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-rw-r--r--lib/compiler/src/beam_utils.erl700
1 files changed, 576 insertions, 124 deletions
diff --git a/lib/compiler/src/beam_utils.erl b/lib/compiler/src/beam_utils.erl
index e39fbdc3b7..6e23003fc7 100644
--- a/lib/compiler/src/beam_utils.erl
+++ b/lib/compiler/src/beam_utils.erl
@@ -1,7 +1,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2007-2016. All Rights Reserved.
+%% Copyright Ericsson AB 2007-2018. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -22,15 +22,23 @@
-module(beam_utils).
-export([is_killed_block/2,is_killed/3,is_killed_at/3,
- is_not_used/3,
- empty_label_index/0,index_label/3,index_labels/1,
+ is_not_used/3,usage/3,
+ empty_label_index/0,index_label/3,index_labels/1,replace_labels/4,
code_at/2,bif_to_test/3,is_pure_test/1,
- live_opt/1,delete_live_annos/1,combine_heap_needs/2,
- split_even/1]).
+ live_opt/1,delete_annos/1,combine_heap_needs/2,
+ anno_defs/1,
+ split_even/1
+ ]).
-export_type([code_index/0,module_code/0,instruction/0]).
--import(lists, [member/2,sort/1,reverse/1,splitwith/2]).
+-import(lists, [flatmap/2,map/2,member/2,sort/1,reverse/1,splitwith/2]).
+
+-define(is_const(Val), (Val =:= nil orelse
+ element(1, Val) =:= integer orelse
+ element(1, Val) =:= float orelse
+ element(1, Val) =:= atom orelse
+ element(1, Val) =:= literal)).
%% instruction() describes all instructions that are used during optimzation
%% (from beam_a to beam_z).
@@ -54,6 +62,23 @@
{lbl :: code_index(), %Label to code index.
res :: result_cache()}). %Result cache for each label.
+%% usage(Register, [Instruction], State) -> killed|not_used|used.
+%% Determine the usage of Register in the instruction sequence.
+%% The return value is one of:
+%%
+%% killed - The register is not used in any way.
+%% not_used - The register is referenced only by an allocating instruction
+%% (the actual value does not matter).
+%% used - The register is used (its value do matter).
+
+-spec usage(beam_asm:reg(), [instruction()], code_index()) ->
+ 'killed' | 'not_used' | 'used'.
+
+usage(R, Is, D) ->
+ St = #live{lbl=D,res=gb_trees:empty()},
+ {Usage,_} = check_liveness(R, Is, St),
+ Usage.
+
%% is_killed_block(Register, [Instruction]) -> true|false
%% Determine whether a register is killed by the instruction sequence inside
@@ -70,7 +95,7 @@ is_killed_block({x,X}, [{set,_,_,{alloc,Live,_}}|_]) ->
X >= Live;
is_killed_block(R, [{set,Ds,Ss,_Op}|Is]) ->
not member(R, Ss) andalso (member(R, Ds) orelse is_killed_block(R, Is));
-is_killed_block(R, [{'%live',_,Regs}|Is]) ->
+is_killed_block(R, [{'%anno',{used,Regs}}|Is]) ->
case R of
{x,X} when (Regs bsr X) band 1 =:= 0 -> true;
_ -> is_killed_block(R, Is)
@@ -93,6 +118,7 @@ is_killed(R, Is, D) ->
St = #live{lbl=D,res=gb_trees:empty()},
case check_liveness(R, Is, St) of
{killed,_} -> true;
+ {exit_not_used,_} -> false;
{_,_} -> false
end.
@@ -105,6 +131,7 @@ is_killed_at(R, Lbl, D) when is_integer(Lbl) ->
St0 = #live{lbl=D,res=gb_trees:empty()},
case check_liveness_at(R, Lbl, St0) of
{killed,_} -> true;
+ {exit_not_used,_} -> false;
{_,_} -> false
end.
@@ -121,6 +148,7 @@ is_not_used(R, Is, D) ->
St = #live{lbl=D,res=gb_trees:empty()},
case check_liveness(R, Is, St) of
{used,_} -> false;
+ {exit_not_used,_} -> true;
{_,_} -> true
end.
@@ -160,6 +188,18 @@ index_label(Lbl, Is0, Acc) ->
code_at(L, Ll) ->
gb_trees:get(L, Ll).
+%% replace_labels(FunctionIs, Tail, ReplaceDb, Fallback) -> FunctionIs.
+%% Replace all labels in instructions according to the ReplaceDb.
+%% If label is not found the Fallback is called with the label to
+%% produce a new one.
+
+-spec replace_labels([instruction()],
+ [instruction()],
+ #{beam_asm:label() => beam_asm:label()},
+ fun((beam_asm:label()) -> term())) -> [instruction()].
+replace_labels(Is, Acc, D, Fb) ->
+ replace_labels_1(Is, Acc, D, Fb).
+
%% bif_to_test(Bif, [Op], Fail) -> {test,Test,Fail,[Op]}
%% Convert a BIF to a test. Fail if not possible.
@@ -185,10 +225,20 @@ bif_to_test('>', [A,B], Fail) -> {test,is_lt,Fail,[B,A]};
bif_to_test('<', [_,_]=Ops, Fail) -> {test,is_lt,Fail,Ops};
bif_to_test('>=', [_,_]=Ops, Fail) -> {test,is_ge,Fail,Ops};
bif_to_test('==', [A,nil], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('==', [nil,A], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('==', [C,A], Fail) when ?is_const(C) ->
+ {test,is_eq,Fail,[A,C]};
bif_to_test('==', [_,_]=Ops, Fail) -> {test,is_eq,Fail,Ops};
+bif_to_test('/=', [C,A], Fail) when ?is_const(C) ->
+ {test,is_ne,Fail,[A,C]};
bif_to_test('/=', [_,_]=Ops, Fail) -> {test,is_ne,Fail,Ops};
bif_to_test('=:=', [A,nil], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('=:=', [nil,A], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('=:=', [C,A], Fail) when ?is_const(C) ->
+ {test,is_eq_exact,Fail,[A,C]};
bif_to_test('=:=', [_,_]=Ops, Fail) -> {test,is_eq_exact,Fail,Ops};
+bif_to_test('=/=', [C,A], Fail) when ?is_const(C) ->
+ {test,is_ne_exact,Fail,[A,C]};
bif_to_test('=/=', [_,_]=Ops, Fail) -> {test,is_ne_exact,Fail,Ops};
bif_to_test(is_record, [_,_,_]=Ops, Fail) -> {test,is_record,Fail,Ops}.
