%% -*- erlang-indent-level: 2 -*- %% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2004-2009. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in %% compliance with the License. You should have received a copy of the %% Erlang Public License along with this software. If not, it can be %% retrieved online at http://www.erlang.org/. %% %% Software distributed under the License is distributed on an "AS IS" %% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See %% the License for the specific language governing rights and limitations %% under the License. %% %% %CopyrightEnd% %% -module(hipe_ppc_defuse). -export([insn_def_all/1, insn_use_all/1]). -export([insn_def_gpr/1, insn_use_gpr/1]). -export([insn_def_fpr/1, insn_use_fpr/1]). -include("hipe_ppc.hrl"). %%% %%% Defs and uses for both general-purpose and floating-point registers. %%% This is needed for the frame module, alas. %%% insn_def_all(I) -> addtemps(insn_def_fpr(I), insn_def_gpr(I)). insn_use_all(I) -> addtemps(insn_use_fpr(I), insn_use_gpr(I)). %%% %%% Defs and uses for general-purpose (integer) registers only. %%% insn_def_gpr(I) -> case I of #alu{dst=Dst} -> [Dst]; #load{dst=Dst} -> [Dst]; #loadx{dst=Dst} -> [Dst]; #mfspr{dst=Dst} -> [Dst]; #pseudo_call{} -> call_clobbered_gpr(); #pseudo_li{dst=Dst} -> [Dst]; #pseudo_move{dst=Dst} -> [Dst]; #pseudo_tailcall_prepare{} -> tailcall_clobbered_gpr(); #unary{dst=Dst} -> [Dst]; _ -> [] end. call_clobbered_gpr() -> [hipe_ppc:mk_temp(R, T) || {R,T} <- hipe_ppc_registers:call_clobbered() ++ all_fp_pseudos()]. all_fp_pseudos() -> []. % XXX: for now tailcall_clobbered_gpr() -> [hipe_ppc:mk_temp(R, T) || {R,T} <- hipe_ppc_registers:tailcall_clobbered() ++ all_fp_pseudos()]. insn_use_gpr(I) -> case I of #alu{src1=Src1,src2=Src2} -> addsrc(Src2, [Src1]); #blr{} -> [hipe_ppc:mk_temp(hipe_ppc_registers:return_value(), 'tagged')]; #cmp{src1=Src1,src2=Src2} -> addsrc(Src2, [Src1]); #load{base=Base} -> [Base]; #loadx{base1=Base1,base2=Base2} -> addtemp(Base1, [Base2]); #mtcr{src=Src} -> [Src]; #mtspr{src=Src} -> [Src]; #pseudo_call{sdesc=#ppc_sdesc{arity=Arity}} -> arity_use_gpr(Arity); #pseudo_move{src=Src} -> [Src]; #pseudo_tailcall{arity=Arity,stkargs=StkArgs} -> addsrcs(StkArgs, addtemps(tailcall_clobbered_gpr(), arity_use_gpr(Arity))); #store{src=Src,base=Base} -> addtemp(Src, [Base]); #storex{src=Src,base1=Base1,base2=Base2} -> addtemp(Src, addtemp(Base1, [Base2])); #unary{src=Src} -> [Src]; #lfd{base=Base} -> [Base]; #lfdx{base1=Base1,base2=Base2} -> addtemp(Base1, [Base2]); #stfd{base=Base} -> [Base]; #stfdx{base1=Base1,base2=Base2} -> addtemp(Base1, [Base2]); _ -> [] end. arity_use_gpr(Arity) -> [hipe_ppc:mk_temp(R, 'tagged') || R <- hipe_ppc_registers:args(Arity)]. addsrcs([Arg|Args], Set) -> addsrcs(Args, addsrc(Arg, Set)); addsrcs([], Set) -> Set. addsrc(Src, Set) -> case Src of #ppc_temp{} -> addtemp(Src, Set); _ -> Set end. %%% %%% Defs and uses for floating-point registers only. %%% insn_def_fpr(I) -> case I of #pseudo_call{} -> call_clobbered_fpr(); #lfd{dst=Dst} -> [Dst]; #lfdx{dst=Dst} -> [Dst]; #fp_binary{dst=Dst} -> [Dst]; #fp_unary{dst=Dst} -> [Dst]; #pseudo_fmove{dst=Dst} -> [Dst]; _ -> [] end. call_clobbered_fpr() -> [hipe_ppc:mk_temp(R, 'double') || R <- hipe_ppc_registers:allocatable_fpr()]. insn_use_fpr(I) -> case I of #stfd{src=Src} -> [Src]; #stfdx{src=Src} -> [Src]; #fp_binary{src1=Src1,src2=Src2} -> addtemp(Src1, [Src2]); #fp_unary{src=Src} -> [Src]; #pseudo_fmove{src=Src} -> [Src]; _ -> [] end. %%% %%% Auxiliary operations on sets of temps %%% These sets are small. No point using gb_trees, right? %%% addtemps([Arg|Args], Set) -> addtemps(Args, addtemp(Arg, Set)); addtemps([], Set) -> Set. addtemp(Temp, Set) -> case lists:member(Temp, Set) of false -> [Temp|Set]; _ -> Set end.