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author | Björn Gustavsson <[email protected]> | 2019-02-04 12:29:39 +0100 |
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committer | GitHub <[email protected]> | 2019-02-04 12:29:39 +0100 |
commit | 4b3c3ae0bdcab6028faa5a5ea3e4076ce6af5de4 (patch) | |
tree | 0d713fb4370bcab333ef75d04ef07b0ed35405f0 | |
parent | 791b151f205e8d2984b827168482328b23c09a34 (diff) | |
parent | 8c5edfebf22bb1e235989f4890cb729e82d9a885 (diff) | |
download | otp-4b3c3ae0bdcab6028faa5a5ea3e4076ce6af5de4.tar.gz otp-4b3c3ae0bdcab6028faa5a5ea3e4076ce6af5de4.tar.bz2 otp-4b3c3ae0bdcab6028faa5a5ea3e4076ce6af5de4.zip |
Merge pull request #2126 from bjorng/bjorn/compiler/compilation-speed
Reduce compilation times
-rw-r--r-- | lib/compiler/src/beam_ssa.erl | 54 | ||||
-rw-r--r-- | lib/compiler/src/beam_ssa_dead.erl | 33 | ||||
-rw-r--r-- | lib/compiler/src/beam_ssa_funs.erl | 8 | ||||
-rw-r--r-- | lib/compiler/src/beam_ssa_opt.erl | 91 | ||||
-rw-r--r-- | lib/compiler/src/beam_ssa_pre_codegen.erl | 86 | ||||
-rw-r--r-- | lib/compiler/src/beam_ssa_recv.erl | 8 | ||||
-rw-r--r-- | lib/compiler/src/beam_ssa_type.erl | 53 |
7 files changed, 177 insertions, 156 deletions
diff --git a/lib/compiler/src/beam_ssa.erl b/lib/compiler/src/beam_ssa.erl index b491e340b7..9c29c98064 100644 --- a/lib/compiler/src/beam_ssa.erl +++ b/lib/compiler/src/beam_ssa.erl @@ -142,7 +142,7 @@ add_anno(Key, Val, #b_switch{anno=Anno}=Bl) -> -spec get_anno(atom(), construct()) -> any(). get_anno(Key, Construct) -> - maps:get(Key, get_anno(Construct)). + map_get(Key, get_anno(Construct)). -spec get_anno(atom(), construct(),any()) -> any(). @@ -303,7 +303,7 @@ normalize(#b_ret{}=Ret) -> -spec successors(label(), block_map()) -> [label()]. successors(L, Blocks) -> - successors(maps:get(L, Blocks)). + successors(map_get(L, Blocks)). -spec def(Ls, Blocks) -> Def when Ls :: [label()], @@ -312,7 +312,7 @@ successors(L, Blocks) -> def(Ls, Blocks) -> Top = rpo(Ls, Blocks), - Blks = [maps:get(L, Blocks) || L <- Top], + Blks = [map_get(L, Blocks) || L <- Top], def_1(Blks, []). -spec def_used(Ls, Blocks) -> {Def,Used} when @@ -323,9 +323,9 @@ def(Ls, Blocks) -> def_used(Ls, Blocks) -> Top = rpo(Ls, Blocks), - Blks = [maps:get(L, Blocks) || L <- Top], - Preds = gb_sets:from_list(Top), - def_used_1(Blks, Preds, [], gb_sets:empty()). + Blks = [map_get(L, Blocks) || L <- Top], + Preds = cerl_sets:from_list(Top), + def_used_1(Blks, Preds, [], []). -spec dominators(Blocks) -> Result when Blocks :: block_map(), @@ -334,7 +334,7 @@ def_used(Ls, Blocks) -> dominators(Blocks) -> Preds = predecessors(Blocks), Top0 = rpo(Blocks), - Top = [{L,maps:get(L, Preds)} || L <- Top0], + Top = [{L,map_get(L, Preds)} || L <- Top0], %% The flow graph for an Erlang function is reducible, and %% therefore one traversal in reverse postorder is sufficient. @@ -365,9 +365,9 @@ mapfold_blocks_rpo(Fun, From, Acc, Blocks) -> end, {Blocks, Acc}, Successors). mapfold_blocks_rpo_1(Fun, Lbl, {Blocks0, Acc0}) -> - Block0 = maps:get(Lbl, Blocks0), + Block0 = map_get(Lbl, Blocks0), {Block, Acc} = Fun(Lbl, Block0, Acc0), - Blocks = maps:put(Lbl, Block, Blocks0), + Blocks = Blocks0#{Lbl:=Block}, {Blocks, Acc}. -spec mapfold_instrs_rpo(Fun, From, Acc0, Blocks0) -> {Blocks,Acc} when @@ -581,7 +581,7 @@ used(_) -> []. -spec definitions(Blocks :: block_map()) -> definition_map(). definitions(Blocks) -> fold_instrs_rpo(fun(#b_set{ dst = Var }=I, Acc) -> - maps:put(Var, I, Acc); + Acc#{Var => I}; (_Terminator, Acc) -> Acc end, [0], #{}, Blocks). @@ -626,10 +626,10 @@ is_commutative(_) -> false. def_used_1([#b_blk{is=Is,last=Last}|Bs], Preds, Def0, Used0) -> {Def,Used1} = def_used_is(Is, Preds, Def0, Used0), - Used = gb_sets:union(gb_sets:from_list(used(Last)), Used1), + Used = ordsets:union(used(Last), Used1), def_used_1(Bs, Preds, Def, Used); def_used_1([], _Preds, Def, Used) -> - {ordsets:from_list(Def),gb_sets:to_list(Used)}. + {ordsets:from_list(Def),Used}. def_used_is([#b_set{op=phi,dst=Dst,args=Args}|Is], Preds, Def0, Used0) -> @@ -637,12 +637,12 @@ def_used_is([#b_set{op=phi,dst=Dst,args=Args}|Is], %% We must be careful to only include variables that will %% be used when arriving from one of the predecessor blocks %% in Preds. - Used1 = [V || {#b_var{}=V,L} <- Args, gb_sets:is_member(L, Preds)], - Used = gb_sets:union(gb_sets:from_list(Used1), Used0), + Used1 = [V || {#b_var{}=V,L} <- Args, cerl_sets:is_element(L, Preds)], + Used = ordsets:union(ordsets:from_list(Used1), Used0), def_used_is(Is, Preds, Def, Used); def_used_is([#b_set{dst=Dst}=I|Is], Preds, Def0, Used0) -> Def = [Dst|Def0], - Used = gb_sets:union(gb_sets:from_list(used(I)), Used0), + Used = ordsets:union(used(I), Used0), def_used_is(Is, Preds, Def, Used); def_used_is([], _Preds, Def, Used) -> {Def,Used}. @@ -661,40 +661,40 @@ iter_dominators([{0,[]}|Ls], _Doms) -> Dom = [0], iter_dominators(Ls, #{0=>Dom}); iter_dominators([{L,Preds}|Ls], Doms) -> - DomPreds = [maps:get(P, Doms) || P <- Preds, maps:is_key(P, Doms)], + DomPreds = [map_get(P, Doms) || P <- Preds, is_map_key(P, Doms)], Dom = ordsets:add_element(L, ordsets:intersection(DomPreds)), iter_dominators(Ls, Doms#{L=>Dom}); iter_dominators([], Doms) -> Doms. fold_rpo_1([L|Ls], Fun, Blocks, Acc0) -> - Block = maps:get(L, Blocks), + Block = map_get(L, Blocks), Acc = Fun(L, Block, Acc0), fold_rpo_1(Ls, Fun, Blocks, Acc); fold_rpo_1([], _, _, Acc) -> Acc. fold_instrs_rpo_1([L|Ls], Fun, Blocks, Acc0) -> - #b_blk{is=Is,last=Last} = maps:get(L, Blocks), + #b_blk{is=Is,last=Last} = map_get(L, Blocks), Acc1 = foldl(Fun, Acc0, Is), Acc = Fun(Last, Acc1), fold_instrs_rpo_1(Ls, Fun, Blocks, Acc); fold_instrs_rpo_1([], _, _, Acc) -> Acc. mapfold_instrs_rpo_1([L|Ls], Fun, Blocks0, Acc0) -> - #b_blk{is=Is0,last=Last0} = Block0 = maps:get(L, Blocks0), + #b_blk{is=Is0,last=Last0} = Block0 = map_get(L, Blocks0), {Is,Acc1} = mapfoldl(Fun, Acc0, Is0), {Last,Acc} = Fun(Last0, Acc1), Block = Block0#b_blk{is=Is,last=Last}, - Blocks = maps:put(L, Block, Blocks0), + Blocks = Blocks0#{L:=Block}, mapfold_instrs_rpo_1(Ls, Fun, Blocks, Acc); mapfold_instrs_rpo_1([], _, Blocks, Acc) -> {Blocks,Acc}. flatmapfold_instrs_rpo_1([L|Ls], Fun, Blocks0, Acc0) -> - #b_blk{is=Is0,last=Last0} = Block0 = maps:get(L, Blocks0), + #b_blk{is=Is0,last=Last0} = Block0 = map_get(L, Blocks0), {Is,Acc1} = flatmapfoldl(Fun, Acc0, Is0), {[Last],Acc} = Fun(Last0, Acc1), Block = Block0#b_blk{is=Is,last=Last}, - Blocks = maps:put(L, Block, Blocks0), + Blocks = Blocks0#{L:=Block}, flatmapfold_instrs_rpo_1(Ls, Fun, Blocks, Acc); flatmapfold_instrs_rpo_1([], _, Blocks, Acc) -> {Blocks,Acc}. @@ -705,7 +705,7 @@ linearize_1([L|Ls], Blocks, Seen0, Acc0) -> linearize_1(Ls, Blocks, Seen0, Acc0); false -> Seen1 = cerl_sets:add_element(L, Seen0), - Block = maps:get(L, Blocks), + Block = map_get(L, Blocks), Successors = successors(Block), {Acc,Seen} = linearize_1(Successors, Blocks, Seen1, Acc0), linearize_1(Ls, Blocks, Seen, [{L,Block}|Acc]) @@ -745,7 +745,7 @@ rpo_1([L|Ls], Blocks, Seen0, Acc0) -> true -> rpo_1(Ls, Blocks, Seen0, Acc0); false -> - Block = maps:get(L, Blocks), + Block = map_get(L, Blocks), Seen1 = cerl_sets:add_element(L, Seen0), Successors = successors(Block), {Acc,Seen} = rpo_1(Successors, Blocks, Seen1, Acc0), @@ -775,11 +775,11 @@ rename_phi_vars([{Var,L}|As], Preds, Ren) -> rename_phi_vars([], _, _) -> []. map_instrs_1([L|Ls], Fun, Blocks0) -> - #b_blk{is=Is0,last=Last0} = Blk0 = maps:get(L, Blocks0), + #b_blk{is=Is0,last=Last0} = Blk0 = map_get(L, Blocks0), Is = [Fun(I) || I <- Is0], Last = Fun(Last0), Blk = Blk0#b_blk{is=Is,last=Last}, - Blocks = maps:put(L, Blk, Blocks0), + Blocks = Blocks0#{L:=Blk}, map_instrs_1(Ls, Fun, Blocks); map_instrs_1([], _, Blocks) -> Blocks. @@ -790,7 +790,7 @@ flatmapfoldl(F, Accu0, [Hd|Tail]) -> flatmapfoldl(_, Accu, []) -> {[],Accu}. split_blocks_1([L|Ls], P, Blocks0, Count0) -> - #b_blk{is=Is0} = Blk = maps:get(L, Blocks0), + #b_blk{is=Is0} = Blk = map_get(L, Blocks0), case split_blocks_is(Is0, P, []) of {yes,Bef,Aft} -> NewLbl = Count0, diff --git a/lib/compiler/src/beam_ssa_dead.erl b/lib/compiler/src/beam_ssa_dead.erl index 09b29025c6..2cca9ebadf 100644 --- a/lib/compiler/src/beam_ssa_dead.erl +++ b/lib/compiler/src/beam_ssa_dead.erl @@ -375,7 +375,7 @@ is_forbidden(L, St) -> %% any instruction with potential side effects. eval_is([#b_set{op=phi,dst=Dst,args=Args}|Is], Bs0, St) -> - From = maps:get(from, Bs0), + From = map_get(from, Bs0), [Val] = [Val || {Val,Pred} <- Args, Pred =:= From], Bs = bind_var(Dst, Val, Bs0), eval_is(Is, Bs, St); @@ -826,7 +826,7 @@ combine_eqs_1([L|Ls], #st{bs=Blocks0}=St0) -> %% Everything OK! Combine the lists. Sw0 = #b_switch{arg=Arg,fail=Fail,list=List}, Sw = beam_ssa:normalize(Sw0), - Blk0 = maps:get(L, Blocks0), + Blk0 = map_get(L, Blocks0), Blk = Blk0#b_blk{last=Sw}, Blocks = Blocks0#{L:=Blk}, St = St0#st{bs=Blocks}, @@ -850,8 +850,8 @@ combine_eqs_1([], St) -> St. comb_get_sw(L, Blocks) -> comb_get_sw(L, true, Blocks). -comb_get_sw(L, Safe0, #st{bs=Blocks,skippable=Skippable}=St) -> - #b_blk{is=Is,last=Last} = maps:get(L, Blocks), +comb_get_sw(L, Safe0, #st{bs=Blocks,skippable=Skippable}) -> + #b_blk{is=Is,last=Last} = map_get(L, Blocks), Safe1 = Safe0 andalso is_map_key(L, Skippable), case Last of #b_ret{} -> @@ -865,8 +865,8 @@ comb_get_sw(L, Safe0, #st{bs=Blocks,skippable=Skippable}=St) -> {#b_set{},_} -> none end; - #b_br{bool=#b_literal{val=true},succ=Succ} -> - comb_get_sw(Succ, Safe1, St); + #b_br{} -> + none; #b_switch{arg=#b_var{}=Arg,fail=Fail,list=List} -> {none,Safe} = comb_is(Is, none, Safe1), {Safe,Arg,L,Fail,List} @@ -946,7 +946,7 @@ used_vars([{L,#b_blk{is=Is}=Blk}|Bs], UsedVars0, Skip0) -> %% shortcut_opt/1. Successors = beam_ssa:successors(Blk), - Used0 = used_vars_succ(Successors, L, UsedVars0), + Used0 = used_vars_succ(Successors, L, UsedVars0, []), Used = used_vars_blk(Blk, Used0), UsedVars = used_vars_phis(Is, L, Used, UsedVars0), @@ -969,19 +969,22 @@ used_vars([{L,#b_blk{is=Is}=Blk}|Bs], UsedVars0, Skip0) -> used_vars([], UsedVars, Skip) -> {UsedVars,Skip}. -used_vars_succ([S|Ss], L, UsedVars) -> - Live0 = used_vars_succ(Ss, L, UsedVars), +used_vars_succ([S|Ss], L, LiveMap, Live0) -> Key = {S,L}, - case UsedVars of + case LiveMap of #{Key:=Live} -> - ordsets:union(Live, Live0); + %% The successor has a phi node, and the value for + %% this block in the phi node is a variable. + used_vars_succ(Ss, L, LiveMap, ordsets:union(Live, Live0)); #{S:=Live} -> - ordsets:union(Live, Live0); + %% No phi node in the successor, or the value for + %% this block in the phi node is a literal. + used_vars_succ(Ss, L, LiveMap, ordsets:union(Live, Live0)); #{} -> - Live0 + %% A peek_message block which has not been processed yet. + used_vars_succ(Ss, L, LiveMap, Live0) end; -used_vars_succ([], _, _) -> - ordsets:new(). +used_vars_succ([], _, _, Acc) -> Acc. used_vars_phis(Is, L, Live0, UsedVars0) -> UsedVars = UsedVars0#{L=>Live0}, diff --git a/lib/compiler/src/beam_ssa_funs.erl b/lib/compiler/src/beam_ssa_funs.erl index 38df50fd74..e77c00fa89 100644 --- a/lib/compiler/src/beam_ssa_funs.erl +++ b/lib/compiler/src/beam_ssa_funs.erl @@ -47,14 +47,14 @@ module(#b_module{body=Fs0}=Module, _Opts) -> %% the same arguments in the same order, we can shave off a call by short- %% circuiting it. find_trampolines(#b_function{args=Args,bs=Blocks}=F, Trampolines) -> - case maps:get(0, Blocks) of + case map_get(0, Blocks) of #b_blk{is=[#b_set{op=call, args=[#b_local{}=Actual | Args], dst=Dst}], last=#b_ret{arg=Dst}} -> {_, Name, Arity} = beam_ssa:get_anno(func_info, F), Trampoline = #b_local{name=#b_literal{val=Name},arity=Arity}, - maps:put(Trampoline, Actual, Trampolines); + Trampolines#{Trampoline => Actual}; _ -> Trampolines end. @@ -80,7 +80,7 @@ lfo_analyze_is([#b_set{op=make_fun, lfo_analyze_is([#b_set{op=call, args=[Fun | CallArgs]} | Is], LFuns) when is_map_key(Fun, LFuns) -> - #b_set{args=[#b_local{arity=Arity} | FreeVars]} = maps:get(Fun, LFuns), + #b_set{args=[#b_local{arity=Arity} | FreeVars]} = map_get(Fun, LFuns), case length(CallArgs) + length(FreeVars) of Arity -> lfo_analyze_is(Is, maps:without(CallArgs, LFuns)); @@ -133,7 +133,7 @@ lfo_optimize_1([], _LFuns, _Trampolines) -> lfo_optimize_is([#b_set{op=call, args=[Fun | CallArgs]}=Call0 | Is], LFuns, Trampolines) when is_map_key(Fun, LFuns) -> - #b_set{args=[Local | FreeVars]} = maps:get(Fun, LFuns), + #b_set{args=[Local | FreeVars]} = map_get(Fun, LFuns), Args = [lfo_short_circuit(Local, Trampolines) | CallArgs ++ FreeVars], Call = beam_ssa:add_anno(local_fun_opt, Fun, Call0#b_set{args=Args}), [Call | lfo_optimize_is(Is, LFuns, Trampolines)]; diff --git a/lib/compiler/src/beam_ssa_opt.erl b/lib/compiler/src/beam_ssa_opt.erl index e528bb4dfb..ca5eefe4fc 100644 --- a/lib/compiler/src/beam_ssa_opt.erl +++ b/lib/compiler/src/beam_ssa_opt.erl @@ -362,7 +362,7 @@ ssa_opt_coalesce_phis({#st{ssa=Blocks0}=St, FuncDb}) -> {St#st{ssa=Blocks}, FuncDb}. c_phis_1([L|Ls], Blocks0) -> - case maps:get(L, Blocks0) of + case map_get(L, Blocks0) of #b_blk{is=[#b_set{op=phi}|_]}=Blk -> Blocks = c_phis_2(L, Blk, Blocks0), c_phis_1(Ls, Blocks); @@ -401,7 +401,7 @@ c_phis_args_1([{Var,Pred}|As], Blocks) -> c_phis_args_1([], _Blocks) -> none. c_get_pred_vars(Var, Pred, Blocks) -> - case maps:get(Pred, Blocks) of + case map_get(Pred, Blocks) of #b_blk{is=[#b_set{op=phi,dst=Var,args=Args}]} -> {Var,Pred,Args}; #b_blk{} -> @@ -422,7 +422,7 @@ c_rewrite_phi([A|As], Info) -> c_rewrite_phi([], _Info) -> []. c_fix_branches([{_,Pred}|As], L, Blocks0) -> - #b_blk{last=Last0} = Blk0 = maps:get(Pred, Blocks0), + #b_blk{last=Last0} = Blk0 = map_get(Pred, Blocks0), #b_br{bool=#b_literal{val=true}} = Last0, %Assertion. Last = Last0#b_br{bool=#b_literal{val=true},succ=L,fail=L}, Blk = Blk0#b_blk{last=Last}, @@ -692,7 +692,7 @@ record_opt_is([], _Last, _Blocks) -> []. is_tagged_tuple(#b_var{}=Tuple, Bool, #b_br{bool=Bool,succ=Succ,fail=Fail}, Blocks) -> - SuccBlk = maps:get(Succ, Blocks), + SuccBlk = map_get(Succ, Blocks), is_tagged_tuple_1(SuccBlk, Tuple, Fail, Blocks); is_tagged_tuple(_, _, _, _) -> no. @@ -706,7 +706,7 @@ is_tagged_tuple_1(#b_blk{is=Is,last=Last}, Tuple, Fail, Blocks) -> when is_integer(ArityVal) -> case Last of #b_br{bool=Bool,succ=Succ,fail=Fail} -> - SuccBlk = maps:get(Succ, Blocks), + SuccBlk = map_get(Succ, Blocks), case is_tagged_tuple_2(SuccBlk, Tuple, Fail) of no -> no; @@ -757,7 +757,7 @@ ssa_opt_cse({#st{ssa=Linear}=St, FuncDb}) -> {St#st{ssa=cse(Linear, #{}, M)}, FuncDb}. cse([{L,#b_blk{is=Is0,last=Last0}=Blk}|Bs], Sub0, M0) -> - Es0 = maps:get(L, M0), + Es0 = map_get(L, M0), {Is1,Es,Sub} = cse_is(Is0, Es0, Sub0, []), Last = sub(Last0, Sub), M = cse_successors(Is1, Blk, Es, M0), @@ -1002,7 +1002,7 @@ float_conv([{L,#b_blk{is=Is0}=Blk0}|Bs0], Fail, Count0) -> float_maybe_flush(Blk0, #fs{s=cleared,fail=Fail,bs=Blocks}=Fs0, Count0) -> #b_blk{last=#b_br{bool=#b_var{},succ=Succ}=Br} = Blk0, - #b_blk{is=Is} = maps:get(Succ, Blocks), + #b_blk{is=Is} = map_get(Succ, Blocks), case Is of [#b_set{anno=#{float_op:=_}}|_] -> %% The next operation is also a floating point operation. @@ -1149,25 +1149,28 @@ ssa_opt_live({#st{ssa=Linear0}=St, FuncDb}) -> live_opt([{L,Blk0}|Bs], LiveMap0, Blocks) -> Blk1 = beam_ssa_share:block(Blk0, Blocks), Successors = beam_ssa:successors(Blk1), - Live0 = live_opt_succ(Successors, L, LiveMap0), + Live0 = live_opt_succ(Successors, L, LiveMap0, gb_sets:empty()), {Blk,Live} = live_opt_blk(Blk1, Live0), LiveMap = live_opt_phis(Blk#b_blk.is, L, Live, LiveMap0), live_opt(Bs, LiveMap, Blocks#{L:=Blk}); live_opt([], _, Acc) -> Acc. -live_opt_succ([S|Ss], L, LiveMap) -> - Live0 = live_opt_succ(Ss, L, LiveMap), +live_opt_succ([S|Ss], L, LiveMap, Live0) -> Key = {S,L}, case LiveMap of #{Key:=Live} -> - gb_sets:union(Live, Live0); + %% The successor has a phi node, and the value for + %% this block in the phi node is a variable. + live_opt_succ(Ss, L, LiveMap, gb_sets:union(Live, Live0)); #{S:=Live} -> - gb_sets:union(Live, Live0); + %% No phi node in the successor, or the value for + %% this block in the phi node is a literal. + live_opt_succ(Ss, L, LiveMap, gb_sets:union(Live, Live0)); #{} -> - Live0 + %% A peek_message block which has not been processed yet. + live_opt_succ(Ss, L, LiveMap, Live0) end; -live_opt_succ([], _, _) -> - gb_sets:empty(). +live_opt_succ([], _, _, Acc) -> Acc. live_opt_phis(Is, L, Live0, LiveMap0) -> LiveMap = LiveMap0#{L=>Live0}, @@ -1218,7 +1221,7 @@ live_opt_is([#b_set{op=succeeded,dst=SuccDst=SuccDstVar, case gb_sets:is_member(SuccDst, Live0) of true -> Live1 = gb_sets:add(Dst, Live0), - Live = gb_sets:delete_any(SuccDst, Live1), + Live = gb_sets:delete(SuccDst, Live1), live_opt_is([I|Is], Live, [SuccI|Acc]); false -> live_opt_is([I|Is], Live0, Acc) @@ -1229,7 +1232,7 @@ live_opt_is([#b_set{dst=Dst}=I|Is], Live0, Acc) -> case gb_sets:is_member(Dst, Live0) of true -> Live1 = gb_sets:union(Live0, gb_sets:from_ordset(beam_ssa:used(I))), - Live = gb_sets:delete_any(Dst, Live1), + Live = gb_sets:delete(Dst, Live1), live_opt_is(Is, Live, [I|Acc]); false -> case beam_ssa:no_side_effect(I) of @@ -1373,7 +1376,7 @@ bsm_positions([{L,#b_blk{is=Is,last=Last}}|Bs], PosMap0) -> case {Is,Last} of {[#b_set{op=bs_test_tail,dst=Bool,args=[Ctx,#b_literal{val=Bits0}]}], #b_br{bool=Bool,fail=Fail}} -> - Bits = Bits0 + maps:get(Ctx, PosMap0), + Bits = Bits0 + map_get(Ctx, PosMap0), bsm_positions(Bs, PosMap#{L=>{Bits,Fail}}); {_,_} -> bsm_positions(Bs, PosMap) @@ -1465,7 +1468,7 @@ bsm_units_skip_1([#b_set{op=bs_match, Block0, Units) -> [#b_set{op=succeeded,dst=Bool,args=[New]}] = Test, %Assertion. #b_br{bool=Bool} = Last0 = Block0#b_blk.last, %Assertion. - CtxUnit = maps:get(Ctx, Units), + CtxUnit = map_get(Ctx, Units), if CtxUnit rem OpUnit =:= 0 -> Is = takewhile(fun(I) -> I =/= Skip end, Block0#b_blk.is), @@ -1477,7 +1480,7 @@ bsm_units_skip_1([#b_set{op=bs_match, end; bsm_units_skip_1([#b_set{op=bs_match,dst=New,args=Args}|_], Block, Units) -> [_,Ctx|_] = Args, - CtxUnit = maps:get(Ctx, Units), + CtxUnit = map_get(Ctx, Units), OpUnit = bsm_op_unit(Args), {Block, Units#{ New => gcd(OpUnit, CtxUnit) }}; bsm_units_skip_1([_I | Is], Block, Units) -> @@ -1505,23 +1508,23 @@ bsm_op_unit(_) -> %% may differ between them, so we can only keep the information that is common %% to all paths. bsm_units_join(Lbl, MapA, UnitMaps0) when is_map_key(Lbl, UnitMaps0) -> - MapB = maps:get(Lbl, UnitMaps0), + MapB = map_get(Lbl, UnitMaps0), Merged = if map_size(MapB) =< map_size(MapA) -> bsm_units_join_1(maps:keys(MapB), MapA, MapB); map_size(MapB) > map_size(MapA) -> bsm_units_join_1(maps:keys(MapA), MapB, MapA) end, - maps:put(Lbl, Merged, UnitMaps0); + UnitMaps0#{Lbl := Merged}; bsm_units_join(Lbl, MapA, UnitMaps0) when MapA =/= #{} -> - maps:put(Lbl, MapA, UnitMaps0); + UnitMaps0#{Lbl => MapA}; bsm_units_join(_Lbl, _MapA, UnitMaps0) -> UnitMaps0. bsm_units_join_1([Key | Keys], Left, Right) when is_map_key(Key, Left) -> - UnitA = maps:get(Key, Left), - UnitB = maps:get(Key, Right), - bsm_units_join_1(Keys, Left, maps:put(Key, gcd(UnitA, UnitB), Right)); + UnitA = map_get(Key, Left), + UnitB = map_get(Key, Right), + bsm_units_join_1(Keys, Left, Right#{Key := gcd(UnitA, UnitB)}); bsm_units_join_1([Key | Keys], Left, Right) -> bsm_units_join_1(Keys, Left, maps:remove(Key, Right)); bsm_units_join_1([], _MapA, Right) -> @@ -1941,7 +1944,7 @@ merge_blocks_1([L|Ls], Preds0, Blocks0) -> Is = Is0 ++ Is1, Blk = Blk1#b_blk{is=Is}, Blocks1 = maps:remove(L, Blocks0), - Blocks2 = maps:put(P, Blk, Blocks1), + Blocks2 = Blocks1#{P:=Blk}, Successors = beam_ssa:successors(Blk), Blocks = beam_ssa:update_phi_labels(Successors, L, P, Blocks2), Preds = merge_update_preds(Successors, L, P, Preds0), @@ -1955,8 +1958,8 @@ merge_blocks_1([L|Ls], Preds0, Blocks0) -> merge_blocks_1([], _Preds, Blocks) -> Blocks. merge_update_preds([L|Ls], From, To, Preds0) -> - Ps = [rename_label(P, From, To) || P <- maps:get(L, Preds0)], - Preds = maps:put(L, Ps, Preds0), + Ps = [rename_label(P, From, To) || P <- map_get(L, Preds0)], + Preds = Preds0#{L:=Ps}, merge_update_preds(Ls, From, To, Preds); merge_update_preds([], _, _, Preds) -> Preds. @@ -2003,8 +2006,16 @@ ssa_opt_sink({#st{ssa=Blocks0}=St, FuncDb}) -> %% Create a map with all variables that define get_tuple_element %% instructions. The variable name map to the block it is defined in. - Defs = maps:from_list(def_blocks(Linear)), + case def_blocks(Linear) of + [] -> + %% No get_tuple_element instructions, so there is nothing to do. + {St, FuncDb}; + [_|_]=Defs0 -> + Defs = maps:from_list(Defs0), + {do_ssa_opt_sink(Linear, Defs, St), FuncDb} + end. +do_ssa_opt_sink(Linear, Defs, #st{ssa=Blocks0}=St) -> %% Now find all the blocks that use variables defined by get_tuple_element %% instructions. Used = used_blocks(Linear, Defs, []), @@ -2036,10 +2047,10 @@ ssa_opt_sink({#st{ssa=Blocks0}=St, FuncDb}) -> %% Now move all suitable get_tuple_element instructions to their %% new blocks. Blocks = foldl(fun({V,To}, A) -> - From = maps:get(V, Defs), + From = map_get(V, Defs), move_defs(V, From, To, A) end, Blocks0, DefLoc), - {St#st{ssa=Blocks}, FuncDb}. + St#st{ssa=Blocks}. def_blocks([{L,#b_blk{is=Is}}|Bs]) -> def_blocks_is(Is, L, def_blocks(Bs)); @@ -2106,11 +2117,11 @@ unsuitable_loop(L, Blocks, Predecessors) -> unsuitable_loop(L, Blocks, Predecessors, []). unsuitable_loop(L, Blocks, Predecessors, Acc) -> - Ps = maps:get(L, Predecessors), + Ps = map_get(L, Predecessors), unsuitable_loop_1(Ps, Blocks, Predecessors, Acc). unsuitable_loop_1([P|Ps], Blocks, Predecessors, Acc0) -> - case maps:get(P, Blocks) of + case map_get(P, Blocks) of #b_blk{is=[#b_set{op=peek_message}|_]} -> unsuitable_loop_1(Ps, Blocks, Predecessors, Acc0); #b_blk{} -> @@ -2134,7 +2145,7 @@ unsuitable_loop_1([], _, _, Acc) -> Acc. %% variable will not be included in the result list. new_def_locations([{V,UsedIn}|Vs], Defs, Dom) -> - DefIn = maps:get(V, Defs), + DefIn = map_get(V, Defs), case common_dom(UsedIn, DefIn, Dom) of [] -> new_def_locations(Vs, Defs, Dom); @@ -2145,27 +2156,27 @@ new_def_locations([{V,UsedIn}|Vs], Defs, Dom) -> new_def_locations([], _, _) -> []. common_dom([L|Ls], DefIn, Dom) -> - DomBy0 = maps:get(L, Dom), - DomBy = ordsets:subtract(DomBy0, maps:get(DefIn, Dom)), + DomBy0 = map_get(L, Dom), + DomBy = ordsets:subtract(DomBy0, map_get(DefIn, Dom)), common_dom_1(Ls, Dom, DomBy). common_dom_1(_, _, []) -> []; common_dom_1([L|Ls], Dom, [_|_]=DomBy0) -> - DomBy1 = maps:get(L, Dom), + DomBy1 = map_get(L, Dom), DomBy = ordsets:intersection(DomBy0, DomBy1), common_dom_1(Ls, Dom, DomBy); common_dom_1([], _, DomBy) -> DomBy. most_dominated([L|Ls], Dom) -> - most_dominated(Ls, L, maps:get(L, Dom), Dom). + most_dominated(Ls, L, map_get(L, Dom), Dom). most_dominated([L|Ls], L0, DomBy, Dom) -> case member(L, DomBy) of true -> most_dominated(Ls, L0, DomBy, Dom); false -> - most_dominated(Ls, L, maps:get(L, Dom), Dom) + most_dominated(Ls, L, map_get(L, Dom), Dom) end; most_dominated([], L, _, _) -> L. diff --git a/lib/compiler/src/beam_ssa_pre_codegen.erl b/lib/compiler/src/beam_ssa_pre_codegen.erl index fde1118c29..274f78052d 100644 --- a/lib/compiler/src/beam_ssa_pre_codegen.erl +++ b/lib/compiler/src/beam_ssa_pre_codegen.erl @@ -272,7 +272,7 @@ make_bs_getpos_map([], _, Count, Acc) -> {maps:from_list(Acc),Count}. get_savepoint({_,_}=Ps, SavePoints) -> - Name = {'@ssa_bs_position', maps:get(Ps, SavePoints)}, + Name = {'@ssa_bs_position', map_get(Ps, SavePoints)}, #b_var{name=Name}. make_bs_pos_dict([{Ctx,Pts}|T], Count0, Acc0) -> @@ -323,7 +323,7 @@ make_restore_map([], _, Count, Acc) -> make_slot({Same,Same}, _Slots) -> #b_literal{val=start}; make_slot({_,_}=Ps, Slots) -> - #b_literal{val=maps:get(Ps, Slots)}. + #b_literal{val=map_get(Ps, Slots)}. make_save_point_dict([{Ctx,Pts}|T], Acc0) -> Acc = make_save_point_dict_1(Pts, Ctx, 0, Acc0), @@ -684,7 +684,7 @@ sanitize(#st{ssa=Blocks0,cnt=Count0}=St) -> St#st{ssa=Blocks,cnt=Count}. sanitize([L|Ls], Count0, Blocks0, Values0) -> - #b_blk{is=Is0} = Blk0 = maps:get(L, Blocks0), + #b_blk{is=Is0} = Blk0 = map_get(L, Blocks0), case sanitize_is(Is0, Count0, Values0, false, []) of no_change -> sanitize(Ls, Count0, Blocks0, Values0); @@ -817,7 +817,7 @@ sanitize_badarg(I) -> I#b_set{op=call,args=[Func,#b_literal{val=badarg}]}. remove_unreachable([L|Ls], Blocks, Reachable, Acc) -> - #b_blk{is=Is0} = Blk0 = maps:get(L, Blocks), + #b_blk{is=Is0} = Blk0 = map_get(L, Blocks), case