@@ -220,7 +270,7 @@ is_pure_test({test,Op,_,Ops}) ->
%% Go through the instruction sequence in reverse execution
%% order, keep track of liveness and remove 'move' instructions
%% whose destination is a register that will not be used.
-%% Also insert {'%live',Live,Regs} annotations at the beginning
+%% Also insert {used,Regs} annotations at the beginning
%% and end of each block.
-spec live_opt([instruction()]) -> [instruction()].
@@ -235,35 +285,52 @@ live_opt(Is0) ->
Bef ++ [Fi|live_opt(reverse(Is), 0, D, [])].
-%% delete_live_annos([Instruction]) -> [Instruction].
-%% Delete all live annotations.
+%% delete_annos([Instruction]) -> [Instruction].
+%% Delete all annotations.
--spec delete_live_annos([instruction()]) -> [instruction()].
+-spec delete_annos([instruction()]) -> [instruction()].
-delete_live_annos([{block,Bl0}|Is]) ->
- case delete_live_annos(Bl0) of
- [] -> delete_live_annos(Is);
- [_|_]=Bl -> [{block,Bl}|delete_live_annos(Is)]
+delete_annos([{block,Bl0}|Is]) ->
+ case delete_annos(Bl0) of
+ [] -> delete_annos(Is);
+ [_|_]=Bl -> [{block,Bl}|delete_annos(Is)]
end;
-delete_live_annos([{'%live',_,_}|Is]) ->
- delete_live_annos(Is);
-delete_live_annos([I|Is]) ->
- [I|delete_live_annos(Is)];
-delete_live_annos([]) -> [].
-
+delete_annos([{'%anno',_}|Is]) ->
+ delete_annos(Is);
+delete_annos([I|Is]) ->
+ [I|delete_annos(Is)];
+delete_annos([]) -> [].
+
%% combine_heap_needs(HeapNeed1, HeapNeed2) -> HeapNeed
%% Combine the heap need for two allocation instructions.
--spec combine_heap_needs(term(), term()) -> term().
+-type heap_need_tag() :: 'floats' | 'words'.
+-type heap_need() :: non_neg_integer() |
+ {'alloc',[{heap_need_tag(),non_neg_integer()}]}.
+-spec combine_heap_needs(heap_need(), heap_need()) -> heap_need().
-combine_heap_needs({alloc,Alloc1}, {alloc,Alloc2}) ->
- {alloc,combine_alloc_lists(Alloc1, Alloc2)};
-combine_heap_needs({alloc,Alloc}, Words) when is_integer(Words) ->
- {alloc,combine_alloc_lists(Alloc, [{words,Words}])};
-combine_heap_needs(Words, {alloc,Alloc}) when is_integer(Words) ->
- {alloc,combine_alloc_lists(Alloc, [{words,Words}])};
combine_heap_needs(H1, H2) when is_integer(H1), is_integer(H2) ->
- H1+H2.
+ H1 + H2;
+combine_heap_needs(H1, H2) ->
+ {alloc,combine_alloc_lists([H1,H2])}.
+
+
+%% anno_defs(Instructions) -> Instructions'
+%% Add {def,RegisterBitmap} annotations to the beginning of
+%% each block. Iff bit X is set in the the bitmap, it means
+%% that {x,X} is defined when the block is entered.
+
+-spec anno_defs([instruction()]) -> [instruction()].
+
+anno_defs(Is0) ->
+ {Bef,[Fi|Is1]} =
+ splitwith(fun({func_info,_,_,_}) -> false;
+ (_) -> true
+ end, Is0),
+ {func_info,_,_,Arity} = Fi,
+ Regs = init_def_regs(Arity),
+ Is = defs(Is1, Regs, #{}),
+ Bef ++ [Fi|Is].
%% split_even/1
%% [1,2,3,4,5,6] -> {[1,3,5],[2,4,6]}
@@ -272,7 +339,6 @@ combine_heap_needs(H1, H2) when is_integer(H1), is_integer(H2) ->
split_even(Rs) -> split_even(Rs, [], []).
-
%%%
%%% Local functions.
%%%
@@ -284,12 +350,22 @@ split_even(Rs) -> split_even(Rs, [], []).
%%
%% killed - Reg is assigned or killed by an allocation instruction.
%% not_used - the value of Reg is not used, but Reg must not be garbage
+%% exit_not_used - the value of Reg is not used, but must not be garbage
+%% because the stack will be scanned because an
+%% exit BIF will raise an exception
%% used - Reg is used
+check_liveness({fr,_}, _, St) ->
+ %% Conservatively always consider the floating point register used.
+ {used,St};
check_liveness(R, [{block,Blk}|Is], St0) ->
case check_liveness_block(R, Blk, St0) of
{transparent,St1} ->
check_liveness(R, Is, St1);
+ {alloc_used,St1} ->
+ %% Used by an allocating instruction, but value not referenced.
+ %% Must check the rest of the instructions.
