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-rw-r--r--lib/compiler/src/Makefile2
-rw-r--r--lib/compiler/src/beam_asm.erl5
-rw-r--r--lib/compiler/src/beam_block.erl484
-rw-r--r--lib/compiler/src/beam_bool.erl2
-rw-r--r--lib/compiler/src/beam_bs.erl278
-rw-r--r--lib/compiler/src/beam_clean.erl22
-rw-r--r--lib/compiler/src/beam_dead.erl57
-rw-r--r--lib/compiler/src/beam_dict.erl11
-rw-r--r--lib/compiler/src/beam_jump.erl2
-rw-r--r--lib/compiler/src/beam_peep.erl44
-rw-r--r--lib/compiler/src/beam_reorder.erl139
-rw-r--r--lib/compiler/src/beam_split.erl4
-rw-r--r--lib/compiler/src/beam_type.erl156
-rw-r--r--lib/compiler/src/beam_utils.erl9
-rw-r--r--lib/compiler/src/beam_validator.erl57
-rw-r--r--lib/compiler/src/cerl_trees.erl223
-rw-r--r--lib/compiler/src/compile.erl39
-rw-r--r--lib/compiler/src/compiler.app.src2
-rw-r--r--lib/compiler/src/core_lib.erl38
-rw-r--r--lib/compiler/src/core_lint.erl4
-rw-r--r--lib/compiler/src/rec_env.erl11
-rw-r--r--lib/compiler/src/sys_core_dsetel.erl36
-rw-r--r--lib/compiler/src/sys_core_fold.erl6
-rw-r--r--lib/compiler/src/sys_pre_expand.erl179
-rw-r--r--lib/compiler/src/v3_codegen.erl25
-rw-r--r--lib/compiler/src/v3_core.erl47
-rw-r--r--lib/compiler/src/v3_kernel.erl21
27 files changed, 1119 insertions, 784 deletions
diff --git a/lib/compiler/src/Makefile b/lib/compiler/src/Makefile
index 299b2892fc..f75beaba20 100644
--- a/lib/compiler/src/Makefile
+++ b/lib/compiler/src/Makefile
@@ -50,6 +50,7 @@ MODULES = \
beam_asm \
beam_block \
beam_bool \
+ beam_bs \
beam_bsm \
beam_clean \
beam_dead \
@@ -62,6 +63,7 @@ MODULES = \
beam_opcodes \
beam_peep \
beam_receive \
+ beam_reorder \
beam_split \
beam_trim \
beam_type \
diff --git a/lib/compiler/src/beam_asm.erl b/lib/compiler/src/beam_asm.erl
index a3201b0f4a..95be471de3 100644
--- a/lib/compiler/src/beam_asm.erl
+++ b/lib/compiler/src/beam_asm.erl
@@ -30,11 +30,12 @@
module(Code, Abst, SourceFile, Opts) ->
{ok,assemble(Code, Abst, SourceFile, Opts)}.
-assemble({Mod,Exp,Attr0,Asm0,NumLabels}, Abst, SourceFile, Opts) ->
+assemble({Mod,Exp0,Attr0,Asm0,NumLabels}, Abst, SourceFile, Opts) ->
{1,Dict0} = beam_dict:atom(Mod, beam_dict:new()),
{0,Dict1} = beam_dict:fname(atom_to_list(Mod) ++ ".erl", Dict0),
NumFuncs = length(Asm0),
{Asm,Attr} = on_load(Asm0, Attr0),
+ Exp = cerl_sets:from_list(Exp0),
{Code,Dict2} = assemble_1(Asm, Exp, Dict1, []),
build_file(Code, Attr, Dict2, NumLabels, NumFuncs, Abst, SourceFile, Opts).
@@ -61,7 +62,7 @@ insert_on_load_instruction(Is0, Entry) ->
Bef ++ [El,on_load|Is].
assemble_1([{function,Name,Arity,Entry,Asm}|T], Exp, Dict0, Acc) ->
- Dict1 = case member({Name,Arity}, Exp) of
+ Dict1 = case cerl_sets:is_element({Name,Arity}, Exp) of
true ->
beam_dict:export(Name, Arity, Entry, Dict0);
false ->
diff --git a/lib/compiler/src/beam_block.erl b/lib/compiler/src/beam_block.erl
index 0321b1c07b..10dbaf462c 100644
--- a/lib/compiler/src/beam_block.erl
+++ b/lib/compiler/src/beam_block.erl
@@ -23,14 +23,13 @@
-module(beam_block).
-export([module/2]).
--import(lists, [mapfoldl/3,reverse/1,reverse/2,foldl/3,member/2]).
--define(MAXREG, 1024).
+-import(lists, [reverse/1,reverse/2,foldl/3,member/2]).
-module({Mod,Exp,Attr,Fs0,Lc0}, _Opt) ->
- {Fs,Lc} = mapfoldl(fun function/2, Lc0, Fs0),
+module({Mod,Exp,Attr,Fs0,Lc}, _Opt) ->
+ Fs = [function(F) || F <- Fs0],
{ok,{Mod,Exp,Attr,Fs,Lc}}.
-function({function,Name,Arity,CLabel,Is0}, Lc0) ->
+function({function,Name,Arity,CLabel,Is0}) ->
try
%% Collect basic blocks and optimize them.
Is1 = blockify(Is0),
@@ -40,11 +39,8 @@ function({function,Name,Arity,CLabel,Is0}, Lc0) ->
Is5 = opt_blocks(Is4),
Is6 = beam_utils:delete_live_annos(Is5),
- %% Optimize bit syntax.
- {Is,Lc} = bsm_opt(Is6, Lc0),
-
%% Done.
- {{function,Name,Arity,CLabel,Is},Lc}
+ {function,Name,Arity,CLabel,Is6}
catch
Class:Error ->
Stack = erlang:get_stacktrace(),
@@ -62,56 +58,15 @@ blockify(Is) ->
blockify([{loop_rec,{f,Fail},{x,0}},{loop_rec_end,_Lbl},{label,Fail}|Is], Acc) ->
%% Useless instruction sequence.
blockify(Is, Acc);
-blockify([{test,is_atom,{f,Fail},[Reg]}=I|
- [{select,select_val,Reg,{f,Fail},
- [{atom,false},{f,_}=BrFalse,
- {atom,true}=AtomTrue,{f,_}=BrTrue]}|Is]=Is0],
- [{block,Bl}|_]=Acc) ->
- case is_last_bool(Bl, Reg) of
- false ->
- blockify(Is0, [I|Acc]);
- true ->
- %% The last instruction is a boolean operator/guard BIF that can't fail.
- %% We can convert the three-way branch to a two-way branch (eliminating
- %% the reference to the failure label).
- blockify(Is, [{jump,BrTrue},
- {test,is_eq_exact,BrFalse,[Reg,AtomTrue]}|Acc])
- end;
-blockify([{test,is_atom,{f,Fail},[Reg]}=I|
- [{select,select_val,Reg,{f,Fail},
- [{atom,true}=AtomTrue,{f,_}=BrTrue,
- {atom,false},{f,_}=BrFalse]}|Is]=Is0],
- [{block,Bl}|_]=Acc) ->
- case is_last_bool(Bl, Reg) of
- false ->
- blockify(Is0, [I|Acc]);
- true ->
- blockify(Is, [{jump,BrTrue},
- {test,is_eq_exact,BrFalse,[Reg,AtomTrue]}|Acc])
- end;
blockify([I|Is0]=IsAll, Acc) ->
- case is_bs_put(I) of
- true ->
- {BsPuts0,Is} = collect_bs_puts(IsAll),
- BsPuts = opt_bs_puts(BsPuts0),
- blockify(Is, reverse(BsPuts, Acc));
- false ->
- case collect(I) of
- error -> blockify(Is0, [I|Acc]);
- Instr when is_tuple(Instr) ->
- {Block,Is} = collect_block(IsAll),
- blockify(Is, [{block,Block}|Acc])
- end
+ case collect(I) of
+ error -> blockify(Is0, [I|Acc]);
+ Instr when is_tuple(Instr) ->
+ {Block,Is} = collect_block(IsAll),
+ blockify(Is, [{block,Block}|Acc])
end;
blockify([], Acc) -> reverse(Acc).
-is_last_bool([{set,[Reg],As,{bif,N,_}}], Reg) ->
- Ar = length(As),
- erl_internal:new_type_test(N, Ar) orelse erl_internal:comp_op(N, Ar)
- orelse erl_internal:bool_op(N, Ar);
-is_last_bool([_|Is], Reg) -> is_last_bool(Is, Reg);
-is_last_bool([], _) -> false.
-
collect_block(Is) ->
collect_block(Is, []).
@@ -149,7 +104,10 @@ collect({put_map,F,Op,S,D,R,{list,Puts}}) ->
collect({get_map_elements,F,S,{list,Gets}}) ->
{Ss,Ds} = beam_utils:split_even(Gets),
{set,Ds,[S|Ss],{get_map_elements,F}};
-collect({'catch',R,L}) -> {set,[R],[],{'catch',L}};
+collect({'catch'=Op,R,L}) ->
+ {set,[R],[],{try_catch,Op,L}};
+collect({'try'=Op,R,L}) ->
+ {set,[R],[],{try_catch,Op,L}};
collect(fclearerror) -> {set,[],[],fclearerror};
collect({fcheckerror,{f,0}}) -> {set,[],[],fcheckerror};
collect({fmove,S,D}) -> {set,[D],[S],fmove};
@@ -183,7 +141,9 @@ opt_blocks([I|Is]) ->
opt_blocks([]) -> [].
opt_block(Is0) ->
- Is = find_fixpoint(fun opt/1, Is0),
+ Is = find_fixpoint(fun(Is) ->
+ opt_tuple_element(opt(Is))
+ end, Is0),
opt_alloc(Is).
find_fixpoint(OptFun, Is0) ->
@@ -279,76 +239,151 @@ opt_moves([X0,Y0], Is0) ->
not_possible -> {[X,Y0],Is2};
{X,_} -> {[X,Y0],Is2};
{Y,Is} -> {[X,Y],Is}
- end;
-opt_moves(Ds, Is) ->
- %% multiple destinations -> pass through
- {Ds,Is}.
-
+ end.
%% opt_move(Dest, [Instruction]) -> {UpdatedDest,[Instruction]} | not_possible
%% If there is a {move,Dest,FinalDest} instruction
%% in the instruction stream, remove the move instruction
%% and let FinalDest be the destination.
-%%
-%% For this optimization to be safe, we must be sure that
-%% Dest will not be referenced in any other by other instructions
-%% in the rest of the instruction stream. Not even the indirect
-%% reference by an instruction that may allocate (such as
-%% test_heap/2 or a GC Bif) is allowed.
opt_move(Dest, Is) ->
- opt_move_1(Dest, Is, ?MAXREG, []).
-
-opt_move_1(R, [{set,_,_,{alloc,Live,_}}|_]=Is, SafeRegs, Acc) when Live < SafeRegs ->
- %% Downgrade number of safe regs and rescan the instruction, as it most probably
- %% is a gc_bif instruction.
- opt_move_1(R, Is, Live, Acc);
-opt_move_1(R, [{set,[{x,X}=D],[R],move}|Is], SafeRegs, Acc) ->
- case X < SafeRegs andalso beam_utils:is_killed_block(R, Is) of
- true -> opt_move_2(D, Acc, Is);
- false -> not_possible
+ opt_move_1(Dest, Is, []).
+
+opt_move_1(R, [{set,[D],[R],move}|Is0], Acc) ->
+ %% Provided that the source register is killed by instructions
+ %% that follow, the optimization is safe.
+ case eliminate_use_of_from_reg(Is0, R, D, []) of
+ {yes,Is} -> opt_move_rev(D, Acc, Is);
+ no -> not_possible
end;
-opt_move_1(R, [{set,[D],[R],move}|Is], _SafeRegs, Acc) ->
- case beam_utils:is_killed_block(R, Is) of
- true -> opt_move_2(D, Acc, Is);
- false -> not_possible
+opt_move_1({x,_}, [{set,_,_,{alloc,_,_}}|_], _) ->
+ %% The optimization is not possible. If the X register is not
+ %% killed by allocation, the optimization would not be safe.
+ %% If the X register is killed, it means that there cannot
+ %% follow a 'move' instruction with this X register as the
+ %% source.
+ not_possible;
+opt_move_1(R, [{set,_,_,_}=I|Is], Acc) ->
+ %% If the source register is either killed or used by this
+ %% instruction, the optimimization is not possible.
+ case is_killed_or_used(R, I) of
+ true -> not_possible;
+ false -> opt_move_1(R, Is, [I|Acc])
end;
-opt_move_1(R, [I|Is], SafeRegs, Acc) ->
- case is_transparent(R, I) of
- false -> not_possible;
- true -> opt_move_1(R, Is, SafeRegs, [I|Acc])
- end.
+opt_move_1(_, _, _) ->
+ not_possible.
+
+%% opt_tuple_element([Instruction]) -> [Instruction]
+%% If possible, move get_tuple_element instructions forward
+%% in the instruction stream to a move instruction, eliminating
+%% the move instruction. Example:
+%%
+%% get_tuple_element Tuple Pos Dst1
+%% ...
+%% move Dst1 Dst2
+%%
+%% This code may be possible to rewrite to:
+%%
+%% %%(Moved get_tuple_element instruction)
+%% ...
+%% get_tuple_element Tuple Pos Dst2
+%%
-%% Reverse the instructions, while checking that there are no instructions that
-%% would interfere with using the new destination register chosen.
+opt_tuple_element([{set,[D],[S],{get_tuple_element,_}}=I|Is0]) ->
+ case opt_tuple_element_1(Is0, I, {S,D}, []) of
+ no ->
+ [I|opt_tuple_element(Is0)];
+ {yes,Is} ->
+ opt_tuple_element(Is)
+ end;
+opt_tuple_element([I|Is]) ->
+ [I|opt_tuple_element(Is)];
+opt_tuple_element([]) -> [].
+
+opt_tuple_element_1([{set,_,_,{alloc,_,_}}|_], _, _, _) ->
+ no;
+opt_tuple_element_1([{set,_,_,{try_catch,_,_}}|_], _, _, _) ->
+ no;
+opt_tuple_element_1([{set,[D],[S],move}|Is0], I0, {_,S}, Acc) ->
+ case eliminate_use_of_from_reg(Is0, S, D, []) of
+ no ->
+ no;
+ {yes,Is} ->
+ {set,[S],Ss,Op} = I0,
+ I = {set,[D],Ss,Op},
+ {yes,reverse(Acc, [I|Is])}
+ end;
+opt_tuple_element_1([{set,Ds,Ss,_}=I|Is], MovedI, {S,D}=Regs, Acc) ->
+ case member(S, Ds) orelse member(D, Ss) of
+ true ->
+ no;
+ false ->
+ opt_tuple_element_1(Is, MovedI, Regs, [I|Acc])
+ end;
+opt_tuple_element_1(_, _, _, _) -> no.
+
+%% Reverse the instructions, while checking that there are no
+%% instructions that would interfere with using the new destination
+%% register (D).
-opt_move_2(D, [I|Is], Acc) ->
- case is_transparent(D, I) of
- false -> not_possible;
- true -> opt_move_2(D, Is, [I|Acc])
+opt_move_rev(D, [I|Is], Acc) ->
+ case is_killed_or_used(D, I) of
+ true -> not_possible;
+ false -> opt_move_rev(D, Is, [I|Acc])
+ end;
+opt_move_rev(D, [], Acc) -> {D,Acc}.
+
+%% is_killed_or_used(Register, {set,_,_,_}) -> bool()
+%% Test whether the register is used by the instruction.
+
+is_killed_or_used(R, {set,Ss,Ds,_}) ->
+ member(R, Ds) orelse member(R, Ss).
+
+%% eliminate_use_of_from_reg([Instruction], FromRegister, ToRegister, Acc) ->
+%% {yes,Is} | no
+%% Eliminate any use of FromRegister in the instruction sequence
+%% by replacing uses of FromRegister with ToRegister. If FromRegister
+%% is referenced by an allocation instruction, return 'no' to indicate
+%% that FromRegister is still used and that the optimization is not
+%% possible.
+
+eliminate_use_of_from_reg([{set,_,_,{alloc,Live,_}}|_]=Is0, {x,X}, _, Acc) ->
+ if
+ X < Live ->
+ no;
+ true ->
+ {yes,reverse(Acc, Is0)}
end;
-opt_move_2(D, [], Acc) -> {D,Acc}.
-
-%% is_transparent(Register, Instruction) -> true | false
-%% Returns true if Instruction does not in any way references Register
-%% (even indirectly by an allocation instruction).
-%% Returns false if Instruction does reference Register, or we are
-%% not sure.
-
-is_transparent({x,X}, {set,_,_,{alloc,Live,_}}) when X < Live ->
- false;
-is_transparent(R, {set,Ds,Ss,_Op}) ->
- case member(R, Ds) of
- true -> false;
- false -> not member(R, Ss)
+eliminate_use_of_from_reg([{set,Ds,Ss0,Op}=I0|Is], From, To, Acc) ->
+ I = case member(From, Ss0) of
+ true ->
+ Ss = [case S of
+ From -> To;
+ _ -> S
+ end || S <- Ss0],
+ {set,Ds,Ss,Op};
+ false ->
+ I0
+ end,
+ case member(From, Ds) of
+ true ->
+ {yes,reverse(Acc, [I|Is])};
+ false ->
+ eliminate_use_of_from_reg(Is, From, To, [I|Acc])
end;
-is_transparent(_, _) -> false.
+eliminate_use_of_from_reg([I]=Is, From, _To, Acc) ->
+ case beam_utils:is_killed_block(From, [I]) of
+ true ->
+ {yes,reverse(Acc, Is)};
+ false ->
+ no
+ end.
%% opt_alloc(Instructions) -> Instructions'
%% Optimises all allocate instructions.
opt_alloc([{set,[],[],{alloc,R,{_,Ns,Nh,[]}}}|Is]) ->
- [{set,[],[],opt_alloc(Is, Ns, Nh, R)}|opt(Is)];
+ [{set,[],[],opt_alloc(Is, Ns, Nh, R)}|Is];
opt_alloc([I|Is]) -> [I|opt_alloc(Is)];
opt_alloc([]) -> [].
