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-rw-r--r--lib/hipe/flow/cfg.inc78
-rw-r--r--lib/hipe/flow/liveness.inc22
-rw-r--r--lib/hipe/icode/hipe_icode_bincomp.erl28
-rw-r--r--lib/hipe/icode/hipe_icode_coordinator.erl29
-rw-r--r--lib/hipe/icode/hipe_icode_range.erl133
-rw-r--r--lib/hipe/icode/hipe_icode_ssa.erl9
-rw-r--r--lib/hipe/icode/hipe_icode_type.erl2
-rw-r--r--lib/hipe/main/hipe.app.src1
-rw-r--r--lib/hipe/misc/Makefile2
-rw-r--r--lib/hipe/misc/hipe_sdi.erl103
-rw-r--r--lib/hipe/misc/hipe_segment_trees.erl181
-rw-r--r--lib/hipe/regalloc/Makefile1
-rw-r--r--lib/hipe/regalloc/hipe_ig_moves.erl11
-rw-r--r--lib/hipe/ssa/hipe_ssa_liveness.inc27
-rw-r--r--lib/hipe/util/Makefile1
-rw-r--r--lib/hipe/util/hipe_vectors.erl40
-rw-r--r--lib/hipe/util/hipe_vectors.hrl29
-rw-r--r--lib/hipe/x86/hipe_x86_frame.erl23
18 files changed, 501 insertions, 219 deletions
diff --git a/lib/hipe/flow/cfg.inc b/lib/hipe/flow/cfg.inc
index 0bad2a8dd7..a18bfbc526 100644
--- a/lib/hipe/flow/cfg.inc
+++ b/lib/hipe/flow/cfg.inc
@@ -343,7 +343,7 @@ remove_pred(HT, FromL, PredL) ->
case gb_trees:lookup(FromL, HT) of
{value, {Block, Succ, Preds}} ->
Code = hipe_bb:code(Block),
- NewCode = remove_pred_from_phis(Code, PredL, []),
+ NewCode = remove_pred_from_phis(PredL, Code),
NewBlock = hipe_bb:code_update(Block, NewCode),
gb_trees:update(FromL, {NewBlock,Succ,lists:delete(PredL,Preds)}, HT);
none ->
@@ -374,20 +374,20 @@ add_pred(HT, ToL, PredL) ->
-ifdef(CFG_CAN_HAVE_PHI_NODES).
%% phi-instructions in a removed block's successors must be aware of
%% the change.
-remove_pred_from_phis(List = [I|Left], Label, Acc) ->
+remove_pred_from_phis(Label, List = [I|Left]) ->
case is_phi(I) of
- true ->
- NewAcc = [phi_remove_pred(I, Label)|Acc],
- remove_pred_from_phis(Left, Label, NewAcc);
+ true ->
+ NewI = phi_remove_pred(I, Label),
+ [NewI | remove_pred_from_phis(Label, Left)];
false ->
- lists:reverse(Acc) ++ List
+ List
end;
-remove_pred_from_phis([], _Label, Acc) ->
- lists:reverse(Acc).
+remove_pred_from_phis(_Label, []) ->
+ [].
-else.
%% this is used for code representations like those of back-ends which
%% do not have phi-nodes.
-remove_pred_from_phis(Code, _Label, _Acc) ->
+remove_pred_from_phis(_Label, Code) ->
Code.
-endif.
@@ -927,24 +927,52 @@ merge(BB, BB2, BB2_Label) ->
remove_unreachable_code(CFG) ->
Start = start_label(CFG),
- Reachable = find_reachable([Start], CFG, gb_sets:from_list([Start])),
- %% Reachable is an ordset: it comes from gb_sets:to_list/1.
- %% So use ordset:subtract instead of '--' below.
- Labels = ordsets:from_list(labels(CFG)),
- case ordsets:subtract(Labels, Reachable) of
- [] ->
- CFG;
+ %% No unreachable block will make another block reachable, so no fixpoint
+ %% looping is required
+ Reachable = find_reachable([], [Start], CFG, #{Start=>[]}),
+ case [L || L <- labels(CFG), not maps:is_key(L, Reachable)] of
+ [] -> CFG;
Remove ->
- NewCFG = lists:foldl(fun(X, Acc) -> bb_remove(Acc, X) end, CFG, Remove),
- remove_unreachable_code(NewCFG)
+ HT0 = CFG#cfg.table,
+ HT1 = lists:foldl(fun gb_trees:delete/2, HT0, Remove),
+ ReachableP = fun(Lbl) -> maps:is_key(Lbl, Reachable) end,
+ HT = gb_trees:map(fun(_,B)->prune_preds(B, ReachableP)end, HT1),
+ CFG#cfg{table=HT}
end.
-find_reachable([Label|Left], CFG, Acc) ->
- NewAcc = gb_sets:add(Label, Acc),
- Succ = succ(CFG, Label),
- find_reachable([X || X <- Succ, not gb_sets:is_member(X, Acc)] ++ Left,
- CFG, NewAcc);
-find_reachable([], _CFG, Acc) ->
- gb_sets:to_list(Acc).
+find_reachable([], [], _CFG, Acc) -> Acc;
+find_reachable([Succ|Succs], Left, CFG, Acc) ->
+ case Acc of
+ #{Succ := _} -> find_reachable(Succs, Left, CFG, Acc);
+ #{} -> find_reachable(Succs, [Succ|Left], CFG, Acc#{Succ => []})
+ end;
+find_reachable([], [Label|Left], CFG, Acc) ->
+ find_reachable(succ(CFG, Label), Left, CFG, Acc).
+
+%% Batch prune unreachable predecessors. Asymptotically faster than deleting
+%% unreachable blocks one at a time with bb_remove, at least when
+%% CFG_CAN_HAVE_PHI_NODES is undefined. Otherwise a phi_remove_preds might be
+%% needed to achieve that.
+prune_preds(B={Block, Succ, Preds}, ReachableP) ->
+ case lists:partition(ReachableP, Preds) of
+ {_, []} -> B;
+ {NewPreds, Unreach} ->
+ NewCode = remove_preds_from_phis(Unreach, hipe_bb:code(Block)),
+ {hipe_bb:code_update(Block, NewCode), Succ, NewPreds}
+ end.
+-ifdef(CFG_CAN_HAVE_PHI_NODES).
+remove_preds_from_phis(_, []) -> [];
+remove_preds_from_phis(Preds, List=[I|Left]) ->
+ case is_phi(I) of
+ false -> List;
+ true ->
+ NewI = lists:foldl(fun(L,IA)->phi_remove_pred(IA,L)end,
+ I, Preds),
+ [NewI | remove_preds_from_phis(Preds, Left)]
+ end.
+-else.
+remove_preds_from_phis(_, Code) -> Code.
-endif.
+
+-endif. %% -ifdef(REMOVE_UNREACHABLE_CODE)
diff --git a/lib/hipe/flow/liveness.inc b/lib/hipe/flow/liveness.inc
index a1caa3e0ad..bffaa4e3df 100644
--- a/lib/hipe/flow/liveness.inc
+++ b/lib/hipe/flow/liveness.inc
@@ -49,6 +49,10 @@
-endif.
-include("../flow/cfg.hrl").
+-include("../main/hipe.hrl").
+
+-opaque liveness() :: map().