+ not_used(check_liveness(R, Is, St1));
{Other,_}=Res when is_atom(Other) ->
Res
end;
@@ -303,6 +379,8 @@ check_liveness(R, [{test,_,{f,Fail},As}|Is], St0) ->
case check_liveness_at(R, Fail, St0) of
{killed,St1} ->
check_liveness(R, Is, St1);
+ {exit_not_used,St1} ->
+ not_used(check_liveness(R, Is, St1));
{not_used,St1} ->
not_used(check_liveness(R, Is, St1));
{used,_}=Used ->
@@ -320,12 +398,14 @@ check_liveness(R, [{select,_,_,Fail,Branches}|_], St) ->
check_liveness_everywhere(R, [Fail|Branches], St);
check_liveness(R, [{jump,{f,F}}|_], St) ->
check_liveness_at(R, F, St);
-check_liveness(R, [{case_end,Used}|_], St) ->
- check_liveness_ret(R, Used, St);
+check_liveness(R, [{case_end,Used}|_], St) ->
+ check_liveness_exit(R, Used, St);
+check_liveness(R, [{try_case_end,Used}|_], St) ->
+ check_liveness_exit(R, Used, St);
check_liveness(R, [{badmatch,Used}|_], St) ->
- check_liveness_ret(R, Used, St);
-check_liveness(_, [if_end|_], St) ->
- {killed,St};
+ check_liveness_exit(R, Used, St);
+check_liveness(R, [if_end|_], St) ->
+ check_liveness_exit(R, ignore, St);
check_liveness(R, [{func_info,_,_,Ar}|_], St) ->
case R of
{x,X} when X < Ar -> {used,St};
@@ -348,17 +428,27 @@ check_liveness(R, [{bs_init,_,_,none,Ss,Dst}|Is], St) ->
check_liveness(R, [{bs_init,_,_,Live,Ss,Dst}|Is], St) ->
case R of
{x,X} ->
- case X < Live orelse member(R, Ss) of
- true -> {used,St};
- false -> {killed,St}
+ case member(R, Ss) of
+ true ->
+ {used,St};
+ false ->
+ if
+ X < Live ->
+ not_used(check_liveness(R, Is, St));
+ true ->
+ {killed,St}
+ end
end;
{y,_} ->
case member(R, Ss) of
true -> {used,St};
false ->
+ %% If the exception is taken, the stack may
+ %% be scanned. Therefore the register is not
+ %% guaranteed to be killed.
if
- R =:= Dst -> {killed,St};
- true -> check_liveness(R, Is, St)
+ R =:= Dst -> {not_used,St};
+ true -> not_used(check_liveness(R, Is, St))
end
end
end;
@@ -392,7 +482,7 @@ check_liveness(R, [{call_ext,Live,_}=I|Is], St) ->
%% We must make sure we don't check beyond this
%% instruction or we will fall through into random
%% unrelated code and get stuck in a loop.
- {killed,St}
+ {exit_not_used,St}
end
end;
check_liveness(R, [{call_fun,Live}|Is], St) ->
@@ -440,16 +530,12 @@ check_liveness(R, [{make_fun2,_,_,_,NumFree}|Is], St) ->
{x,_} -> {killed,St};
{y,_} -> not_used(check_liveness(R, Is, St))
end;
-check_liveness({x,_}=R, [{'catch',_,_}|Is], St) ->
- %% All x registers will be killed if an exception occurs.
- %% Therefore we only need to check the liveness for the
- %% instructions following the catch instruction.
- check_liveness(R, Is, St);
-check_liveness({x,_}=R, [{'try',_,_}|Is], St) ->
- %% All x registers will be killed if an exception occurs.
- %% Therefore we only need to check the liveness for the
- %% instructions inside the 'try' block.
- check_liveness(R, Is, St);
+check_liveness(R, [{'catch'=Op,Y,Fail}|Is], St) ->
+ Set = {set,[Y],[],{try_catch,Op,Fail}},
+ check_liveness(R, [{block,[Set]}|Is], St);
+check_liveness(R, [{'try'=Op,Y,Fail}|Is], St) ->
+ Set = {set,[Y],[],{try_catch,Op,Fail}},
+ check_liveness(R, [{block,[Set]}|Is], St);
check_liveness(R, [{try_end,Y}|Is], St) ->
case R of
Y ->
@@ -510,15 +596,34 @@ check_liveness(R, [{get_map_elements,{f,Fail},S,{list,L}}|Is], St0) ->
check_liveness(R, [{put_map,F,Op,S,D,Live,{list,Puts}}|Is], St) ->
Set = {set,[D],[S|Puts],{alloc,Live,{put_map,Op,F}}},
check_liveness(R, [{block,[Set]}||Is], St);
+check_liveness(R, [{put_tuple,Ar,D}|Is], St) ->
+ Set = {set,[D],[],{put_tuple,Ar}},
+ check_liveness(R, [{block,[Set]}||Is], St);
+check_liveness(R, [{put_list,S1,S2,D}|Is], St) ->
+ Set = {set,[D],[S1,S2],put_list},
+ check_liveness(R, [{block,[Set]}||Is], St);
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, [{get_hd,S,D}|Is], St) ->
+ I = {block,[{set,[D],[S],get_hd}]},
+ check_liveness(R, [I|Is], St);
+check_liveness(R, [{get_tl,S,D}|Is], St) ->
+ I = {block,[{set,[D],[S],get_tl}]},
check_liveness(R, [I|Is], St);
+check_liveness(R, [remove_message|Is], St) ->
+ check_liveness(R, Is, St);
+check_liveness({x,X}, [build_stacktrace|_], St) when X > 0 ->
+ {killed,St};
+check_liveness(R, [{recv_mark,_}|Is], St) ->
+ check_liveness(R, Is, St);
+check_liveness(R, [{recv_set,_}|Is], St) ->
+ check_liveness(R, Is, St);
+check_liveness(R, [{'%',_}|Is], St) ->
+ check_liveness(R, Is, St);
check_liveness(_R, Is, St) when is_list(Is) ->
%% Not implemented. Conservatively assume that the register is used.
