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-rw-r--r--lib/hipe/rtl/hipe_rtl_arith.inc15
-rw-r--r--lib/hipe/rtl/hipe_rtl_arith_32.erl3
-rw-r--r--lib/hipe/rtl/hipe_rtl_binary.erl144
-rw-r--r--lib/hipe/rtl/hipe_rtl_binary_construct.erl196
-rw-r--r--lib/hipe/rtl/hipe_rtl_binary_match.erl121
-rw-r--r--lib/hipe/rtl/hipe_tagscheme.erl23
6 files changed, 240 insertions, 262 deletions
diff --git a/lib/hipe/rtl/hipe_rtl_arith.inc b/lib/hipe/rtl/hipe_rtl_arith.inc
index 1f455f47ed..1dff56b074 100644
--- a/lib/hipe/rtl/hipe_rtl_arith.inc
+++ b/lib/hipe/rtl/hipe_rtl_arith.inc
@@ -30,13 +30,13 @@
%% Returns a tuple
%% {Res, Sign, Zero, Overflow, Carry}
%% Res will be a number in the range
-%% MAX_SIGNED_INT >= Res >= MIN_SIGNED_INT
+%% MAX_UNSIGNED_INT >= Res >= 0
%% The other four values are flags that are either true or false
%%
eval_alu(Op, Arg1, Arg2)
- when Arg1 =< ?MAX_SIGNED_INT,
+ when Arg1 =< ?MAX_UNSIGNED_INT,
Arg1 >= ?MIN_SIGNED_INT,
- Arg2 =< ?MAX_SIGNED_INT,
+ Arg2 =< ?MAX_UNSIGNED_INT,
Arg2 >= ?MIN_SIGNED_INT ->
Sign1 = sign_bit(Arg1),
@@ -111,7 +111,7 @@ eval_alu(Op, Arg1, Arg2)
Res = N = Z = V = C = 0,
?EXIT({"unknown alu op", Op})
end,
- {two_comp_to_erl(Res), N, Z, V, C};
+ {Res, N, Z, V, C};
eval_alu(Op, Arg1, Arg2) ->
?EXIT({argument_overflow,Op,Arg1,Arg2}).
@@ -162,16 +162,9 @@ eval_cond(Cond, Arg1, Arg2) ->
sign_bit(Val) ->
((Val bsr ?SIGN_BIT) band 1) =:= 1.
-two_comp_to_erl(V) ->
- if V > ?MAX_SIGNED_INT ->
- - ((?MAX_UNSIGNED_INT + 1) - V);
- true -> V
- end.
-
shiftmask(Arg) ->
Setbits = ?BITS - Arg,
(1 bsl Setbits) - 1.
zero(Val) ->
Val =:= 0.
-
diff --git a/lib/hipe/rtl/hipe_rtl_arith_32.erl b/lib/hipe/rtl/hipe_rtl_arith_32.erl
index 572556be1c..d790a8b981 100644
--- a/lib/hipe/rtl/hipe_rtl_arith_32.erl
+++ b/lib/hipe/rtl/hipe_rtl_arith_32.erl
@@ -24,7 +24,8 @@
%% Filename : hipe_rtl_arith_32.erl
%% Module : hipe_rtl_arith_32
%% Purpose : To implement 32-bit RTL-arithmetic
-%% Notes : The arithmetic works on 32-bit signed integers.
+%% Notes : The arithmetic works on 32-bit signed and unsigned
+%% integers.
%% The implementation is taken from the implementation
%% of arithmetic on SPARC.
%% XXX: This code is seldom used, and hence also
diff --git a/lib/hipe/rtl/hipe_rtl_binary.erl b/lib/hipe/rtl/hipe_rtl_binary.erl
index b549073050..9cbab08ee2 100644
--- a/lib/hipe/rtl/hipe_rtl_binary.erl
+++ b/lib/hipe/rtl/hipe_rtl_binary.erl
@@ -1,3 +1,4 @@
+%% -*- erlang-indent-level: 2 -*-
%%%
%%% %CopyrightBegin%
%%%
@@ -28,11 +29,20 @@
-export([gen_rtl/7]).
+-export([floorlog2/1, get_word_integer/4, make_size/3, make_size/4]).
+
+%%--------------------------------------------------------------------
+
+-define(BYTE_SHIFT, 3). %% Turn bits into bytes or vice versa
+-define(BYTE_SIZE, 8).
+
+%%--------------------------------------------------------------------
+
gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SysLimName, ConstTab) ->
case type_of_operation(BsOP) of
match ->
{hipe_rtl_binary_match:gen_rtl(
- BsOP, Dst, Args, TrueLblName, FalseLblName),ConstTab};
+ BsOP, Dst, Args, TrueLblName, FalseLblName),ConstTab};
construct ->
hipe_rtl_binary_construct:gen_rtl(
BsOP, Dst, Args, TrueLblName, FalseLblName, SysLimName, ConstTab)
@@ -62,7 +72,7 @@ type_of_operation({bs_init,_,_}) -> construct;
type_of_operation({bs_init_bits,_}) -> construct;
type_of_operation({bs_init_bits,_,_}) -> construct;
type_of_operation({bs_put_binary,_,_}) -> construct;
-type_of_operation({bs_put_binary_all,_}) -> construct;
+type_of_operation({bs_put_binary_all,_,_}) -> construct;
type_of_operation({bs_put_float,_,_,_}) -> construct;
type_of_operation({bs_put_integer,_,_,_}) -> construct;
type_of_operation({bs_put_string,_,_}) -> construct;
@@ -79,3 +89,133 @@ type_of_operation(bs_final) -> construct;
type_of_operation({bs_append,_,_,_,_}) -> construct;
type_of_operation({bs_private_append,_,_}) -> construct;
type_of_operation(bs_init_writable) -> construct.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%%
+%% Small utility functions:
+%%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+create_lbls(X) when X > 0 ->
+ [hipe_rtl:mk_new_label()|create_lbls(X-1)];
+create_lbls(0) ->
+ [].