@@ -414,234 +449,3 @@ x_dead([], Regs) -> Regs.
x_live([{x,N}|Rs], Regs) -> x_live(Rs, Regs bor (1 bsl N));
x_live([_|Rs], Regs) -> x_live(Rs, Regs);
x_live([], Regs) -> Regs.
-
-%%%
-%%% Evaluation of constant bit fields.
-%%%
-
-is_bs_put({bs_put,_,{bs_put_integer,_,_},_}) -> true;
-is_bs_put({bs_put,_,{bs_put_float,_,_},_}) -> true;
-is_bs_put(_) -> false.
-
-collect_bs_puts(Is) ->
- collect_bs_puts_1(Is, []).
-
-collect_bs_puts_1([I|Is]=Is0, Acc) ->
- case is_bs_put(I) of
- false -> {reverse(Acc),Is0};
- true -> collect_bs_puts_1(Is, [I|Acc])
- end.
-
-opt_bs_puts(Is) ->
- opt_bs_1(Is, []).
-
-opt_bs_1([{bs_put,Fail,
- {bs_put_float,1,Flags0},[{integer,Sz},Src]}=I0|Is], Acc) ->
- try eval_put_float(Src, Sz, Flags0) of
- <<Int:Sz>> ->
- Flags = force_big(Flags0),
- I = {bs_put,Fail,{bs_put_integer,1,Flags},
- [{integer,Sz},{integer,Int}]},
- opt_bs_1([I|Is], Acc)
- catch
- error:_ ->
- opt_bs_1(Is, [I0|Acc])
- end;
-opt_bs_1([{bs_put,_,{bs_put_integer,1,_},[{integer,8},{integer,_}]}|_]=IsAll,
- Acc0) ->
- {Is,Acc} = bs_collect_string(IsAll, Acc0),
- opt_bs_1(Is, Acc);
-opt_bs_1([{bs_put,Fail,{bs_put_integer,1,F},[{integer,Sz},{integer,N}]}=I|Is0],
- Acc) when Sz > 8 ->
- case field_endian(F) of
- big ->
- %% We can do this optimization for any field size without risk
- %% for code explosion.
- case bs_split_int(N, Sz, Fail, Is0) of
- no_split -> opt_bs_1(Is0, [I|Acc]);
- Is -> opt_bs_1(Is, Acc)
- end;
- little when Sz < 128 ->
- %% We only try to optimize relatively small fields, to avoid
- %% an explosion in code size.
- <<Int:Sz>> = <<N:Sz/little>>,
- Flags = force_big(F),
- Is = [{bs_put,Fail,{bs_put_integer,1,Flags},
- [{integer,Sz},{integer,Int}]}|Is0],
- opt_bs_1(Is, Acc);
- _ -> %native or too wide little field
- opt_bs_1(Is0, [I|Acc])
- end;
-opt_bs_1([{bs_put,Fail,{Op,U,F},[{integer,Sz},Src]}|Is], Acc) when U > 1 ->
- opt_bs_1([{bs_put,Fail,{Op,1,F},[{integer,U*Sz},Src]}|Is], Acc);
-opt_bs_1([I|Is], Acc) ->
- opt_bs_1(Is, [I|Acc]);
-opt_bs_1([], Acc) -> reverse(Acc).
-
-eval_put_float(Src, Sz, Flags) when Sz =< 256 -> %Only evaluate if Sz is reasonable.
- Val = value(Src),
- case field_endian(Flags) of
- little -> <<Val:Sz/little-float-unit:1>>;
- big -> <<Val:Sz/big-float-unit:1>>
- %% native intentionally not handled here - we can't optimize it.
- end.
-
-value({integer,I}) -> I;
-value({float,F}) -> F.
-
-bs_collect_string(Is, [{bs_put,_,{bs_put_string,Len,{string,Str}},[]}|Acc]) ->
- bs_coll_str_1(Is, Len, reverse(Str), Acc);
-bs_collect_string(Is, Acc) ->
- bs_coll_str_1(Is, 0, [], Acc).
-
-bs_coll_str_1([{bs_put,_,{bs_put_integer,U,_},[{integer,Sz},{integer,V}]}|Is],
- Len, StrAcc, IsAcc) when U*Sz =:= 8 ->
- Byte = V band 16#FF,
- bs_coll_str_1(Is, Len+1, [Byte|StrAcc], IsAcc);
-bs_coll_str_1(Is, Len, StrAcc, IsAcc) ->
- {Is,[{bs_put,{f,0},{bs_put_string,Len,{string,reverse(StrAcc)}},[]}|IsAcc]}.
-
-field_endian({field_flags,F}) -> field_endian_1(F).
-
-field_endian_1([big=E|_]) -> E;
-field_endian_1([little=E|_]) -> E;
-field_endian_1([native=E|_]) -> E;
-field_endian_1([_|Fs]) -> field_endian_1(Fs).
-
-force_big({field_flags,F}) ->
- {field_flags,force_big_1(F)}.
-
-force_big_1([big|_]=Fs) -> Fs;
-force_big_1([little|Fs]) -> [big|Fs];
-force_big_1([F|Fs]) -> [F|force_big_1(Fs)].
-
-bs_split_int(0, Sz, _, _) when Sz > 64 ->
- %% We don't want to split in this case because the
- %% string will consist of only zeroes.
- no_split;
-bs_split_int(-1, Sz, _, _) when Sz > 64 ->
- %% We don't want to split in this case because the
- %% string will consist of only 255 bytes.
- no_split;
-bs_split_int(N, Sz, Fail, Acc) ->
- FirstByteSz = case Sz rem 8 of
- 0 -> 8;
- Rem -> Rem
- end,
- bs_split_int_1(N, FirstByteSz, Sz, Fail, Acc).
-
-bs_split_int_1(-1, _, Sz, Fail, Acc) when Sz > 64 ->
- I = {bs_put,Fail,{bs_put_integer,1,{field_flags,[big]}},
- [{integer,Sz},{integer,-1}]},
- [I|Acc];
-bs_split_int_1(0, _, Sz, Fail, Acc) when Sz > 64 ->
- I = {bs_put,Fail,{bs_put_integer,1,{field_flags,[big]}},
- [{integer,Sz},{integer,0}]},
- [I|Acc];
-bs_split_int_1(N, ByteSz, Sz, Fail, Acc) when Sz > 0 ->
- Mask = (1 bsl ByteSz) - 1,
- I = {bs_put,Fail,{bs_put_integer,1,{field_flags,[big]}},
- [{integer,ByteSz},{integer,N band Mask}]},
- bs_split_int_1(N bsr ByteSz, 8, Sz-ByteSz, Fail, [I|Acc]);
-bs_split_int_1(_, _, _, _, Acc) -> Acc.
-
-
-%%%
-%%% Optimization of new bit syntax matching: get rid
-%%% of redundant bs_restore2/2 instructions across select_val
-%%% instructions, as well as a few other simple peep-hole optimizations.
-%%%
-
-bsm_opt(Is0, Lc0) ->
- {Is1,D0,Lc} = bsm_scan(Is0, [], Lc0, []),
- Is2 = case D0 of
- [] ->
- Is1;
- _ ->
- D = gb_trees:from_orddict(orddict:from_list(D0)),
- bsm_reroute(Is1, D, none, [])
- end,
- Is = beam_clean:bs_clean_saves(Is2),
- {bsm_opt_2(Is, []),Lc}.
-
-bsm_scan([{label,L}=Lbl,{bs_restore2,_,Save}=R|Is], D0, Lc, Acc0) ->
- D = [{{L,Save},Lc}|D0],
- Acc = [{label,Lc},R,Lbl|Acc0],
- bsm_scan(Is, D, Lc+1, Acc);
-bsm_scan([I|Is], D, Lc, Acc) ->
- bsm_scan(Is, D, Lc, [I|Acc]);
-bsm_scan([], D, Lc, Acc) ->
- {reverse(Acc),D,Lc}.
-
-bsm_reroute([{bs_save2,Reg,Save}=I|Is], D, _, Acc) ->
- bsm_reroute(Is, D, {Reg,Save}, [I|Acc]);
-bsm_reroute([{bs_restore2,Reg,Save}=I|Is], D, _, Acc) ->
- bsm_reroute(Is, D, {Reg,Save}, [I|Acc]);
-bsm_reroute([{label,_}=I|Is], D, S, Acc) ->
- bsm_reroute(Is, D, S, [I|Acc]);
-bsm_reroute([{select,select_val,Reg,F0,Lbls0}|Is], D, {_,Save}=S, Acc0) ->
- [F|Lbls] = bsm_subst_labels([F0|Lbls0], Save, D),
- Acc = [{select,select_val,Reg,F,Lbls}|Acc0],
- bsm_reroute(Is, D, S, Acc);
-bsm_reroute([{test,TestOp,F0,TestArgs}=I|Is], D, {_,Save}=S, Acc0) ->
- F = bsm_subst_label(F0, Save, D),
- Acc = [{test,TestOp,F,TestArgs}|Acc0],
- case bsm_not_bs_test(I) of
- true ->
- %% The test instruction will not update the bit offset for the
- %% binary being matched. Therefore the save position can be kept.
- bsm_reroute(Is, D, S, Acc);
- false ->
- %% The test instruction might update the bit offset. Kill our
- %% remembered Save position.
- bsm_reroute(Is, D, none, Acc)
- end;
-bsm_reroute([{test,TestOp,F0,Live,TestArgs,Dst}|Is], D, {_,Save}, Acc0) ->
- F = bsm_subst_label(F0, Save, D),
- Acc = [{test,TestOp,F,Live,TestArgs,Dst}|Acc0],
- %% The test instruction will update the bit offset. Kill our
- %% remembered Save position.
- bsm_reroute(Is, D, none, Acc);
-bsm_reroute([{block,[{set,[],[],{alloc,_,_}}]}=Bl,
- {bs_context_to_binary,_}=I|Is], D, S, Acc) ->
- %% To help further bit syntax optimizations.
- bsm_reroute([I,Bl|Is], D, S, Acc);
-bsm_reroute([I|Is], D, _, Acc) ->
- bsm_reroute(Is, D, none, [I|Acc]);
-bsm_reroute([], _, _, Acc) -> reverse(Acc).
-
-bsm_opt_2([{test,bs_test_tail2,F,[Ctx,Bits]}|Is],
- [{test,bs_skip_bits2,F,[Ctx,{integer,I},Unit,_Flags]}|Acc]) ->
- bsm_opt_2(Is, [{test,bs_test_tail2,F,[Ctx,Bits+I*Unit]}|Acc]);
-bsm_opt_2([{test,bs_skip_bits2,F,[Ctx,{integer,I1},Unit1,_]}|Is],
- [{test,bs_skip_bits2,F,[Ctx,{integer,I2},Unit2,Flags]}|Acc]) ->
- bsm_opt_2(Is, [{test,bs_skip_bits2,F,
- [Ctx,{integer,I1*Unit1+I2*Unit2},1,Flags]}|Acc]);
-bsm_opt_2([I|Is], Acc) ->
- bsm_opt_2(Is, [I|Acc]);
-bsm_opt_2([], Acc) -> reverse(Acc).
-
-%% bsm_not_bs_test({test,Name,_,Operands}) -> true|false.
-%% Test whether is the test is a "safe", i.e. does not move the
-%% bit offset for a binary.
-%%
-%% 'true' means that the test is safe, 'false' that we don't know or
-%% that the test moves the offset (e.g. bs_get_integer2).
-
-bsm_not_bs_test({test,bs_test_tail2,_,[_,_]}) -> true;
-bsm_not_bs_test(Test) -> beam_utils:is_pure_test(Test).
-
-bsm_subst_labels(Fs, Save, D) ->
- bsm_subst_labels_1(Fs, Save, D, []).
-
-bsm_subst_labels_1([F|Fs], Save, D, Acc) ->
- bsm_subst_labels_1(Fs, Save, D, [bsm_subst_label(F, Save, D)|Acc]);
-bsm_subst_labels_1([], _, _, Acc) ->
- reverse(Acc).
-
-bsm_subst_label({f,Lbl0}=F, Save, D) ->
- case gb_trees:lookup({Lbl0,Save}, D) of
- {value,Lbl} -> {f,Lbl};
- none -> F
- end;
-bsm_subst_label(Other, _, _) -> Other.
diff --git a/lib/compiler/src/beam_bool.erl b/lib/compiler/src/beam_bool.erl
index d14be83496..efd935f666 100644
--- a/lib/compiler/src/beam_bool.erl
+++ b/lib/compiler/src/beam_bool.erl
@@ -25,8 +25,6 @@
-import(lists, [reverse/1,reverse/2,foldl/3,mapfoldl/3,map/2]).
--define(MAXREG, 1024).
-
-record(st,
{next, %Next label number.
ll %Live regs at labels.
diff --git a/lib/compiler/src/beam_bs.erl b/lib/compiler/src/beam_bs.erl
new file mode 100644
index 0000000000..55fa7ce10c
--- /dev/null
+++ b/lib/compiler/src/beam_bs.erl
@@ -0,0 +1,278 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 1999-2013. All Rights Reserved.
+%%
+%% Licensed under the Apache License, Version 2.0 (the "License");
+%% you may not use this file except in compliance with the License.
+%% You may obtain a copy of the License at
+%%
+%% http://www.apache.org/licenses/LICENSE-2.0
+%%
+%% Unless required by applicable law or agreed to in writing, software
+%% distributed under the License is distributed on an "AS IS" BASIS,
+%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+%% See the License for the specific language governing permissions and
+%% limitations under the License.
+%%
+%% %CopyrightEnd%
+%%
+%% Purpose : Partitions assembly instructions into basic blocks and
+%% optimizes them.
+
+-module(beam_bs).
+
+-export([module/2]).
+-import(lists, [mapfoldl/3,reverse/1]).
+
+module({Mod,Exp,Attr,Fs0,Lc0}, _Opt) ->
+ {Fs,Lc} = mapfoldl(fun function/2, Lc0, Fs0),
+ {ok,{Mod,Exp,Attr,Fs,Lc}}.
+
+function({function,Name,Arity,CLabel,Is0}, Lc0) ->
+ try
+ Is1 = bs_put_opt(Is0),
+ {Is,Lc} = bsm_opt(Is1, Lc0),
+ {{function,Name,Arity,CLabel,Is},Lc}
+ catch
+ Class:Error ->
+ Stack = erlang:get_stacktrace(),
+ io:fwrite("Function: ~w/~w\n", [Name,Arity]),
+ erlang:raise(Class, Error, Stack)
+ end.
+
+%%%
+%%% Evaluation of constant bit fields.
+%%%
+
+bs_put_opt([{bs_put,_,_,_}=I|Is0]) ->
+ {BsPuts0,Is} = collect_bs_puts(Is0, [I]),
+ BsPuts = opt_bs_puts(BsPuts0),
+ BsPuts ++ bs_put_opt(Is);
+bs_put_opt([I|Is]) ->
+ [I|bs_put_opt(Is)];
+bs_put_opt([]) -> [].
+
+collect_bs_puts([{bs_put,_,_,_}=I|Is], Acc) ->
+ collect_bs_puts(Is, [I|Acc]);
+collect_bs_puts([_|_]=Is, Acc) ->
+ {reverse(Acc),Is}.
+
+opt_bs_puts(Is) ->
+ opt_bs_1(Is, []).
+
+opt_bs_1([{bs_put,Fail,
+ {bs_put_float,1,Flags0},[{integer,Sz},Src]}=I0|Is], Acc) ->
+ try eval_put_float(Src, Sz, Flags0) of
+ <<Int:Sz>> ->
+ Flags = force_big(Flags0),
+ I = {bs_put,Fail,{bs_put_integer,1,Flags},
+ [{integer,Sz},{integer,Int}]},
+ opt_bs_1([I|Is], Acc)
+ catch
+ error:_ ->
+ opt_bs_1(Is, [I0|Acc])
+ end;
+opt_bs_1([{bs_put,_,{bs_put_integer,1,_},[{integer,8},{integer,_}]}|_]=IsAll,
+ Acc0) ->
+ {Is,Acc} = bs_collect_string(IsAll, Acc0),
+ opt_bs_1(Is, Acc);
+opt_bs_1([{bs_put,Fail,{bs_put_integer,1,F},[{integer,Sz},{integer,N}]}=I|Is0],
+ Acc) when Sz > 8 ->
+ case field_endian(F) of
+ big ->
+ %% We can do this optimization for any field size without
+ %% risk for code explosion.
+ case bs_split_int(N, Sz, Fail, Is0) of
+ no_split -> opt_bs_1(Is0, [I|Acc]);
+ Is -> opt_bs_1(Is, Acc)
+ end;
+ little when Sz < 128 ->
+ %% We only try to optimize relatively small fields, to
+ %% avoid an explosion in code size.
+ <<Int:Sz>> = <<N:Sz/little>>,
+ Flags = force_big(F),
+ Is = [{bs_put,Fail,{bs_put_integer,1,Flags},
+ [{integer,Sz},{integer,Int}]}|Is0],
+ opt_bs_1(Is, Acc);
+ _ -> %native or too wide little field
+ opt_bs_1(Is0, [I|Acc])
+ end;
+opt_bs_1([{bs_put,Fail,{Op,U,F},[{integer,Sz},Src]}|Is], Acc) when U > 1 ->
+ opt_bs_1([{bs_put,Fail,{Op,1,F},[{integer,U*Sz},Src]}|Is], Acc);
+opt_bs_1([I|Is], Acc) ->
+ opt_bs_1(Is, [I|Acc]);
+opt_bs_1([], Acc) -> reverse(Acc).
+
+eval_put_float(Src, Sz, Flags) when Sz =< 256 ->
+ %%Only evaluate if Sz is reasonable.
+ Val = value(Src),
+ case field_endian(Flags) of
+ little -> <<Val:Sz/little-float-unit:1>>;
+ big -> <<Val:Sz/big-float-unit:1>>
+ %% native intentionally not handled here - we can't optimize
+ %% it.
+ end.
+
+value({integer,I}) -> I;
+value({float,F}) -> F.