{used,St}.
@@ -553,14 +658,15 @@ check_liveness_at(R, Lbl, #live{lbl=Ll,res=ResMemorized}=St0) ->
{Res,St#live{res=gb_trees:insert(Lbl, Res, St#live.res)}}
end.
-not_used({killed,St}) -> {not_used,St};
-not_used({_,_}=Res) -> Res.
+not_used({used,_}=Res) -> Res;
+not_used({_,St}) -> {not_used,St}.
-check_liveness_ret(R, R, St) -> {used,St};
-check_liveness_ret(_, _, St) -> {killed,St}.
+check_liveness_exit(R, R, St) -> {used,St};
+check_liveness_exit({x,_}, _, St) -> {killed,St};
+check_liveness_exit({y,_}, _, St) -> {exit_not_used,St}.
%% check_liveness_block(Reg, [Instruction], State) ->
-%% {killed | not_used | used | transparent,State'}
+%% {killed | not_used | used | alloc_used | transparent,State'}
%% Finds out how Reg is used in the instruction sequence inside a block.
%% Returns one of:
%% killed - Reg is assigned a new value or killed by an
@@ -568,9 +674,10 @@ check_liveness_ret(_, _, St) -> {killed,St}.
%% not_used - The value is not used, but the register is referenced
%% e.g. by an allocation instruction
%% transparent - Reg is neither used nor killed
+%% alloc_used - Used only in an allocate instruction
%% used - Reg is explicitly used by an instruction
%%
-%% '%live' annotations are not allowed.
+%% Annotations are not allowed.
%%
%% (Unknown instructions will cause an exception.)
@@ -580,13 +687,30 @@ check_liveness_block({x,X}=R, [{set,Ds,Ss,{alloc,Live,Op}}|Is], St0) ->
{killed,St0};
true ->
case check_liveness_block_1(R, Ss, Ds, Op, Is, St0) of
- {killed,St} -> {not_used,St};
- {transparent,St} -> {not_used,St};
- {_,_}=Res -> Res
+ {transparent,St} -> {alloc_used,St};
+ {_,_}=Res -> not_used(Res)
end
end;
-check_liveness_block({y,_}=R, [{set,Ds,Ss,{alloc,_Live,Op}}|Is], St) ->
- check_liveness_block_1(R, Ss, Ds, Op, Is, St);
+check_liveness_block({y,_}=R, [{set,Ds,Ss,{alloc,_Live,Op}}|Is], St0) ->
+ case check_liveness_block_1(R, Ss, Ds, Op, Is, St0) of
+ {transparent,St} -> {alloc_used,St};
+ {_,_}=Res -> not_used(Res)
+ end;
+check_liveness_block({y,_}=R, [{set,Ds,Ss,{try_catch,_,Op}}|Is], St0) ->
+ case Ds of
+ [R] ->
+ {killed,St0};
+ _ ->
+ case check_liveness_block_1(R, Ss, Ds, Op, Is, St0) of
+ {exit_not_used,St} ->
+ {used,St};
+ {transparent,St} ->
+ %% Conservatively assumed that it is used.
+ {used,St};
+ {_,_}=Res ->
+ Res
+ end
+ end;
check_liveness_block(R, [{set,Ds,Ss,Op}|Is], St) ->
check_liveness_block_1(R, Ss, Ds, Op, Is, St);
check_liveness_block(_, [], St) -> {transparent,St}.
@@ -602,6 +726,11 @@ check_liveness_block_1(R, Ss, Ds, Op, Is, St0) ->
true -> {killed,St};
false -> check_liveness_block(R, Is, St)
end;
+ {exit_not_used,St} ->
+ case member(R, Ds) of
+ true -> {exit_not_used,St};
+ false -> check_liveness_block(R, Is, St)
+ end;
{not_used,St} ->
not_used(case member(R, Ds) of
true -> {killed,St};
@@ -612,8 +741,8 @@ check_liveness_block_1(R, Ss, Ds, Op, Is, St0) ->
end
end.
-check_liveness_block_2(R, {gc_bif,_Op,{f,Lbl}}, _Ss, St) ->
- check_liveness_block_3(R, Lbl, St);
+check_liveness_block_2(R, {gc_bif,Op,{f,Lbl}}, Ss, St) ->
+ check_liveness_block_3(R, Lbl, {Op,length(Ss)}, St);
check_liveness_block_2(R, {bif,Op,{f,Lbl}}, Ss, St) ->
Arity = length(Ss),
case erl_internal:comp_op(Op, Arity) orelse
@@ -621,16 +750,23 @@ check_liveness_block_2(R, {bif,Op,{f,Lbl}}, Ss, St) ->
true ->
{killed,St};
false ->
- check_liveness_block_3(R, Lbl, St)
+ check_liveness_block_3(R, Lbl, {Op,length(Ss)}, St)
end;
check_liveness_block_2(R, {put_map,_Op,{f,Lbl}}, _Ss, St) ->
- check_liveness_block_3(R, Lbl, St);
+ check_liveness_block_3(R, Lbl, {unsafe,0}, St);
check_liveness_block_2(_, _, _, St) ->
{killed,St}.
-check_liveness_block_3(_, 0, St) ->
+check_liveness_block_3({x,_}, 0, _FA, St) ->
{killed,St};
-check_liveness_block_3(R, Lbl, St0) ->
+check_liveness_block_3({y,_}, 0, {F,A}, St) ->
+ %% If the exception is thrown, the stack may be scanned,
+ %% thus implicitly using the y register.
+ case erl_bifs:is_safe(erlang, F, A) of
+ true -> {killed,St};
+ false -> {used,St}
+ end;
+check_liveness_block_3(R, Lbl, _FA, St0) ->
check_liveness_at(R, Lbl, St0).
index_labels_1([{label,Lbl}|Is0], Acc) ->
@@ -643,22 +779,74 @@ index_labels_1([], Acc) -> gb_trees:from_orddict(sort(Acc)).
drop_labels([{label,_}|Is]) -> drop_labels(Is);
drop_labels(Is) -> Is.