+
+%%------------------------------------------------------------------------------
+%% Utilities used by both hipe_rtl_binary_construct and hipe_rtl_binary_match
+%%------------------------------------------------------------------------------
+
+get_word_integer(Var, Register, SystemLimitLblName, FalseLblName) ->
+ [EndLbl] = create_lbls(1),
+ EndName = hipe_rtl:label_name(EndLbl),
+ get_word_integer(Var, Register,SystemLimitLblName, FalseLblName, EndName, EndName,
+ [EndLbl]).
+
+get_word_integer(Var, Register, SystemLimitLblName, FalseLblName, TrueLblName,
+ BigLblName, Tail) ->
+ [FixnumLbl, NotFixnumLbl, BignumLbl, SuccessLbl] = create_lbls(4),
+ [hipe_tagscheme:test_fixnum(Var, hipe_rtl:label_name(FixnumLbl),
+ hipe_rtl:label_name(NotFixnumLbl), 0.99),
+ FixnumLbl,
+ hipe_tagscheme:fixnum_ge(Var, hipe_rtl:mk_imm(hipe_tagscheme:mk_fixnum(0)),
+ hipe_rtl:label_name(SuccessLbl), FalseLblName,
+ 0.99),
+ SuccessLbl,
+ hipe_tagscheme:untag_fixnum(Register, Var),
+ hipe_rtl:mk_goto(TrueLblName),
+ NotFixnumLbl,
+ hipe_tagscheme:test_pos_bignum_arity(Var, 1, hipe_rtl:label_name(BignumLbl),
+ FalseLblName, SystemLimitLblName, 0.99),
+ BignumLbl,
+ hipe_tagscheme:unsafe_get_one_word_pos_bignum(Register, Var),
+ hipe_rtl:mk_goto(BigLblName) | Tail].
+
+make_size(UnitImm, BitsVar, FailLblName) ->
+ make_size(UnitImm, BitsVar, FailLblName, FailLblName).
+
+make_size(1, BitsVar, OverflowLblName, FalseLblName) ->
+ DstReg = hipe_rtl:mk_new_reg_gcsafe(),
+ {get_word_integer(BitsVar, DstReg, OverflowLblName, FalseLblName), DstReg};
+make_size(?BYTE_SIZE, BitsVar, OverflowLblName, FalseLblName) ->
+ DstReg = hipe_rtl:mk_new_reg_gcsafe(),
+ [FixnumLbl, BignumLbl] = create_lbls(2),
+ WordBits = hipe_rtl_arch:word_size() * ?BYTE_SIZE,
+ FixnumLblName = hipe_rtl:label_name(FixnumLbl),
+ Tail = [BignumLbl,
+ hipe_rtl:mk_branch(DstReg, 'ltu',
+ hipe_rtl:mk_imm(1 bsl (WordBits - ?BYTE_SHIFT)),
+ FixnumLblName, OverflowLblName, 0.99),
+ FixnumLbl,
+ hipe_rtl:mk_alu(DstReg, DstReg, sll, hipe_rtl:mk_imm(?BYTE_SHIFT))],
+ Code = get_word_integer(BitsVar, DstReg, OverflowLblName, FalseLblName,
+ FixnumLblName, hipe_rtl:label_name(BignumLbl), Tail),
+ {Code, DstReg};
+make_size(UnitImm, BitsVar, OverflowLblName, FalseLblName) ->
+ DstReg = hipe_rtl:mk_new_reg_gcsafe(),
+ UnitList = number2list(UnitImm),
+ Code = multiply_code(UnitList, BitsVar, DstReg, OverflowLblName, FalseLblName),
+ {Code, DstReg}.
+
+multiply_code(List=[Head|_Tail], Variable, Result, OverflowLblName,
+ FalseLblName) ->
+ Test = set_high(Head),
+ Tmp1 = hipe_rtl:mk_new_reg(),
+ SuccessLbl = hipe_rtl:mk_new_label(),
+ Register = hipe_rtl:mk_new_reg(),
+ Code = [hipe_rtl:mk_move(Result, hipe_rtl:mk_imm(0))|
+ get_word_integer(Variable, Register, OverflowLblName, FalseLblName)]
+ ++
+ [hipe_rtl:mk_alub(Tmp1, Register, 'and', hipe_rtl:mk_imm(Test),
+ eq, hipe_rtl:label_name(SuccessLbl),
+ OverflowLblName, 0.99),
+ SuccessLbl],
+ multiply_code(List, Register, Result, OverflowLblName, Tmp1, Code).
+
+multiply_code([ShiftSize|Rest], Register, Result, OverflowLblName, Tmp1,
+ OldCode) ->
+ SuccessLbl = hipe_rtl:mk_new_label(),
+ Code =
+ OldCode ++
+ [hipe_rtl:mk_alu(Tmp1, Register, sll, hipe_rtl:mk_imm(ShiftSize)),
+ hipe_rtl:mk_alub(Result, Tmp1, 'add', Result, not_overflow,
+ hipe_rtl:label_name(SuccessLbl), OverflowLblName, 0.99),
+ SuccessLbl],
+ multiply_code(Rest, Register, Result, OverflowLblName, Tmp1, Code);
+multiply_code([], _Register, _Result, _OverflowLblName, _Tmp1, Code) ->
+ Code.
+
+set_high(X) ->
+ WordBits = hipe_rtl_arch:word_size() * ?BYTE_SIZE,
+ set_high(min(X, WordBits), WordBits, 0).
+
+set_high(0, _, Y) ->
+ Y;
+set_high(X, WordBits, Y) ->
+ set_high(X-1, WordBits, Y+(1 bsl (WordBits-X))).
+
+
+number2list(X) when is_integer(X), X >= 0 ->
+ number2list(X, []).
+
+number2list(1, Acc) ->
+ lists:reverse([0|Acc]);
+number2list(0, Acc) ->
+ lists:reverse(Acc);
+number2list(X, Acc) ->
+ F = floorlog2(X),
+ number2list(X-(1 bsl F), [F|Acc]).
+
+floorlog2(X) ->
+ %% Double-precision floats do not have enough precision to make floorlog2
+ %% exact for integers larger than 2^47.
+ Approx = round(math:log(X)/math:log(2)-0.5),
+ floorlog2_refine(X, Approx).