+-export_type([liveness/0]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
@@ -72,7 +76,7 @@
%% The generic liveness analysis
%%
--spec analyze(cfg()) -> gb_trees:tree().
+-spec analyze(cfg()) -> liveness().
-ifdef(HIPE_LIVENESS_CALC_LARGEST_LIVESET).
analyze(CFG) ->
@@ -188,6 +192,7 @@ update_livein(Label, NewLiveIn, Liveness) ->
%%
%% LiveOut for a block is the union of the successors LiveIn
%%
+-spec liveout(liveness(), _) -> [_].
liveout(Liveness, L) ->
Succ = successors(L, Liveness),
@@ -210,7 +215,7 @@ successors(L, Liveness) ->
{_GK, _LiveIn, Successors} = liveness_lookup(L, Liveness),
Successors.
--spec livein(gb_trees:tree(), _) -> [_].
+-spec livein(liveness(), _) -> [_].
livein(Liveness, L) ->
{_GK, LiveIn, _Successors} = liveness_lookup(L, Liveness),
@@ -292,18 +297,15 @@ strip([{_,Y}|Xs]) ->
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
+-compile({inline, [liveness_lookup/2, liveness_update/3]}).
+
liveness_init(List) ->
- liveness_init(List, gb_trees:empty()).
+ maps:from_list(List).
-liveness_init([{Lbl, Data}|Left], Acc) ->
- liveness_init(Left, gb_trees:insert(Lbl, Data, Acc));
-liveness_init([], Acc) ->
- Acc.
-
liveness_lookup(Label, Liveness) ->
- gb_trees:get(Label, Liveness).
+ maps:get(Label, Liveness).
liveness_update(Label, Val, Liveness) ->
- gb_trees:update(Label, Val, Liveness).
+ maps:update(Label, Val, Liveness).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
diff --git a/lib/hipe/icode/hipe_icode_bincomp.erl b/lib/hipe/icode/hipe_icode_bincomp.erl
index 5a27519141..5ee6fe2c87 100644
--- a/lib/hipe/icode/hipe_icode_bincomp.erl
+++ b/lib/hipe/icode/hipe_icode_bincomp.erl
@@ -40,8 +40,8 @@
-spec cfg(cfg()) -> cfg().
cfg(Cfg1) ->
- StartLbls = ordsets:from_list([hipe_icode_cfg:start_label(Cfg1)]),
- find_bs_get_integer(StartLbls, Cfg1, StartLbls).
+ StartLbl = hipe_icode_cfg:start_label(Cfg1),
+ find_bs_get_integer([StartLbl], Cfg1, set_from_list([StartLbl])).
find_bs_get_integer([Lbl|Rest], Cfg, Visited) ->
BB = hipe_icode_cfg:bb(Cfg, Lbl),
@@ -55,10 +55,10 @@ find_bs_get_integer([Lbl|Rest], Cfg, Visited) ->
not_ok ->
Cfg
end,
- Succs = ordsets:from_list(hipe_icode_cfg:succ(NewCfg, Lbl)),
- NewSuccs = ordsets:subtract(Succs, Visited),
- NewLbls = ordsets:union(NewSuccs, Rest),
- NewVisited = ordsets:union(NewSuccs, Visited),
+ Succs = hipe_icode_cfg:succ(NewCfg, Lbl),
+ NewSuccs = not_visited(Succs, Visited),
+ NewLbls = NewSuccs ++ Rest,
+ NewVisited = set_union(set_from_list(NewSuccs), Visited),
find_bs_get_integer(NewLbls, NewCfg, NewVisited);
find_bs_get_integer([], Cfg, _) ->
Cfg.
@@ -177,3 +177,19 @@ make_butlast([{Res, Size}|Rest], Var) ->
[Var, hipe_icode:mk_const((1 bsl Size)-1)]),
hipe_icode:mk_primop([NewVar], 'bsr', [Var, hipe_icode:mk_const(Size)])
|make_butlast(Rest, NewVar)].
+
+%%--------------------------------------------------------------------
+%% Sets
+
+set_from_list([]) -> #{};
+set_from_list(L) ->
+ maps:from_list([{E, []} || E <- L]).
+
+not_visited([], _) -> [];
+not_visited([E|T], M) ->
+ case M of
+ #{E := _} -> not_visited(T, M);
+ _ -> [E|not_visited(T, M)]
+ end.
+
+set_union(A, B) -> maps:merge(A, B).
diff --git a/lib/hipe/icode/hipe_icode_coordinator.erl b/lib/hipe/icode/hipe_icode_coordinator.erl
index d2f8748535..b073954ce7 100644
--- a/lib/hipe/icode/hipe_icode_coordinator.erl
+++ b/lib/hipe/icode/hipe_icode_coordinator.erl
@@ -106,12 +106,29 @@ handle_no_change_done(MFA, {Queue, Busy}) ->
{Queue, Busy -- [MFA]}.
last_action(PM, ServerPid, Mod, All) ->
- lists:foreach(fun (MFA) ->
- gb_trees:get(MFA, PM) ! {done, final_funs(ServerPid, Mod)},
- receive
- {done_rewrite, MFA} -> ok
- end
- end, All).
+ last_action(PM, ServerPid, Mod, All, []).
+
+last_action(_, _, _, [], []) -> ok;
+last_action(PM, ServerPid, Mod, [], [MFA|Busy]) ->
+ receive
+ {done_rewrite, MFA} ->
+ last_action(PM, ServerPid, Mod, [], Busy)
+ end;
+last_action(PM, ServerPid, Mod, All0, Busy) ->
+ receive
+ {done_rewrite, MFA} ->
+ last_action(PM, ServerPid, Mod, All0, Busy -- [MFA])
+ after 0 ->
+ case ?MAX_CONCURRENT - length(Busy) of
+ X when is_integer(X), X > 0 ->
+ [MFA|All1] = All0,
+ gb_trees:get(MFA, PM) ! {done, final_funs(ServerPid, Mod)},
+ last_action(PM, ServerPid, Mod, All1, [MFA|Busy]);
+ X when is_integer(X) ->
+ Busy1 = receive {done_rewrite, MFA} -> Busy -- [MFA] end,
+ last_action(PM, ServerPid, Mod, All0, Busy1)
+ end
+ end.
restart_funs({Queue, Busy} = QB, PM, All, ServerPid) ->
case ?MAX_CONCURRENT - length(Busy) of
diff --git a/lib/hipe/icode/hipe_icode_range.erl b/lib/hipe/icode/hipe_icode_range.erl
index 12ed796690..af160769a1 100644
--- a/lib/hipe/icode/hipe_icode_range.erl
+++ b/lib/hipe/icode/hipe_icode_range.erl
@@ -73,8 +73,8 @@
-type final_fun() :: fun((mfa(), [range()]) -> 'ok').
-type data() :: {mfa(), args_fun(), call_fun(), final_fun()}.
-type label() :: non_neg_integer().
--type info() :: gb_trees:tree().
--type work_list() :: {[label()], [label()], sets:set()}.
+-type info() :: map().
+-type work_list() :: {[label()], [label()], set(label())}.
-type variable() :: #icode_variable{}.
-type annotated_variable() :: #icode_variable{}.
-type argument() :: #icode_const{} | variable().
@@ -82,10 +82,9 @@
-type instr_split_info() :: {icode_instr(), [{label(),info()}]}.