-%% Help functions for combine_heap_needs.
-combine_alloc_lists(Al1, Al2) ->
- combine_alloc_lists_1(sort(Al1++Al2)).
+replace_labels_1([{test,Test,{f,Lbl},Ops}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{test,Test,{f,label(Lbl, D, Fb)},Ops}|Acc], D, Fb);
+replace_labels_1([{test,Test,{f,Lbl},Live,Ops,Dst}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{test,Test,{f,label(Lbl, D, Fb)},Live,Ops,Dst}|Acc], D, Fb);
+replace_labels_1([{select,I,R,{f,Fail0},Vls0}|Is], Acc, D, Fb) ->
+ Vls = map(fun ({f,L}) -> {f,label(L, D, Fb)};
+ (Other) -> Other
+ end, Vls0),
+ Fail = label(Fail0, D, Fb),
+ replace_labels_1(Is, [{select,I,R,{f,Fail},Vls}|Acc], D, Fb);
+replace_labels_1([{'try',R,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{'try',R,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{'catch',R,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{'catch',R,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{jump,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{jump,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{loop_rec,{f,Lbl},R}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{loop_rec,{f,label(Lbl, D, Fb)},R}|Acc], D, Fb);
+replace_labels_1([{loop_rec_end,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{loop_rec_end,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{wait,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{wait,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{wait_timeout,{f,Lbl},To}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{wait_timeout,{f,label(Lbl, D, Fb)},To}|Acc], D, Fb);
+replace_labels_1([{recv_mark=Op,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{Op,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{recv_set=Op,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{Op,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{bif,Name,{f,Lbl},As,R}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{bif,Name,{f,label(Lbl, D, Fb)},As,R}|Acc], D, Fb);
+replace_labels_1([{gc_bif,Name,{f,Lbl},Live,As,R}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{gc_bif,Name,{f,label(Lbl, D, Fb)},Live,As,R}|Acc], D, Fb);
+replace_labels_1([{call,Ar,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{call,Ar,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{make_fun2,{f,Lbl},U1,U2,U3}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{make_fun2,{f,label(Lbl, D, Fb)},U1,U2,U3}|Acc], D, Fb);
+replace_labels_1([{bs_init,{f,Lbl},Info,Live,Ss,Dst}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{bs_init,{f,label(Lbl, D, Fb)},Info,Live,Ss,Dst}|Acc], D, Fb);
+replace_labels_1([{bs_put,{f,Lbl},Info,Ss}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{bs_put,{f,label(Lbl, D, Fb)},Info,Ss}|Acc], D, Fb);
+replace_labels_1([{put_map=I,{f,Lbl},Op,Src,Dst,Live,List}|Is], Acc, D, Fb)
+ when Lbl =/= 0 ->
+ replace_labels_1(Is, [{I,{f,label(Lbl, D, Fb)},Op,Src,Dst,Live,List}|Acc], D, Fb);
+replace_labels_1([{get_map_elements=I,{f,Lbl},Src,List}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{I,{f,label(Lbl, D, Fb)},Src,List}|Acc], D, Fb);
+replace_labels_1([I|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [I|Acc], D, Fb);
+replace_labels_1([], Acc, _, _) -> Acc.
+
+label(Old, D, Fb) ->
+ case D of
+ #{Old := New} -> New;
+ _ -> Fb(Old)
+ end.
+
+%% Help function for combine_heap_needs.
-combine_alloc_lists_1([{words,W1},{words,W2}|T])
- when is_integer(W1), is_integer(W2) ->
- [{words,W1+W2}|combine_alloc_lists_1(T)];
-combine_alloc_lists_1([{floats,F1},{floats,F2}|T])
- when is_integer(F1), is_integer(F2) ->
- [{floats,F1+F2}|combine_alloc_lists_1(T)];
-combine_alloc_lists_1([{words,_}=W|T]) ->
- [W|combine_alloc_lists_1(T)];
-combine_alloc_lists_1([{floats,_}=F|T]) ->
- [F|combine_alloc_lists_1(T)];
-combine_alloc_lists_1([]) -> [].
+combine_alloc_lists(Al0) ->
+ Al1 = flatmap(fun(Words) when is_integer(Words) ->
+ [{words,Words}];
+ ({alloc,List}) ->
+ List
+ end, Al0),
+ Al2 = sofs:relation(Al1),
+ Al3 = sofs:relation_to_family(Al2),
+ Al4 = sofs:to_external(Al3),
+ [{Tag,lists:sum(L)} || {Tag,L} <- Al4].
%% live_opt/4.
@@ -697,10 +885,14 @@ live_opt([{test,bs_start_match2,Fail,Live,[Src,_],_}=I|Is], _, D, Acc) ->
%% Other instructions.