+
+floorlog2_refine(X, Approx) ->
+ if (1 bsl Approx) > X ->
+ floorlog2_refine(X, Approx - 1);
+ (1 bsl (Approx+1)) > X ->
+ Approx;
+ true ->
+ floorlog2_refine(X, Approx + 1)
+ end.
diff --git a/lib/hipe/rtl/hipe_rtl_binary_construct.erl b/lib/hipe/rtl/hipe_rtl_binary_construct.erl
index 692bad7d96..4403aa552f 100644
--- a/lib/hipe/rtl/hipe_rtl_binary_construct.erl
+++ b/lib/hipe/rtl/hipe_rtl_binary_construct.erl
@@ -34,6 +34,10 @@
get_field_from_term/3,
set_field_from_pointer/3,
get_field_from_pointer/3]).
+
+-import(hipe_rtl_binary, [floorlog2/1,
+ get_word_integer/4,
+ make_size/4]).
%%-------------------------------------------------------------------------
-include("../main/hipe.hrl").
@@ -94,10 +98,11 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
var_init_bits(Size, Dst0, Base, Offset, TrueLblName,
SystemLimitLblName, FalseLblName);
- {bs_put_binary_all, _Flags} ->
+ {bs_put_binary_all, Unit, _Flags} ->
[Src, Base, Offset] = Args,
[NewOffset] = get_real(Dst),
- put_binary_all(NewOffset, Src, Base, Offset, TrueLblName, FalseLblName);
+ put_binary_all(NewOffset, Src, Base, Offset, Unit,
+ TrueLblName, FalseLblName);
{bs_put_binary, Size, _Flags} ->
case is_illegal_const(Size) of
@@ -110,7 +115,9 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
put_static_binary(NewOffset, Src, Size, Base, Offset,
TrueLblName, FalseLblName);
[Src, Bits, Base, Offset] ->
- {SizeCode, SizeReg} = make_size(Size, Bits, FalseLblName),
+ {SizeCode, SizeReg} = make_size(Size, Bits,
+ SystemLimitLblName,
+ FalseLblName),
InCode = put_dynamic_binary(NewOffset, Src, SizeReg, Base,
Offset, TrueLblName, FalseLblName),
SizeCode ++ InCode
@@ -132,7 +139,9 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
put_float(NewOffset, Src, Base, Offset, Size, CCode, Aligned,
LittleEndian, ConstInfo, TrueLblName);
[Src, Bits, Base, Offset] ->
- {SizeCode, SizeReg} = make_size(Size, Bits, FalseLblName),
+ {SizeCode, SizeReg} = make_size(Size, Bits,
+ SystemLimitLblName,
+ FalseLblName),
InCode = float_c_code(NewOffset, Src, Base, Offset, SizeReg,
Flags, TrueLblName, FalseLblName),
SizeCode ++ InCode
@@ -161,6 +170,7 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
CCode, Aligned, LittleEndian, TrueLblName);
[Src, Bits, Base, Offset] ->
{SizeCode, SizeReg} = make_size(Size, Bits,
+ SystemLimitLblName,
FalseLblName),
CCode = int_c_code(NewOffset, Src, Base,
Offset, SizeReg, Flags,
@@ -209,6 +219,7 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
TrueLblName);
[Src, Bits, Base, Offset] ->
{SizeCode, SizeReg} = make_size(Size, Bits,
+ SystemLimitLblName,
FalseLblName),
CCode = int_c_code(NewOffset, Src, Base,
Offset, SizeReg, Flags,
@@ -293,7 +304,7 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
[SizeReg] = create_regs(1),
[Base] = create_unsafe_regs(1),
[hipe_rtl:mk_gctest(?PROC_BIN_WORDSIZE + ?SUB_BIN_WORDSIZE),
- check_and_untag_fixnum(Size, SizeReg, FalseLblName),
+ get_word_integer(Size, SizeReg, SystemLimitLblName, FalseLblName),
allocate_writable(DstVar, Base, SizeReg, Zero, Zero),
hipe_rtl:mk_goto(TrueLblName)];
@@ -305,7 +316,7 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
SubBinSize = {sub_binary, binsize},
[get_field_from_term({sub_binary, orig}, Bin, ProcBin),
get_field_from_term(SubBinSize, Bin, SubSize),
- check_and_untag_fixnum(Size, SizeReg, FalseLblName),
+ get_word_integer(Size, SizeReg, SystemLimitLblName, FalseLblName),
realloc_binary(SizeReg, ProcBin, Base),
calculate_sizes(Bin, SizeReg, Offset, EndSubSize, EndSubBitSize),
set_field_from_term(SubBinSize, Bin, EndSubSize),
@@ -313,20 +324,21 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
hipe_rtl:mk_move(DstVar, Bin),
hipe_rtl:mk_goto(TrueLblName)];
- {bs_append, _U, _F, _B, _Bla} ->
+ {bs_append, _U, _F, Unit, _Bla} ->
[Size, Bin] = Args,
[DstVar, Base, Offset] = Dst,
[ProcBin] = create_vars(1),
[Flags, SizeReg, IsWritable, EndSubSize, EndSubBitSize] =
create_regs(5),
- [ContLbl,ContLbl2,ContLbl3,WritableLbl,NotWritableLbl] = Lbls =
- create_lbls(5),
- [ContLblName, ContLbl2Name, ContLbl3Name, Writable, NotWritable] =
+ [ContLbl,ContLbl2,ContLbl3,ContLbl4,WritableLbl,NotWritableLbl] =
+ Lbls = create_lbls(6),
+ [ContLblName, ContLbl2Name, ContLbl3Name, ContLbl4Name,
+ Writable, NotWritable] =
[hipe_rtl:label_name(Lbl) || Lbl <- Lbls],
Zero = hipe_rtl:mk_imm(0),
SubIsWritable = {sub_binary, is_writable},
[hipe_rtl:mk_gctest(?SUB_BIN_WORDSIZE + ?PROC_BIN_WORDSIZE),
- check_and_untag_fixnum(Size, SizeReg, FalseLblName),