-type last_instr_return() :: {instr_split_info(), range()}.
--record(state, {info_map = gb_trees:empty() :: info(),
- counter = dict:new() :: dict:dict(),
- cfg :: cfg(),
- liveness = gb_trees:empty() :: gb_trees:tree(),
+-record(state, {info_map = #{} :: info(),
+ cfg :: cfg(),
+ liveness :: hipe_icode_ssa:liveness(),
ret_type :: range(),
lookup_fun :: call_fun(),
result_action :: final_fun()}).
@@ -187,17 +186,16 @@ safe_analyse(CFG, Data={MFA,_,_,_}) ->
rewrite_blocks(State) ->
CFG = state__cfg(State),
Start = hipe_icode_cfg:start_label(CFG),
- rewrite_blocks([Start], State, [Start]).
+ rewrite_blocks([Start], State, set_from_list([Start])).
--spec rewrite_blocks([label()], state(), [label()]) -> state().
+-spec rewrite_blocks([label()], state(), set(label())) -> state().
rewrite_blocks([Next|Rest], State, Visited) ->
Info = state__info_in(State, Next),
{NewState, NewLabels} = analyse_block(Next, Info, State, true),
- NewLabelsSet = ordsets:from_list(NewLabels),
- RealNew = ordsets:subtract(NewLabelsSet, Visited),
- NewVisited = ordsets:union([RealNew, Visited, [Next]]),
- NewWork = ordsets:union([RealNew, Rest]),
+ RealNew = not_visited(NewLabels, Visited),
+ NewVisited = set_union(set_from_list(RealNew), Visited),
+ NewWork = RealNew ++ Rest,
rewrite_blocks(NewWork, NewState, NewVisited);
rewrite_blocks([], State, _) ->
State.
@@ -1661,8 +1659,8 @@ state__init(Cfg, {MFA, ArgsFun, CallFun, FinalFun}) ->
false ->
NewParams = lists:zipwith(fun update_info/2, Params, Ranges),
NewCfg = hipe_icode_cfg:params_update(Cfg, NewParams),
- Info = enter_defines(NewParams, gb_trees:empty()),
- InfoMap = gb_trees:insert({Start, in}, Info, gb_trees:empty()),
+ Info = enter_defines(NewParams, #{}),
+ InfoMap = #{{Start, in} => Info},
#state{info_map=InfoMap, cfg=NewCfg, liveness=Liveness,
ret_type=none_type(),
lookup_fun=CallFun, result_action=FinalFun}
@@ -1700,7 +1698,7 @@ state__info_in(S, Label) ->
state__info(S, {Label, in}).
state__info(#state{info_map=IM}, Key) ->
- gb_trees:get(Key, IM).
+ maps:get(Key, IM).
state__update_info(State, LabelInfo, Rewrite) ->
update_info(LabelInfo, State, [], Rewrite).
@@ -1721,60 +1719,58 @@ update_info([], State, LabelAcc, _Rewrite) ->
state__info_in_update(S=#state{info_map=IM,liveness=Liveness}, Label, Info) ->
LabelIn = {Label, in},
- case gb_trees:lookup(LabelIn, IM) of
- none ->
+ case IM of
+ #{LabelIn := OldInfo} ->
+ OldVars = maps:keys(OldInfo),
+ case join_info_in(OldVars, OldInfo, Info) of
+ fixpoint ->
+ fixpoint;
+ NewInfo ->
+ S#state{info_map=IM#{LabelIn := NewInfo}}
+ end;
+ _ ->
LiveIn = hipe_icode_ssa:ssa_liveness__livein(Liveness, Label),
NamesLiveIn = [hipe_icode:var_name(Var) || Var <- LiveIn,
hipe_icode:is_var(Var)],
- OldInfo = gb_trees:empty(),
+ OldInfo = #{},
case join_info_in(NamesLiveIn, OldInfo, Info) of
fixpoint ->
- S#state{info_map=gb_trees:insert(LabelIn, OldInfo, IM)};
- NewInfo ->
- S#state{info_map=gb_trees:enter(LabelIn, NewInfo, IM)}
- end;
- {value, OldInfo} ->
- OldVars = gb_trees:keys(OldInfo),
- case join_info_in(OldVars, OldInfo, Info) of
- fixpoint ->
- fixpoint;
+ S#state{info_map=IM#{LabelIn => OldInfo}};
NewInfo ->
- S#state{info_map=gb_trees:update(LabelIn, NewInfo, IM)}
+ S#state{info_map=IM#{LabelIn => NewInfo}}
end
end.
join_info_in(Vars, OldInfo, NewInfo) ->
- case join_info_in(Vars, OldInfo, NewInfo, gb_trees:empty(), false) of
+ case join_info_in(Vars, OldInfo, NewInfo, #{}, false) of
{Res, true} -> Res;
{_, false} -> fixpoint
end.
join_info_in([Var|Left], Info1, Info2, Acc, Changed) ->
- Type1 = gb_trees:lookup(Var, Info1),
- Type2 = gb_trees:lookup(Var, Info2),
- case {Type1, Type2} of
- {none, none} ->
- NewTree = gb_trees:insert(Var, none_type(), Acc),
- join_info_in(Left, Info1, Info2, NewTree, true);
- {none, {value, Val}} ->
- NewTree = gb_trees:insert(Var, Val, Acc),
- join_info_in(Left, Info1, Info2, NewTree, true);
- {{value, Val}, none} ->
- NewTree = gb_trees:insert(Var, Val, Acc),
+ case {Info1, Info2} of
+ {#{Var := Val}, #{Var := Val}} ->
+ NewTree = Acc#{Var => Val},
join_info_in(Left, Info1, Info2, NewTree, Changed);
- {{value, Val}, {value, Val}} ->
- NewTree = gb_trees:insert(Var, Val, Acc),
- join_info_in(Left, Info1, Info2, NewTree, Changed);
- {{value, Val1}, {value, Val2}} ->
- {NewChanged, NewVal} =
+ {#{Var := Val1}, #{Var := Val2}} ->
+ {NewChanged, NewVal} =
case sup(Val1, Val2) of
Val1 ->
{Changed, Val1};
Val ->
{true, Val}
end,
- NewTree = gb_trees:insert(Var, NewVal, Acc),
- join_info_in(Left, Info1, Info2, NewTree, NewChanged)
+ NewTree = Acc#{Var => NewVal},
+ join_info_in(Left, Info1, Info2, NewTree, NewChanged);
+ {_, #{Var := Val}} ->
+ NewTree = Acc#{Var => Val},
+ join_info_in(Left, Info1, Info2, NewTree, true);
+ {#{Var := Val}, _} ->
+ NewTree = Acc#{Var => Val},
+ join_info_in(Left, Info1, Info2, NewTree, Changed);
+ {_, _} ->
+ NewTree = Acc#{Var => none_type()},
+ join_info_in(Left, Info1, Info2, NewTree, true)
end;
join_info_in([], _Info1, _Info2, Acc, NewChanged) ->
{Acc, NewChanged}.