+
+bs_collect_string(Is, [{bs_put,_,{bs_put_string,Len,{string,Str}},[]}|Acc]) ->
+ bs_coll_str_1(Is, Len, reverse(Str), Acc);
+bs_collect_string(Is, Acc) ->
+ bs_coll_str_1(Is, 0, [], Acc).
+
+bs_coll_str_1([{bs_put,_,{bs_put_integer,U,_},[{integer,Sz},{integer,V}]}|Is],
+ Len, StrAcc, IsAcc) when U*Sz =:= 8 ->
+ Byte = V band 16#FF,
+ bs_coll_str_1(Is, Len+1, [Byte|StrAcc], IsAcc);
+bs_coll_str_1(Is, Len, StrAcc, IsAcc) ->
+ {Is,[{bs_put,{f,0},{bs_put_string,Len,{string,reverse(StrAcc)}},[]}|IsAcc]}.
+
+field_endian({field_flags,F}) -> field_endian_1(F).
+
+field_endian_1([big=E|_]) -> E;
+field_endian_1([little=E|_]) -> E;
+field_endian_1([native=E|_]) -> E;
+field_endian_1([_|Fs]) -> field_endian_1(Fs).
+
+force_big({field_flags,F}) ->
+ {field_flags,force_big_1(F)}.
+
+force_big_1([big|_]=Fs) -> Fs;
+force_big_1([little|Fs]) -> [big|Fs];
+force_big_1([F|Fs]) -> [F|force_big_1(Fs)].
+
+bs_split_int(0, Sz, _, _) when Sz > 64 ->
+ %% We don't want to split in this case because the
+ %% string will consist of only zeroes.
+ no_split;
+bs_split_int(-1, Sz, _, _) when Sz > 64 ->
+ %% We don't want to split in this case because the
+ %% string will consist of only 255 bytes.
+ no_split;
+bs_split_int(N, Sz, Fail, Acc) ->
+ FirstByteSz = case Sz rem 8 of
+ 0 -> 8;
+ Rem -> Rem
+ end,
+ bs_split_int_1(N, FirstByteSz, Sz, Fail, Acc).
+
+bs_split_int_1(-1, _, Sz, Fail, Acc) when Sz > 64 ->
+ I = {bs_put,Fail,{bs_put_integer,1,{field_flags,[big]}},
+ [{integer,Sz},{integer,-1}]},
+ [I|Acc];
+bs_split_int_1(0, _, Sz, Fail, Acc) when Sz > 64 ->
+ I = {bs_put,Fail,{bs_put_integer,1,{field_flags,[big]}},
+ [{integer,Sz},{integer,0}]},
+ [I|Acc];
+bs_split_int_1(N, ByteSz, Sz, Fail, Acc) when Sz > 0 ->
+ Mask = (1 bsl ByteSz) - 1,
+ I = {bs_put,Fail,{bs_put_integer,1,{field_flags,[big]}},
+ [{integer,ByteSz},{integer,N band Mask}]},
+ bs_split_int_1(N bsr ByteSz, 8, Sz-ByteSz, Fail, [I|Acc]);
+bs_split_int_1(_, _, _, _, Acc) -> Acc.
+
+%%%
+%%% Optimization of bit syntax matching: get rid
+%%% of redundant bs_restore2/2 instructions across select_val
+%%% instructions, as well as a few other simple peep-hole
+%%% optimizations.
+%%%
+
+bsm_opt(Is0, Lc0) ->
+ {Is1,D0,Lc} = bsm_scan(Is0, [], Lc0, []),
+ Is2 = case D0 of
+ [] ->
+ %% No bit syntax matching in this function.
+ Is1;
+ [_|_] ->
+ %% Optimize the bit syntax matching.
+ D = gb_trees:from_orddict(orddict:from_list(D0)),
+ bsm_reroute(Is1, D, none, [])
+ end,
+ Is = beam_clean:bs_clean_saves(Is2),
+ {bsm_opt_2(Is, []),Lc}.
+
+bsm_scan([{label,L}=Lbl,{bs_restore2,_,Save}=R|Is], D0, Lc, Acc0) ->
+ D = [{{L,Save},Lc}|D0],
+ Acc = [{label,Lc},R,Lbl|Acc0],
+ bsm_scan(Is, D, Lc+1, Acc);
+bsm_scan([I|Is], D, Lc, Acc) ->
+ bsm_scan(Is, D, Lc, [I|Acc]);
+bsm_scan([], D, Lc, Acc) ->
+ {reverse(Acc),D,Lc}.
+
+bsm_reroute([{bs_save2,Reg,Save}=I|Is], D, _, Acc) ->
+ bsm_reroute(Is, D, {Reg,Save}, [I|Acc]);
+bsm_reroute([{bs_restore2,Reg,Save}=I|Is], D, _, Acc) ->
+ bsm_reroute(Is, D, {Reg,Save}, [I|Acc]);
+bsm_reroute([{label,_}=I|Is], D, S, Acc) ->
+ bsm_reroute(Is, D, S, [I|Acc]);
+bsm_reroute([{select,select_val,Reg,F0,Lbls0}|Is], D, {_,Save}=S, Acc0) ->
+ [F|Lbls] = bsm_subst_labels([F0|Lbls0], Save, D),
+ Acc = [{select,select_val,Reg,F,Lbls}|Acc0],
+ bsm_reroute(Is, D, S, Acc);
+bsm_reroute([{test,TestOp,F0,TestArgs}=I|Is], D, {_,Save}=S, Acc0) ->
+ F = bsm_subst_label(F0, Save, D),
+ Acc = [{test,TestOp,F,TestArgs}|Acc0],
+ case bsm_not_bs_test(I) of
+ true ->
+ %% The test instruction will not update the bit offset for
+ %% the binary being matched. Therefore the save position
+ %% can be kept.
+ bsm_reroute(Is, D, S, Acc);
+ false ->
+ %% The test instruction might update the bit offset. Kill
+ %% our remembered Save position.
+ bsm_reroute(Is, D, none, Acc)
+ end;
+bsm_reroute([{test,TestOp,F0,Live,TestArgs,Dst}|Is], D, {_,Save}, Acc0) ->
+ F = bsm_subst_label(F0, Save, D),
+ Acc = [{test,TestOp,F,Live,TestArgs,Dst}|Acc0],
+ %% The test instruction will update the bit offset. Kill our
+ %% remembered Save position.
+ bsm_reroute(Is, D, none, Acc);
+bsm_reroute([{block,[{set,[],[],{alloc,_,_}}]}=Bl,
+ {bs_context_to_binary,_}=I|Is], D, S, Acc) ->
+ %% To help further bit syntax optimizations.
+ bsm_reroute([I,Bl|Is], D, S, Acc);
+bsm_reroute([I|Is], D, _, Acc) ->
+ bsm_reroute(Is, D, none, [I|Acc]);
+bsm_reroute([], _, _, Acc) -> reverse(Acc).
+
+bsm_opt_2([{test,bs_test_tail2,F,[Ctx,Bits]}|Is],
+ [{test,bs_skip_bits2,F,[Ctx,{integer,I},Unit,_Flags]}|Acc]) ->
+ bsm_opt_2(Is, [{test,bs_test_tail2,F,[Ctx,Bits+I*Unit]}|Acc]);
+bsm_opt_2([{test,bs_skip_bits2,F,[Ctx,{integer,I1},Unit1,_]}|Is],
+ [{test,bs_skip_bits2,F,[Ctx,{integer,I2},Unit2,Flags]}|Acc]) ->
+ bsm_opt_2(Is, [{test,bs_skip_bits2,F,
+ [Ctx,{integer,I1*Unit1+I2*Unit2},1,Flags]}|Acc]);
+bsm_opt_2([I|Is], Acc) ->
+ bsm_opt_2(Is, [I|Acc]);
+bsm_opt_2([], Acc) -> reverse(Acc).
+
+%% bsm_not_bs_test({test,Name,_,Operands}) -> true|false.
+%% Test whether is the test is a "safe", i.e. does not move the
+%% bit offset for a binary.
+%%
+%% 'true' means that the test is safe, 'false' that we don't know or
+%% that the test moves the offset (e.g. bs_get_integer2).
+
+bsm_not_bs_test({test,bs_test_tail2,_,[_,_]}) -> true;
+bsm_not_bs_test(Test) -> beam_utils:is_pure_test(Test).
+
+bsm_subst_labels(Fs, Save, D) ->
+ bsm_subst_labels_1(Fs, Save, D, []).
+
+bsm_subst_labels_1([F|Fs], Save, D, Acc) ->
+ bsm_subst_labels_1(Fs, Save, D, [bsm_subst_label(F, Save, D)|Acc]);
+bsm_subst_labels_1([], _, _, Acc) ->
+ reverse(Acc).
+
+bsm_subst_label({f,Lbl0}=F, Save, D) ->
+ case gb_trees:lookup({Lbl0,Save}, D) of
+ {value,Lbl} -> {f,Lbl};
+ none -> F
+ end;
+bsm_subst_label(Other, _, _) -> Other.
diff --git a/lib/compiler/src/beam_clean.erl b/lib/compiler/src/beam_clean.erl
index 919ee3ee7d..d9108c383d 100644
--- a/lib/compiler/src/beam_clean.erl
+++ b/lib/compiler/src/beam_clean.erl
@@ -141,7 +141,7 @@ renumber_labels([{bif,is_record,{f,_},
renumber_labels(Is, Acc, St);
renumber_labels([{test,is_record,{f,_}=Fail,
[Term,{atom,Tag}=TagAtom,{integer,Arity}]}|Is0], Acc, St) ->
- Tmp = {x,1023},
+ Tmp = {x,1022},
Is = case is_record_tuple(Term, Tag, Arity) of
yes ->
Is0;
@@ -190,17 +190,11 @@ replace([{test,Test,{f,Lbl},Ops}|Is], Acc, D) ->
replace([{test,Test,{f,Lbl},Live,Ops,Dst}|Is], Acc, D) ->
replace(Is, [{test,Test,{f,label(Lbl, D)},Live,Ops,Dst}|Acc], D);
replace([{select,I,R,{f,Fail0},Vls0}|Is], Acc, D) ->
- Vls1 = map(fun ({f,L}) -> {f,label(L, D)};
- (Other) -> Other end, Vls0),
+ Vls = map(fun ({f,L}) -> {f,label(L, D)};
+ (Other) -> Other
+ end, Vls0),
Fail = label(Fail0, D),
- case redundant_values(Vls1, Fail, []) of
- [] ->
- %% Oops, no choices left. The loader will not accept that.
- %% Convert to a plain jump.
- replace(Is, [{jump,{f,Fail}}|Acc], D);
- Vls ->
- replace(Is, [{select,I,R,{f,Fail},Vls}|Acc], D)
- end;
+ replace(Is, [{select,I,R,{f,Fail},Vls}|Acc], D);
replace([{'try',R,{f,Lbl}}|Is], Acc, D) ->
replace(Is, [{'try',R,{f,label(Lbl, D)}}|Acc], D);
replace([{'catch',R,{f,Lbl}}|Is], Acc, D) ->
@@ -241,12 +235,6 @@ label(Old, D) ->
{value,Val} -> Val;
none -> throw({error,{undefined_label,Old}})
end.
-
-redundant_values([_,{f,Fail}|Vls], Fail, Acc) ->
- redundant_values(Vls, Fail, Acc);
-redundant_values([Val,Lbl|Vls], Fail, Acc) ->
- redundant_values(Vls, Fail, [Lbl,Val|Acc]);
-redundant_values([], _, Acc) -> reverse(Acc).
%%%
%%% Final fixup of bs_start_match2/5,bs_save2/bs_restore2 instructions for
diff --git a/lib/compiler/src/beam_dead.erl b/lib/compiler/src/beam_dead.erl
index ead88b57e9..11129c39bc 100644
--- a/lib/compiler/src/beam_dead.erl
+++ b/lib/compiler/src/beam_dead.erl
@@ -239,11 +239,26 @@ backward([{test,is_eq_exact,Fail,[Dst,{integer,Arity}]}=I|
backward([{label,Lbl}=L|Is], D, Acc) ->
backward(Is, beam_utils:index_label(Lbl, Acc, D), [L|Acc]);
backward([{select,select_val,Reg,{f,Fail0},List0}|Is], D, Acc) ->
- List = shortcut_select_list(List0, Reg, D, []),
+ List1 = shortcut_select_list(List0, Reg, D, []),
Fail1 = shortcut_label(Fail0, D),
Fail = shortcut_bs_test(Fail1, Is, D),
- Sel = {select,select_val,Reg,{f,Fail},List},
- backward(Is, D, [Sel|Acc]);
+ List = prune_redundant(List1, Fail),
+ case List of
+ [] ->
+ Jump = {jump,{f,Fail}},
+ backward([Jump|Is], D, Acc);
+ [V,F] ->
+ Test = {test,is_eq_exact,{f,Fail},[Reg,V]},
+ Jump = {jump,F},
+ backward([Jump,Test|Is], D, Acc);
+ [{atom,B1},F,{atom,B2},F] when B1 =:= not B2 ->
+ Test = {test,is_boolean,{f,Fail},[Reg]},
+ Jump = {jump,F},
+ backward([Jump,Test|Is], D, Acc);
+ [_|_] ->
+ Sel = {select,select_val,Reg,{f,Fail},List},
+ backward(Is, D, [Sel|Acc])
+ end;
backward([{jump,{f,To0}},{move,Src,Reg}=Move|Is], D, Acc) ->
To = shortcut_select_label(To0, Reg, Src, D),
Jump = {jump,{f,To}},
@@ -257,14 +272,17 @@ backward([{jump,{f,To}}=J|[{bif,Op,_,Ops,Reg}|Is]=Is0], D, Acc) ->
catch
throw:not_possible -> backward(Is0, D, [J|Acc])
end;
-backward([{test,bs_start_match2,F,_,[R,_],Ctxt}=I|Is], D,
+backward([{test,bs_start_match2,F,Live,[R,_]=Args,Ctxt}|Is], D,
[{test,bs_match_string,F,[Ctxt,Bs]},
{test,bs_test_tail2,F,[Ctxt,0]}|Acc0]=Acc) ->
+ {f,To0} = F,
+ To = shortcut_bs_start_match(To0, R, D),
case beam_utils:is_killed(Ctxt, Acc0, D) of
true ->
- Eq = {test,is_eq_exact,F,[R,{literal,Bs}]},
+ Eq = {test,is_eq_exact,{f,To},[R,{literal,Bs}]},
backward(Is, D, [Eq|Acc0]);
false ->
+ I = {test,bs_start_match2,{f,To},Live,Args,Ctxt},
backward(Is, D, [I|Acc])
end;
backward([{test,bs_start_match2,{f,To0},Live,[Src|_]=Info,Dst}|Is], D, Acc) ->
@@ -295,7 +313,28 @@ backward([{test,Op,{f,To0},Ops0}|Is], D, Acc) ->
is_eq_exact -> combine_eqs(To, Ops0, D, Acc);
_ -> {test,Op,{f,To},Ops0}
end,
- backward(Is, D, [I|Acc]);
+ case {I,Acc} of
+ {{test,is_atom,Fail,Ops0},[{test,is_boolean,Fail,Ops0}|_]} ->
+ %% An is_atom test before an is_boolean test (with the
+ %% same failure label) is redundant.
+ backward(Is, D, Acc);
+ {{test,is_atom,Fail,[R]},
+ [{test,is_eq_exact,Fail,[R,{atom,_}]}|_]} ->
+ %% An is_atom test before a comparison with an atom (with
+ %% the same failure label) is redundant.
+ backward(Is, D, Acc);
+ {{test,is_integer,Fail,[R]},
+ [{test,is_eq_exact,Fail,[R,{integer,_}]}|_]} ->
+ %% An is_integer test before a comparison with an integer
+ %% (with the same failure label) is redundant.
+ backward(Is, D, Acc);
+ {{test,_,_,_},_} ->
+ %% Still a test instruction. Done.
+ backward(Is, D, [I|Acc]);
+ {_,_} ->
+ %% Rewritten to a select_val. Rescan.
+ backward([I|Is], D, Acc)
+ end;
backward([{test,Op,{f,To0},Live,Ops0,Dst}|Is], D, Acc) ->
To1 = shortcut_bs_test(To0, Is, D),
To2 = shortcut_label(To1, D),
@@ -348,6 +387,12 @@ shortcut_label(To0, D) ->
shortcut_select_label(To, Reg, Lit, D) ->
shortcut_rel_op(To, is_ne_exact, [Reg,Lit], D).
+prune_redundant([_,{f,Fail}|T], Fail) ->
+ prune_redundant(T, Fail);
+prune_redundant([V,F|T], Fail) ->
+ [V,F|prune_redundant(T, Fail)];
+prune_redundant([], _) -> [].
+
%% Replace a comparison operator with a test instruction and a jump.
%% For example, if we have this code:
%%
diff --git a/lib/compiler/src/beam_dict.erl b/lib/compiler/src/beam_dict.erl
index 2b5f8c1b7f..654fb47dbd 100644
--- a/lib/compiler/src/beam_dict.erl
+++ b/lib/compiler/src/beam_dict.erl
@@ -44,7 +44,7 @@
locals = [] :: [{label(), arity(), label()}],
imports = gb_trees:empty() :: import_tab(),
strings = <<>> :: binary(), %String pool
- lambdas = [], %[{...}]
+ lambdas = {0,[]}, %[{...}]
literals = dict:new() :: literal_tab(),
fnames = #{} :: fname_tab(),
lines = #{} :: line_tab(),
@@ -145,15 +145,14 @@ string(Str, Dict) when is_list(Str) ->
-spec lambda(label(), non_neg_integer(), bdict()) ->
{non_neg_integer(), bdict()}.
-lambda(Lbl, NumFree, #asm{lambdas=Lambdas0}=Dict) ->
- OldIndex = length(Lambdas0),
+lambda(Lbl, NumFree, #asm{lambdas={OldIndex,Lambdas0}}=Dict) ->
%% Set Index the same as OldIndex.
Index = OldIndex,
%% Initialize OldUniq to 0. It will be set to an unique value
%% based on the MD5 checksum of the BEAM code for the module.