+ get_word_integer(Size, SizeReg, SystemLimitLblName, FalseLblName),
hipe_tagscheme:test_bitstr(Bin, ContLblName, FalseLblName, 0.99),
ContLbl,
hipe_tagscheme:test_subbinary(Bin,ContLbl2Name, NotWritable),
@@ -339,17 +351,19 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
get_field_from_term({proc_bin, flags}, ProcBin, Flags),
hipe_rtl:mk_alub(Flags, Flags, 'and',
hipe_rtl:mk_imm(?PB_IS_WRITABLE),
- eq, NotWritable, Writable, 0.01),
+ eq, NotWritable, ContLbl4Name, 0.01),
+ ContLbl4,
+ calculate_sizes(Bin, SizeReg, Offset, EndSubSize, EndSubBitSize),
+ is_divisible(Offset, Unit, Writable, FalseLblName),
WritableLbl,
set_field_from_term(SubIsWritable, Bin, Zero),
realloc_binary(SizeReg, ProcBin, Base),
- calculate_sizes(Bin, SizeReg, Offset, EndSubSize, EndSubBitSize),
hipe_tagscheme:mk_sub_binary(DstVar, EndSubSize, Zero,
EndSubBitSize, Zero,
hipe_rtl:mk_imm(1), ProcBin),
hipe_rtl:mk_goto(TrueLblName),
NotWritableLbl,
- not_writable_code(Bin, SizeReg, DstVar, Base, Offset,
+ not_writable_code(Bin, SizeReg, DstVar, Base, Offset, Unit,
TrueLblName, FalseLblName)]
end,
{Code, ConstTab}
@@ -361,7 +375,7 @@ gen_rtl(BsOP, Dst, Args, TrueLblName, FalseLblName, SystemLimitLblName, ConstTab
%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-not_writable_code(Bin, SizeReg, Dst, Base, Offset,
+not_writable_code(Bin, SizeReg, Dst, Base, Offset, Unit,
TrueLblName, FalseLblName) ->
[SrcBase] = create_unsafe_regs(1),
[SrcOffset, SrcSize, TotSize, TotBytes, UsedBytes] = create_regs(5),
@@ -372,13 +386,13 @@ not_writable_code(Bin, SizeReg, Dst, Base, Offset,
hipe_rtl:mk_alu(TotBytes, TotSize, add, ?LOW_BITS),
hipe_rtl:mk_alu(TotBytes, TotBytes, srl, ?BYTE_SHIFT),
hipe_rtl:mk_alu(UsedBytes, TotBytes, sll, hipe_rtl:mk_imm(1)),
- hipe_rtl:mk_branch(UsedBytes, ge, hipe_rtl:mk_imm(256),
+ hipe_rtl:mk_branch(UsedBytes, geu, hipe_rtl:mk_imm(256),
AllLblName, IncLblName),
IncLbl,
hipe_rtl:mk_move(UsedBytes, hipe_rtl:mk_imm(256)),
AllLbl,
allocate_writable(Dst, Base, UsedBytes, TotBytes, TotSize),
- put_binary_all(Offset, Bin, Base, hipe_rtl:mk_imm(0),
+ put_binary_all(Offset, Bin, Base, hipe_rtl:mk_imm(0), Unit,
TrueLblName, FalseLblName)].
allocate_writable(Dst, Base, UsedBytes, TotBytes, TotSize) ->
@@ -397,16 +411,6 @@ allocate_writable(Dst, Base, UsedBytes, TotBytes, TotSize) ->
hipe_tagscheme:mk_sub_binary(Dst, EndSubSize, Zero, EndSubBitSize,
Zero, hipe_rtl:mk_imm(1), ProcBin)].
-check_and_untag_fixnum(Size, SizeReg, FalseLblName) ->
- [ContLbl,NextLbl] = Lbls = create_lbls(2),
- [ContLblName,NextLblName] = get_label_names(Lbls),
- [hipe_tagscheme:test_fixnum(Size, ContLblName, FalseLblName, 0.99),
- ContLbl,
- hipe_tagscheme:untag_fixnum(SizeReg,Size),
- hipe_rtl:mk_branch(SizeReg, ge, hipe_rtl:mk_imm(0), NextLblName,
- FalseLblName),
- NextLbl].
-
realloc_binary(SizeReg, ProcBin, Base) ->
[NoReallocLbl, ReallocLbl, NextLbl, ContLbl] = Lbls = create_lbls(4),
[NoReallocLblName, ReallocLblName, NextLblName, ContLblName] =
@@ -428,7 +432,7 @@ realloc_binary(SizeReg, ProcBin, Base) ->
set_field_from_term(ProcBinFlagsTag, ProcBin, Flags),
get_field_from_term(ProcBinValTag, ProcBin, BinPointer),
get_field_from_pointer(BinOrigSizeTag, BinPointer, OrigSize),
- hipe_rtl:mk_branch(OrigSize, 'lt', ResultingSize,
+ hipe_rtl:mk_branch(OrigSize, 'ltu', ResultingSize,
ReallocLblName, NoReallocLblName),
NoReallocLbl,
get_field_from_term(ProcBinBytesTag, ProcBin, Base),
@@ -669,14 +673,14 @@ var_init2(Size, Dst, Base, Offset, TrueLblName, SystemLimitLblName, FalseLblName
WordSize = hipe_rtl_arch:word_size(),
[ContLbl,HeapLbl,REFCLbl,NextLbl] = create_lbls(4),
[USize,Tmp] = create_unsafe_regs(2),
- [get_32_bit_value(Size, USize, SystemLimitLblName, FalseLblName),
- hipe_rtl:mk_branch(USize, le, hipe_rtl:mk_imm(?MAX_BINSIZE),
- hipe_rtl:label_name(ContLbl),
- SystemLimitLblName),
+ [get_word_integer(Size, USize, SystemLimitLblName, FalseLblName),
+ hipe_rtl:mk_branch(USize, leu, hipe_rtl:mk_imm(?MAX_BINSIZE),
+ hipe_rtl:label_name(ContLbl),
+ SystemLimitLblName),
ContLbl,
hipe_rtl:mk_move(Offset, hipe_rtl:mk_imm(0)),
- hipe_rtl:mk_branch(USize, le, hipe_rtl:mk_imm(?MAX_HEAP_BIN_SIZE),
- hipe_rtl:label_name(HeapLbl),
+ hipe_rtl:mk_branch(USize, leu, hipe_rtl:mk_imm(?MAX_HEAP_BIN_SIZE),
+ hipe_rtl:label_name(HeapLbl),
hipe_rtl:label_name(REFCLbl)),
HeapLbl,
hipe_rtl:mk_alu(Tmp, USize, add, hipe_rtl:mk_imm(3*WordSize-1)),
@@ -694,8 +698,8 @@ var_init2(Size, Dst, Base, Offset, TrueLblName, SystemLimitLblName, FalseLblName
hipe_rtl:mk_goto(TrueLblName)].