@@ -1786,7 +1782,7 @@ enter_defines([], Info) -> Info.
enter_define({PossibleVar, Range = #range{}}, Info) ->
case hipe_icode:is_var(PossibleVar) of
true ->
- gb_trees:enter(hipe_icode:var_name(PossibleVar), Range, Info);
+ Info#{hipe_icode:var_name(PossibleVar) => Range};
false ->
Info
end;
@@ -1795,7 +1791,7 @@ enter_define(PossibleVar, Info) ->
true ->
case hipe_icode:variable_annotation(PossibleVar) of
{range_anno, #ann{range=Range}, _} ->
- gb_trees:enter(hipe_icode:var_name(PossibleVar), Range, Info);
+ Info#{hipe_icode:var_name(PossibleVar) => Range};
_ ->
Info
end;
@@ -1810,11 +1806,10 @@ enter_vals(Ins, Info) ->
lookup(PossibleVar, Info) ->
case hipe_icode:is_var(PossibleVar) of
true ->
- case gb_trees:lookup(hipe_icode:var_name(PossibleVar), Info) of
- none ->
- none_type();
- {value, Val} ->
- Val
+ PossibleVarName = hipe_icode:var_name(PossibleVar),
+ case Info of
+ #{PossibleVarName := Val} -> Val;
+ _ -> none_type()
end;
false ->
none_type()
@@ -1828,10 +1823,10 @@ lookup(PossibleVar, Info) ->
init_work(State) ->
%% Labels = hipe_icode_cfg:reverse_postorder(state__cfg(State)),
Labels = [hipe_icode_cfg:start_label(state__cfg(State))],
- {Labels, [], sets:from_list(Labels)}.
+ {Labels, [], set_from_list(Labels)}.
get_work({[Label|Left], List, Set}) ->
- NewWork = {Left, List, sets:del_element(Label, Set)},
+ NewWork = {Left, List, maps:remove(Label, Set)},
{Label, NewWork};
get_work({[], [], _Set}) ->
fixpoint;
@@ -1839,12 +1834,12 @@ get_work({[], List, Set}) ->
get_work({lists:reverse(List), [], Set}).
add_work(Work = {List1, List2, Set}, [Label|Left]) ->
- case sets:is_element(Label, Set) of
- true ->
+ case Set of
+ #{Label := _} ->
add_work(Work, Left);
- false ->
+ _ ->
%% io:format("Adding work: ~w\n", [Label]),
- add_work({List1, [Label|List2], sets:add_element(Label, Set)}, Left)
+ add_work({List1, [Label|List2], Set#{Label => []}}, Left)
end;
add_work(Work, []) ->
Work.
@@ -1959,3 +1954,21 @@ next_down_limit(X) when is_integer(X), X > -16#8000000 -> -16#8000000;
next_down_limit(X) when is_integer(X), X > -16#80000000 -> -16#80000000;
next_down_limit(X) when is_integer(X), X > -16#800000000000000 -> -16#800000000000000;
next_down_limit(_X) -> neg_inf.
+
+%%--------------------------------------------------------------------
+%% Sets
+
+-type set(E) :: #{E => []}.
+
+set_from_list([]) -> #{};
+set_from_list(L) ->
+ maps:from_list([{E, []} || E <- L]).
+
+not_visited([], _) -> [];
+not_visited([E|T], M) ->
+ case M of
+ #{E := []} -> not_visited(T, M);
+ _ -> [E|not_visited(T, M)]
+ end.
+
+set_union(A, B) -> maps:merge(A, B).
diff --git a/lib/hipe/icode/hipe_icode_ssa.erl b/lib/hipe/icode/hipe_icode_ssa.erl
index b222fbc7d2..aca13a2ff0 100644
--- a/lib/hipe/icode/hipe_icode_ssa.erl
+++ b/lib/hipe/icode/hipe_icode_ssa.erl
@@ -34,13 +34,16 @@
-define(LIVENESS, hipe_icode_liveness).
-define(LIVENESS_NEEDED, true).
+-export_type([liveness/0]).
+
-include("hipe_icode.hrl").
-include("../ssa/hipe_ssa.inc").
%% Declarations for exported functions which are Icode-specific.
--spec ssa_liveness__analyze(#cfg{}) -> gb_trees:tree().
--spec ssa_liveness__livein(_, icode_lbl()) -> [#icode_variable{}].
-%% -spec ssa_liveness__livein(_, icode_lbl(), _) -> [#icode_var{}].
+-opaque liveness() :: liveness(icode_lbl(), #icode_variable{}).
+-spec ssa_liveness__analyze(#cfg{}) -> liveness().
+-spec ssa_liveness__livein(liveness(), icode_lbl()) -> [#icode_variable{}].
+%% -spec ssa_liveness__livein(liveness(), icode_lbl(), _) -> [#icode_var{}].
%%----------------------------------------------------------------------
%% Auxiliary operations which seriously differ between Icode and RTL.
diff --git a/lib/hipe/icode/hipe_icode_type.erl b/lib/hipe/icode/hipe_icode_type.erl
index 794c27ebcc..3f0e2998f1 100644
--- a/lib/hipe/icode/hipe_icode_type.erl
+++ b/lib/hipe/icode/hipe_icode_type.erl
@@ -100,7 +100,7 @@
-record(state, {info_map = gb_trees:empty() :: gb_trees:tree(),
cfg :: cfg(),
- liveness = gb_trees:empty() :: gb_trees:tree(),
+ liveness :: hipe_icode_ssa:liveness(),
arg_types :: [erl_types:erl_type()],
ret_type = [t_none()] :: [erl_types:erl_type()],
lookupfun :: call_fun(),
diff --git a/lib/hipe/main/hipe.app.src b/lib/hipe/main/hipe.app.src
index f8487151d7..acae2c637d 100644
--- a/lib/hipe/main/hipe.app.src
+++ b/lib/hipe/main/hipe.app.src
@@ -171,6 +171,7 @@
hipe_rtl_to_sparc,
hipe_rtl_to_x86,
hipe_rtl_varmap,
+ hipe_segment_trees,
hipe_sdi,
hipe_sparc,
hipe_sparc_assemble,
diff --git a/lib/hipe/misc/Makefile b/lib/hipe/misc/Makefile
index 72cfff21a8..e5033e444b 100644
--- a/lib/hipe/misc/Makefile
+++ b/lib/hipe/misc/Makefile
@@ -44,7 +44,7 @@ RELSYSDIR = $(RELEASE_PATH)/lib/hipe-$(VSN)
# Target Specs
# ----------------------------------------------------
ifdef HIPE_ENABLED
-HIPE_MODULES = hipe_data_pp hipe_pack_constants hipe_sdi
+HIPE_MODULES = hipe_data_pp hipe_pack_constants hipe_sdi hipe_segment_trees
else
HIPE_MODULES =
endif
diff --git a/lib/hipe/misc/hipe_sdi.erl b/lib/hipe/misc/hipe_sdi.erl
index fbb4b105f6..5ca64bc669 100644
--- a/lib/hipe/misc/hipe_sdi.erl
+++ b/lib/hipe/misc/hipe_sdi.erl
@@ -36,10 +36,13 @@
%%------------------------------------------------------------------------
-type hipe_array() :: integer(). % declare this in hipe.hrl or builtin?
+-type hipe_vector(E) :: {} | {E} | {E, E} | {E, E, E} | tuple().
-type label() :: non_neg_integer().
-type address() :: non_neg_integer().
+-type parents() :: {hipe_vector(_ :: integer()), hipe_segment_trees:tree()}.