live_opt([{block,Bl0}|Is], Regs0, D, Acc) ->
- Live0 = {'%live',live_regs(Regs0),Regs0},
+ Live0 = make_anno({used,Regs0}),
{Bl,Regs} = live_opt_block(reverse(Bl0), Regs0, D, [Live0]),
- Live = {'%live',live_regs(Regs),Regs},
+ Live = make_anno({used,Regs}),
live_opt(Is, Regs, D, [{block,[Live|Bl]}|Acc]);
+live_opt([build_stacktrace=I|Is], _, D, Acc) ->
+ live_opt(Is, live_call(1), D, [I|Acc]);
+live_opt([raw_raise=I|Is], _, D, Acc) ->
+ live_opt(Is, live_call(3), D, [I|Acc]);
live_opt([{label,L}=I|Is], Regs, D0, Acc) ->
D = gb_trees:insert(L, Regs, D0),
live_opt(Is, Regs, D, [I|Acc]);
@@ -742,12 +934,19 @@ live_opt([{test,_,Fail,Live,Ss,_}=I|Is], _, D, Acc) ->
Regs1 = x_live(Ss, Regs0),
Regs = live_join_label(Fail, D, Regs1),
live_opt(Is, Regs, D, [I|Acc]);
-live_opt([{select,_,Src,Fail,List}=I|Is], Regs0, D, Acc) ->
+live_opt([{select,_,Src,Fail,List}=I|Is], _, D, Acc) ->
+ Regs0 = 0,
Regs1 = x_live([Src], Regs0),
Regs = live_join_labels([Fail|List], D, Regs1),
live_opt(Is, Regs, D, [I|Acc]);
-live_opt([{try_case,_}=I|Is], _, D, Acc) ->
- live_opt(Is, live_call(1), D, [I|Acc]);
+live_opt([{try_case,Y}=I|Is], Regs0, D, Acc) ->
+ Regs = live_call(1),
+ case Regs0 of
+ 0 ->
+ live_opt(Is, Regs, D, [{try_end,Y}|Acc]);
+ _ ->
+ live_opt(Is, live_call(1), D, [I|Acc])
+ end;
live_opt([{loop_rec,_Fail,_Dst}=I|Is], _, D, Acc) ->
live_opt(Is, 0, D, [I|Acc]);
live_opt([timeout=I|Is], _, D, Acc) ->
@@ -759,6 +958,25 @@ live_opt([{get_map_elements,Fail,Src,{list,List}}=I|Is], Regs0, D, Acc) ->
Regs1 = x_live([Src|Ss], x_dead(Ds, Regs0)),
Regs = live_join_label(Fail, D, Regs1),
live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{gc_bif,N,F,R,As,Dst}=I|Is], Regs0, D, Acc) ->
+ Bl = [{set,[Dst],As,{alloc,R,{gc_bif,N,F}}}],
+ {_,Regs} = live_opt_block(Bl, Regs0, D, []),
+ live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{bif,N,F,As,Dst}=I|Is], Regs0, D, Acc) ->
+ Bl = [{set,[Dst],As,{bif,N,F}}],
+ {_,Regs} = live_opt_block(Bl, Regs0, D, []),
+ live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{get_tuple_element,Src,Idx,Dst}=I|Is], Regs0, D, Acc) ->
+ Bl = [{set,[Dst],[Src],{get_tuple_element,Idx}}],
+ {_,Regs} = live_opt_block(Bl, Regs0, D, []),
+ live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{move,Src,Dst}=I|Is], Regs0, D, Acc) ->
+ Regs = x_live([Src], x_dead([Dst], Regs0)),
+ live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{put_map,F,Op,S,Dst,R,{list,Puts}}=I|Is], Regs0, D, Acc) ->
+ Bl = [{set,[Dst],[S|Puts],{alloc,R,{put_map,Op,F}}}],
+ {_,Regs} = live_opt_block(Bl, Regs0, D, []),
+ live_opt(Is, Regs, D, [I|Acc]);
%% Transparent instructions - they neither use nor modify x registers.
live_opt([{deallocate,_}=I|Is], Regs, D, Acc) ->
@@ -775,6 +993,10 @@ live_opt([{wait_timeout,_,{Tag,_}}=I|Is], Regs, D, Acc) when Tag =/= x ->
live_opt(Is, Regs, D, [I|Acc]);
live_opt([{line,_}=I|Is], Regs, D, Acc) ->
live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{'catch',_,_}=I|Is], Regs, D, Acc) ->
+ live_opt(Is, Regs, D, [I|Acc]);
+live_opt([{'try',_,_}=I|Is], Regs, D, Acc) ->
+ live_opt(Is, Regs, D, [I|Acc]);
%% The following instructions can occur if the "compilation" has been
%% started from a .S file using the 'from_asm' option.
@@ -789,47 +1011,52 @@ live_opt([{recv_mark,_}=I|Is], Regs, D, Acc) ->
live_opt([], _, _, Acc) -> Acc.
-live_opt_block([{set,Ds,Ss,Op0}|Is], Regs0, D, Acc) ->
- Regs1 = x_live(Ss, x_dead(Ds, Regs0)),
- {Op, Regs} = live_opt_block_op(Op0, Regs1, D),
- I = {set, Ds, Ss, Op},
-
- case Ds of
- [{x,X}] ->
- case (not is_live(X, Regs0)) andalso Op =:= move of
- true ->
- live_opt_block(Is, Regs0, D, Acc);
- false ->
- live_opt_block(Is, Regs, D, [I|Acc])
- end;
- _ ->
- live_opt_block(Is, Regs, D, [I|Acc])
+live_opt_block([{set,[{x,X}]=Ds,Ss,move}=I|Is], Regs0, D, Acc) ->
+ Regs = x_live(Ss, x_dead(Ds, Regs0)),
+ case is_live(X, Regs0) of
+ true ->
+ live_opt_block(Is, Regs, D, [I|Acc]);
+ false ->
+ %% Useless move, will never be used.
+ live_opt_block(Is, Regs, D, Acc)
end;
-live_opt_block([{'%live',_,_}|Is], Regs, D, Acc) ->
- live_opt_block(Is, Regs, D, Acc);
-live_opt_block([], Regs, _, Acc) -> {Acc,Regs}.
-
-live_opt_block_op({alloc,Live0,AllocOp}, Regs0, D) ->
- Regs =
- case AllocOp of
- {Kind, _N, Fail} when Kind =:= gc_bif; Kind =:= put_map ->
- live_join_label(Fail, D, Regs0);
- _ ->
- Regs0
- end,
+live_opt_block([{set,Ds,Ss,{alloc,Live0,AllocOp}}|Is], Regs0, D, Acc) ->
+ %% Calculate liveness from the point of view of the GC.