var_init_bits(Size, Dst, Base, Offset, TrueLblName, SystemLimitLblName, FalseLblName) ->
- [HeapLbl,REFCLbl,NextLbl,NoSubLbl,SubLbl,ContLbl,
- NoCreateSubBin, CreateSubBin, JoinLbl, JoinLbl2] = create_lbls(10),
+ [HeapLbl,REFCLbl,NextLbl,NoSubLbl,SubLbl,
+ NoCreateSubBin, CreateSubBin, JoinLbl, JoinLbl2] = create_lbls(9),
[USize,ByteSize,TotByteSize,OffsetBits] = create_regs(4),
[TmpDst] = create_unsafe_regs(1),
Log2WordSize = hipe_rtl_arch:log2_word_size(),
@@ -705,7 +709,7 @@ var_init_bits(Size, Dst, Base, Offset, TrueLblName, SystemLimitLblName, FalseLbl
?PROC_BIN_WORDSIZE) + ?SUB_BIN_WORDSIZE,
Zero = hipe_rtl:mk_imm(0),
[hipe_rtl:mk_gctest(MaximumWords),
- get_32_bit_value(Size, USize, SystemLimitLblName, FalseLblName),
+ get_word_integer(Size, USize, SystemLimitLblName, FalseLblName),
hipe_rtl:mk_alu(ByteSize, USize, srl, ?BYTE_SHIFT),
hipe_rtl:mk_alub(OffsetBits, USize, 'and', ?LOW_BITS, eq,
hipe_rtl:label_name(NoSubLbl),
@@ -716,11 +720,7 @@ var_init_bits(Size, Dst, Base, Offset, TrueLblName, SystemLimitLblName, FalseLbl
SubLbl,
hipe_rtl:mk_alu(TotByteSize, ByteSize, 'add', hipe_rtl:mk_imm(1)),
JoinLbl,
- hipe_rtl:mk_branch(USize, le, hipe_rtl:mk_imm(?MAX_BINSIZE),
- hipe_rtl:label_name(ContLbl),
- SystemLimitLblName),
- ContLbl,
- hipe_rtl:mk_branch(TotByteSize, 'le', hipe_rtl:mk_imm(?MAX_HEAP_BIN_SIZE),
+ hipe_rtl:mk_branch(TotByteSize, 'leu', hipe_rtl:mk_imm(?MAX_HEAP_BIN_SIZE),
hipe_rtl:label_name(HeapLbl),
hipe_rtl:label_name(REFCLbl)),
HeapLbl,
@@ -743,13 +743,16 @@ var_init_bits(Size, Dst, Base, Offset, TrueLblName, SystemLimitLblName, FalseLbl
hipe_rtl:mk_move(Dst, TmpDst),
hipe_rtl:mk_goto(TrueLblName)].
-put_binary_all(NewOffset, Src, Base, Offset, TLName, FLName) ->
+put_binary_all(NewOffset, Src, Base, Offset, Unit, TLName, FLName) ->
[SrcBase,SrcOffset,NumBits] = create_regs(3),
+ [ContLbl] = create_lbls(1),
CCode = binary_c_code(NewOffset, Src, Base, Offset, NumBits, TLName),
AlignedCode = copy_aligned_bytes(SrcBase, SrcOffset, NumBits, Base, Offset,
NewOffset, TLName),
- get_base_offset_size(Src, SrcBase, SrcOffset, NumBits,FLName) ++
- test_alignment(SrcOffset, NumBits, Offset, AlignedCode, CCode).
+ [get_base_offset_size(Src, SrcBase, SrcOffset, NumBits,FLName),
+ is_divisible(NumBits, Unit, hipe_rtl:label_name(ContLbl), FLName),
+ ContLbl
+ |test_alignment(SrcOffset, NumBits, Offset, AlignedCode, CCode)].
test_alignment(SrcOffset, NumBits, Offset, AlignedCode, CCode) ->
[Tmp] = create_regs(1),
@@ -976,7 +979,7 @@ copy_string(StringBase, StringSize, BinBase, BinOffset, NewOffset, TrueLblName)
small_check(SizeVar, CopySize, FalseLblName) ->
SuccessLbl = hipe_rtl:mk_new_label(),
- [hipe_rtl:mk_branch(SizeVar, le, CopySize,
+ [hipe_rtl:mk_branch(SizeVar, leu, CopySize,
hipe_rtl:label_name(SuccessLbl), FalseLblName),
SuccessLbl].
@@ -1279,89 +1282,18 @@ copy_float_big(Base, Offset, NewOffset, Src, FalseLblName, TrueLblName, var) ->
hipe_tagscheme:test_flonum(Src, hipe_rtl:label_name(SuccessLbl), FalseLblName, 0.99) ++
[SuccessLbl|copy_float_big(Base, Offset, NewOffset, Src, FalseLblName, TrueLblName, pass)].
-make_size(1, BitsVar, FalseLblName) ->
- [DstReg] = create_regs(1),
- {first_part(BitsVar, DstReg, FalseLblName), DstReg};
-make_size(?BYTE_SIZE, BitsVar, FalseLblName) ->
- [DstReg] = create_regs(1),
- Code =
- first_part(BitsVar, DstReg, FalseLblName) ++
- [hipe_rtl:mk_alu(DstReg, DstReg, 'sll', ?BYTE_SHIFT)],
- {Code, DstReg};
-make_size(UnitImm, BitsVar, FalseLblName) ->
- [DstReg] = create_regs(1),
- UnitList = number2list(UnitImm),
- Code = multiply_code(UnitList, BitsVar, DstReg, FalseLblName),
- {Code, DstReg}.
