | i_plus Fail I Dst
-gc_bif2 Fail I u$bif:erlang:sminus/2 S1=x S2=x Dst=d => i_minus Fail I S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:sminus/2 S1 S2 Dst=d => i_fetch S1 S2 | i_minus Fail I Dst
-gc_bif2 Fail I u$bif:erlang:stimes/2 S1 S2 Dst=d => i_fetch S1 S2 | i_times Fail I Dst
-gc_bif2 Fail I u$bif:erlang:div/2 S1 S2 Dst=d => i_fetch S1 S2 | i_m_div Fail I Dst
+gen_plus Fail Live Y=y X=x Dst => i_plus Fail Live X Y Dst
+gen_plus Fail Live S1 S2 Dst => i_plus Fail Live S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:intdiv/2 S1 S2 Dst=d => i_fetch S1 S2 | i_int_div Fail I Dst
-gc_bif2 Fail I u$bif:erlang:rem/2 S1=x S2=x Dst=d => i_rem Fail I S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:rem/2 S1 S2 Dst=d => i_fetch S1 S2 | i_rem Fail I Dst
+gen_minus Fail Live S1 S2 Dst => i_minus Fail Live S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:bsl/2 S1 S2 Dst=d => i_fetch S1 S2 | i_bsl Fail I Dst
-gc_bif2 Fail I u$bif:erlang:bsr/2 S1 S2 Dst=d => i_fetch S1 S2 | i_bsr Fail I Dst
+gc_bif2 Fail Live u$bif:erlang:stimes/2 S1 S2 Dst => \
+ i_times Fail Live S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:band/2 S1=x S2=c Dst=d => i_band Fail I S1 S2 Dst
-gc_bif2 Fail I u$bif:erlang:band/2 S1 S2 Dst=d => i_fetch S1 S2 | i_band Fail I Dst
-gc_bif2 Fail I u$bif:erlang:bor/2 S1 S2 Dst=d => i_fetch S1 S2 | i_bor Fail I Dst
-gc_bif2 Fail I u$bif:erlang:bxor/2 S1 S2 Dst=d => i_fetch S1 S2 | i_bxor Fail I Dst
+gc_bif2 Fail Live u$bif:erlang:div/2 S1 S2 Dst => \
+ i_m_div Fail Live S1 S2 Dst
+gc_bif2 Fail Live u$bif:erlang:intdiv/2 S1 S2 Dst => \
+ i_int_div Fail Live S1 S2 Dst
-gc_bif1 Fail I u$bif:erlang:bnot/1 Src Dst=d => i_int_bnot Fail Src I Dst
+gc_bif2 Fail Live u$bif:erlang:rem/2 S1 S2 Dst => \
+ i_rem Fail Live S1 S2 Dst
+
+gc_bif2 Fail Live u$bif:erlang:bsl/2 S1 S2 Dst => \
+ i_bsl Fail Live S1 S2 Dst
+gc_bif2 Fail Live u$bif:erlang:bsr/2 S1 S2 Dst => \
+ i_bsr Fail Live S1 S2 Dst
+
+gc_bif2 Fail Live u$bif:erlang:band/2 S1 S2 Dst => \
+ i_band Fail Live S1 S2 Dst
+
+gc_bif2 Fail Live u$bif:erlang:bor/2 S1 S2 Dst => \
+ i_bor Fail Live S1 S2 Dst
-gc_bif1 Fail I u$bif:erlang:sminus/1 Src Dst=d => i_fetch i Src | i_minus Fail I Dst
-gc_bif1 Fail I u$bif:erlang:splus/1 Src Dst=d => i_fetch i Src | i_plus Fail I Dst
+gc_bif2 Fail Live u$bif:erlang:bxor/2 S1 S2 Dst => \
+ i_bxor Fail Live S1 S2 Dst
+
+gc_bif1 Fail I u$bif:erlang:bnot/1 Src Dst=d => i_int_bnot Fail Src I Dst
i_increment r I I d
i_increment x I I d
i_increment y I I d
i_plus j I x x d
-i_plus j I d
+i_plus j I x y d
+i_plus j I s s d
+
i_minus j I x x d
-i_minus j I d
-i_times j I d
-i_m_div j I d
-i_int_div j I d
+i_minus j I s s d
+
+i_times j I s s d
+
+i_m_div j I s s d
+i_int_div j I s s d
+
i_rem j I x x d
-i_rem j I d
+i_rem j I s s d
-i_bsl j I d
-i_bsr j I d
+i_bsl j I s s d
+i_bsr j I s s d
i_band j I x c d
-i_band j I d
-i_bor j I d
-i_bxor j I d
+i_band j I s s d
+
+i_bor j I s s d
+i_bxor j I s s d
i_int_bnot j s I d
@@ -1731,21 +1613,18 @@ 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 Fail Bif V=q Live D => move V x | i_gc_bif1 Fail Bif x Live D
-
i_gc_bif1 j I s I d
-ii_gc_bif2/6
-
-ii_gc_bif2 Fail Bif S1 S2 Live D => i_fetch S1 S2 | i_gc_bif2 Fail Bif Live D
-
-i_gc_bif2 j I I d
+i_gc_bif2 j I I s s d
ii_gc_bif3/7
-ii_gc_bif3 Fail Bif S1 S2 S3 Live D => move S1 x | i_fetch S2 S3 | i_gc_bif3 Fail Bif x Live D
+# 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
-i_gc_bif3 j I s I d