+
%%------------------------------------------------------------------------
-record(label_data, {address :: address(),
@@ -168,9 +171,11 @@ mk_long(N) ->
%%% - Since the graph is traversed from child to parent nodes in
%%% Step 3, the edges are represented by a vector PARENTS[0..n-1]
%%% such that PARENTS[j] = { i | i is a parent of j }.
-%%% - An explicit PARENTS graph would have size O(n^2). Instead we
-%%% compute PARENTS[j] from the SDI vector when needed. This
-%%% reduces memory overheads, and may reduce time overheads too.
+%%% - An explicit PARENTS graph would have size O(n^2). Instead, we
+%%% observe that (i is a parent of j) iff (j \in range(i)), where
+%%% range(i) is a constant function. We can thus precompute all the
+%%% ranges i and insert them into a data structure built for such
+%%% queries. In this case, we use a segment tree.
-spec mk_span(non_neg_integer(), tuple()) -> hipe_array().
mk_span(N, SDIS) ->
@@ -188,7 +193,29 @@ initSPAN(SdiNr, N, SDIS, SPAN) ->
initSPAN(SdiNr+1, N, SDIS, SPAN)
end.
-mk_parents(N, SDIS) -> {N,SDIS}.
+-spec mk_parents(non_neg_integer(), tuple()) -> parents().
+mk_parents(N, SDIS) ->
+ PrevSDIS = vector_from_list(select_prev_sdis(N-1, SDIS, [])),
+ Ranges = parents_generate_ranges(N-1, PrevSDIS, []),
+ {PrevSDIS, hipe_segment_trees:build(Ranges)}.
+
+select_prev_sdis(-1, _SDIS, Acc) -> Acc;
+select_prev_sdis(SdiNr, SDIS, Acc) ->
+ #sdi_data{prevSdi=PrevSdi} = vector_sub(SDIS, SdiNr),
+ select_prev_sdis(SdiNr-1, SDIS, [PrevSdi|Acc]).
+
+parents_generate_ranges(-1, _PrevSDIS, Acc) -> Acc;
+parents_generate_ranges(SdiNr, PrevSDIS, Acc) ->
+ %% inclusive
+ {LO,HI} = parents_generate_range(SdiNr, PrevSDIS),
+ parents_generate_ranges(SdiNr-1, PrevSDIS, [{LO,HI}|Acc]).
+
+-compile({inline, parents_generate_range/2}).
+parents_generate_range(SdiNr, PrevSDIS) ->
+ PrevSdi = vector_sub(PrevSDIS, SdiNr),
+ if SdiNr =< PrevSdi -> {SdiNr+1, PrevSdi}; % forwards
+ true -> {PrevSdi+1, SdiNr-1} % backwards
+ end.
%%% "After the structure is built we process it as follows.
%%% For any node i whose listed span exceeds the architectural
@@ -209,7 +236,7 @@ mk_parents(N, SDIS) -> {N,SDIS}.
%%% and PARENTS are no longer useful.
-spec update_long(non_neg_integer(), tuple(), hipe_array(),
- {non_neg_integer(),tuple()},hipe_array()) -> 'ok'.
+ parents(),hipe_array()) -> 'ok'.
update_long(N, SDIS, SPAN, PARENTS, LONG) ->
WKL = initWKL(N-1, SDIS, SPAN, []),
processWKL(WKL, SDIS, SPAN, PARENTS, LONG).
@@ -225,46 +252,32 @@ initWKL(SdiNr, SDIS, SPAN, WKL) ->
end.
-spec processWKL([non_neg_integer()], tuple(), hipe_array(),
- {non_neg_integer(), tuple()}, hipe_array()) -> 'ok'.
+ parents(), hipe_array()) -> 'ok'.
processWKL([], _SDIS, _SPAN, _PARENTS, _LONG) -> ok;
-processWKL([Child|WKL], SDIS, SPAN, PARENTS, LONG) ->
- WKL2 = updateChild(Child, WKL, SDIS, SPAN, PARENTS, LONG),
+processWKL([Child|WKL], SDIS, SPAN, PARENTS0, LONG) ->
+ {WKL2, PARENTS} =
+ case array_sub(SPAN, Child) of
+ 0 -> {WKL, PARENTS0}; % removed
+ _ ->
+ SdiData = vector_sub(SDIS, Child),
+ Incr = sdiLongIncr(SdiData),
+ array_update(LONG, Child, Incr),
+ array_update(SPAN, Child, 0), % remove child
+ PARENTS1 = deleteParent(PARENTS0, Child),
+ PS = parentsOfChild(PARENTS1, Child),
+ {updateParents(PS, Child, Incr, SDIS, SPAN, WKL), PARENTS1}
+ end,
processWKL(WKL2, SDIS, SPAN, PARENTS, LONG).
--spec updateChild(non_neg_integer(), [non_neg_integer()], tuple(), hipe_array(),
- {non_neg_integer(),tuple()}, hipe_array()) -> [non_neg_integer()].
-updateChild(Child, WKL, SDIS, SPAN, PARENTS, LONG) ->
- case array_sub(SPAN, Child) of
- 0 -> WKL; % removed
- _ ->
- SdiData = vector_sub(SDIS, Child),
- Incr = sdiLongIncr(SdiData),
- array_update(LONG, Child, Incr),
- array_update(SPAN, Child, 0), % remove child
- PS = parentsOfChild(PARENTS, Child),
- updateParents(PS, Child, Incr, SDIS, SPAN, WKL)
- end.
+-spec parentsOfChild(parents(), non_neg_integer()) -> [non_neg_integer()].
+parentsOfChild({_PrevSDIS, SegTree}, Child) ->
+ hipe_segment_trees:intersect(Child, SegTree).
--spec parentsOfChild({non_neg_integer(),tuple()},
- non_neg_integer()) -> [non_neg_integer()].
-parentsOfChild({N,SDIS}, Child) ->
- parentsOfChild(N-1, SDIS, Child, []).
-
--spec parentsOfChild(integer(), tuple(), non_neg_integer(),
- [non_neg_integer()]) -> [non_neg_integer()].
-parentsOfChild(-1, _SDIS, _Child, PS) -> PS;
-parentsOfChild(SdiNr, SDIS, Child, PS) ->
- SdiData = vector_sub(SDIS, SdiNr),
- #sdi_data{prevSdi=PrevSdi} = SdiData,
- {LO,HI} = % inclusive
- if SdiNr =< PrevSdi -> {SdiNr+1, PrevSdi}; % forwards
- true -> {PrevSdi+1, SdiNr-1} % backwards
- end,
- NewPS =
- if LO =< Child, Child =< HI -> [SdiNr | PS];
- true -> PS
- end,
- parentsOfChild(SdiNr-1, SDIS, Child, NewPS).
+-spec deleteParent(parents(), non_neg_integer()) -> parents().
+deleteParent({PrevSDIS, SegTree0}, Parent) ->
+ {LO,HI} = parents_generate_range(Parent, PrevSDIS),
+ SegTree = hipe_segment_trees:delete(Parent, LO, HI, SegTree0),
+ {PrevSDIS, SegTree}.
-spec updateParents([non_neg_integer()], non_neg_integer(),
byte(), tuple(), hipe_array(),
@@ -297,10 +310,12 @@ updateWKL(SdiNr, SDIS, SdiSpan, WKL) ->
false -> [SdiNr|WKL]
end.