-
-multiply_code(List=[Head|_Tail], Variable, Result, FalseLblName) ->
- Test = set_high(Head),
- Tmp1 = hipe_rtl:mk_new_reg(),
- SuccessLbl = hipe_rtl:mk_new_label(),
- Register = hipe_rtl:mk_new_reg(),
- Code = [hipe_rtl:mk_move(Result, hipe_rtl:mk_imm(0))|
- first_part(Variable, Register, FalseLblName)]
- ++
- [hipe_rtl:mk_alub(Tmp1, Register, 'and', hipe_rtl:mk_imm(Test),
- 'eq', hipe_rtl:label_name(SuccessLbl),
- FalseLblName, 0.99),
- SuccessLbl],
- multiply_code(List, Register, Result, FalseLblName, Tmp1, Code).
-
-multiply_code([ShiftSize|Rest], Register, Result, FalseLblName, Tmp1, OldCode) ->
- SuccessLbl = hipe_rtl:mk_new_label(),
- Code = OldCode ++ [hipe_rtl:mk_alu(Tmp1, Register, 'sll',
- hipe_rtl:mk_imm(ShiftSize)),
- hipe_rtl:mk_alub(Result, Tmp1, 'add', Result, not_overflow, hipe_rtl:label_name(SuccessLbl), FalseLblName, 0.99),
- SuccessLbl],
- multiply_code(Rest, Register, Result, FalseLblName, Tmp1, Code);
-multiply_code([], _Register, _Result, _FalseLblName, _Tmp1, Code) ->
- Code.
-
-number2list(X) when is_integer(X), X >= 0 ->
- number2list(X, []).
-
-number2list(1, Acc) ->
- lists:reverse([0|Acc]);
-number2list(0, Acc) ->
- lists:reverse(Acc);
-number2list(X, Acc) ->
- F = floorlog2(X),
- number2list(X-(1 bsl F), [F|Acc]).
-
-floorlog2(X) ->
- round(math:log(X)/math:log(2)-0.5).
-
-set_high(X) ->
- set_high(X, 0).
-
-set_high(0, Y) ->
- Y;
-set_high(X, Y) ->
- set_high(X-1, Y+(1 bsl (27-X))).
-
-get_32_bit_value(Size, USize, SystemLimitLblName, NegLblName) ->
- Lbls = [FixLbl, BigLbl, OkLbl, PosBigLbl] = create_lbls(4),
- [FixLblName, BigLblName, OkLblName, PosBigLblName] = [hipe_rtl:label_name(Lbl) || Lbl <- Lbls],
- [hipe_tagscheme:test_fixnum(Size, FixLblName, BigLblName, 0.99),
- FixLbl,
- hipe_tagscheme:untag_fixnum(USize, Size),
- hipe_rtl:mk_branch(USize, ge, hipe_rtl:mk_imm(0), OkLblName, NegLblName),
- BigLbl,
- hipe_tagscheme:test_pos_bignum(Size, PosBigLblName, NegLblName, 0.99),
- PosBigLbl,
- hipe_tagscheme:get_one_word_pos_bignum(USize, Size, SystemLimitLblName),
- OkLbl].
-
-
-first_part(Var, Register, FalseLblName) ->
- [SuccessLbl1, SuccessLbl2] = create_lbls(2),
- [hipe_tagscheme:test_fixnum(Var, hipe_rtl:label_name(SuccessLbl1),
- FalseLblName, 0.99),
- SuccessLbl1,
- hipe_tagscheme:fixnum_ge(Var, hipe_rtl:mk_imm(hipe_tagscheme:mk_fixnum(0)),
- hipe_rtl:label_name(SuccessLbl2), FalseLblName, 0.99),
- SuccessLbl2,
- hipe_tagscheme:untag_fixnum(Register, Var)].
-
-
+is_divisible(_Dividend, 1, SuccLbl, _FailLbl) ->
+ [hipe_rtl:mk_goto(SuccLbl)];
+is_divisible(Dividend, Divisor, SuccLbl, FailLbl) ->
+ Log2 = floorlog2(Divisor),
+ case Divisor =:= 1 bsl Log2 of
+ true -> %% Divisor is a power of 2
+ %% Test that the Log2-1 lowest bits are clear
+ Mask = hipe_rtl:mk_imm(Divisor - 1),
+ [Tmp] = create_regs(1),
+ [hipe_rtl:mk_alub(Tmp, Dividend, 'and', Mask, eq, SuccLbl, FailLbl, 0.99)];
+ false ->
+ %% We need division, fall back to a primop
+ [hipe_rtl:mk_call([], is_divisible, [Dividend, hipe_rtl:mk_imm(Divisor)],
+ SuccLbl, FailLbl, not_remote)]
+ end.
diff --git a/lib/hipe/rtl/hipe_rtl_binary_match.erl b/lib/hipe/rtl/hipe_rtl_binary_match.erl
index cf1b8e453f..be4c35dae0 100644
--- a/lib/hipe/rtl/hipe_rtl_binary_match.erl
+++ b/lib/hipe/rtl/hipe_rtl_binary_match.erl
@@ -31,11 +31,12 @@
-import(hipe_tagscheme, [set_field_from_term/3, get_field_from_term/3]).
+-import(hipe_rtl_binary, [make_size/3]).
+
-include("hipe_literals.hrl").
%%--------------------------------------------------------------------
--define(MAX_BINSIZE, trunc(?MAX_HEAP_BIN_SIZE / hipe_rtl_arch:word_size()) + 2).
-define(BYTE_SHIFT, 3). %% Turn bits into bytes or vice versa
-define(LOW_BITS, 7). %% Three lowest bits set
-define(BYTE_SIZE, 8).
@@ -835,10 +836,10 @@ create_lbls(0) ->
create_lbls(X) when X > 0 ->
[hipe_rtl:mk_new_label()|create_lbls(X-1)].