+i_gc_bif3 j I I 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 e90ed94187..f805e7cc64 100755
--- a/erts/emulator/utils/beam_makeops
+++ b/erts/emulator/utils/beam_makeops
@@ -48,12 +48,17 @@ $pack_shift[4] = ['0', 'BEAM_LOOSE_SHIFT', # Only for 64 bit wordsize
'(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[3] = ['BEAM_TIGHT_MASK', 'BEAM_TIGHT_MASK', $WHOLE_WORD];
$pack_mask[4] = ['BEAM_LOOSE_MASK', # Only for 64 bit wordsize
'BEAM_LOOSE_MASK',
'BEAM_LOOSE_MASK',
$WHOLE_WORD];
+# Mapping from packagable arguments to number of packed arguments per
+# word. Initialized after the wordsize is known.
+
+my @args_per_word;
+
# There are two types of instructions: generic and specific.
# The generic instructions are those generated by the Beam compiler.
# Corresponding to each generic instruction, there is generally a
@@ -176,11 +181,12 @@ sub define_type_bit {
}
# Composed types.
- define_type_bit('d', $type_bit{'x'} | $type_bit{'y'} | $type_bit{'r'});
+ define_type_bit('d', $type_bit{'x'} | $type_bit{'y'});
define_type_bit('c', $type_bit{'i'} | $type_bit{'a'} |
$type_bit{'n'} | $type_bit{'q'});
define_type_bit('s', $type_bit{'d'} | $type_bit{'i'} |
- $type_bit{'a'} | $type_bit{'n'});
+ $type_bit{'a'} | $type_bit{'n'} |
+ $type_bit{'q'});
define_type_bit('j', $type_bit{'f'} | $type_bit{'p'});
# Aliases (for matching purposes).
@@ -236,6 +242,20 @@ while (@ARGV && $ARGV[0] =~ /^-(.*)/) {
}
#
+# Initialize number of arguments per packed word.
+#
+
+$args_per_word[2] = 2;
+$args_per_word[3] = 3;
+$args_per_word[4] = 2;
+$args_per_word[5] = 3;
+$args_per_word[6] = 3;
+
+if ($wordsize == 64) {
+ $args_per_word[4] = 4;
+}
+
+#
# Parse the input files.
#
@@ -527,12 +547,16 @@ sub emulator_output {
my(@bits) = (0) x ($max_spec_operands/2);
my($i);
+ my $involves_r = 0;
for ($i = 0; $i < $max_spec_operands && defined $args[$i]; $i++) {
my $t = $args[$i];
- if (defined $type_bit{$t}) {
- my $shift = $max_genop_types * ($i % 2);
- $bits[int($i/2)] |= $type_bit{$t} << $shift;
+ my $bits = $type_bit{$t};
+ if ($t eq 'r') {
+ $bits |= $type_bit{'x'};
+ $involves_r |= 1 << $i;
}
+ my $shift = $max_genop_types * ($i % 2);
+ $bits[int($i/2)] |= $bits << $shift;
}
printf "/* %3d */ ", $spec_opnum;
@@ -544,7 +568,7 @@ sub emulator_output {
$sep = ",";
}
$init .= "}";
- &init_item($print_name, $init, $size, $pack, $sign, 0);
+ init_item($print_name, $init, $involves_r, $size, $pack, $sign, 0);
$op_to_name[$spec_opnum] = $instr;
$spec_opnum++;
}
@@ -601,11 +625,12 @@ sub emulator_output {
print "#define MAX_GENERIC_OPCODE ", $num_file_opcodes-1, "\n";
print "#define NUM_GENERIC_OPS ", scalar(@gen_opname), "\n";
print "#define NUM_SPECIFIC_OPS ", scalar(@op_to_name), "\n";
+ print "#define SCRATCH_X_REG 1023\n";
print "\n";
print "#ifdef ARCH_64\n";
print "# define BEAM_WIDE_MASK 0xFFFFUL\n";
- print "# define BEAM_LOOSE_MASK 0x1FFFUL\n";
- print "# define BEAM_TIGHT_MASK 0x1FF8UL\n";
+ print "# define BEAM_LOOSE_MASK 0xFFFFUL\n";
+ print "# define BEAM_TIGHT_MASK 0xFFFFUL\n";
print "# define BEAM_WIDE_SHIFT 32\n";
print "# define BEAM_LOOSE_SHIFT 16\n";
print "# define BEAM_TIGHT_SHIFT 16\n";
@@ -730,7 +755,7 @@ sub init_item {
print "${sep}NULL";
} elsif (/^\{/) {
print "$sep$_";
- } elsif (/^-?\d/) {
+ } elsif (/^-?\d+$/) {
print "$sep$_";
} else {
print "$sep\"$_\"";
@@ -892,6 +917,7 @@ sub basic_generator {
my($var_decls) = '';
my($gen_dest_arg) = 'StoreSimpleDest';
my($i);
+ my($no_prefetch) = 0;