OldUniq = 0,
Lambdas = [{Lbl,{OldIndex,Lbl,Index,NumFree,OldUniq}}|Lambdas0],
- {OldIndex,Dict#asm{lambdas=Lambdas}}.
+ {OldIndex,Dict#asm{lambdas={OldIndex+1,Lambdas}}}.
%% Returns the index for a literal (adding it to the literal table if necessary).
%% literal(Literal, Dict) -> {Index,Dict'}
@@ -236,13 +235,13 @@ string_table(#asm{strings=Strings,string_offset=Size}) ->
-spec lambda_table(bdict()) -> {non_neg_integer(), [<<_:192>>]}.
-lambda_table(#asm{locals=Loc0,lambdas=Lambdas0}) ->
+lambda_table(#asm{locals=Loc0,lambdas={NumLambdas,Lambdas0}}) ->
Lambdas1 = sofs:relation(Lambdas0),
Loc = sofs:relation([{Lbl,{F,A}} || {F,A,Lbl} <- Loc0]),
Lambdas2 = sofs:relative_product1(Lambdas1, Loc),
Lambdas = [<<F:32,A:32,Lbl:32,Index:32,NumFree:32,OldUniq:32>> ||
{{_,Lbl,Index,NumFree,OldUniq},{F,A}} <- sofs:to_external(Lambdas2)],
- {length(Lambdas),Lambdas}.
+ {NumLambdas,Lambdas}.
%% Returns the literal table.
%% literal_table(Dict) -> {NumLiterals, [<<TermSize>>,TermInExternalFormat]}
diff --git a/lib/compiler/src/beam_jump.erl b/lib/compiler/src/beam_jump.erl
index 5e58e0f6ac..3b6eb19fe8 100644
--- a/lib/compiler/src/beam_jump.erl
+++ b/lib/compiler/src/beam_jump.erl
@@ -495,7 +495,7 @@ is_label_used_in_block({set,_,_,Info}, Lbl) ->
{alloc,_,{gc_bif,_,{f,F}}} -> F =:= Lbl;
{alloc,_,{put_map,_,{f,F}}} -> F =:= Lbl;
{get_map_elements,{f,F}} -> F =:= Lbl;
- {'catch',{f,F}} -> F =:= Lbl;
+ {try_catch,_,{f,F}} -> F =:= Lbl;
{alloc,_,_} -> false;
{put_tuple,_} -> false;
{get_tuple_element,_} -> false;
diff --git a/lib/compiler/src/beam_peep.erl b/lib/compiler/src/beam_peep.erl
index 17fd2e502a..0c1abfe6a0 100644
--- a/lib/compiler/src/beam_peep.erl
+++ b/lib/compiler/src/beam_peep.erl
@@ -65,18 +65,6 @@ function({function,Name,Arity,CLabel,Is0}) ->
%% InEncoding =:= latin1, OutEncoding =:= unicode;
%% InEncoding =:= latin1, OutEncoding =:= utf8 ->
%%
-%% (2) A select_val/4 instruction that only verifies that
-%% its argument is either 'true' or 'false' can be
-%% be replaced with an is_boolean/2 instruction. That is:
-%%
-%% select_val Reg Fail [ true Next false Next ]
-%% Next: ...
-%%
-%% can be rewritten to
-%%
-%% is_boolean Fail Reg
-%% Next: ...
-%%
peep(Is) ->
peep(Is, gb_sets:empty(), []).
@@ -95,12 +83,16 @@ peep([{gc_bif,_,_,_,_,Dst}=I|Is], SeenTests0, Acc) ->
%% Kill all remembered tests that depend on the destination register.
SeenTests = kill_seen(Dst, SeenTests0),
peep(Is, SeenTests, [I|Acc]);
-peep([{test,is_boolean,{f,Fail},Ops}|_]=Is, SeenTests,
- [{test,is_atom,{f,Fail},Ops}|Acc]) ->
- %% The previous is_atom/2 test (with the same failure label) is redundant.
- %% (If is_boolean(Src) is true, is_atom(Src) is also true, so it is
- %% OK to still remember that we have seen is_atom/1.)
- peep(Is, SeenTests, Acc);
+peep([{select,Op,R,F,Vls0}|Is], _, Acc) ->
+ case prune_redundant_values(Vls0, F) of
+ [] ->
+ %% No values left. Must convert to plain jump.
+ I = {jump,F},
+ peep(Is, gb_sets:empty(), [I|Acc]);
+ [_|_]=Vls ->
+ I = {select,Op,R,F,Vls},
+ peep(Is, gb_sets:empty(), [I|Acc])
+ end;
peep([{test,Op,_,Ops}=I|Is], SeenTests0, Acc) ->
case beam_utils:is_pure_test(I) of
false ->
@@ -121,16 +113,6 @@ peep([{test,Op,_,Ops}=I|Is], SeenTests0, Acc) ->
peep(Is, SeenTests, [I|Acc])
end
end;
-peep([{select,select_val,Src,Fail,
- [{atom,false},{f,L},{atom,true},{f,L}]}|
- [{label,L}|_]=Is], SeenTests, Acc) ->
- I = {test,is_boolean,Fail,[Src]},
- peep([I|Is], SeenTests, Acc);
-peep([{select,select_val,Src,Fail,
- [{atom,true},{f,L},{atom,false},{f,L}]}|
- [{label,L}|_]=Is], SeenTests, Acc) ->
- I = {test,is_boolean,Fail,[Src]},
- peep([I|Is], SeenTests, Acc);
peep([I|Is], _, Acc) ->
%% An unknown instruction. Throw away all information we
%% have collected about test instructions.
@@ -155,3 +137,9 @@ kill_seen_1([{_,Ops}=Test|T], Dst) ->
false -> [Test|kill_seen_1(T, Dst)]
end;
kill_seen_1([], _) -> [].
+
+prune_redundant_values([_Val,F|Vls], F) ->
+ prune_redundant_values(Vls, F);
+prune_redundant_values([Val,Lbl|Vls], F) ->
+ [Val,Lbl|prune_redundant_values(Vls, F)];
+prune_redundant_values([], _) -> [].
diff --git a/lib/compiler/src/beam_reorder.erl b/lib/compiler/src/beam_reorder.erl
new file mode 100644
index 0000000000..41586a7bf2
--- /dev/null
+++ b/lib/compiler/src/beam_reorder.erl
@@ -0,0 +1,139 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 1999-2013. All Rights Reserved.
+%%
+%% Licensed under the Apache License, Version 2.0 (the "License");
+%% you may not use this file except in compliance with the License.
+%% You may obtain a copy of the License at
+%%
+%% http://www.apache.org/licenses/LICENSE-2.0
+%%
+%% Unless required by applicable law or agreed to in writing, software
+%% distributed under the License is distributed on an "AS IS" BASIS,
+%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+%% See the License for the specific language governing permissions and
+%% limitations under the License.
+%%
+%% %CopyrightEnd%
+%%
+
+-module(beam_reorder).
+
+-export([module/2]).
+-import(lists, [member/2,reverse/1]).
+
+module({Mod,Exp,Attr,Fs0,Lc}, _Opt) ->
+ Fs = [function(F) || F <- Fs0],
+ {ok,{Mod,Exp,Attr,Fs,Lc}}.
+
+function({function,Name,Arity,CLabel,Is0}) ->
+ try
+ Is = reorder(Is0),
+ {function,Name,Arity,CLabel,Is}
+ catch
+ Class:Error ->
+ Stack = erlang:get_stacktrace(),
+ io:fwrite("Function: ~w/~w\n", [Name,Arity]),
+ erlang:raise(Class, Error, Stack)
+ end.
+
+%% reorder(Instructions0) -> Instructions
+%% Reorder instructions before the beam_block pass, because reordering
+%% will be more cumbersome when the blocks are in place.
+%%
+%% Execution of get_tuple_element instructions can be delayed until
+%% they are actually needed. Consider the sequence:
+%%
+%% get_tuple_element Tuple Pos Dst
+%% test Test Fail Operands
+%%
+%% If Dst is killed at label Fail (and not referenced in Operands),
+%% we can can swap the instructions:
+%%
+%% test Test Fail Operands
+%% get_tuple_element Tuple Pos Dst
+%%
+%% That can be beneficial in two ways: Firstly, if the branch is taken
+%% we have avoided execution of the get_tuple_element instruction.
+%% Secondly, even if the branch is not taken, subsequent optimization
+%% (opt_blocks/1) may be able to change Dst to the final destination
+%% register and eliminate a 'move' instruction.
+
+reorder(Is) ->
+ D = beam_utils:index_labels(Is),
+ reorder_1(Is, D, []).
+
+reorder_1([{Op,_,_}=TryCatch|[I|Is]=Is0], D, Acc)
+ when Op =:= 'catch'; Op =:= 'try' ->
+ %% Don't allow 'try' or 'catch' instructions to split blocks if
+ %% it can be avoided.
+ case is_safe(I) of
+ false ->
+ reorder_1(Is0, D, [TryCatch|Acc]);
+ true ->
+ reorder_1([TryCatch|Is], D, [I|Acc])
+ end;
+reorder_1([{label,L}=I|_], D, Acc) ->
+ Is = beam_utils:code_at(L, D),
+ reorder_1(Is, D, [I|Acc]);
+reorder_1([{test,is_nonempty_list,_,_}=I|Is], D, Acc) ->
+ %% The run-time system may combine the is_nonempty_list test with
+ %% the following get_list instruction.
+ reorder_1(Is, D, [I|Acc]);
+reorder_1([{test,_,_,_}=I,
+ {select,_,_,_,_}=S|Is], D, Acc) ->
+ %% There is nothing to gain by inserting a get_tuple_element
+ %% instruction between the test instruction and the select
+ %% instruction.
+ reorder_1(Is, D, [S,I|Acc]);
+reorder_1([{test,_,{f,L},Ss}=I|Is0], D0,
+ [{get_tuple_element,_,_,El}=G|Acc0]=Acc) ->
+ case member(El, Ss) of
+ true ->
+ reorder_1(Is0, D0, [I|Acc]);
+ false ->
+ case beam_utils:is_killed_at(El, L, D0) of
+ true ->
+ Is = [I,G|Is0],
+ reorder_1(Is, D0, Acc0);
+ false ->
+ case beam_utils:is_killed(El, Is0, D0) of
+ true ->
+ Code0 = beam_utils:code_at(L, D0),
+ Code = [G|Code0],
+ D = beam_utils:index_label(L, Code, D0),
+ Is = [I|Is0],
+ reorder_1(Is, D, Acc0);
+ false ->
+ reorder_1(Is0, D0, [I|Acc])
+ end
+ end
+ end;
+reorder_1([{allocate_zero,N,Live}=I0|Is], D,
+ [{get_tuple_element,{x,Tup},_,{x,Dst}}=G|Acc]=Acc0) ->
+ case Tup < Dst andalso Dst+1 =:= Live of
+ true ->
+ %% Move allocation instruction upwards past
+ %% get_tuple_element instructions to create more
+ %% opportunities for moving get_tuple_element
+ %% instructions.
+ I = {allocate_zero,N,Dst},
+ reorder_1([I,G|Is], D, Acc);
+ false ->
+ reorder_1(Is, D, [I0|Acc0])
+ end;
+reorder_1([I|Is], D, Acc) ->
+ reorder_1(Is, D, [I|Acc]);
+reorder_1([], _, Acc) -> reverse(Acc).
+
+%% is_safe(Instruction) -> true|false
+%% Test whether an instruction is safe (cannot cause an exception).
+
+is_safe({kill,_}) -> true;
+is_safe({move,_,_}) -> true;
+is_safe({put,_}) -> true;
+is_safe({put_list,_,_,_}) -> true;
+is_safe({put_tuple,_,_}) -> true;
+is_safe({test_heap,_,_}) -> true;
+is_safe(_) -> false.
diff --git a/lib/compiler/src/beam_split.erl b/lib/compiler/src/beam_split.erl
index 3be9311080..bb1c0e23a9 100644
--- a/lib/compiler/src/beam_split.erl
+++ b/lib/compiler/src/beam_split.erl
@@ -57,8 +57,8 @@ split_block([{set,[D],[S|Puts],{alloc,R,{put_map,Op,{f,Lbl}=Fail}}}|Is],
split_block([{set,Ds,[S|Ss],{get_map_elements,Fail}}|Is], Bl, Acc) ->
Gets = beam_utils:join_even(Ss,Ds),
split_block(Is, [], [{get_map_elements,Fail,S,{list,Gets}}|make_block(Bl, Acc)]);
-split_block([{set,[R],[],{'catch',L}}|Is], Bl, Acc) ->
- split_block(Is, [], [{'catch',R,L}|make_block(Bl, Acc)]);
+split_block([{set,[R],[],{try_catch,Op,L}}|Is], Bl, Acc) ->
+ split_block(Is, [], [{Op,R,L}|make_block(Bl, Acc)]);
split_block([{set,[],[],{line,_}=Line}|Is], Bl, Acc) ->
split_block(Is, [], [Line|make_block(Bl, Acc)]);
split_block([I|Is], Bl, Acc) ->
diff --git a/lib/compiler/src/beam_type.erl b/lib/compiler/src/beam_type.erl
index 5298589f83..4b45c28623 100644
--- a/lib/compiler/src/beam_type.erl
+++ b/lib/compiler/src/beam_type.erl
@@ -23,7 +23,8 @@
-export([module/2]).
--import(lists, [foldl/3,reverse/1,filter/2]).
+-import(lists, [filter/2,foldl/3,keyfind/3,member/2,
+ reverse/1,reverse/2,sort/1]).
module({Mod,Exp,Attr,Fs0,Lc}, _Opts) ->
Fs = [function(F) || F <- Fs0],
@@ -92,8 +93,19 @@ simplify_basic_1([{set,[D],[TupleReg],{get_tuple_element,0}}=I|Is0], Ts0, Acc) -
Ts = update(I, Ts0),
simplify_basic_1(Is0, Ts, [I|Acc])
end;
-simplify_basic_1([{set,_,_,{'catch',_}}=I|Is], _Ts, Acc) ->
+simplify_basic_1([{set,_,_,{try_catch,_,_}}=I|Is], _Ts, Acc) ->
simplify_basic_1(Is, tdb_new(), [I|Acc]);
+simplify_basic_1([{test,is_atom,_,[R]}=I|Is], Ts, Acc) ->
+ case tdb_find(R, Ts) of
+ boolean -> simplify_basic_1(Is, Ts, Acc);
+ _ -> simplify_basic_1(Is, Ts, [I|Acc])
+ end;
+simplify_basic_1([{test,is_integer,_,[R]}=I|Is], Ts, Acc) ->
+ case tdb_find(R, Ts) of
+ integer -> simplify_basic_1(Is, Ts, Acc);
+ {integer,_} -> simplify_basic_1(Is, Ts, Acc);
+ _ -> simplify_basic_1(Is, Ts, [I|Acc])
+ end;
simplify_basic_1([{test,is_tuple,_,[R]}=I|Is], Ts, Acc) ->
case tdb_find(R, Ts) of
{tuple,_,_} -> simplify_basic_1(Is, Ts, Acc);
@@ -137,6 +149,16 @@ simplify_basic_1([{test,is_record,_,[R,{atom,_}=Tag,{integer,Arity}]}=I|Is], Ts0
Ts = update(I, Ts0),
simplify_basic_1(Is, Ts, [I|Acc])
end;
+simplify_basic_1([{select,select_val,Reg,_,_}=I0|Is], Ts, Acc) ->
+ I = case tdb_find(Reg, Ts) of
+ {integer,Range} ->
+ simplify_select_val_int(I0, Range);
+ boolean ->
+ simplify_select_val_bool(I0);
+ _ ->
+ I0
+ end,
+ simplify_basic_1(Is, tdb_new(), [I|Acc]);
simplify_basic_1([I|Is], Ts0, Acc) ->
Ts = update(I, Ts0),
simplify_basic_1(Is, Ts, [I|Acc]);
@@ -144,6 +166,32 @@ simplify_basic_1([], Ts, Acc) ->
Is = reverse(Acc),
{Is,Ts}.
+simplify_select_val_int({select,select_val,R,_,L0}=I, {Min,Max}) ->
+ Vs = sort([V || {integer,V} <- L0]),
+ case eq_ranges(Vs, Min, Max) of
+ false -> I;
+ true -> simplify_select_val_1(L0, {integer,Max}, R, [])
+ end.
+
+simplify_select_val_bool({select,select_val,R,_,L}=I) ->
+ Vs = sort([V || {atom,V} <- L]),
+ case Vs of
+ [false,true] ->
+ simplify_select_val_1(L, {atom,false}, R, []);
+ _ ->
+ I
+ end.
+
+simplify_select_val_1([Val,F|T], Val, R, Acc) ->
+ L = reverse(Acc, T),
+ {select,select_val,R,F,L};
+simplify_select_val_1([V,F|T], Val, R, Acc) ->
+ simplify_select_val_1(T, Val, R, [F,V|Acc]).
+
+eq_ranges([H], H, H) -> true;
+eq_ranges([H|T], H, Max) -> eq_ranges(T, H+1, Max);
+eq_ranges(_, _, _) -> false.
+
%% simplify_float([Instruction], TypeDatabase) ->
%% {[Instruction],TypeDatabase'} | not_possible
%% Simplify floating point operations in blocks.
@@ -199,7 +247,7 @@ simplify_float_1([{set,[D0],[A0,B0],{alloc,_,{gc_bif,Op0,{f,0}}}}=I|Is]=Is0,
Ts = tdb_update([{D0,float}], Ts0),
simplify_float_1(Is, Ts, Rs, Acc)
end;
-simplify_float_1([{set,_,_,{'catch',_}}=I|Is]=Is0, _Ts, Rs0, Acc0) ->
+simplify_float_1([{set,_,_,{try_catch,_,_}}=I|Is]=Is0, _Ts, Rs0, Acc0) ->
Acc = flush_all(Rs0, Is0, Acc0),
simplify_float_1(Is, tdb_new(), Rs0, [I|Acc]);
simplify_float_1([{set,_,_,{line,_}}=I|Is], Ts, Rs, Acc) ->
@@ -311,7 +359,7 @@ flt_need_heap_2({set,_,_,{get_tuple_element,_}}, H, Fl) ->
{[],H,Fl};
flt_need_heap_2({set,_,_,get_list}, H, Fl) ->
{[],H,Fl};
-flt_need_heap_2({set,_,_,{'catch',_}}, H, Fl) ->
+flt_need_heap_2({set,_,_,{try_catch,_,_}}, H, Fl) ->
{[],H,Fl};
%% All other instructions should cause the insertion of an allocation
%% instruction if needed.