-make_dyn_prep(SizeReg, CCode) ->
+make_dyn_prep(SizeReg, CCode) ->
[CLbl, SuccessLbl] = create_lbls(2),
- Init = [hipe_rtl:mk_branch(SizeReg, le, hipe_rtl:mk_imm(?MAX_SMALL_BITS),
- hipe_rtl:label_name(SuccessLbl),
+ Init = [hipe_rtl:mk_branch(SizeReg, leu, hipe_rtl:mk_imm(?MAX_SMALL_BITS),
+ hipe_rtl:label_name(SuccessLbl),
hipe_rtl:label_name(CLbl)),
SuccessLbl],
End = [CLbl|CCode],
@@ -883,8 +884,8 @@ get_unaligned_int_to_reg(Reg, Size, Base, Offset, LowBits, Shiftr, Type) ->
hipe_rtl:mk_imm((WordSize-MinLoad)*?BYTE_SIZE))];
{_, WordSize} ->
UnsignedBig = {unsigned, big},
- [hipe_rtl:mk_branch(TotBits, le, hipe_rtl:mk_imm(MinLoad*?BYTE_SIZE),
- hipe_rtl:label_name(LessLbl),
+ [hipe_rtl:mk_branch(TotBits, leu, hipe_rtl:mk_imm(MinLoad*?BYTE_SIZE),
+ hipe_rtl:label_name(LessLbl),
hipe_rtl:label_name(MoreLbl)),
LessLbl,
load_bytes(LoadDst, Base, ByteOffset, Type, MinLoad),
@@ -944,7 +945,7 @@ get_big_unknown_int(Dst1, Base, Offset, NewOffset,
hipe_rtl:mk_alu(ByteOffset, Offset, srl, hipe_rtl:mk_imm(?BYTE_SHIFT)),
load_bytes(LoadDst, Base, ByteOffset, Type, 1),
BackLbl,
- hipe_rtl:mk_branch(ByteOffset, le, Limit, hipe_rtl:label_name(LoopLbl),
+ hipe_rtl:mk_branch(ByteOffset, leu, Limit, hipe_rtl:label_name(LoopLbl),
hipe_rtl:label_name(EndLbl)),
LoopLbl,
load_bytes(Tmp, Base, ByteOffset, {unsigned, big}, 1),
@@ -973,8 +974,8 @@ get_little_unknown_int(Dst1, Base, Offset, NewOffset,
hipe_rtl:mk_alu(Limit, Tmp, srl, hipe_rtl:mk_imm(?BYTE_SHIFT)),
hipe_rtl:mk_move(ShiftReg, hipe_rtl:mk_imm(0)),
BackLbl,
- hipe_rtl:mk_branch(ByteOffset, lt, Limit,
- hipe_rtl:label_name(LoopLbl),
+ hipe_rtl:mk_branch(ByteOffset, ltu, Limit,
+ hipe_rtl:label_name(LoopLbl),
hipe_rtl:label_name(DoneLbl)),
LoopLbl,
load_bytes(Tmp, Base, ByteOffset, {unsigned, big}, 1),
@@ -1090,7 +1091,7 @@ load_bytes(Dst, Base, Offset, {Signedness, Endianness}, X) when X > 1 ->
hipe_rtl:mk_alu(Offset, Offset, add, hipe_rtl:mk_imm(1)),
hipe_rtl:mk_alu(Dst, Dst, sll, hipe_rtl:mk_imm(8)),
hipe_rtl:mk_alu(Dst, Dst, 'or', Tmp1),
- hipe_rtl:mk_branch(Offset, lt, Limit, hipe_rtl:label_name(LoopLbl),
+ hipe_rtl:mk_branch(Offset, ltu, Limit, hipe_rtl:label_name(LoopLbl),
hipe_rtl:label_name(EndLbl)),
EndLbl];
little ->
@@ -1102,7 +1103,7 @@ load_bytes(Dst, Base, Offset, {Signedness, Endianness}, X) when X > 1 ->
hipe_rtl:mk_load(Tmp1, Base, TmpOffset, byte, Signedness),
hipe_rtl:mk_alu(Dst, Dst, sll, hipe_rtl:mk_imm(8)),
hipe_rtl:mk_alu(Dst, Dst, 'or', Tmp1),
- hipe_rtl:mk_branch(Offset, lt, TmpOffset, hipe_rtl:label_name(LoopLbl),
+ hipe_rtl:mk_branch(Offset, ltu, TmpOffset, hipe_rtl:label_name(LoopLbl),
hipe_rtl:label_name(EndLbl)),
EndLbl,
hipe_rtl:mk_move(Offset, Limit)]
@@ -1118,103 +1119,5 @@ create_gcsafe_regs(X) when X > 0 ->
create_gcsafe_regs(0) ->
[].
-first_part(Var, Register, FalseLblName) ->
- [EndLbl] = create_lbls(1),
- EndName = hipe_rtl:label_name(EndLbl),
- first_part(Var, Register, FalseLblName, EndName, EndName, [EndLbl]).
-
-first_part(Var, Register, FalseLblName, TrueLblName, BigLblName, Tail) ->
- [FixnumLbl, NotFixnumLbl, BignumLbl, SuccessLbl] = create_lbls(4),
- [hipe_tagscheme:test_fixnum(Var, hipe_rtl:label_name(FixnumLbl),
- hipe_rtl:label_name(NotFixnumLbl), 0.99),
- FixnumLbl,
- hipe_tagscheme:fixnum_ge(Var, hipe_rtl:mk_imm(hipe_tagscheme:mk_fixnum(0)),
- hipe_rtl:label_name(SuccessLbl), FalseLblName,
- 0.99),
- SuccessLbl,
- hipe_tagscheme:untag_fixnum(Register, Var),
- hipe_rtl:mk_goto(TrueLblName),
- NotFixnumLbl,
- %% Since binaries are not allowed to be larger than 2^wordsize bits
- %% and since bignum digits are words, we know that a bignum with an
- %% arity larger than one can't match.
- hipe_tagscheme:test_pos_bignum_arity(Var, 1, hipe_rtl:label_name(BignumLbl),
- FalseLblName, 0.99),
- BignumLbl,
- hipe_tagscheme:unsafe_get_one_word_pos_bignum(Register, Var),
- hipe_rtl:mk_goto(BigLblName) | Tail].