+-compile({inline, sdiSpanIsShort/2}). %% Only called once
-spec sdiSpanIsShort(#sdi_data{}, integer()) -> boolean().
sdiSpanIsShort(#sdi_data{si = #sdi_info{lb = LB, ub = UB}}, SdiSpan) ->
SdiSpan >= LB andalso SdiSpan =< UB.
+-compile({inline, sdiLongIncr/1}). %% Only called once
-spec sdiLongIncr(#sdi_data{}) -> byte().
sdiLongIncr(#sdi_data{si = #sdi_info{incr = Incr}}) -> Incr.
@@ -361,9 +376,11 @@ applyIncr([{Label,LabelData}|List], INCREMENT, LabelMap) ->
%%% Currently implemented as tuples.
%%% Used for the 'SDIS' and 'PARENTS' vectors.
--spec vector_from_list([#sdi_data{}]) -> tuple().
+-spec vector_from_list([E]) -> hipe_vector(E).
vector_from_list(Values) -> list_to_tuple(Values).
+-compile({inline, vector_sub/2}).
+-spec vector_sub(hipe_vector(E), non_neg_integer()) -> V when V :: E.
vector_sub(Vec, I) -> element(I+1, Vec).
%%% ADT for mutable integer arrays, indexed from 0 to N-1.
@@ -373,8 +390,10 @@ vector_sub(Vec, I) -> element(I+1, Vec).
-spec mk_array_of_zeros(non_neg_integer()) -> hipe_array().
mk_array_of_zeros(N) -> hipe_bifs:array(N, 0).
+-compile({inline, array_update/3}).
-spec array_update(hipe_array(), non_neg_integer(), integer()) -> hipe_array().
array_update(A, I, V) -> hipe_bifs:array_update(A, I, V).
+-compile({inline, array_sub/2}).
-spec array_sub(hipe_array(), non_neg_integer()) -> integer().
array_sub(A, I) -> hipe_bifs:array_sub(A, I).
diff --git a/lib/hipe/misc/hipe_segment_trees.erl b/lib/hipe/misc/hipe_segment_trees.erl
new file mode 100644
index 0000000000..22146396c3
--- /dev/null
+++ b/lib/hipe/misc/hipe_segment_trees.erl
@@ -0,0 +1,181 @@
+%%%
+%%% %CopyrightBegin%
+%%%
+%%% Copyright Ericsson AB 2016. 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%
+%%%
+%%% Segment trees, with a delete operation.
+%%%
+%%% Keys are the (0-based) indices into the list passed to build/1.
+%%%
+%%% Range bounds are inclusive.
+%%%
+
+-module(hipe_segment_trees).
+
+-export([build/1, intersect/2, delete/4]).
+
+-record(segment_tree, {
+ lo :: integer(),
+ hi :: integer(),
+ root :: tnode()
+ }).
+
+%% X =< Mid belongs in Left
+-define(NODE(Left, Right, Mid, Segments), {Left, Right, Mid, Segments}).
+
+-define(POINT_LEAF(Val), Val).
+-define(RANGE_LEAF(Lo, Hi), {Lo, Hi}).
+
+-type segments() :: [non_neg_integer()].
+-type leaf() :: segments().
+-type tnode() :: ?NODE(tnode(), tnode(), integer(), segments()) | leaf().
+
+-opaque tree() :: #segment_tree{} | nil.
+-export_type([tree/0]).
+
+%% @doc Builds a segment tree of the given intervals.
+-spec build([{integer(), integer()}]) -> tree().
+build(ListOfIntervals) ->
+ case
+ lists:usort(
+ lists:append(
+ [[Lo, Hi] || {Lo, Hi} <- ListOfIntervals, Lo =< Hi]))
+ of
+ [] -> nil;
+ Endpoints ->
+ Tree0 = empty_tree_from_endpoints(Endpoints),
+ [Lo|_] = Endpoints,
+ Hi = lists:last(Endpoints),
+ Tree1 = insert_intervals(0, ListOfIntervals, Lo, Hi, Tree0),
+ Tree = squash_empty_subtrees(Tree1),
+ #segment_tree{lo=Lo, hi=Hi, root=Tree}
+ end.
+
+empty_tree_from_endpoints(Endpoints) ->
+ Leaves = leaves(Endpoints),
+ {T, [], _, _} = balanced_bst(Leaves, length(Leaves)),
+ T.
+
+leaves([Endpoint]) -> [?POINT_LEAF(Endpoint)];
+leaves([A | [B|_] = Tail]) ->
+ %% We omit the range leaf if it's empty
+ case A<B-1 of
+ true -> [?POINT_LEAF(A),?RANGE_LEAF(A+1,B-1) | leaves(Tail)];
+ false -> [?POINT_LEAF(A) | leaves(Tail)]
+ end.
+
+balanced_bst(L, S) when S > 1 ->
+ Sm = S, %% - 1
+ S2 = Sm div 2,
+ S1 = Sm - S2,
+ {Left, L1, LeftLo, LeftHi} = balanced_bst(L, S1),
+ {Right, L2, _, RightHi} = balanced_bst(L1, S2),
+ T = ?NODE(Left, Right, LeftHi, []),
+ {T, L2, LeftLo, RightHi};
+balanced_bst([?RANGE_LEAF(Lo, Hi) | L], 1) ->
+ {[], L, Lo, Hi};
+balanced_bst([?POINT_LEAF(Val) | L], 1) ->
+ {[], L, Val, Val}.
+
+insert_intervals(_Ix, [], _Lo, _Hi, Tree) -> Tree;
+insert_intervals(Ix, [Int|Ints], Lo, Hi, Tree) ->
+ insert_intervals(Ix + 1, Ints, Lo, Hi,
+ insert_interval(Ix, Int, Lo, Hi, Tree)).
+
+insert_interval(_, {Lo, Hi}, _, _, Node) when Lo > Hi -> Node;
+insert_interval(I, Int={Lo,Hi}, NLo, NHi,
+ ?NODE(Left0, Right0, Mid, Segments)) ->
+ if Lo =< NLo, NHi =< Hi ->
+ ?NODE(Left0, Right0, Mid, [I|Segments]);
+ true ->
+ Left = case intervals_intersect(Lo, Hi, NLo, Mid) of
+ true -> insert_interval(I, Int, NLo, Mid, Left0);
+ false -> Left0
+ end,
+ Right = case intervals_intersect(Lo, Hi, Mid+1, NHi) of
+ true -> insert_interval(I, Int, Mid+1, NHi, Right0);
+ false -> Right0
+ end,
+ ?NODE(Left, Right, Mid, Segments)
+ end;
+insert_interval(I, {_Lo,_Hi}, _NLo, _NHi, Leaf) -> [I|Leaf].
+
+intervals_intersect(ALo, AHi, BLo, BHi) ->
+ (ALo =< AHi) andalso (BLo =< BHi) %% both nonempty
+ andalso nonempty_intervals_intersect(ALo, AHi, BLo, BHi).
+
+%% Purely optional optimisation
+squash_empty_subtrees(?NODE(Left0, Right0, Mid, Segs)) ->
+ build_squash_node(squash_empty_subtrees(Left0),
+ squash_empty_subtrees(Right0),
+ Mid, Segs);
+squash_empty_subtrees(Leaf) -> Leaf.
+
+build_squash_node([], [], _, Segs) -> Segs;
+build_squash_node(Left, Right, Mid, Segs) ->
+ ?NODE(Left, Right, Mid, Segs).