+ %% There will never be a GC if the instruction fails, so we should
+ %% ignore the failure branch.
+ GcRegs1 = x_dead(Ds, Regs0),
+ GcRegs = x_live(Ss, GcRegs1),
+ Live = live_regs(GcRegs),
%% The life-time analysis used by the code generator is sometimes too
%% conservative, so it may be possible to lower the number of live
%% registers based on the exact liveness information. The main benefit is
%% that more optimizations that depend on liveness information (such as the
- %% beam_bool and beam_dead passes) may be applied.
- Live = live_regs(Regs),
- true = Live =< Live0,
- {{alloc,Live,AllocOp}, live_call(Live)};
-live_opt_block_op({bif,_N,Fail} = Op, Regs, D) ->
- {Op, live_join_label(Fail, D, Regs)};
-live_opt_block_op(Op, Regs, _D) ->
- {Op, Regs}.
+ %% beam_dead pass) may be applied.
+ true = Live =< Live0, %Assertion.
+ I = {set,Ds,Ss,{alloc,Live,AllocOp}},
+
+ %% Calculate liveness from the point of view of the preceding instruction.
+ %% The liveness is the union of live registers in the GC and the live
+ %% registers at the failure label.
+ Regs1 = live_call(Live),
+ Regs = live_join_alloc(AllocOp, D, Regs1),
+ live_opt_block(Is, Regs, D, [I|Acc]);
+live_opt_block([{set,Ds,Ss,{bif,_,Fail}}=I|Is], Regs0, D, Acc) ->
+ Regs1 = x_dead(Ds, Regs0),
+ Regs2 = x_live(Ss, Regs1),
+ Regs = live_join_label(Fail, D, Regs2),
+ live_opt_block(Is, Regs, D, [I|Acc]);
+live_opt_block([{set,Ds,Ss,_}=I|Is], Regs0, D, Acc) ->
+ Regs = x_live(Ss, x_dead(Ds, Regs0)),
+ live_opt_block(Is, Regs, D, [I|Acc]);
+live_opt_block([{'%anno',_}|Is], Regs, D, Acc) ->
+ live_opt_block(Is, Regs, D, Acc);
+live_opt_block([], Regs, _, Acc) -> {Acc,Regs}.
+
+live_join_alloc({Kind,_Name,Fail}, D, Regs) when Kind =:= gc_bif; Kind =:= put_map ->
+ live_join_label(Fail, D, Regs);
+live_join_alloc(_, _, Regs) -> Regs.
live_join_labels([{f,L}|T], D, Regs0) when L =/= 0 ->
Regs = gb_trees:get(L, D) bor Regs0,
@@ -865,3 +1092,228 @@ split_even([], Ss, Ds) ->
{reverse(Ss),reverse(Ds)};
split_even([S,D|Rs], Ss, Ds) ->
split_even(Rs, [S|Ss], [D|Ds]).
+
+%%%
+%%% Add annotations for defined registers.
+%%%
+%%% This analysis is done by scanning the instructions in
+%%% execution order.
+%%%
+
+defs([{apply,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([{bif,_,{f,Fail},_Src,Dst}=I|Is], Regs0, D) ->
+ Regs = def_regs([Dst], Regs0),
+ [I|defs(Is, Regs, update_regs(Fail, Regs0, D))];
+defs([{block,Block0}|Is], Regs0, D0) ->
+ {Block,Regs,D} = defs_list(Block0, Regs0, D0),
+ [{block,[make_anno({def,Regs0})|Block]}|defs(Is, Regs, D)];
+defs([{bs_init,{f,L},_,Live,_,Dst}=I|Is], Regs0, D) ->
+ Regs1 = case Live of
+ none -> Regs0;
+ _ -> init_def_regs(Live)
+ end,
+ Regs = def_regs([Dst], Regs1),
+ [I|defs(Is, Regs, update_regs(L, Regs, D))];
+defs([{test,bs_start_match2,{f,L},Live,_,Dst}=I|Is], _Regs, D) ->
+ Regs0 = init_def_regs(Live),
+ Regs = def_regs([Dst], Regs0),
+ [I|defs(Is, Regs, update_regs(L, Regs0, D))];
+defs([{bs_put,{f,L},_,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, update_regs(L, Regs, D))];
+defs([build_stacktrace=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([{call,_,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([{call_ext,_,{extfunc,M,F,A}}=I|Is], _Regs, D) ->
+ case erl_bifs:is_exit_bif(M, F, A) of
+ false ->
+ [I|defs(Is, 1, D)];
+ true ->
+ [I|defs_unreachable(Is, D)]
+ end;
+defs([{call_ext,_,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([{call_fun,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([{'catch',_,{f,L}}=I|Is], Regs, D) ->
+ RegsAtLabel = init_def_regs(1),
+ [I|defs(Is, Regs, update_regs(L, RegsAtLabel, D))];
+defs([{catch_end,_}=I|Is], _Regs, D) ->
+ Regs = init_def_regs(1),
+ [I|defs(Is, Regs, D)];
+defs([{gc_bif,_,{f,Fail},Live,_Src,Dst}=I|Is], Regs0, D) ->
+ true = all_defined(Live, Regs0), %Assertion.