# The following argument types should be included as macro arguments.
my(%incl_arg) = ('c' => 1,
@@ -990,6 +1016,7 @@ sub basic_generator {
#
$flags =~ /-fail_action/ and do {
+ $no_prefetch = 1;
if (!defined $fail_type) {
my($i);
for ($i = 0; $i < @f_types; $i++) {
@@ -1036,6 +1063,12 @@ sub basic_generator {
"I += $size + 1;",
"goto $goto;",
"}");
+ } elsif ($no_prefetch) {
+ $code = join("\n",
+ "{ $var_decls",
+ $macro_code,
+ "Next($size);",
+ "}", "");
} else {
$code = join("\n",
"{ $var_decls",
@@ -1057,6 +1090,7 @@ sub do_pack {
my($packable_args) = 0;
my @is_packable; # Packability (boolean) for each argument.
my $wide_packing = 0;
+ my(@orig_args) = @args;
#
# Count the number of packable arguments. If we encounter any 's' or 'd'
@@ -1077,6 +1111,18 @@ sub do_pack {
}
} elsif ($arg =~ /^[sd]/) {
return ('', '', @args);
+ } elsif ($arg =~ /^[scq]/ and $packable_args > 0) {
+ # When packing, this operand will be picked up from the
+ # code array, put onto the packing stack, and later put
+ # back into a different location in the code. The problem
+ # is that if this operand is a literal, the original
+ # location in the code would have been remembered in a
+ # literal patch. For packing to work, we would have to
+ # adjust the position in the literal patch. For the
+ # moment, adding additional instructions to the packing
+ # engine to handle this does not seem worth it, so we will
+ # just turn off packing.
+ return ('', '', @args);
} else {
push @is_packable, 0;
}
@@ -1086,7 +1132,6 @@ sub do_pack {
# Get out of here if too few or too many arguments.
#
return ('', '', @args) if $packable_args < 2;
- &error("too many packable arguments") if $packable_args > 4;
my($size) = 0;
my($pack_prefix) = '';
@@ -1094,14 +1139,8 @@ sub do_pack {
# beginning).
my($up) = ''; # Pack commands (storing back while
# moving forward).
- my $args_per_word;
- if ($packable_args < 4 or $wordsize == 64) {
- $args_per_word = $packable_args;
- } else {
- # 4 packable argument, 32 bit wordsize. Need 2 words.
- $args_per_word = 2;
- }
+ my $args_per_word = $args_per_word[$packable_args];
my @shift;
my @mask;
my @instr;
@@ -1295,6 +1334,8 @@ sub tr_parse_op {
foreach (split('', $type)) {
&error("bad type in $op")
unless defined $type_bit{$_} or $type eq '*';
+ $_ eq 'r' and
+ error("$op: 'r' is not allowed in transformations")
}
}
@@ -1328,7 +1369,10 @@ sub tr_parse_op {
}
# Get an optional value. (In destination.)
+ $type_val = $type eq 'x' ? 1023 : 0;
if (/^=(.*)/) {
+ error("value not allowed in source: $op")
+ if $src;
$type_val = $1;
$_ = '';
}
@@ -1347,11 +1391,6 @@ sub tr_parse_op {
if $var && $type;
}
- # Test that source has no values.
- if ($src) {
- error("value not allowed in source: $op")
- if $type_val;
- }
($var,$type,$type_val,$cond,$cond_val);
}