@@ -382,6 +430,17 @@ update({set,[D],[{integer,I},Reg],{bif,element,_}}, Ts0) ->
tdb_update([{Reg,{tuple,I,[]}},{D,kill}], Ts0);
update({set,[D],[_Index,Reg],{bif,element,_}}, Ts0) ->
tdb_update([{Reg,{tuple,0,[]}},{D,kill}], Ts0);
+update({set,[D],Args,{bif,N,_}}, Ts0) ->
+ Ar = length(Args),
+ BoolOp = erl_internal:new_type_test(N, Ar) orelse
+ erl_internal:comp_op(N, Ar) orelse
+ erl_internal:bool_op(N, Ar),
+ case BoolOp of
+ true ->
+ tdb_update([{D,boolean}], Ts0);
+ false ->
+ tdb_update([{D,kill}], Ts0)
+ end;
update({set,[D],[S],{get_tuple_element,0}}, Ts) ->
tdb_update([{D,{tuple_element,S,0}}], Ts);
update({set,[D],[S],{alloc,_,{gc_bif,float,{f,0}}}}, Ts0) ->
@@ -390,6 +449,13 @@ update({set,[D],[S],{alloc,_,{gc_bif,float,{f,0}}}}, Ts0) ->
true -> tdb_update([{D,float}], Ts0);
false -> Ts0
end;
+update({set,[D],[S1,S2],{alloc,_,{gc_bif,'band',{f,0}}}}, Ts) ->
+ case keyfind(integer, 1, [S1,S2]) of
+ {integer,N} ->
+ update_band(N, D, Ts);
+ false ->
+ tdb_update([{D,integer}], Ts)
+ end;
update({set,[D],[S1,S2],{alloc,_,{gc_bif,'/',{f,0}}}}, Ts0) ->
%% Make sure we reject non-numeric literals.
case possibly_numeric(S1) andalso possibly_numeric(S2) of
@@ -397,15 +463,17 @@ update({set,[D],[S1,S2],{alloc,_,{gc_bif,'/',{f,0}}}}, Ts0) ->
false -> Ts0
end;
update({set,[D],[S1,S2],{alloc,_,{gc_bif,Op,{f,0}}}}, Ts0) ->
- case arith_op(Op) of
- no ->
- tdb_update([{D,kill}], Ts0);
- {yes,_} ->
+ case op_type(Op) of
+ integer ->
+ tdb_update([{D,integer}], Ts0);
+ {float,_} ->
case {tdb_find(S1, Ts0),tdb_find(S2, Ts0)} of
{float,_} -> tdb_update([{D,float}], Ts0);
{_,float} -> tdb_update([{D,float}], Ts0);
{_,_} -> tdb_update([{D,kill}], Ts0)
- end
+ end;
+ unknown ->
+ tdb_update([{D,kill}], Ts0)
end;
update({set,[],_Src,_Op}, Ts0) -> Ts0;
update({set,[D],_Src,_Op}, Ts0) ->
@@ -437,6 +505,8 @@ update({test,is_record,_Fail,[Src,Tag,{integer,Arity}]}, Ts) ->
tdb_update([{Src,{tuple,Arity,[Tag]}}], Ts);
update({test,_Test,_Fail,_Other}, Ts) ->
Ts;
+update({test,bs_get_integer2,_,_,Args,Dst}, Ts) ->
+ tdb_update([{Dst,get_bs_integer_type(Args)}], Ts);
update({call_ext,Ar,{extfunc,math,Math,Ar}}, Ts) ->
case is_math_bif(Math, Ar) of
true -> tdb_update([{{x,0},float}], Ts);
@@ -453,10 +523,43 @@ update({call,_Arity,_Func}, Ts) -> tdb_kill_xregs(Ts);
update({call_ext,_Arity,_Func}, Ts) -> tdb_kill_xregs(Ts);
update({make_fun2,_,_,_,_}, Ts) -> tdb_kill_xregs(Ts);
update({line,_}, Ts) -> Ts;
+update({bs_save2,_,_}, Ts) -> Ts;
+update({bs_restore2,_,_}, Ts) -> Ts;
%% The instruction is unknown. Kill all information.
update(_I, _Ts) -> tdb_new().
+update_band(N, Reg, Ts) ->
+ Type = update_band_1(N, 0),
+ tdb_update([{Reg,Type}], Ts).
+
+update_band_1(N, Bits) when Bits < 64 ->
+ case 1 bsl Bits of
+ P when P =:= N + 1 ->
+ {integer,{0,N}};
+ P when P > N + 1 ->
+ integer;
+ _ ->
+ update_band_1(N, Bits+1)
+ end;
+update_band_1(_, _) ->
+ %% Negative or large positive number. Give up.
+ integer.
+
+get_bs_integer_type([_,{integer,N},U,{field_flags,Fl}])
+ when N*U < 64 ->
+ NumBits = N*U,
+ case member(unsigned, Fl) of
+ true ->
+ {integer,{0,(1 bsl NumBits)-1}};
+ false ->
+ %% Signed integer. Don't bother.
+ integer
+ end;
+get_bs_integer_type(_) ->
+ %% Avoid creating ranges with a huge upper limit.
+ integer.
+
is_math_bif(cos, 1) -> true;
is_math_bif(cosh, 1) -> true;
is_math_bif(sin, 1) -> true;
@@ -545,11 +648,22 @@ load_reg(V, Ts, Rs0, Is0) ->
{Rs,Is}
end.
-arith_op('+') -> {yes,fadd};
-arith_op('-') -> {yes,fsub};
-arith_op('*') -> {yes,fmul};
-arith_op('/') -> {yes,fdiv};
-arith_op(_) -> no.
+arith_op(Op) ->
+ case op_type(Op) of
+ {float,Instr} -> {yes,Instr};
+ _ -> no
+ end.
+
+op_type('+') -> {float,fadd};
+op_type('-') -> {float,fsub};
+op_type('*') -> {float,fmul};
+%% '/' and 'band' are specially handled.
+op_type('bor') -> integer;
+op_type('bxor') -> integer;
+op_type('bsl') -> integer;
+op_type('bsr') -> integer;
+op_type('div') -> integer;
+op_type(_) -> unknown.
flush(Rs, [{set,[_],[],{put_tuple,_}}|_]=Is0, Acc0) ->
Acc = flush_all(Rs, Is0, Acc0),
@@ -618,7 +732,6 @@ checkerror(Is) ->
checkerror_1(Is, Is).
checkerror_1([{set,[],[],fcheckerror}|_], OrigIs) -> OrigIs;
-checkerror_1([{set,[],[],fclearerror}|_], OrigIs) -> OrigIs;
checkerror_1([{set,_,_,{bif,fadd,_}}|_], OrigIs) -> checkerror_2(OrigIs);
checkerror_1([{set,_,_,{bif,fsub,_}}|_], OrigIs) -> checkerror_2(OrigIs);
checkerror_1([{set,_,_,{bif,fmul,_}}|_], OrigIs) -> checkerror_2(OrigIs);
@@ -640,6 +753,9 @@ checkerror_2(OrigIs) -> [{set,[],[],fcheckerror}|OrigIs].
%%% of the first element).
%%%
%%% 'float' means that the register contains a float.
+%%%
+%%% 'integer' or {integer,{Min,Max}} that the register contains an
+%%% integer.
%% tdb_new() -> EmptyDataBase
%% Creates a new, empty type database.
@@ -729,10 +845,20 @@ merge_type_info({tuple,Sz1,[]}, {tuple,_Sz2,First}=Tuple2) ->
merge_type_info({tuple,Sz1,First}, Tuple2);
merge_type_info({tuple,_Sz1,First}=Tuple1, {tuple,Sz2,_}) ->
merge_type_info(Tuple1, {tuple,Sz2,First});
+merge_type_info(integer, {integer,_}=Int) ->
+ Int;
+merge_type_info({integer,_}=Int, integer) ->
+ Int;
+merge_type_info({integer,{Min1,Max1}}, {integer,{Min2,Max2}}) ->
+ {integer,{max(Min1, Min2),min(Max1, Max2)}};
merge_type_info(NewType, _) ->
verify_type(NewType),
NewType.
+verify_type(boolean) -> ok;
+verify_type(integer) -> ok;
+verify_type({integer,{Min,Max}})
+ when is_integer(Min), is_integer(Max) -> ok;
verify_type(map) -> ok;
verify_type(nonempty_list) -> ok;
verify_type({tuple,Sz,[]}) when is_integer(Sz) -> ok;
diff --git a/lib/compiler/src/beam_utils.erl b/lib/compiler/src/beam_utils.erl
index fbcd5de1bb..68d6105cfa 100644
--- a/lib/compiler/src/beam_utils.erl
+++ b/lib/compiler/src/beam_utils.erl
@@ -484,6 +484,15 @@ check_liveness(R, [{get_map_elements,{f,Fail},S,{list,L}}|Is], St0) ->
Other
end
end;
+check_liveness(R, [{test_heap,N,Live}|Is], St) ->
+ I = {block,[{set,[],[],{alloc,Live,{nozero,nostack,N,[]}}}]},
+ check_liveness(R, [I|Is], St);
+check_liveness(R, [{allocate_zero,N,Live}|Is], St) ->
+ I = {block,[{set,[],[],{alloc,Live,{zero,N,0,[]}}}]},
+ check_liveness(R, [I|Is], St);
+check_liveness(R, [{get_list,S,D1,D2}|Is], St) ->
+ I = {block,[{set,[D1,D2],[S],get_list}]},
+ check_liveness(R, [I|Is], St);
check_liveness(_R, Is, St) when is_list(Is) ->
%% case Is of
%% [I|_] ->
diff --git a/lib/compiler/src/beam_validator.erl b/lib/compiler/src/beam_validator.erl
index 6004f1974e..fd38fc0095 100644
--- a/lib/compiler/src/beam_validator.erl
+++ b/lib/compiler/src/beam_validator.erl
@@ -31,15 +31,6 @@
-import(lists, [reverse/1,foldl/3,foreach/2,dropwhile/2]).
--define(MAXREG, 1024).
-
-%%-define(DEBUG, 1).
--ifdef(DEBUG).
--define(DBG_FORMAT(F, D), (io:format((F), (D)))).
--else.
--define(DBG_FORMAT(F, D), ok).
--endif.
-
%% To be called by the compiler.
module({Mod,Exp,Attr,Fs,Lc}=Code, _Opts)
when is_atom(Mod), is_list(Exp), is_list(Attr), is_integer(Lc) ->
@@ -170,29 +161,18 @@ validate_0(Module, [{function,Name,Ar,Entry,Code}|Fs], Ft) ->
% in the module (those that start with bs_start_match2).
}).
--ifdef(DEBUG).
-print_st(#st{x=Xs,y=Ys,numy=NumY,h=H,ct=Ct}) ->
- io:format(" #st{x=~p~n"
- " y=~p~n"
- " numy=~p,h=~p,ct=~w~n",
- [gb_trees:to_list(Xs),gb_trees:to_list(Ys),NumY,H,Ct]).
--endif.
-
validate_1(Is, Name, Arity, Entry, Ft) ->
validate_2(labels(Is), Name, Arity, Entry, Ft).
validate_2({Ls1,[{func_info,{atom,Mod},{atom,Name},Arity}=_F|Is]},
Name, Arity, Entry, Ft) ->
- lists:foreach(fun (_L) -> ?DBG_FORMAT(" ~p.~n", [{label,_L}]) end, Ls1),
- ?DBG_FORMAT(" ~p.~n", [_F]),
validate_3(labels(Is), Name, Arity, Entry, Mod, Ls1, Ft);
validate_2({Ls1,Is}, Name, Arity, _Entry, _Ft) ->
error({{'_',Name,Arity},{first(Is),length(Ls1),illegal_instruction}}).
validate_3({Ls2,Is}, Name, Arity, Entry, Mod, Ls1, Ft) ->
- lists:foreach(fun (_L) -> ?DBG_FORMAT(" ~p.~n", [{label,_L}]) end, Ls2),
Offset = 1 + length(Ls1) + 1 + length(Ls2),
- EntryOK = (Entry =:= undefined) orelse lists:member(Entry, Ls2),
+ EntryOK = lists:member(Entry, Ls2),
if
EntryOK ->
St = init_state(Arity),
@@ -260,7 +240,6 @@ valfun([], MFA, _Offset, #vst{branched=Targets0,labels=Labels0}=Vst) ->
error({MFA,Error})
end;
valfun([I|Is], MFA, Offset, Vst0) ->
- ?DBG_FORMAT(" ~p.\n", [I]),
valfun(Is, MFA, Offset+1,
try
Vst = val_dsetel(I, Vst0),
@@ -278,7 +257,6 @@ valfun_1({label,Lbl}, #vst{current=St0,branched=B,labels=Lbls}=Vst) ->
valfun_1(_I, #vst{current=none}=Vst) ->
%% Ignore instructions after erlang:error/1,2, which
%% the original R10B compiler thought would return.
- ?DBG_FORMAT("Ignoring ~p\n", [_I]),
Vst;
valfun_1({badmatch,Src}, Vst) ->
assert_term(Src, Vst),
@@ -980,9 +958,9 @@ get_fls(#vst{current=#st{fls=Fls}}) when is_atom(Fls) -> Fls.
init_fregs() -> 0.
-set_freg({fr,Fr}, #vst{current=#st{f=Fregs0}=St}=Vst)
+set_freg({fr,Fr}=Freg, #vst{current=#st{f=Fregs0}=St}=Vst)
when is_integer(Fr), 0 =< Fr ->
- limit_check(Fr),
+ check_limit(Freg),
Bit = 1 bsl Fr,
if
Fregs0 band Bit =:= 0 ->
@@ -995,9 +973,10 @@ set_freg(Fr, _) -> error({bad_target,Fr}).
assert_freg_set({fr,Fr}=Freg, #vst{current=#st{f=Fregs}})
when is_integer(Fr), 0 =< Fr ->
if
- Fregs band (1 bsl Fr) =/= 0 ->
- limit_check(Fr);
- true -> error({uninitialized_reg,Freg})
+ (Fregs bsr Fr) band 1 =:= 0 ->
+ error({uninitialized_reg,Freg});
+ true ->
+ ok
end;
assert_freg_set(Fr, _) -> error({bad_source,Fr}).
@@ -1076,16 +1055,16 @@ set_type(Type, {x,_}=Reg, Vst) -> set_type_reg(Type, Reg, Vst);
set_type(Type, {y,_}=Reg, Vst) -> set_type_y(Type, Reg, Vst);
set_type(_, _, #vst{}=Vst) -> Vst.
-set_type_reg(Type, {x,X}, #vst{current=#st{x=Xs}=St}=Vst)
+set_type_reg(Type, {x,X}=Reg, #vst{current=#st{x=Xs}=St}=Vst)
when is_integer(X), 0 =< X ->
- limit_check(X),
+ check_limit(Reg),
Vst#vst{current=St#st{x=gb_trees:enter(X, Type, Xs)}};
set_type_reg(Type, Reg, Vst) ->
set_type_y(Type, Reg, Vst).
set_type_y(Type, {y,Y}=Reg, #vst{current=#st{y=Ys0}=St}=Vst)
when is_integer(Y), 0 =< Y ->
- limit_check(Y),
+ check_limit(Reg),
Ys = case gb_trees:lookup(Y, Ys0) of
none ->
error({invalid_store,Reg,Type});
@@ -1612,17 +1591,19 @@ return_type_math(pow, 2) -> {float,[]};
return_type_math(pi, 0) -> {float,[]};
return_type_math(F, A) when is_atom(F), is_integer(A), A >= 0 -> term.
-limit_check(Num) when is_integer(Num), Num >= ?MAXREG ->
- error(limit);
-limit_check(_) -> ok.
+check_limit({x,X}) when is_integer(X), X < 1023 ->
+ %% Note: x(1023) is reserved for use by the BEAM loader.
+ ok;
+check_limit({y,Y}) when is_integer(Y), Y < 1024 ->
+ ok;
+check_limit({fr,Fr}) when is_integer(Fr), Fr < 1024 ->
+ ok;
+check_limit(_) ->
+ error(limit).
min(A, B) when is_integer(A), is_integer(B), A < B -> A;
min(A, B) when is_integer(A), is_integer(B) -> B.
gb_trees_from_list(L) -> gb_trees:from_orddict(lists:sort(L)).
--ifdef(DEBUG).
-error(Error) -> exit(Error).
--else.
error(Error) -> throw(Error).
--endif.
diff --git a/lib/compiler/src/cerl_trees.erl b/lib/compiler/src/cerl_trees.erl
index 58bb18e34a..b86be95cab 100644
--- a/lib/compiler/src/cerl_trees.erl
+++ b/lib/compiler/src/cerl_trees.erl
@@ -27,7 +27,7 @@
-module(cerl_trees).
-export([depth/1, fold/3, free_variables/1, get_label/1, label/1, label/2,
- map/2, mapfold/3, size/1, variables/1]).
+ map/2, mapfold/3, mapfold/4, size/1, variables/1]).
-import(cerl, [alias_pat/1, alias_var/1, ann_c_alias/3, ann_c_apply/3,
ann_c_binary/2, ann_c_bitstr/6, ann_c_call/4,
@@ -340,136 +340,162 @@ fold_pairs(_, S, []) ->
%% starting with the given value <code>Initial</code>, while doing a
%% post-order traversal of the tree, much like <code>fold/3</code>.
%%
+%% This is the same as mapfold/4, with an identity function as the
+%% pre-operation.
+%%
%% @see map/2
%% @see fold/3
+%% @see mapfold/4
-spec mapfold(fun((cerl:cerl(), term()) -> {cerl:cerl(), term()}),
term(), cerl:cerl()) -> {cerl:cerl(), term()}.
mapfold(F, S0, T) ->
+ mapfold(fun(T0, A) -> {T0, A} end, F, S0, T).