+
+%% @doc Returns the indices of the intervals in the tree that contains Point.
+-spec intersect(integer(), tree()) -> [non_neg_integer()].
+intersect(Point, nil) when is_integer(Point) -> [];
+intersect(Point, #segment_tree{lo=Lo, hi=Hi, root=Root})
+ when is_integer(Point) ->
+ case Lo =< Point andalso Point =< Hi of
+ false -> [];
+ true -> intersect_1(Point, Root, [])
+ end.
+
+intersect_1(Point, ?NODE(Left, Right, Mid, Segs), Acc0) ->
+ Child = if Point =< Mid -> Left; true -> Right end,
+ intersect_1(Point, Child, Segs ++ Acc0);
+intersect_1(_, LeafSegs, Acc) -> LeafSegs ++ Acc.
+
+%% @doc Deletes the interval {Lo, Hi}, which had index Index in the list passed
+%% to build/1.
+-spec delete(non_neg_integer(), integer(), integer(), tree()) -> tree().
+delete(_, _, _, nil) -> nil;
+delete(_, Lo, Hi, Tree) when Lo > Hi -> Tree;
+delete(_, Lo, Hi, Tree = #segment_tree{lo=TLo, hi=THi})
+ when Hi < TLo; Lo > THi -> Tree;
+delete(Index, Lo, Hi, Tree = #segment_tree{lo=TLo, hi=THi, root=Root0})
+ when is_integer(Lo), is_integer(Hi) ->
+ Root = delete_1(Index, Lo, Hi, TLo, THi, Root0),
+ Tree#segment_tree{root=Root}.
+
+delete_1(I, Lo, Hi, NLo, NHi, ?NODE(Left0, Right0, Mid, Segments)) ->
+ if Lo =< NLo, NHi =< Hi ->
+ ?NODE(Left0, Right0, Mid, delete_2(Segments, I));
+ true ->
+ Left = case nonempty_intervals_intersect(Lo, Hi, NLo, Mid) of
+ true -> delete_1(I, Lo, Hi, NLo, Mid, Left0);
+ false -> Left0
+ end,
+ Right = case nonempty_intervals_intersect(Lo, Hi, Mid+1, NHi) of
+ true -> delete_1(I, Lo, Hi, Mid+1, NHi, Right0);
+ false -> Right0
+ end,
+ %% We could do build_squash_node here, is it worth it?
+ ?NODE(Left, Right, Mid, Segments)
+ end;
+delete_1(I, _Lo, _Hi, _NLo, _NHi, Leaf) -> delete_2(Leaf, I).
+
+delete_2([I|Segs], I) -> Segs;
+delete_2([S|Segs], I) -> [S|delete_2(Segs,I)].
+
+-compile({inline,nonempty_intervals_intersect/4}).
+nonempty_intervals_intersect(ALo, AHi, BLo, BHi) ->
+ (BLo =< AHi) andalso (ALo =< BHi).
diff --git a/lib/hipe/regalloc/Makefile b/lib/hipe/regalloc/Makefile
index aaa4418f37..ceb535f1c7 100644
--- a/lib/hipe/regalloc/Makefile
+++ b/lib/hipe/regalloc/Makefile
@@ -123,7 +123,6 @@ $(EBIN)/hipe_amd64_specific_x87.beam: hipe_x86_specific_x87.erl
$(EBIN)/hipe_coalescing_regalloc.beam: ../main/hipe.hrl
$(EBIN)/hipe_graph_coloring_regalloc.beam: ../main/hipe.hrl
$(EBIN)/hipe_ig.beam: ../main/hipe.hrl ../flow/cfg.hrl hipe_spillcost.hrl
-$(EBIN)/hipe_ig_moves.beam: ../util/hipe_vectors.hrl
$(EBIN)/hipe_ls_regalloc.beam: ../main/hipe.hrl
$(EBIN)/hipe_optimistic_regalloc.beam: ../main/hipe.hrl
$(EBIN)/hipe_regalloc_loop.beam: ../main/hipe.hrl
diff --git a/lib/hipe/regalloc/hipe_ig_moves.erl b/lib/hipe/regalloc/hipe_ig_moves.erl
index b679453de0..2a70606dab 100644
--- a/lib/hipe/regalloc/hipe_ig_moves.erl
+++ b/lib/hipe/regalloc/hipe_ig_moves.erl
@@ -25,8 +25,6 @@
new_move/3,
get_moves/1]).
--include("../util/hipe_vectors.hrl").
-
%%-----------------------------------------------------------------------------
%% The main data structure; its fields are:
%% - movelist : mapping from temp to set of associated move numbers
@@ -34,11 +32,13 @@
%% - moveinsns : list of move instructions, in descending move number order
%% - moveset : set of move instructions
--record(ig_moves, {movelist :: hipe_vector(),
+-record(ig_moves, {movelist :: movelist(),
nrmoves = 0 :: non_neg_integer(),
moveinsns = [] :: [{_,_}],
moveset = gb_sets:empty() :: gb_sets:set()}).
+-type movelist() :: hipe_vectors:vector(ordsets:ordset(non_neg_integer())).
+
%%-----------------------------------------------------------------------------
-spec new(non_neg_integer()) -> #ig_moves{}.
@@ -66,7 +66,8 @@ new_move(Dst, Src, IG_moves) ->
moveset = gb_sets:insert(MoveInsn, MoveSet)}
end.
--spec add_movelist(non_neg_integer(), non_neg_integer(), hipe_vector()) -> hipe_vector().
+-spec add_movelist(non_neg_integer(), non_neg_integer(), movelist())
+ -> movelist().
add_movelist(MoveNr, Temp, MoveList) ->
AssocMoves = hipe_vectors:get(MoveList, Temp),
@@ -74,7 +75,7 @@ add_movelist(MoveNr, Temp, MoveList) ->
%% ordset due to the ordsets:union in hipe_coalescing_regalloc:combine().
hipe_vectors:set(MoveList, Temp, ordsets:add_element(MoveNr, AssocMoves)).
--spec get_moves(#ig_moves{}) -> {hipe_vector(), non_neg_integer(), tuple()}.
+-spec get_moves(#ig_moves{}) -> {movelist(), non_neg_integer(), tuple()}.
get_moves(IG_moves) -> % -> {MoveList, NrMoves, MoveInsns}
{IG_moves#ig_moves.movelist,
diff --git a/lib/hipe/ssa/hipe_ssa_liveness.inc b/lib/hipe/ssa/hipe_ssa_liveness.inc
index 78488c65fc..46df8b66ad 100644
--- a/lib/hipe/ssa/hipe_ssa_liveness.inc
+++ b/lib/hipe/ssa/hipe_ssa_liveness.inc
@@ -40,6 +40,15 @@
ssa_liveness__livein/2]).
%% ssa_liveness__livein/3],
%% ssa_liveness__liveout/2]).
+-type set(E) :: gb_sets:set(E).
+-type liveness(Label, Var) ::
+ #{Label => {{Gen :: set(Var),
+ Kill :: set(Var),
+ {TotalDirGen :: set(Var),
+ DirGen :: gb_trees:tree(Label, set(Var))}},
+ LiveIn :: set(Var),
+ LiveOut :: set(Var),
+ Successors :: [Label]}}.
-endif.