-
-make_size(1, BitsVar, FalseLblName) ->
- [DstReg] = create_regs(1),
- {first_part(BitsVar, DstReg, FalseLblName), DstReg};
-make_size(?BYTE_SIZE, BitsVar, FalseLblName) ->
- [DstReg] = create_regs(1),
- [FixnumLbl, BignumLbl] = create_lbls(2),
- WordBits = hipe_rtl_arch:word_size() * ?BYTE_SIZE,
- FixnumLblName = hipe_rtl:label_name(FixnumLbl),
- Tail = [BignumLbl,
- hipe_rtl:mk_branch(DstReg, 'ltu',
- hipe_rtl:mk_imm(1 bsl (WordBits - ?BYTE_SHIFT)),
- FixnumLblName, FalseLblName, 0.99),
- FixnumLbl,
- hipe_rtl:mk_alu(DstReg, DstReg, sll, hipe_rtl:mk_imm(?BYTE_SHIFT))],
- Code = first_part(BitsVar, DstReg, FalseLblName, FixnumLblName,
- hipe_rtl:label_name(BignumLbl), Tail),
- {Code, DstReg};
-make_size(UnitImm, BitsVar, FalseLblName) ->
- [DstReg] = create_regs(1),
- UnitList = number2list(UnitImm),
- Code = multiply_code(UnitList, BitsVar, DstReg, FalseLblName),
- {Code, DstReg}.
-
-multiply_code(List=[Head|_Tail], Variable, Result, FalseLblName) ->
- Test = set_high(Head),
- Tmp1 = hipe_rtl:mk_new_reg(),
- SuccessLbl = hipe_rtl:mk_new_label(),
- Register = hipe_rtl:mk_new_reg(),
- Code = [hipe_rtl:mk_move(Result, hipe_rtl:mk_imm(0))|
- first_part(Variable, Register, FalseLblName)]
- ++
- [hipe_rtl:mk_alub(Tmp1, Register, 'and', hipe_rtl:mk_imm(Test),
- eq, hipe_rtl:label_name(SuccessLbl),
- FalseLblName, 0.99),
- SuccessLbl],
- multiply_code(List, Register, Result, FalseLblName, Tmp1, Code).
-
-multiply_code([ShiftSize|Rest], Register, Result, FalseLblName, Tmp1, OldCode) ->
- SuccessLbl = hipe_rtl:mk_new_label(),
- Code =
- OldCode ++
- [hipe_rtl:mk_alu(Tmp1, Register, sll, hipe_rtl:mk_imm(ShiftSize)),
- hipe_rtl:mk_alub(Result, Tmp1, 'add', Result, not_overflow,
- hipe_rtl:label_name(SuccessLbl), FalseLblName, 0.99),
- SuccessLbl],
- multiply_code(Rest, Register, Result, FalseLblName, Tmp1, Code);
-multiply_code([], _Register, _Result, _FalseLblName, _Tmp1, Code) ->
- Code.
-
-number2list(X) when is_integer(X), X >= 0 ->
- number2list(X, []).
-
-number2list(1, Acc) ->
- lists:reverse([0|Acc]);
-number2list(0, Acc) ->
- lists:reverse(Acc);
-number2list(X, Acc) ->
- F = floorlog2(X),
- number2list(X-(1 bsl F), [F|Acc]).
-
-floorlog2(X) ->
- round(math:log(X)/math:log(2)-0.5).
-
-set_high(X) ->
- WordBits = hipe_rtl_arch:word_size() * ?BYTE_SIZE,
- set_high(min(X, WordBits), WordBits, 0).
-
-set_high(0, _, Y) ->
- Y;
-set_high(X, WordBits, Y) ->
- set_high(X-1, WordBits, Y+(1 bsl (WordBits-X))).
-
is_illegal_const(Const) ->
Const >= 1 bsl (hipe_rtl_arch:word_size() * ?BYTE_SIZE) orelse Const < 0.
diff --git a/lib/hipe/rtl/hipe_tagscheme.erl b/lib/hipe/rtl/hipe_tagscheme.erl
index d77078acb6..8825a3ade3 100644
--- a/lib/hipe/rtl/hipe_tagscheme.erl
+++ b/lib/hipe/rtl/hipe_tagscheme.erl
@@ -42,7 +42,7 @@
test_ref/4, test_fun/4, test_fun2/5, test_matchstate/4,
test_binary/4, test_bitstr/4, test_list/4, test_map/4,
test_integer/4, test_number/4, test_tuple_N/5,
- test_pos_bignum_arity/5]).
+ test_pos_bignum_arity/6]).
-export([realtag_fixnum/2, tag_fixnum/2, realuntag_fixnum/2, untag_fixnum/2]).
-export([test_two_fixnums/3, test_fixnums/4, unsafe_fixnum_add/3,
unsafe_fixnum_sub/3,
@@ -351,14 +351,23 @@ test_pos_bignum(X, TrueLab, FalseLab, Pred) ->
mask_and_compare(Tmp, BigMask, ?TAG_HEADER_POS_BIG,
TrueLab, FalseLab, Pred)].
-test_pos_bignum_arity(X, Arity, TrueLab, FalseLab, Pred) ->
+test_pos_bignum_arity(X, Arity, TrueLab, NotPosBignumLab, FalseLab, Pred) ->
Tmp = hipe_rtl:mk_new_reg_gcsafe(),
- HalfTrueLab = hipe_rtl:mk_new_label(),
+ BoxedLab = hipe_rtl:mk_new_label(),
HeaderImm = hipe_rtl:mk_imm(mk_header(Arity, ?TAG_HEADER_POS_BIG)),
- [test_is_boxed(X, hipe_rtl:label_name(HalfTrueLab), FalseLab, Pred),
- HalfTrueLab,
- get_header(Tmp, X),
- hipe_rtl:mk_branch(Tmp, 'eq', HeaderImm, TrueLab, FalseLab, Pred)].
+ [test_is_boxed(X, hipe_rtl:label_name(BoxedLab), NotPosBignumLab, Pred),
+ BoxedLab,
+ get_header(Tmp, X)] ++
+ case NotPosBignumLab =:= FalseLab of
+ true -> [];
+ false ->
+ BignumLab = hipe_rtl:mk_new_label(),
+ BigMask = ?TAG_HEADER_MASK,
+ [mask_and_compare(Tmp, BigMask, ?TAG_HEADER_POS_BIG,
+ hipe_rtl:label_name(BignumLab), NotPosBignumLab, Pred),
+ BignumLab]
+ end ++
+ [hipe_rtl:mk_branch(Tmp, 'eq', HeaderImm, TrueLab, FalseLab, Pred)].
test_matchstate(X, TrueLab, FalseLab, Pred) ->
Tmp = hipe_rtl:mk_new_reg_gcsafe(),