+ Regs = def_regs([Dst], init_def_regs(Live)),
+ [I|defs(Is, Regs, update_regs(Fail, Regs0, D))];
+defs([{get_map_elements,{f,L},_Src,{list,DstList}}=I|Is], Regs0, D) ->
+ {_,Ds} = beam_utils:split_even(DstList),
+ Regs = def_regs(Ds, Regs0),
+ [I|defs(Is, Regs, update_regs(L, Regs0, D))];
+defs([{get_tuple_element,_,_,Dst}=I|Is], Regs0, D) ->
+ Regs = def_regs([Dst], Regs0),
+ [I|defs(Is, Regs, D)];
+defs([{jump,{f,L}}=I|Is], Regs, D) ->
+ [I|defs_unreachable(Is, update_regs(L, Regs, D))];
+defs([{label,L}=I|Is], Regs0, D) ->
+ case D of
+ #{L:=Regs1} ->
+ Regs = Regs0 band Regs1,
+ [I|defs(Is, Regs, D)];
+ #{} ->
+ [I|defs(Is, Regs0, D)]
+ end;
+defs([{loop_rec,{f,L},{x,0}}=I|Is], _Regs, D0) ->
+ RegsAtLabel = init_def_regs(0),
+ D = update_regs(L, RegsAtLabel, D0),
+ [I|defs(Is, init_def_regs(1), D)];
+defs([{loop_rec_end,_}=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+defs([{make_fun2,_,_,_,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([{move,_,Dst}=I|Is], Regs0, D) ->
+ Regs = def_regs([Dst], Regs0),
+ [I|defs(Is, Regs, D)];
+defs([{put_map,{f,Fail},_,_,Dst,_,_}=I|Is], Regs0, D) ->
+ Regs = def_regs([Dst], Regs0),
+ [I|defs(Is, Regs, update_regs(Fail, Regs0, D))];
+defs([raw_raise=I|Is], _Regs, D) ->
+ [I|defs(Is, 1, D)];
+defs([return=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+defs([{select,_,_Src,Fail,List}=I|Is], Regs, D0) ->
+ D = update_list([Fail|List], Regs, D0),
+ [I|defs_unreachable(Is, D)];
+defs([{test,_,{f,L},_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, update_regs(L, Regs, D))];
+defs([{test,_,{f,L},Live,_,Dst}=I|Is], Regs0, D) ->
+ true = all_defined(Live, Regs0), %Assertion.
+ Regs = def_regs([Dst], init_def_regs(Live)),
+ [I|defs(Is, Regs, update_regs(L, Regs0, D))];
+defs([{'try',_,{f,L}}=I|Is], Regs, D) ->
+ RegsAtLabel = init_def_regs(3),
+ [I|defs(Is, Regs, update_regs(L, RegsAtLabel, D))];
+defs([{try_case,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, init_def_regs(3), D)];
+defs([{wait,_}=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+defs([{wait_timeout,_,_}=I|Is], _Regs, D) ->
+ [I|defs(Is, 0, D)];
+
+%% Exceptions.
+defs([{badmatch,_}=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+defs([{case_end,_}=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+defs([if_end=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+defs([{try_case_end,_}=I|Is], _Regs, D) ->
+ [I|defs_unreachable(Is, D)];
+
+%% Neutral instructions
+defs([{bs_context_to_binary,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{bs_restore2,_,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{bs_save2,_,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{deallocate,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{kill,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{line,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{recv_mark,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{recv_set,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([timeout=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{trim,_,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{try_end,_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([{'%',_}=I|Is], Regs, D) ->
+ [I|defs(Is, Regs, D)];
+defs([], _, _) -> [].
+
+defs_unreachable([{label,L}=I|Is], D) ->
+ case D of
+ #{L:=Regs} ->
+ [I|defs(Is, Regs, D)];
+ #{} ->
+ defs_unreachable(Is, D)
+ end;
+defs_unreachable([_|Is], D) ->
+ defs_unreachable(Is, D);
+defs_unreachable([], _D) -> [].
+
+defs_list(Is, Regs, D) ->
+ defs_list(Is, Regs, D, []).
+
+defs_list([{set,Ds,_,{alloc,Live,Info}}=I|Is], Regs0, D0, Acc) ->
+ true = all_defined(Live, Regs0), %Assertion.
+ D = case Info of
+ {gc_bif,_,{f,Fail}} ->
+ update_regs(Fail, Regs0, D0);
+ {put_map,_,{f,Fail}} ->
+ update_regs(Fail, Regs0, D0);
+ _ ->
+ D0
+ end,
+ Regs = def_regs(Ds, init_def_regs(Live)),
+ defs_list(Is, Regs, D, [I|Acc]);
+defs_list([{set,Ds,_,Info}=I|Is], Regs0, D0, Acc) ->
+ D = case Info of
+ {bif,_,{f,Fail}} ->
+ update_regs(Fail, Regs0, D0);
+ {try_catch,'catch',{f,Fail}} ->
+ update_regs(Fail, init_def_regs(1), D0);
+ {try_catch,'try',{f,Fail}} ->
+ update_regs(Fail, init_def_regs(3), D0);
+ _ ->
+ D0
+ end,
+ Regs = def_regs(Ds, Regs0),
+ defs_list(Is, Regs, D, [I|Acc]);
+defs_list([], Regs, D, Acc) ->
+ {reverse(Acc),Regs,D}.
+
+init_def_regs(Arity) ->
+ (1 bsl Arity) - 1.
+
+def_regs([{x,X}|T], Regs) ->
+ def_regs(T, Regs bor (1 bsl X));
+def_regs([_|T], Regs) ->
+ def_regs(T, Regs);
+def_regs([], Regs) -> Regs.
+
+update_list([{f,L}|T], Regs, D0) ->
+ D = update_regs(L, Regs, D0),
+ update_list(T, Regs, D);
+update_list([_|T], Regs, D) ->
+ update_list(T, Regs, D);
+update_list([], _Regs, D) -> D.
+
+update_regs(L, Regs0, D) ->
+ case D of
+ #{L:=Regs1} ->
+ Regs = Regs0 band Regs1,
+ D#{L:=Regs};
+ #{} ->
+ D#{L=>Regs0}
+ end.
+
+all_defined(Live, Regs) ->
+ All = (1 bsl Live) - 1,
+ Regs band All =:= All.
+
+%%%
+%%% Utilities.
+%%%
+
+%% make_anno(Anno) -> WrappedAnno.
+%% Wrap an annotation term.
+
+make_anno(Anno) ->
+ {'%anno',Anno}.