+
+
+%% @spec mapfold(Pre, Post, Initial::term(), Tree::cerl()) ->
+%% {cerl(), term()}
+%%
+%% Pre = Post = (cerl(), term()) -> {cerl(), term()}
+%%
+%% @doc Does a combined map/fold operation on the nodes of the
+%% tree. It begins by calling <code>Pre</code> on the tree, using the
+%% <code>Initial</code> value. It then deconstructs the top node of
+%% the returned tree and recurses on the children, using the returned
+%% value as the new initial and carrying the returned values from one
+%% call to the next. Finally it reassembles the top node from the
+%% children, calls <code>Post</code> on it and returns the result.
+
+-spec mapfold(fun((cerl:cerl(), term()) -> {cerl:cerl(), term()}),
+ fun((cerl:cerl(), term()) -> {cerl:cerl(), term()}),
+ term(), cerl:cerl()) -> {cerl:cerl(), term()}.
+
+mapfold(Pre, Post, S00, T0) ->
+ {T, S0} = Pre(T0, S00),
case type(T) of
literal ->
case concrete(T) of
[_ | _] ->
- {T1, S1} = mapfold(F, S0, cons_hd(T)),
- {T2, S2} = mapfold(F, S1, cons_tl(T)),
- F(update_c_cons(T, T1, T2), S2);
+ {T1, S1} = mapfold(Pre, Post, S0, cons_hd(T)),
+ {T2, S2} = mapfold(Pre, Post, S1, cons_tl(T)),
+ Post(update_c_cons(T, T1, T2), S2);
V when tuple_size(V) > 0 ->
- {Ts, S1} = mapfold_list(F, S0, tuple_es(T)),
- F(update_c_tuple(T, Ts), S1);
+ {Ts, S1} = mapfold_list(Pre, Post, S0, tuple_es(T)),
+ Post(update_c_tuple(T, Ts), S1);
_ ->
- F(T, S0)
+ Post(T, S0)
end;
var ->
- F(T, S0);
+ Post(T, S0);
values ->
- {Ts, S1} = mapfold_list(F, S0, values_es(T)),
- F(update_c_values(T, Ts), S1);
+ {Ts, S1} = mapfold_list(Pre, Post, S0, values_es(T)),
+ Post(update_c_values(T, Ts), S1);
cons ->
- {T1, S1} = mapfold(F, S0, cons_hd(T)),
- {T2, S2} = mapfold(F, S1, cons_tl(T)),
- F(update_c_cons_skel(T, T1, T2), S2);
+ {T1, S1} = mapfold(Pre, Post, S0, cons_hd(T)),
+ {T2, S2} = mapfold(Pre, Post, S1, cons_tl(T)),
+ Post(update_c_cons_skel(T, T1, T2), S2);
tuple ->
- {Ts, S1} = mapfold_list(F, S0, tuple_es(T)),
- F(update_c_tuple_skel(T, Ts), S1);
+ {Ts, S1} = mapfold_list(Pre, Post, S0, tuple_es(T)),
+ Post(update_c_tuple_skel(T, Ts), S1);
map ->
- {M , S1} = mapfold(F, S0, map_arg(T)),
- {Ts, S2} = mapfold_list(F, S1, map_es(T)),
- F(update_c_map(T, M, Ts), S2);
+ {M , S1} = mapfold(Pre, Post, S0, map_arg(T)),
+ {Ts, S2} = mapfold_list(Pre, Post, S1, map_es(T)),
+ Post(update_c_map(T, M, Ts), S2);
map_pair ->
- {Op, S1} = mapfold(F, S0, map_pair_op(T)),
- {Key, S2} = mapfold(F, S1, map_pair_key(T)),
- {Val, S3} = mapfold(F, S2, map_pair_val(T)),
- F(update_c_map_pair(T,Op,Key,Val), S3);
+ {Op, S1} = mapfold(Pre, Post, S0, map_pair_op(T)),
+ {Key, S2} = mapfold(Pre, Post, S1, map_pair_key(T)),
+ {Val, S3} = mapfold(Pre, Post, S2, map_pair_val(T)),
+ Post(update_c_map_pair(T,Op,Key,Val), S3);
'let' ->
- {Vs, S1} = mapfold_list(F, S0, let_vars(T)),
- {A, S2} = mapfold(F, S1, let_arg(T)),
- {B, S3} = mapfold(F, S2, let_body(T)),
- F(update_c_let(T, Vs, A, B), S3);
+ {Vs, S1} = mapfold_list(Pre, Post, S0, let_vars(T)),
+ {A, S2} = mapfold(Pre, Post, S1, let_arg(T)),
+ {B, S3} = mapfold(Pre, Post, S2, let_body(T)),
+ Post(update_c_let(T, Vs, A, B), S3);
seq ->
- {A, S1} = mapfold(F, S0, seq_arg(T)),
- {B, S2} = mapfold(F, S1, seq_body(T)),
- F(update_c_seq(T, A, B), S2);
+ {A, S1} = mapfold(Pre, Post, S0, seq_arg(T)),
+ {B, S2} = mapfold(Pre, Post, S1, seq_body(T)),
+ Post(update_c_seq(T, A, B), S2);
apply ->
- {E, S1} = mapfold(F, S0, apply_op(T)),
- {As, S2} = mapfold_list(F, S1, apply_args(T)),
- F(update_c_apply(T, E, As), S2);
+ {E, S1} = mapfold(Pre, Post, S0, apply_op(T)),
+ {As, S2} = mapfold_list(Pre, Post, S1, apply_args(T)),
+ Post(update_c_apply(T, E, As), S2);
call ->
- {M, S1} = mapfold(F, S0, call_module(T)),
- {N, S2} = mapfold(F, S1, call_name(T)),
- {As, S3} = mapfold_list(F, S2, call_args(T)),
- F(update_c_call(T, M, N, As), S3);
+ {M, S1} = mapfold(Pre, Post, S0, call_module(T)),
+ {N, S2} = mapfold(Pre, Post, S1, call_name(T)),
+ {As, S3} = mapfold_list(Pre, Post, S2, call_args(T)),
+ Post(update_c_call(T, M, N, As), S3);
primop ->
- {N, S1} = mapfold(F, S0, primop_name(T)),
- {As, S2} = mapfold_list(F, S1, primop_args(T)),
- F(update_c_primop(T, N, As), S2);
+ {N, S1} = mapfold(Pre, Post, S0, primop_name(T)),
+ {As, S2} = mapfold_list(Pre, Post, S1, primop_args(T)),
+ Post(update_c_primop(T, N, As), S2);
'case' ->
- {A, S1} = mapfold(F, S0, case_arg(T)),
- {Cs, S2} = mapfold_list(F, S1, case_clauses(T)),
- F(update_c_case(T, A, Cs), S2);
+ {A, S1} = mapfold(Pre, Post, S0, case_arg(T)),
+ {Cs, S2} = mapfold_list(Pre, Post, S1, case_clauses(T)),
+ Post(update_c_case(T, A, Cs), S2);
clause ->
- {Ps, S1} = mapfold_list(F, S0, clause_pats(T)),
- {G, S2} = mapfold(F, S1, clause_guard(T)),
- {B, S3} = mapfold(F, S2, clause_body(T)),
- F(update_c_clause(T, Ps, G, B), S3);
+ {Ps, S1} = mapfold_list(Pre, Post, S0, clause_pats(T)),
+ {G, S2} = mapfold(Pre, Post, S1, clause_guard(T)),
+ {B, S3} = mapfold(Pre, Post, S2, clause_body(T)),
+ Post(update_c_clause(T, Ps, G, B), S3);
alias ->
- {V, S1} = mapfold(F, S0, alias_var(T)),
- {P, S2} = mapfold(F, S1, alias_pat(T)),
- F(update_c_alias(T, V, P), S2);
+ {V, S1} = mapfold(Pre, Post, S0, alias_var(T)),
+ {P, S2} = mapfold(Pre, Post, S1, alias_pat(T)),
+ Post(update_c_alias(T, V, P), S2);
'fun' ->
- {Vs, S1} = mapfold_list(F, S0, fun_vars(T)),
- {B, S2} = mapfold(F, S1, fun_body(T)),
- F(update_c_fun(T, Vs, B), S2);
+ {Vs, S1} = mapfold_list(Pre, Post, S0, fun_vars(T)),
+ {B, S2} = mapfold(Pre, Post, S1, fun_body(T)),
+ Post(update_c_fun(T, Vs, B), S2);
'receive' ->
- {Cs, S1} = mapfold_list(F, S0, receive_clauses(T)),
- {E, S2} = mapfold(F, S1, receive_timeout(T)),
- {A, S3} = mapfold(F, S2, receive_action(T)),
- F(update_c_receive(T, Cs, E, A), S3);
+ {Cs, S1} = mapfold_list(Pre, Post, S0, receive_clauses(T)),
+ {E, S2} = mapfold(Pre, Post, S1, receive_timeout(T)),
+ {A, S3} = mapfold(Pre, Post, S2, receive_action(T)),
+ Post(update_c_receive(T, Cs, E, A), S3);
'try' ->
- {E, S1} = mapfold(F, S0, try_arg(T)),
- {Vs, S2} = mapfold_list(F, S1, try_vars(T)),
- {B, S3} = mapfold(F, S2, try_body(T)),
- {Evs, S4} = mapfold_list(F, S3, try_evars(T)),
- {H, S5} = mapfold(F, S4, try_handler(T)),
- F(update_c_try(T, E, Vs, B, Evs, H), S5);
+ {E, S1} = mapfold(Pre, Post, S0, try_arg(T)),
+ {Vs, S2} = mapfold_list(Pre, Post, S1, try_vars(T)),
+ {B, S3} = mapfold(Pre, Post, S2, try_body(T)),
+ {Evs, S4} = mapfold_list(Pre, Post, S3, try_evars(T)),
+ {H, S5} = mapfold(Pre, Post, S4, try_handler(T)),
+ Post(update_c_try(T, E, Vs, B, Evs, H), S5);
'catch' ->
- {B, S1} = mapfold(F, S0, catch_body(T)),
- F(update_c_catch(T, B), S1);
+ {B, S1} = mapfold(Pre, Post, S0, catch_body(T)),
+ Post(update_c_catch(T, B), S1);
binary ->
- {Ds, S1} = mapfold_list(F, S0, binary_segments(T)),
- F(update_c_binary(T, Ds), S1);
+ {Ds, S1} = mapfold_list(Pre, Post, S0, binary_segments(T)),
+ Post(update_c_binary(T, Ds), S1);
bitstr ->
- {Val, S1} = mapfold(F, S0, bitstr_val(T)),
- {Size, S2} = mapfold(F, S1, bitstr_size(T)),
- {Unit, S3} = mapfold(F, S2, bitstr_unit(T)),
- {Type, S4} = mapfold(F, S3, bitstr_type(T)),
- {Flags, S5} = mapfold(F, S4, bitstr_flags(T)),
- F(update_c_bitstr(T, Val, Size, Unit, Type, Flags), S5);
+ {Val, S1} = mapfold(Pre, Post, S0, bitstr_val(T)),
+ {Size, S2} = mapfold(Pre, Post, S1, bitstr_size(T)),
+ {Unit, S3} = mapfold(Pre, Post, S2, bitstr_unit(T)),
+ {Type, S4} = mapfold(Pre, Post, S3, bitstr_type(T)),
+ {Flags, S5} = mapfold(Pre, Post, S4, bitstr_flags(T)),
+ Post(update_c_bitstr(T, Val, Size, Unit, Type, Flags), S5);
letrec ->
- {Ds, S1} = mapfold_pairs(F, S0, letrec_defs(T)),
- {B, S2} = mapfold(F, S1, letrec_body(T)),
- F(update_c_letrec(T, Ds, B), S2);
+ {Ds, S1} = mapfold_pairs(Pre, Post, S0, letrec_defs(T)),
+ {B, S2} = mapfold(Pre, Post, S1, letrec_body(T)),
+ Post(update_c_letrec(T, Ds, B), S2);
module ->
- {N, S1} = mapfold(F, S0, module_name(T)),
- {Es, S2} = mapfold_list(F, S1, module_exports(T)),
- {As, S3} = mapfold_pairs(F, S2, module_attrs(T)),
- {Ds, S4} = mapfold_pairs(F, S3, module_defs(T)),
- F(update_c_module(T, N, Es, As, Ds), S4)
+ {N, S1} = mapfold(Pre, Post, S0, module_name(T)),
+ {Es, S2} = mapfold_list(Pre, Post, S1, module_exports(T)),
+ {As, S3} = mapfold_pairs(Pre, Post, S2, module_attrs(T)),
+ {Ds, S4} = mapfold_pairs(Pre, Post, S3, module_defs(T)),
+ Post(update_c_module(T, N, Es, As, Ds), S4)
end.
-mapfold_list(F, S0, [T | Ts]) ->
- {T1, S1} = mapfold(F, S0, T),
- {Ts1, S2} = mapfold_list(F, S1, Ts),
+mapfold_list(Pre, Post, S0, [T | Ts]) ->
+ {T1, S1} = mapfold(Pre, Post, S0, T),
+ {Ts1, S2} = mapfold_list(Pre, Post, S1, Ts),
{[T1 | Ts1], S2};
-mapfold_list(_, S, []) ->
+mapfold_list(_, _, S, []) ->
{[], S}.
-mapfold_pairs(F, S0, [{T1, T2} | Ps]) ->
- {T3, S1} = mapfold(F, S0, T1),
- {T4, S2} = mapfold(F, S1, T2),
- {Ps1, S3} = mapfold_pairs(F, S2, Ps),
+mapfold_pairs(Pre, Post, S0, [{T1, T2} | Ps]) ->
+ {T3, S1} = mapfold(Pre, Post, S0, T1),
+ {T4, S2} = mapfold(Pre, Post, S1, T2),
+ {Ps1, S3} = mapfold_pairs(Pre, Post, S2, Ps),
{[{T3, T4} | Ps1], S3};
-mapfold_pairs(_, S, []) ->
+mapfold_pairs(_, _, S, []) ->
{[], S}.
@@ -640,8 +666,8 @@ vars_in_list([], _, A) ->
vars_in_defs(Ds, S) ->
vars_in_defs(Ds, S, []).
-vars_in_defs([{_, F} | Ds], S, A) ->
- vars_in_defs(Ds, S, ordsets:union(variables(F, S), A));
+vars_in_defs([{_, Post} | Ds], S, A) ->
+ vars_in_defs(Ds, S, ordsets:union(variables(Post, S), A));
vars_in_defs([], _, A) ->
A.
@@ -703,13 +729,14 @@ label(T, N, Env) ->
%% Constant literals are not labeled.
{T, N};
var ->
- case dict:find(var_name(T), Env) of
- {ok, L} ->
- {As, _} = label_ann(T, L),
- N1 = N;
- error ->
- {As, N1} = label_ann(T, N)
- end,
+ {As, N1} =
+ case dict:find(var_name(T), Env) of
+ {ok, L} ->
+ {A, _} = label_ann(T, L),
+ {A, N};
+ error ->
+ label_ann(T, N)
+ end,
{set_ann(T, As), N1};
values ->
{Ts, N1} = label_list(values_es(T), N, Env),
diff --git a/lib/compiler/src/compile.erl b/lib/compiler/src/compile.erl
index e0a29fe9b1..46917905de 100644
--- a/lib/compiler/src/compile.erl
+++ b/lib/compiler/src/compile.erl
@@ -40,6 +40,8 @@
%%----------------------------------------------------------------------
+-type abstract_code() :: [erl_parse:abstract_form()].
+
-type option() :: atom() | {atom(), term()} | {'d', atom(), term()}.
-type err_info() :: {erl_anno:line() | 'none',
@@ -48,6 +50,9 @@
-type warnings() :: [{file:filename(), [err_info()]}].
-type mod_ret() :: {'ok', module()}
| {'ok', module(), cerl:c_module()} %% with option 'to_core'
+ | {'ok', %% with option 'to_pp'
+ module() | [], %% module() if 'to_exp'
+ abstract_code()}
| {'ok', module(), warnings()}.
-type bin_ret() :: {'ok', module(), binary()}
| {'ok', module(), binary(), warnings()}.
@@ -78,7 +83,11 @@ file(File, Opts) when is_list(Opts) ->
file(File, Opt) ->
file(File, [Opt|?DEFAULT_OPTIONS]).
-forms(File) -> forms(File, ?DEFAULT_OPTIONS).
+-spec forms(abstract_code()) -> comp_ret().
+
+forms(Forms) -> forms(Forms, ?DEFAULT_OPTIONS).
+
+-spec forms(abstract_code(), [option()] | option()) -> comp_ret().
forms(Forms, Opts) when is_list(Opts) ->
do_compile({forms,Forms}, [binary|Opts++env_default_opts()]);
@@ -106,6 +115,8 @@ noenv_file(File, Opts) when is_list(Opts) ->
noenv_file(File, Opt) ->
noenv_file(File, [Opt|?DEFAULT_OPTIONS]).
+-spec noenv_forms(abstract_code(), [option()] | option()) -> comp_ret().
+
noenv_forms(Forms, Opts) when is_list(Opts) ->
do_compile({forms,Forms}, [binary|Opts]);
noenv_forms(Forms, Opt) when is_atom(Opt) ->
@@ -671,11 +682,16 @@ asm_passes() ->
%% Assembly level optimisations.