%% -ifdef(DEBUG_LIVENESS).
%% -export([pp_liveness/1]).
@@ -262,21 +271,15 @@ update_directed_gen({Pred, Var}, Map)->
%%
%% liveness
%%
+-compile({inline, [liveness_lookup/2, liveness_update/3]}).
liveness_init(List) ->
- liveness_init1(List, gb_trees:empty()).
+ maps:from_list(List).
-liveness_init1([{Label, Info}|Left], Map) ->
- liveness_init1(Left, gb_trees:insert(Label, Info, Map));
-liveness_init1([], Map) ->
- Map.
-
-liveness_lookup(Label, Map) ->
- {value, Info} = gb_trees:lookup(Label, Map),
- Info.
-
-liveness_update(Label, NewInfo, Map) ->
- gb_trees:update(Label, NewInfo, Map).
+liveness_lookup(Label, Liveness) ->
+ maps:get(Label, Liveness).
+liveness_update(Label, Val, Liveness) ->
+ maps:update(Label, Val, Liveness).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
diff --git a/lib/hipe/util/Makefile b/lib/hipe/util/Makefile
index 66e9421c25..04de7f7823 100644
--- a/lib/hipe/util/Makefile
+++ b/lib/hipe/util/Makefile
@@ -113,4 +113,3 @@ release_docs_spec:
$(EBIN)/hipe_timing.beam: ../main/hipe.hrl
-$(EBIN)/hipe_vectors.beam: hipe_vectors.hrl
diff --git a/lib/hipe/util/hipe_vectors.erl b/lib/hipe/util/hipe_vectors.erl
index 7f6c8e91c2..90d736d02c 100644
--- a/lib/hipe/util/hipe_vectors.erl
+++ b/lib/hipe/util/hipe_vectors.erl
@@ -33,11 +33,25 @@
%% list_to_vector/1,
list/1]).
--include("hipe_vectors.hrl").
+%%-define(USE_TUPLES, true).
+%%-define(USE_GBTREES, true).
+-define(USE_ARRAYS, true).
+
+-type vector() :: vector(_).
+-export_type([vector/0, vector/1]).
+
+-spec new(non_neg_integer(), V) -> vector(E) when V :: E.
+-spec set(vector(E), non_neg_integer(), V :: E) -> vector(E).
+-spec get(vector(E), non_neg_integer()) -> E.
+-spec size(vector(_)) -> non_neg_integer().
+-spec vector_to_list(vector(E)) -> [E].
+%% -spec list_to_vector([E]) -> vector(E).
+-spec list(vector(E)) -> [{non_neg_integer(), E}].
%% ---------------------------------------------------------------------
-ifdef(USE_TUPLES).
+-opaque vector(_) :: tuple().
new(N, V) ->
erlang:make_tuple(N, V).
@@ -68,8 +82,8 @@ get(Vec, Ix) -> element(Ix+1, Vec).
%% ---------------------------------------------------------------------
-ifdef(USE_GBTREES).
+-opaque vector(E) :: gb_trees:tree(non_neg_integer(), E).
--spec new(non_neg_integer(), _) -> hipe_vector().
new(N, V) when is_integer(N), N >= 0 ->
gb_trees:from_orddict(mklist(N, V)).
@@ -81,14 +95,11 @@ mklist(M, N, V) when M < N ->
mklist(_, _, _) ->
[].
--spec size(hipe_vector()) -> non_neg_integer().
size(V) -> gb_trees:size(V).
--spec list(hipe_vector()) -> [{_, _}].
list(Vec) ->
gb_trees:to_list(Vec).
-%% -spec list_to_vector([_]) -> hipe_vector().
%% list_to_vector(Xs) ->
%% gb_trees:from_orddict(index(Xs, 0)).
%%
@@ -97,16 +108,29 @@ list(Vec) ->
%% index([],_) ->
%% [].
--spec vector_to_list(hipe_vector()) -> [_].
vector_to_list(V) ->
gb_trees:values(V).
--spec set(hipe_vector(), non_neg_integer(), _) -> hipe_vector().
set(Vec, Ix, V) ->
gb_trees:update(Ix, V, Vec).
--spec get(hipe_vector(), non_neg_integer()) -> any().
get(Vec, Ix) ->
gb_trees:get(Ix, Vec).
-endif. %% ifdef USE_GBTREES
+
+%% ---------------------------------------------------------------------
+
+-ifdef(USE_ARRAYS).
+%%-opaque vector(E) :: array:array(E).
+-type vector(E) :: array:array(E). % Work around dialyzer bug
+
+new(N, V) -> array:new(N, {default, V}).
+size(V) -> array:size(V).
+list(Vec) -> array:to_orddict(Vec).
+%% list_to_vector(Xs) -> array:from_list(Xs).
+vector_to_list(V) -> array:to_list(V).
+set(Vec, Ix, V) -> array:set(Ix, V, Vec).
+get(Vec, Ix) -> array:get(Ix, Vec).
+
+-endif. %% ifdef USE_ARRAYS
diff --git a/lib/hipe/util/hipe_vectors.hrl b/lib/hipe/util/hipe_vectors.hrl
deleted file mode 100644
index d4556e9dc4..0000000000
--- a/lib/hipe/util/hipe_vectors.hrl
+++ /dev/null
@@ -1,29 +0,0 @@
-%%
-%% %CopyrightBegin%
-%%
-%% Copyright Ericsson AB 2008-2016. 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%
-%%
-%%-define(USE_TUPLES, true).
--define(USE_GBTREES, true).
-
--ifdef(USE_TUPLES).
--type hipe_vector() :: tuple().
--endif.
-
--ifdef(USE_GBTREES).
--type hipe_vector() :: gb_trees:tree().
--endif.
diff --git a/lib/hipe/x86/hipe_x86_frame.erl b/lib/hipe/x86/hipe_x86_frame.erl
index 8851ead250..4cdc04007d 100644
--- a/lib/hipe/x86/hipe_x86_frame.erl
+++ b/lib/hipe/x86/hipe_x86_frame.erl
@@ -622,26 +622,31 @@ find_temps([I|Insns], S0) ->
find_temps([], S) ->
S.
+-compile({inline, [tset_empty/0, tset_size/1, tset_insert/2,
+ tset_filter/2, tset_to_list/1]}).
+
tset_empty() ->
- gb_sets:new().
+ #{}.
tset_size(S) ->
- gb_sets:size(S).
+ map_size(S).
tset_insert(S, T) ->
- gb_sets:add_element(T, S).
+ S#{T => []}.
-tset_add_list(S, Ts) ->
- gb_sets:union(S, gb_sets:from_list(Ts)).
+tset_add_list(S, []) -> S;
+tset_add_list(S, [T|Ts]) ->
+ tset_add_list(S#{T => []}, Ts).
-tset_del_list(S, Ts) ->
- gb_sets:subtract(S, gb_sets:from_list(Ts)).
+tset_del_list(S, []) -> S;
+tset_del_list(S, [T|Ts]) ->
+ tset_del_list(maps:remove(T,S), Ts).
tset_filter(S, F) ->
- gb_sets:filter(F, S).
+ maps:filter(fun(K, _V) -> F(K) end, S).
tset_to_list(S) ->
- gb_sets:to_list(S).
+ maps:keys(S).
%%%
%%% Compute minimum permissible frame size, ignoring spilled temps.