split_phis(Is0) of {[_|_]=Phis,Rest} -> Is = [prune_phi(Phi, Reachable) || Phi <- Phis] ++ Rest, @@ -882,7 +882,7 @@ place_frames(#st{ssa=Blocks}=St) -> St#st{frames=Frames}. place_frames_1([L|Ls], Blocks, Doms, Tried0, Frames0) -> - Blk = maps:get(L, Blocks), + Blk = map_get(L, Blocks), case need_frame(Blk) of true -> %% This block needs a frame. Try to place it here. @@ -993,14 +993,14 @@ place_frame_here(L, Blocks, Doms, Frames) -> %% Return all predecessors referenced in phi nodes. phi_predecessors(L, Blocks) -> - #b_blk{is=Is} = maps:get(L, Blocks), + #b_blk{is=Is} = map_get(L, Blocks), [P || #b_set{op=phi,args=Args} <- Is, {_,P} <- Args]. %% is_dominated_by(Label, DominatedBy, Dominators) -> true|false. %% Test whether block Label is dominated by block DominatedBy. is_dominated_by(L, DomBy, Doms) -> - DominatedBy = maps:get(L, Doms), + DominatedBy = map_get(L, Doms), ordsets:is_element(DomBy, DominatedBy). %% need_frame(#b_blk{}) -> true|false. @@ -1137,7 +1137,7 @@ recv_fix_common([Msg0|T], Exit, Rm, Blocks0, Count0) -> {MsgVars,Count} = new_vars(duplicate(N, '@recv'), Count1), PhiArgs = fix_exit_phi_args(MsgVars, Rm, Exit, Blocks1), Phi = #b_set{op=phi,dst=Msg,args=PhiArgs}, - ExitBlk0 = maps:get(Exit, Blocks1), + ExitBlk0 = map_get(Exit, Blocks1), ExitBlk = ExitBlk0#b_blk{is=[Phi|ExitBlk0#b_blk.is]}, Blocks2 = Blocks1#{Exit:=ExitBlk}, Blocks = recv_fix_common_1(MsgVars, Rm, Msg0, Blocks2), @@ -1148,7 +1148,7 @@ recv_fix_common([], _, _, Blocks, Count) -> recv_fix_common_1([V|Vs], [Rm|Rms], Msg, Blocks0) -> Ren = #{Msg=>V}, Blocks1 = beam_ssa:rename_vars(Ren, [Rm], Blocks0), - #b_blk{is=Is0} = Blk0 = maps:get(Rm, Blocks1), + #b_blk{is=Is0} = Blk0 = map_get(Rm, Blocks1), Copy = #b_set{op=copy,dst=V,args=[Msg]}, Is = insert_after_phis(Is0, [Copy]), Blk = Blk0#b_blk{is=Is}, @@ -1183,11 +1183,11 @@ fix_receive([L|Ls], Defs, Blocks0, Count0) -> {NewVars,Count} = new_vars([Base || #b_var{name=Base} <- Used], Count0), Ren = zip(Used, NewVars), Blocks1 = beam_ssa:rename_vars(Ren, [L], Blocks0), - #b_blk{is=Is0} = Blk1 = maps:get(L, Blocks1), + #b_blk{is=Is0} = Blk1 = map_get(L, Blocks1), CopyIs = [#b_set{op=copy,dst=New,args=[Old]} || {Old,New} <- Ren], Is = insert_after_phis(Is0, CopyIs), Blk = Blk1#b_blk{is=Is}, - Blocks = maps:put(L, Blk, Blocks1), + Blocks = Blocks1#{L:=Blk}, fix_receive(Ls, Defs, Blocks, Count); fix_receive([], _Defs, Blocks, Count) -> {Blocks,Count}. @@ -1212,7 +1212,7 @@ find_loop_exit_1(_, _, Exit) -> Exit. find_rm_blocks(L, Blocks) -> Seen = gb_sets:singleton(L), - Blk = maps:get(L, Blocks), + Blk = map_get(L, Blocks), Succ = beam_ssa:successors(Blk), find_rm_blocks_1(Succ, Seen, Blocks). @@ -1222,7 +1222,7 @@ find_rm_blocks_1([L|Ls], Seen0, Blocks) -> find_rm_blocks_1(Ls, Seen0, Blocks); false -> Seen = gb_sets:insert(L, Seen0), - Blk = maps:get(L, Blocks), + Blk = map_get(L, Blocks), case find_rm_act(Blk#b_blk.is) of prune -> %% Looping back. Don't look at any successors. @@ -1284,16 +1284,16 @@ find_yregs_1([{F,Defs}|Fs], Blocks0) -> Ls = beam_ssa:rpo([F], Blocks0), Yregs0 = [], Yregs = find_yregs_2(Ls, Blocks0, D0, Yregs0), - Blk0 = maps:get(F, Blocks0), + Blk0 = map_get(F, Blocks0), Blk = beam_ssa:add_anno(yregs, Yregs, Blk0), Blocks = Blocks0#{F:=Blk}, find_yregs_1(Fs, Blocks); find_yregs_1([], Blocks) -> Blocks. find_yregs_2([L|Ls], Blocks0, D0, Yregs0) -> - Blk0 = maps:get(L, Blocks0), + Blk0 = map_get(L, Blocks0), #b_blk{is=Is,last=Last} = Blk0, - Ys0 = maps:get(L, D0), + Ys0 = map_get(L, D0), {Yregs1,Ys} = find_yregs_is(Is, Ys0, Yregs0), Yregs = find_yregs_terminator(Last, Ys, Yregs1), Successors = beam_ssa:successors(Blk0), @@ -1320,7 +1320,7 @@ find_defs_1([L|Ls], Blocks, Frames, Seen0, Defs0, Acc0) -> false -> Seen1 = gb_sets:insert(L, Seen0), {Acc,Seen} = find_defs_1(Ls, Blocks, Frames, Seen1, Defs0, Acc0), - #b_blk{is=Is} = Blk = maps:get(L, Blocks), + #b_blk{is=Is} = Blk = map_get(L, Blocks), Defs = find_defs_is(Is, Defs0), Successors = beam_ssa:successors(Blk), find_defs_1(Successors, Blocks, Frames, Seen, Defs, Acc) @@ -1339,10 +1339,10 @@ find_update_succ([S|Ss], #dk{d=Defs0,k=Killed0}=DK0, D0) -> Defs = ordsets:intersection(Defs0, Defs1), Killed = ordsets:union(Killed0, Killed1), DK = #dk{d=Defs,k=Killed}, - D = maps:put(S, DK, D0), + D = D0#{S:=DK}, find_update_succ(Ss, DK0, D); #{} -> - D = maps:put(S, DK0, D0), + D = D0#{S=>DK0}, find_update_succ(Ss, DK0, D) end; find_update_succ([], _, D) -> D. @@ -1432,7 +1432,7 @@ copy_retval(#st{frames=Frames,ssa=Blocks0,cnt=Count0}=St) -> St#st{ssa=Blocks,cnt=Count}. copy_retval_1([F|Fs], Blocks0, Count0) -> - #b_blk{anno=#{yregs:=Yregs0},is=Is} = maps:get(F, Blocks0), + #b_blk{anno=#{yregs:=Yregs0},is=Is} = map_get(F, Blocks0), Yregs1 = gb_sets:from_list(Yregs0), Yregs = collect_yregs(Is, Yregs1), Ls = beam_ssa:rpo([F], Blocks0), @@ -1451,7 +1451,7 @@ collect_yregs([#b_set{}|Is], Yregs) -> collect_yregs([], Yregs) -> Yregs. copy_retval_2([L|Ls], Yregs, Copy0, Blocks0, Count0) -> - #b_blk{is=Is0,last=Last} = Blk = maps:get(L, Blocks0), + #b_blk{is=Is0,last=Last} = Blk = map_get(L, Blocks0), RC = case {Last,Ls} of {#b_br{succ=Succ,fail=?BADARG_BLOCK},[Succ|_]} -> true; @@ -1593,7 +1593,7 @@ opt_get_list(#st{ssa=Blocks,res=Res}=St) -> St#st{ssa=opt_get_list_1(Ls, ResMap, Blocks)}. opt_get_list_1([L|Ls], Res, Blocks0) -> - #b_blk{is=Is0} = Blk = maps:get(L, Blocks0), + #b_blk{is=Is0} = Blk = map_get(L, Blocks0), case opt_get_list_is(Is0, Res, [], false) of no -> opt_get_list_1(Ls, Res, Blocks0); @@ -1647,12 +1647,12 @@ number_instructions(#st{ssa=Blocks0}=St) -> St#st{ssa=number_is_1(Ls, 1, Blocks0)}. number_is_1([L|Ls], N0, Blocks0) -> - #b_blk{is=Is0,last=Last0} = Bl0 = maps:get(L, Blocks0), + #b_blk{is=Is0,last=Last0} = Bl0 = map_get(L, Blocks0), {Is,N1} = number_is_2(Is0, N0, []), Last = beam_ssa:add_anno(n, N1, Last0), N = N1 + 2, Bl = Bl0#b_blk{is=Is,last=Last}, - Blocks = maps:put(L, Bl, Blocks0), + Blocks = Blocks0#{L:=Bl}, number_is_1(Ls, N, Blocks); number_is_1([], _, Blocks) -> Blocks. @@ -1693,7 +1693,7 @@ live_interval_blk(L, Blocks, {Vars0,LiveMap0}) -> Live1 = update_successors(Successors, L, Blocks, LiveMap0, Live0), %% Add ranges for all variables that are live in the successors. - #b_blk{is=Is,last=Last} = maps:get(L, Blocks), + #b_blk{is=Is,last=Last} = map_get(L, Blocks), End = beam_ssa:get_anno(n, Last), Use = [{V,{use,End+1}} || V <- Live1], @@ -1762,7 +1762,7 @@ first_number([], Last) -> update_successors([L|Ls], Pred, Blocks, LiveMap, Live0) -> Live1 = ordsets:union(Live0, get_live(L, LiveMap)), - #b_blk{is=Is} = maps:get(L, Blocks), + #b_blk{is=Is} = map_get(L, Blocks), Live = update_live_phis(Is, Pred, Live1), update_successors(Ls, Pred, Blocks, LiveMap, Live); update_successors([], _, _, _, Live) -> Live. @@ -1800,7 +1800,7 @@ reserve_yregs(#st{frames=Frames}=St0) -> foldl(fun reserve_yregs_1/2, St0, Frames). reserve_yregs_1(L, #st{ssa=Blocks0,cnt=Count0,res=Res0}=St) -> - Blk = maps:get(L, Blocks0), + Blk = map_get(L, Blocks0), Yregs = beam_ssa:get_anno(yregs, Blk), {Def,Used} = beam_ssa:def_used([L], Blocks0), UsedYregs = ordsets:intersection(Yregs, Used), @@ -1826,7 +1826,7 @@ reserve_try_tags_1([L|Ls], Blocks, Seen0, ActMap0) -> reserve_try_tags_1(Ls, Blocks, Seen0, ActMap0); false -> Seen1 = gb_sets:insert(L, Seen0), - #b_blk{is=Is} = Blk = maps:get(L, Blocks), + #b_blk{is=Is} = Blk = map_get(L, Blocks), Active0 = get_active(L, ActMap0), Active = reserve_try_tags_is(Is, Active0), Successors = beam_ssa:successors(Blk), @@ -1869,11 +1869,11 @@ rename_vars(Vs, L, Blocks0, Count0) -> {NewVars,Count} = new_vars([Base || #b_var{name=Base} <- Vs], Count0), Ren = zip(Vs, NewVars), Blocks1 = beam_ssa:rename_vars(Ren, [L], Blocks0), - #b_blk{is=Is0} = Blk0 = maps:get(L, Blocks1), + #b_blk{is=Is0} = Blk0 = map_get(L, Blocks1), CopyIs = [#b_set{op=copy,dst=New,args=[Old]} || {Old,New} <- Ren], Is = insert_after_phis(Is0, CopyIs), Blk = Blk0#b_blk{is=Is}, - Blocks = maps:put(L, Blk, Blocks1), + Blocks = Blocks1#{L:=Blk}, {NewVars,Blocks,Count}. insert_after_phis([#b_set{op=phi}=I|Is], InsertIs) -> @@ -1895,7 +1895,7 @@ frame_size(#st{frames=Frames,regs=Regs,ssa=Blocks0}=St) -> frame_size_1(L, Regs, Blocks0) -> Def = beam_ssa:def([L], Blocks0), - Yregs0 = [maps:get(V, Regs) || V <- Def, is_yreg(maps:get(V, Regs))], + Yregs0 = [map_get(V, Regs) || V <- Def, is_yreg(map_get(V, Regs))], Yregs = ordsets:from_list(Yregs0), FrameSize = length(ordsets:from_list(Yregs)), if @@ -1907,17 +1907,17 @@ frame_size_1(L, Regs, Blocks0) -> true -> ok end, - Blk0 = maps:get(L, Blocks0), + Blk0 = map_get(L, Blocks0), Blk = beam_ssa:add_anno(frame_size, FrameSize, Blk0), %% Insert an annotation for frame deallocation on %% each #b_ret{}. - Blocks = maps:put(L, Blk, Blocks0), + Blocks = Blocks0#{L:=Blk}, Reachable = beam_ssa:rpo([L], Blocks), frame_deallocate(Reachable, FrameSize, Blocks). frame_deallocate([L|Ls], Size, Blocks0) -> - Blk0 = maps:get(L, Blocks0), + Blk0 = map_get(L, Blocks0), Blk = case Blk0 of #b_blk{last=#b_ret{}=Ret0} -> Ret = beam_ssa:add_anno(deallocate, Size, Ret0), @@ -1925,7 +1925,7 @@ frame_deallocate([L|Ls], Size, Blocks0) -> #b_blk{} -> Blk0 end, - Blocks = maps:put(L, Blk, Blocks0), + Blocks = Blocks0#{L:=Blk}, frame_deallocate(Ls, Size, Blocks); frame_deallocate([], _, Blocks) -> Blocks. @@ -1938,7 +1938,7 @@ frame_deallocate([], _, Blocks) -> Blocks. turn_yregs(#st{frames=Frames,regs=Regs0,ssa=Blocks}=St) -> Regs1 = foldl(fun(L, A) -> - Blk = maps:get(L, Blocks), + Blk = map_get(L, Blocks), FrameSize = beam_ssa:get_anno(frame_size, Blk), Def = beam_ssa:def([L], Blocks), [turn_yregs_1(Def, FrameSize, Regs0)|A] @@ -1947,7 +1947,7 @@ turn_yregs(#st{frames=Frames,regs=Regs0,ssa=Blocks}=St) -> St#st{regs=Regs}. turn_yregs_1(Def, FrameSize, Regs) -> - Yregs0 = [{maps:get(V, Regs),V} || V <- Def, is_yreg(maps:get(V, Regs))], + Yregs0 = [{map_get(V, Regs),V} || V <- Def, is_yreg(map_get(V, Regs))], Yregs1 = rel2fam(Yregs0), FrameSize = length(Yregs1), Yregs2 = [{{y,FrameSize-Y-1},Vs} || {{y,Y},Vs} <- Yregs1], @@ -2356,7 +2356,7 @@ linear_scan(#st{intervals=Intervals0,res=Res}=St0) -> St#st{regs=maps:from_list(Regs)}. init_interval({V,[{Start,_}|_]=Rs}, Res) -> - Info = maps:get(V, Res), + Info = map_get(V, Res), Pool = case Info of {prefer,{x,_}} -> x; x -> x; @@ -2557,16 +2557,16 @@ free_reg(#i{reg={_,_}=Reg}=I, L) -> update_pool(I, FreeRegs, L). get_pool(#i{pool=Pool}, #l{free=Free}) -> - maps:get(Pool, Free). + map_get(Pool, Free). update_pool(#i{pool=Pool}, New, #l{free=Free0}=L) -> - Free = maps:put(Pool, New, Free0), + Free = Free0#{Pool:=New}, L#l{free=Free}. get_next_free(#i{pool=Pool}, #l{free=Free0}=L0) -> K = {next,Pool}, - N = maps:get(K, Free0), - Free = maps:put(K, N+1, Free0), + N = map_get(K, Free0), + Free = Free0#{K:=N+1}, L = L0#l{free=Free}, if is_integer(Pool) -> {{y,N},L}; @@ -2602,7 +2602,7 @@ are_overlapping_1({_,_}, []) -> false. is_loop_header(L, Blocks) -> %% We KNOW that a loop header must start with a peek_message %% instruction. - case maps:get(L, Blocks) of + case map_get(L, Blocks) of #b_blk{is=[#b_set{op=peek_message}|_]} -> true; _ -> false end. diff --git a/lib/compiler/src/beam_ssa_recv.erl b/lib/compiler/src/beam_ssa_recv.erl index 6e49b128da..1e0e1ecac2 100644 --- a/lib/compiler/src/beam_ssa_recv.erl +++ b/lib/compiler/src/beam_ssa_recv.erl @@ -101,7 +101,7 @@ opt([{L,#b_blk{is=[#b_set{op=peek_message}|_]}=Blk0}|Bs], Blocks0, Preds) -> case recv_opt(Preds, L, Blocks0) of {yes,Blocks1} -> Blk = beam_ssa:add_anno(recv_set, L, Blk0), - Blocks = maps:put(L, Blk, Blocks1), + Blocks = Blocks1#{L:=Blk}, opt(Bs, Blocks, []); no -> opt(Bs, Blocks0, []) @@ -111,11 +111,11 @@ opt([{L,_}|Bs], Blocks, Preds) -> opt([], Blocks, _) -> Blocks. recv_opt([L|Ls], RecvLbl, Blocks) -> - #b_blk{is=Is0} = Blk0 = maps:get(L, Blocks), + #b_blk{is=Is0} = Blk0 = map_get(L, Blocks), case recv_opt_is(Is0, RecvLbl, Blocks, []) of {yes,Is} -> Blk = Blk0#b_blk{is=Is}, - {yes,maps:put(L, Blk, Blocks)}; + {yes,Blocks#{L:=Blk}}; no -> recv_opt(Ls, RecvLbl, Blocks) end; @@ -174,7 +174,7 @@ opt_ref_used(RecvLbl, Ref, Blocks) -> end. opt_ref_used_1(L, Vs0, Blocks) -> - #b_blk{is=Is} = Blk = maps:get(L, Blocks), + #b_blk{is=Is} = Blk = map_get(L, Blocks), case opt_ref_used_is(Is, Vs0) of #{}=Vs -> opt_ref_used_last(Blk, Vs, Blocks); diff --git a/lib/compiler/src/beam_ssa_type.erl b/lib/compiler/src/beam_ssa_type.erl index 8bd6772ac5..32583f5abf 100644 --- a/lib/compiler/src/beam_ssa_type.erl +++ b/lib/compiler/src/beam_ssa_type.erl @@ -1081,44 +1081,51 @@ simplify_not(#b_br{bool=#b_var{}=V,succ=Succ,fail=Fail}=Br0, Ts, Ds) -> used_once(Linear, Args) -> Map0 = used_once_1(reverse(Linear), #{}), Map = maps:without(Args, Map0), - Used0 = cerl_sets:from_list(maps:keys(Map)), - Used1 = used_in_terminators(Linear, []), - cerl_sets:intersection(Used0, Used1). - -used_in_terminators([{_,#b_blk{last=Last}}|Bs], Acc) -> - used_in_terminators(Bs, beam_ssa:used(Last) ++ Acc); -used_in_terminators([], Acc) -> - cerl_sets:from_list(Acc). + cerl_sets:from_list(maps:keys(Map)). used_once_1([{L,#b_blk{is=Is,last=Last}}|Bs], Uses0) -> - Uses = used_once_2([Last|reverse(Is)], L, Uses0), + Uses1 = used_once_last_uses(beam_ssa:used(Last), L, Uses0), + Uses = used_once_2(reverse(Is), L, Uses1), used_once_1(Bs, Uses); used_once_1([], Uses) -> Uses. -used_once_2([I|Is], L, Uses0) -> +used_once_2([#b_set{dst=Dst}=I|Is], L, Uses0) -> Uses = used_once_uses(beam_ssa:used(I), L, Uses0), - case I of - #b_set{dst=Dst} -> - case Uses of - #{Dst:=[L]} -> - used_once_2(Is, L, Uses); - #{} -> - used_once_2(Is, L, maps:remove(Dst, Uses)) - end; - _ -> - used_once_2(Is, L, Uses) + case Uses of + #{Dst:=[L]} -> + used_once_2(Is, L, Uses); + #{} -> + %% Used more than once or used once in + %% in another block. + used_once_2(Is, L, maps:remove(Dst, Uses)) end; used_once_2([], _, Uses) -> Uses. used_once_uses([V|Vs], L, Uses) -> case Uses of - #{V:=Us} -> - used_once_uses(Vs, L, Uses#{V:=[L|Us]}); + #{V:=more_than_once} -> + used_once_uses(Vs, L, Uses); #{} -> - used_once_uses(Vs, L, Uses#{V=>[L]}) + %% Already used or first use is not in + %% a terminator. + used_once_uses(Vs, L, Uses#{V=>more_than_once}) end; used_once_uses([], _, Uses) -> Uses. +used_once_last_uses([V|Vs], L, Uses) -> + case Uses of + #{V:=[_]} -> + %% Second time this variable is used. + used_once_last_uses(Vs, L, Uses#{V:=more_than_once}); + #{V:=more_than_once} -> + %% Used at least twice before. + used_once_last_uses(Vs, L, Uses); + #{} -> + %% First time this variable is used. + used_once_last_uses(Vs, L, Uses#{V=>[L]}) + end; +used_once_last_uses([], _, Uses) -> Uses. + get_types(Values, Ts) -> [get_type(Val, Ts) || Val <- Values]. |