[{delay,
[{pass,beam_a},
+ {iff,da,{listing,"a"}},
{unless,no_postopt,
- [{pass,beam_block},
+ [{unless,no_reorder,{pass,beam_reorder}},
+ {iff,dre,{listing,"reorder"}},
+ {pass,beam_block},
{iff,dblk,{listing,"block"}},
{unless,no_except,{pass,beam_except}},
{iff,dexcept,{listing,"except"}},
+ {unless,no_bs_opt,{pass,beam_bs}},
+ {iff,dbs,{listing,"bs"}},
{unless,no_bopt,{pass,beam_bool}},
{iff,dbool,{listing,"bool"}},
{unless,no_topt,{pass,beam_type}},
@@ -703,6 +719,7 @@ asm_passes() ->
{iff,no_postopt,[{pass,beam_clean}]},
{pass,beam_z},
+ {iff,dz,{listing,"z"}},
{iff,dopt,{listing,"optimize"}},
{iff,'S',{listing,"S"}},
{iff,'to_asm',{done,"S"}}]},
@@ -1300,21 +1317,12 @@ generate_key(String) when is_list(String) ->
encrypt({des3_cbc=Type,Key,IVec,BlockSize}, Bin0) ->
Bin1 = case byte_size(Bin0) rem BlockSize of
0 -> Bin0;
- N -> list_to_binary([Bin0,random_bytes(BlockSize-N)])
+ N -> list_to_binary([Bin0,crypto:rand_bytes(BlockSize-N)])
end,
Bin = crypto:block_encrypt(Type, Key, IVec, Bin1),
TypeString = atom_to_list(Type),
list_to_binary([0,length(TypeString),TypeString,Bin]).
-random_bytes(N) ->
- _ = random:seed(erlang:time_offset(),
- erlang:monotonic_time(),
- erlang:unique_integer()),
- random_bytes_1(N, []).
-
-random_bytes_1(0, Acc) -> Acc;
-random_bytes_1(N, Acc) -> random_bytes_1(N-1, [random:uniform(255)|Acc]).
-
save_core_code(St) ->
{ok,St#compile{core_code=cerl:from_records(St#compile.code)}}.
@@ -1612,11 +1620,8 @@ output_encoding(F, #compile{encoding = Encoding}) ->
ok = io:setopts(F, [{encoding, Encoding}]),
ok = io:fwrite(F, <<"%% ~s\n">>, [epp:encoding_to_string(Encoding)]).
-restore_expanded_types("P", Fs) ->
- epp:restore_typed_record_fields(Fs);
restore_expanded_types("E", {M,I,Fs0}) ->
- Fs1 = restore_expand_module(Fs0),
- Fs = epp:restore_typed_record_fields(Fs1),
+ Fs = restore_expand_module(Fs0),
{M,I,Fs};
restore_expanded_types(_Ext, Code) -> Code.
@@ -1628,6 +1633,8 @@ restore_expand_module([{attribute,Line,spec,[Arg]}|Fs]) ->
[{attribute,Line,spec,Arg}|restore_expand_module(Fs)];
restore_expand_module([{attribute,Line,callback,[Arg]}|Fs]) ->
[{attribute,Line,callback,Arg}|restore_expand_module(Fs)];
+restore_expand_module([{attribute,Line,record,[R]}|Fs]) ->
+ [{attribute,Line,record,R}|restore_expand_module(Fs)];
restore_expand_module([F|Fs]) ->
[F|restore_expand_module(Fs)];
restore_expand_module([]) -> [].
diff --git a/lib/compiler/src/compiler.app.src b/lib/compiler/src/compiler.app.src
index afb85f4710..a2b2a1d277 100644
--- a/lib/compiler/src/compiler.app.src
+++ b/lib/compiler/src/compiler.app.src
@@ -25,6 +25,7 @@
beam_asm,
beam_block,
beam_bool,
+ beam_bs,
beam_bsm,
beam_clean,
beam_dead,
@@ -37,6 +38,7 @@
beam_opcodes,
beam_peep,
beam_receive,
+ beam_reorder,
beam_split,
beam_trim,
beam_type,
diff --git a/lib/compiler/src/core_lib.erl b/lib/compiler/src/core_lib.erl
index 3abb520485..839c736ff2 100644
--- a/lib/compiler/src/core_lib.erl
+++ b/lib/compiler/src/core_lib.erl
@@ -21,52 +21,16 @@
-module(core_lib).
--deprecated({get_anno,1,next_major_release}).
--deprecated({set_anno,2,next_major_release}).
--deprecated({is_literal,1,next_major_release}).
--deprecated({is_literal_list,1,next_major_release}).
--deprecated({literal_value,1,next_major_release}).
-
--export([get_anno/1,set_anno/2]).
--export([is_literal/1,is_literal_list/1]).
--export([literal_value/1]).
-export([make_values/1]).
-export([is_var_used/2]).
-include("core_parse.hrl").
-%%
-%% Generic get/set annotation that should be used only with cerl() structures.
-%%
--spec get_anno(cerl:cerl()) -> term().
-
-get_anno(C) -> cerl:get_ann(C).
-
--spec set_anno(cerl:cerl(), term()) -> cerl:cerl().
-
-set_anno(C, A) -> cerl:set_ann(C, A).
-
--spec is_literal(cerl:cerl()) -> boolean().
-
-is_literal(Cerl) ->
- cerl:is_literal(cerl:fold_literal(Cerl)).
-
--spec is_literal_list([cerl:cerl()]) -> boolean().
-
-is_literal_list(Es) -> lists:all(fun is_literal/1, Es).
-
-%% Return the value of LitExpr.
--spec literal_value(cerl:c_literal() | cerl:c_binary() |
- cerl:c_map() | cerl:c_cons() | cerl:c_tuple()) -> term().
-
-literal_value(Cerl) ->
- cerl:concrete(cerl:fold_literal(Cerl)).
-
%% Make a suitable values structure, expr or values, depending on Expr.
-spec make_values([cerl:cerl()] | cerl:cerl()) -> cerl:cerl().
make_values([E]) -> E;
-make_values([H|_]=Es) -> #c_values{anno=get_anno(H),es=Es};
+make_values([H|_]=Es) -> #c_values{anno=cerl:get_ann(H),es=Es};
make_values([]) -> #c_values{es=[]};
make_values(E) -> E.
diff --git a/lib/compiler/src/core_lint.erl b/lib/compiler/src/core_lint.erl
index cc54f6e411..7d3513c0ba 100644
--- a/lib/compiler/src/core_lint.erl
+++ b/lib/compiler/src/core_lint.erl
@@ -1,7 +1,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 1999-2013. All Rights Reserved.
+%% Copyright Ericsson AB 1999-2015. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -73,7 +73,7 @@
%% Define the lint state record.
-record(lint, {module :: module(), % Current module
- func :: fa(), % Current function
+ func :: fa() | 'undefined', % Current function
errors = [] :: [error()], % Errors
warnings= [] :: [warning()]}). % Warnings
diff --git a/lib/compiler/src/rec_env.erl b/lib/compiler/src/rec_env.erl
index 0e9e12d1ad..5a4a870769 100644
--- a/lib/compiler/src/rec_env.erl
+++ b/lib/compiler/src/rec_env.erl
@@ -598,7 +598,16 @@ start_range(Env) ->
%% (pseudo-)randomly distributed over the range.
generate(_N, Range) ->
- random:uniform(Range). % works well
+ %% We must use the same sequence of random variables to ensure
+ %% that two compilations of the same source code generates the
+ %% same BEAM code.
+ case rand:export_seed() of
+ undefined ->
+ rand:seed(exsplus, {1,42,2053});
+ _ ->
+ ok
+ end,
+ rand:uniform(Range). % works well
%% =====================================================================
diff --git a/lib/compiler/src/sys_core_dsetel.erl b/lib/compiler/src/sys_core_dsetel.erl
index ac32db10fe..c6cfdbae7e 100644
--- a/lib/compiler/src/sys_core_dsetel.erl
+++ b/lib/compiler/src/sys_core_dsetel.erl
@@ -72,7 +72,7 @@ module(M0, _Options) ->
{ok,M}.
visit_module(#c_module{defs=Ds0}=R) ->
- Env = dict:new(),
+ Env = #{},
Ds = visit_module_1(Ds0, Env, []),
R#c_module{defs=Ds}.
@@ -95,9 +95,11 @@ visit(Env, #c_var{name={_,_}}=R) ->
{R, Env};
visit(Env0, #c_var{name=X}=R) ->
%% There should not be any free variables. If there are,
- %% the next line will cause an exception.
- {ok, N} = dict:find(X, Env0),
- {R, dict:store(X, N+1, Env0)};
+ %% the case will fail with an exception.
+ case Env0 of
+ #{X:=N} ->
+ {R, Env0#{X:=N+1}}
+ end;
visit(Env, #c_literal{}=R) ->
{R, Env};
visit(Env0, #c_tuple{es=Es0}=R) ->
@@ -203,7 +205,7 @@ bind_vars(Vs, Env) ->
bind_vars(Vs, Env, []).
bind_vars([#c_var{name=X}|Vs], Env0, Xs)->
- bind_vars(Vs, dict:store(X, 0, Env0), [X|Xs]);
+ bind_vars(Vs, Env0#{X=>0}, [X|Xs]);
bind_vars([], Env,Xs) ->
{Xs, Env}.
@@ -217,7 +219,7 @@ visit_pats([], Env, Vs) ->
{Vs, Env}.
visit_pat(Env0, #c_var{name=V}, Vs) ->
- {[V|Vs], dict:store(V, 0, Env0)};
+ {[V|Vs], Env0#{V=>0}};
visit_pat(Env0, #c_tuple{es=Es}, Vs) ->
visit_pats(Es, Env0, Vs);
visit_pat(Env0, #c_map{es=Es}, Vs) ->
@@ -235,23 +237,25 @@ visit_pat(Env0, #c_bitstr{val=Val,size=Sz}, Vs0) ->
case Sz of
#c_var{name=V} ->
%% We don't tolerate free variables.
- {ok, N} = dict:find(V, Env0),
- {Vs0, dict:store(V, N+1, Env0)};
+ case Env0 of
+ #{V:=N} ->
+ {Vs0, Env0#{V:=N+1}}
+ end;
_ ->
visit_pat(Env0, Sz, Vs0)
end,
visit_pat(Env1, Val, Vs1);
visit_pat(Env0, #c_alias{pat=P,var=#c_var{name=V}}, Vs) ->
- visit_pat(dict:store(V, 0, Env0), P, [V|Vs]);
+ visit_pat(Env0#{V=>0}, P, [V|Vs]);
visit_pat(Env, #c_literal{}, Vs) ->
{Vs, Env}.
restore_vars([V|Vs], Env0, Env1) ->
- case dict:find(V, Env0) of
- {ok, N} ->
- restore_vars(Vs, Env0, dict:store(V, N, Env1));
- error ->
- restore_vars(Vs, Env0, dict:erase(V, Env1))
+ case Env0 of
+ #{V:=N} ->
+ restore_vars(Vs, Env0, Env1#{V=>N});
+ _ ->
+ restore_vars(Vs, Env0, maps:remove(V, Env1))
end;
restore_vars([], _, Env1) ->
Env1.
@@ -349,8 +353,8 @@ is_safe(#c_literal{}) -> true;
is_safe(_) -> false.
is_single_use(V, Env) ->
- case dict:find(V, Env) of
- {ok, 1} ->
+ case Env of
+ #{V:=1} ->
true;
_ ->
false
diff --git a/lib/compiler/src/sys_core_fold.erl b/lib/compiler/src/sys_core_fold.erl
index 65699ccda9..43ce9a7172 100644
--- a/lib/compiler/src/sys_core_fold.erl
+++ b/lib/compiler/src/sys_core_fold.erl
@@ -2793,12 +2793,18 @@ extract_type_1(Expr, Sub) ->
true -> bool
end.
+returns_integer('band', [_,_]) -> true;
+returns_integer('bnot', [_]) -> true;
+returns_integer('bor', [_,_]) -> true;
+returns_integer('bxor', [_,_]) -> true;
returns_integer(bit_size, [_]) -> true;
returns_integer('bsl', [_,_]) -> true;
returns_integer('bsr', [_,_]) -> true;
returns_integer(byte_size, [_]) -> true;
+returns_integer('div', [_,_]) -> true;
returns_integer(length, [_]) -> true;
returns_integer('rem', [_,_]) -> true;
+returns_integer('round', [_]) -> true;
returns_integer(size, [_]) -> true;
returns_integer(tuple_size, [_]) -> true;
returns_integer(trunc, [_]) -> true;
diff --git a/lib/compiler/src/sys_pre_expand.erl b/lib/compiler/src/sys_pre_expand.erl
index d9cc4b530c..7ab4e1845c 100644
--- a/lib/compiler/src/sys_pre_expand.erl
+++ b/lib/compiler/src/sys_pre_expand.erl
@@ -29,30 +29,26 @@
%% Main entry point.
-export([module/2]).
--import(ordsets, [from_list/1,union/2]).
-import(lists, [member/2,foldl/3,foldr/3]).
--include("../include/erl_bits.hrl").
-
-type fa() :: {atom(), arity()}.
-record(expand, {module=[], %Module name
exports=[], %Exports
- imports=[], %Imports
attributes=[], %Attributes
callbacks=[], %Callbacks
optional_callbacks=[] :: [fa()], %Optional callbacks
- defined, %Defined functions (gb_set)
vcount=0, %Variable counter
func=[], %Current function
arity=[], %Arity for current function
- fcount=0 %Local fun count
+ fcount=0, %Local fun count
+ ctype %Call type map
}).
%% module(Forms, CompileOptions)
%% {ModuleName,Exports,TransformedForms,CompileOptions'}
-%% Expand the forms in one module. N.B.: the lists of predefined
-%% exports and imports are really ordsets!
+%% Expand the forms in one module.
+%%
%% CompileOptions is augmented with options from -compile attributes.
module(Fs0, Opts0) ->
@@ -65,19 +61,28 @@ module(Fs0, Opts0) ->
%% Set pre-defined exported functions.
PreExp = [{module_info,0},{module_info,1}],
+ %% Build the set of defined functions and the initial call
+ %% type map.
+ Defined = defined_functions(Fs, PreExp),
+ Ctype = maps:from_list([{K,local} || K <- Defined]),
+
%% Build initial expand record.
St0 = #expand{exports=PreExp,
- defined=PreExp
+ ctype=Ctype
},
+
%% Expand the functions.
- {Tfs,St1} = forms(Fs, define_functions(Fs, St0)),
+ {Tfs,St1} = forms(Fs, St0),
+
%% Get the correct list of exported functions.
Exports = case member(export_all, Opts) of
- true -> gb_sets:to_list(St1#expand.defined);
+ true -> Defined;
false -> St1#expand.exports
end,
+ St2 = St1#expand{exports=Exports,ctype=undefined},
+
%% Generate all functions from stored info.
- {Ats,St3} = module_attrs(St1#expand{exports = Exports}),
+ {Ats,St3} = module_attrs(St2),
{Mfs,St4} = module_predef_funcs(St3),
{St4#expand.module, St4#expand.exports, Ats ++ Tfs ++ Mfs,
Opts}.
@@ -85,14 +90,14 @@ module(Fs0, Opts0) ->
compiler_options(Forms) ->
lists:flatten([C || {attribute,_,compile,C} <- Forms]).
-%% define_function(Form, State) -> State.
+%% defined_function(Forms, Predef) -> Functions.
%% Add function to defined if form is a function.
-define_functions(Forms, #expand{defined=Predef}=St) ->
+defined_functions(Forms, Predef) ->
Fs = foldl(fun({function,_,N,A,_Cs}, Acc) -> [{N,A}|Acc];
(_, Acc) -> Acc
end, Predef, Forms),
- St#expand{defined=gb_sets:from_list(Fs)}.
+ ordsets:from_list(Fs).
module_attrs(#expand{attributes=Attributes}=St) ->
Attrs = [{attribute,Line,Name,Val} || {Name,Line,Val} <- Attributes],
@@ -113,23 +118,21 @@ is_fa_list([{FuncName, Arity}|L])
is_fa_list([]) -> true;
is_fa_list(_) -> false.
-module_predef_funcs(St) ->
- {Mpf1,St1}=module_predef_func_beh_info(St),
- {Mpf2,St2}=module_predef_funcs_mod_info(St1),
+module_predef_funcs(St0) ->
+ {Mpf1,St1} = module_predef_func_beh_info(St0),
+ Mpf2 = module_predef_funcs_mod_info(St1),
Mpf = [erl_parse:new_anno(F) || F <- Mpf1++Mpf2],
- {Mpf,St2}.
+ {Mpf,St1}.
module_predef_func_beh_info(#expand{callbacks=[]}=St) ->
{[], St};
module_predef_func_beh_info(#expand{callbacks=Callbacks,
optional_callbacks=OptionalCallbacks,
- defined=Defined,
exports=Exports}=St) ->
- PreDef=[{behaviour_info,1}],
- PreExp=PreDef,
+ PreDef0 = [{behaviour_info,1}],
+ PreDef = ordsets:from_list(PreDef0),
{[gen_beh_info(Callbacks, OptionalCallbacks)],
- St#expand{defined=gb_sets:union(gb_sets:from_list(PreDef), Defined),
- exports=union(from_list(PreExp), Exports)}}.
+ St#expand{exports=ordsets:union(PreDef, Exports)}}.
gen_beh_info(Callbacks, OptionalCallbacks) ->
List = make_list(Callbacks),
@@ -156,20 +159,16 @@ make_optional_list([{Name,Arity}|Rest]) ->
{integer,0,Arity}]},
make_optional_list(Rest)}.
-module_predef_funcs_mod_info(St) ->
- PreDef = [{module_info,0},{module_info,1}],
- PreExp = PreDef,
- {[{function,0,module_info,0,
- [{clause,0,[],[],
+module_predef_funcs_mod_info(#expand{module=Mod}) ->
+ ModAtom = {atom,0,Mod},
+ [{function,0,module_info,0,
+ [{clause,0,[],[],
[{call,0,{remote,0,{atom,0,erlang},{atom,0,get_module_info}},
- [{atom,0,St#expand.module}]}]}]},
- {function,0,module_info,1,
- [{clause,0,[{var,0,'X'}],[],
+ [ModAtom]}]}]},
+ {function,0,module_info,1,
+ [{clause,0,[{var,0,'X'}],[],
[{call,0,{remote,0,{atom,0,erlang},{atom,0,get_module_info}},
- [{atom,0,St#expand.module},{var,0,'X'}]}]}]}],
- St#expand{defined=gb_sets:union(gb_sets:from_list(PreDef),
- St#expand.defined),
- exports=union(from_list(PreExp), St#expand.exports)}}.
+ [ModAtom,{var,0,'X'}]}]}]}].
%% forms(Forms, State) ->
%% {TransformedForms,State'}
@@ -196,7 +195,8 @@ attribute(module, Module, _L, St) ->
true = is_atom(Module),
St#expand{module=Module};
attribute(export, Es, _L, St) ->
- St#expand{exports=union(from_list(Es), St#expand.exports)};
+ St#expand{exports=ordsets:union(ordsets:from_list(Es),
+ St#expand.exports)};
attribute(import, Is, _L, St) ->
import(Is, St);
attribute(compile, _C, _L, St) ->
@@ -231,8 +231,6 @@ head(As, St) -> pattern_list(As, St).
%% {TransformedPattern,State'}
%%
-pattern({var,_,'_'}=Var, St) -> %Ignore anonymous variable.
- {Var,St};
pattern({var,_,_}=Var, St) ->
{Var,St};
pattern({char,_,_}=Char, St) ->
@@ -385,19 +383,19 @@ expr({block,Line,Es0}, St0) ->
{Es,St1} = exprs(Es0, St0),
{{block,Line,Es},St1};
expr({'if',Line,Cs0}, St0) ->
- {Cs,St1} = icr_clauses(Cs0, St0),
+ {Cs,St1} = clauses(Cs0, St0),
{{'if',Line,Cs},St1};
expr({'case',Line,E0,Cs0}, St0) ->
{E,St1} = expr(E0, St0),
- {Cs,St2} = icr_clauses(Cs0, St1),
+ {Cs,St2} = clauses(Cs0, St1),
{{'case',Line,E,Cs},St2};
expr({'receive',Line,Cs0}, St0) ->
- {Cs,St1} = icr_clauses(Cs0, St0),
+ {Cs,St1} = clauses(Cs0, St0),
{{'receive',Line,Cs},St1};
expr({'receive',Line,Cs0,To0,ToEs0}, St0) ->
{To,St1} = expr(To0, St0),
{ToEs,St2} = exprs(ToEs0, St1),
- {Cs,St3} = icr_clauses(Cs0, St2),
+ {Cs,St3} = clauses(Cs0, St2),
{{'receive',Line,Cs,To,ToEs},St3};
expr({'fun',Line,Body}, St) ->
fun_tq(Line, Body, St);
@@ -406,21 +404,15 @@ expr({named_fun,Line,Name,Cs}, St) ->
expr({call,Line,{atom,La,N}=Atom,As0}, St0) ->
{As,St1} = expr_list(As0, St0),
Ar = length(As),
- case defined(N,Ar,St1) of
- true ->
+ Key = {N,Ar},
+ case St1#expand.ctype of
+ #{Key:=local} ->
{{call,Line,Atom,As},St1};
+ #{Key:={imported,Mod}} ->
+ {{call,Line,{remote,La,{atom,La,Mod},Atom},As},St1};
_ ->
- case imported(N, Ar, St1) of
- {yes,Mod} ->
- {{call,Line,{remote,La,{atom,La,Mod},Atom},As},St1};
- no ->
- case erl_internal:bif(N, Ar) of
- true ->
- {{call,Line,{remote,La,{atom,La,erlang},Atom},As},St1};
- false -> %% This should have been handled by erl_lint
- {{call,Line,Atom,As},St1}
- end
- end
+ true = erl_internal:bif(N, Ar),
+ {{call,Line,{remote,La,{atom,La,erlang},Atom},As},St1}
end;
expr({call,Line,{remote,Lr,M0,F},As0}, St0) ->
{[M1,F1|As1],St1} = expr_list([M0,F|As0], St0),
@@ -430,12 +422,11 @@ expr({call,Line,F,As0}, St0) ->
{{call,Line,Fun1,As1},St1};
expr({'try',Line,Es0,Scs0,Ccs0,As0}, St0) ->
{Es1,St1} = exprs(Es0, St0),
- {Scs1,St2} = icr_clauses(Scs0, St1),
- {Ccs1,St3} = icr_clauses(Ccs0, St2),
+ {Scs1,St2} = clauses(Scs0, St1),
+ {Ccs1,St3} = clauses(Ccs0, St2),
{As1,St4} = exprs(As0, St3),
{{'try',Line,Es1,Scs1,Ccs1,As1},St4};
expr({'catch',Line,E0}, St0) ->
- %% Catch exports no new variables.
{E,St1} = expr(E0, St0),
{{'catch',Line,E},St1};
expr({match,Line,P0,E0}, St0) ->
@@ -456,21 +447,6 @@ expr_list([E0|Es0], St0) ->
{[E|Es],St2};
expr_list([], St) -> {[],St}.
-%% icr_clauses([Clause], State) -> {[TransformedClause],State'}
-%% Be very careful here to return the variables that are really used
-%% and really new.
-
-icr_clauses([], St) -> {[],St};
-icr_clauses(Clauses, St) -> icr_clauses2(Clauses, St).
-
-icr_clauses2([{clause,Line,H0,G0,B0}|Cs0], St0) ->
- {H,St1} = head(H0, St0),
- {G,St2} = guard(G0, St1),
- {B,St3} = exprs(B0, St2),
- {Cs,St4} = icr_clauses2(Cs0, St3),
- {[{clause,Line,H,G,B}|Cs],St4};
-icr_clauses2([], St) -> {[],St}.
-
%% lc_tq(Line, Qualifiers, State) ->
%% {[TransQual],State'}
@@ -486,16 +462,9 @@ lc_tq(Line, [{b_generate,Lg,P0,G0}|Qs0], St0) ->
{Qs1,St3} = lc_tq(Line, Qs0, St2),
{[{b_generate,Lg,P1,G1}|Qs1],St3};
lc_tq(Line, [F0 | Qs0], St0) ->
- case erl_lint:is_guard_test(F0) of
- true ->
- {F1,St1} = guard_test(F0, St0),
- {Qs1,St2} = lc_tq(Line, Qs0, St1),
- {[F1|Qs1],St2};
- false ->
- {F1,St1} = expr(F0, St0),
- {Qs1,St2} = lc_tq(Line, Qs0, St1),
- {[F1 | Qs1],St2}
- end;
+ {F1,St1} = expr(F0, St0),
+ {Qs1,St2} = lc_tq(Line, Qs0, St1),
+ {[F1|Qs1],St2};
lc_tq(_Line, [], St0) ->
{[],St0}.
@@ -527,7 +496,7 @@ fun_tq(L, {function,M,F,A}, St) when is_atom(M), is_atom(F), is_integer(A) ->
fun_tq(Lf, {function,_,_,_}=ExtFun, St) ->
{{'fun',Lf,ExtFun},St};
fun_tq(Lf, {clauses,Cs0}, St0) ->
- {Cs1,St1} = fun_clauses(Cs0, St0),
+ {Cs1,St1} = clauses(Cs0, St0),
{Fname,St2} = new_fun_name(St1),
%% Set dummy values for Index and Uniq -- the real values will
%% be assigned by beam_asm.
@@ -535,18 +504,10 @@ fun_tq(Lf, {clauses,Cs0}, St0) ->
{{'fun',Lf,{clauses,Cs1},{Index,Uniq,Fname}},St2}.
fun_tq(Line, Cs0, St0, Name) ->
- {Cs1,St1} = fun_clauses(Cs0, St0),
+ {Cs1,St1} = clauses(Cs0, St0),
{Fname,St2} = new_fun_name(St1, Name),
{{named_fun,Line,Name,Cs1,{0,0,Fname}},St2}.
-fun_clauses([{clause,L,H0,G0,B0}|Cs0], St0) ->
- {H,St1} = head(H0, St0),
- {G,St2} = guard(G0, St1),
- {B,St3} = exprs(B0, St2),
- {Cs,St4} = fun_clauses(Cs0, St3),
- {[{clause,L,H,G,B}|Cs],St4};
-fun_clauses([], St) -> {[],St}.
-
%% new_fun_name(State) -> {FunName,State}.
new_fun_name(St) ->
@@ -571,7 +532,6 @@ pattern_element({bin_element,Line,Expr0,Size0,Type0}, {Es,St0}) ->
{[{bin_element,Line,Expr,Size,Type}|Es],St2}.
pat_bit_size(default, St) -> {default,St};
-pat_bit_size({atom,_La,all}=All, St) -> {All,St};
pat_bit_size({var,_Lv,_V}=Var, St) -> {Var,St};
pat_bit_size(Size, St) ->
Line = element(2, Size),
@@ -592,8 +552,7 @@ coerce_to_float({integer,L,I}=E, [float|_]) ->
try
{float,L,float(I)}
catch
- error:badarg -> E;
- error:badarith -> E
+ error:badarg -> E
end;
coerce_to_float(E, _) -> E.
@@ -647,25 +606,11 @@ string_to_conses(Line, Cs, Tail) ->
%% import(Line, Imports, State) ->
%% State'
-%% imported(Name, Arity, State) ->
-%% {yes,Module} | no
-%% Handle import declarations and test for imported functions. No need to
-%% check when building imports as code is correct.
+%% Handle import declarations.
-import({Mod,Fs}, St) ->
+import({Mod,Fs}, #expand{ctype=Ctype0}=St) ->
true = is_atom(Mod),
- Mfs = from_list(Fs),
- St#expand{imports=add_imports(Mod, Mfs, St#expand.imports)}.
-
-add_imports(Mod, [F|Fs], Is) ->
- add_imports(Mod, Fs, orddict:store(F, Mod, Is));
-add_imports(_, [], Is) -> Is.
-
-imported(F, A, St) ->
- case orddict:find({F,A}, St#expand.imports) of
- {ok,Mod} -> {yes,Mod};
- error -> no
- end.
-
-defined(F, A, St) ->
- gb_sets:is_element({F,A}, St#expand.defined).
+ Ctype = foldl(fun(F, A) ->
+ A#{F=>{imported,Mod}}
+ end, Ctype0, Fs),
+ St#expand{ctype=Ctype}.
diff --git a/lib/compiler/src/v3_codegen.erl b/lib/compiler/src/v3_codegen.erl
index 2a89305f4d..6f1912c616 100644
--- a/lib/compiler/src/v3_codegen.erl
+++ b/lib/compiler/src/v3_codegen.erl
@@ -827,21 +827,24 @@ select_extract_bin([{var,Hd},{var,Tl}], Size0, Unit, Type, Flags, Vf,
{bs_save2,CtxReg,{Ctx,Tl}}],Int1}
end,
{Es,clear_dead(Aft, I, Vdb),St};
-select_extract_bin([{var,Hd}], Size0, Unit, binary, Flags, Vf,
+select_extract_bin([{var,Hd}], Size, Unit, binary, Flags, Vf,
I, Vdb, Bef, Ctx, Body, St) ->
- SizeReg = get_bin_size_reg(Size0, Bef),
+ %% Match the last segment of a binary. We KNOW that the size
+ %% must be 'all'.
+ Size = {atom,all}, %Assertion.
{Es,Aft} =
case vdb_find(Hd, Vdb) of
{_,_,Lhd} when Lhd =< I ->
+ %% The result will not be used. Furthermore, since we
+ %% we are at the end of the binary, the position will
+ %% not be used again; thus, it is safe to do a cheaper
+ %% test of the unit.
CtxReg = fetch_var(Ctx, Bef),
- {case SizeReg =:= {atom,all} andalso is_context_unused(Body) of
- true when Unit =:= 1 ->
+ {case Unit of
+ 1 ->
[];
- true ->
- [{test,bs_test_unit,{f,Vf},[CtxReg,Unit]}];
- false ->
- [{test,bs_skip_bits2,{f,Vf},
- [CtxReg,SizeReg,Unit,{field_flags,Flags}]}]
+ _ ->
+ [{test,bs_test_unit,{f,Vf},[CtxReg,Unit]}]
end,Bef};
{_,_,_} ->
case is_context_unused(Body) of
@@ -853,7 +856,7 @@ select_extract_bin([{var,Hd}], Size0, Unit, binary, Flags, Vf,
Name = bs_get_binary2,
Live = max_reg(Bef#sr.reg),
{[{test,Name,{f,Vf},Live,
- [CtxReg,SizeReg,Unit,{field_flags,Flags}],Rhd}],
+ [CtxReg,Size,Unit,{field_flags,Flags}],Rhd}],
Int1};
true ->
%% Since the matching context will not be used again,
@@ -868,7 +871,7 @@ select_extract_bin([{var,Hd}], Size0, Unit, binary, Flags, Vf,
Name = bs_get_binary2,
Live = max_reg(Int1#sr.reg),
{[{test,Name,{f,Vf},Live,
- [CtxReg,SizeReg,Unit,{field_flags,Flags}],CtxReg}],
+ [CtxReg,Size,Unit,{field_flags,Flags}],CtxReg}],
Int1}
end
end,
diff --git a/lib/compiler/src/v3_core.erl b/lib/compiler/src/v3_core.erl
index 7d93e2ae16..72649e5c9f 100644
--- a/lib/compiler/src/v3_core.erl
+++ b/lib/compiler/src/v3_core.erl
@@ -469,7 +469,8 @@ unforce_tree([#iset{var=#c_var{name=V},arg=Arg0}|Es], D0) ->
unforce_tree(Es, D);
unforce_tree([#icall{}=Call], D) ->
unforce_tree_subst(Call, D);
-unforce_tree([Top], _) -> Top.
+unforce_tree([#c_var{name=V}], D) ->
+ gb_trees:get(V, D).
unforce_tree_subst(#icall{module=#c_literal{val=erlang},
name=#c_literal{val='=:='},
@@ -1852,27 +1853,22 @@ uguard(Pg, Gs0, Ks, St0) ->
%% uexprs([Kexpr], [KnownVar], State) -> {[Kexpr],State}.
uexprs([#imatch{anno=A,pat=P0,arg=Arg,fc=Fc}|Les], Ks, St0) ->
- %% Optimise for simple set of unbound variable.
- case upattern(P0, Ks, St0) of
- {#c_var{},[],_Pvs,_Pus,_} ->
- %% Throw our work away and just set to iset.
+ case upat_is_new_var(P0, Ks) of
+ true ->
+ %% Assignment to a new variable.
uexprs([#iset{var=P0,arg=Arg}|Les], Ks, St0);
- _Other ->
- %% Throw our work away and set to icase.
- if
- Les =:= [] ->
- %% Need to explicitly return match "value", make
- %% safe for efficiency.
- {La0,Lps,St1} = force_safe(Arg, St0),
- La = mark_compiler_generated(La0),
- Mc = #iclause{anno=A,pats=[P0],guard=[],body=[La]},
- uexprs(Lps ++ [#icase{anno=A,
- args=[La0],clauses=[Mc],fc=Fc}], Ks, St1);
- true ->
- Mc = #iclause{anno=A,pats=[P0],guard=[],body=Les},
- uexprs([#icase{anno=A,args=[Arg],
- clauses=[Mc],fc=Fc}], Ks, St0)
- end
+ false when Les =:= [] ->
+ %% Need to explicitly return match "value", make
+ %% safe for efficiency.
+ {La0,Lps,St1} = force_safe(Arg, St0),
+ La = mark_compiler_generated(La0),
+ Mc = #iclause{anno=A,pats=[P0],guard=[],body=[La]},
+ uexprs(Lps ++ [#icase{anno=A,
+ args=[La0],clauses=[Mc],fc=Fc}], Ks, St1);
+ false ->
+ Mc = #iclause{anno=A,pats=[P0],guard=[],body=Les},
+ uexprs([#icase{anno=A,args=[Arg],
+ clauses=[Mc],fc=Fc}], Ks, St0)
end;
uexprs([Le0|Les0], Ks, St0) ->
{Le1,St1} = uexpr(Le0, Ks, St0),
@@ -1880,6 +1876,15 @@ uexprs([Le0|Les0], Ks, St0) ->
{[Le1|Les1],St2};
uexprs([], _, St) -> {[],St}.
+%% upat_is_new_var(Pattern, [KnownVar]) -> true|false.
+%% Test whether the pattern is a single, previously unknown
+%% variable.
+
+upat_is_new_var(#c_var{name=V}, Ks) ->
+ not is_element(V, Ks);
+upat_is_new_var(_, _) ->
+ false.
+
%% Mark a "safe" as compiler-generated.
mark_compiler_generated(#c_cons{anno=A,hd=H,tl=T}) ->
ann_c_cons([compiler_generated|A], mark_compiler_generated(H),
diff --git a/lib/compiler/src/v3_kernel.erl b/lib/compiler/src/v3_kernel.erl
index 7ee564683b..4446d5ff1d 100644
--- a/lib/compiler/src/v3_kernel.erl
+++ b/lib/compiler/src/v3_kernel.erl
@@ -1,7 +1,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 1999-2013. All Rights Reserved.
+%% Copyright Ericsson AB 1999-2015. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -117,7 +117,7 @@ copy_anno(Kdst, Ksrc) ->
fcount=0, %Fun counter
ds=cerl_sets:new() :: cerl_sets:set(), %Defined variables
funs=[], %Fun functions
- free=[], %Free variables
+ free=#{}, %Free variables
ws=[] :: [warning()], %Warnings.
guard_refc=0}). %> 0 means in guard
@@ -143,8 +143,10 @@ attributes([]) -> [].
include_attribute(type) -> false;
include_attribute(spec) -> false;
+include_attribute(callback) -> false;
include_attribute(opaque) -> false;
include_attribute(export_type) -> false;
+include_attribute(record) -> false;
include_attribute(_) -> true.
function({#c_var{name={F,Arity}=FA},Body}, St0) ->
@@ -1837,14 +1839,17 @@ handle_reuse_anno_1(V, _St) -> V.
%% get_free(Name, Arity, State) -> [Free].
%% store_free(Name, Arity, [Free], State) -> State.
-get_free(F, A, St) ->
- case orddict:find({F,A}, St#kern.free) of
- {ok,Val} -> Val;
- error -> []
+get_free(F, A, #kern{free=FreeMap}) ->
+ Key = {F,A},
+ case FreeMap of
+ #{Key:=Val} -> Val;
+ _ -> []
end.
-store_free(F, A, Free, St) ->
- St#kern{free=orddict:store({F,A}, Free, St#kern.free)}.
+store_free(F, A, Free, #kern{free=FreeMap0}=St) ->
+ Key = {F,A},
+ FreeMap = FreeMap0#{Key=>Free},
+ St#kern{free=FreeMap}.
break_rets({break,Rs}) -> Rs;
break_rets(return) -> [].