From ca0fbe891d0f8278b4824d6b2c5db4cd01fcef5c Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Magnus=20L=C3=A5ng?= Date: Wed, 9 Nov 2016 18:46:19 +0100 Subject: hipe_rtl: unify branch and alub branch and alub overlap in their use cases, but the backends rely on knowing that the result is unused in their lowering of branch. By extending alub so that the destination is optional, it can fully replace branch. This simplifies rtl by reducing code duplication and the number of instructions. Also, in the x86 and arm backends, we can now use 'test' and {'tst','mvn','teq'} to lower some alubs without destinations. This is particularly good for x86, as sequences such as 'is_boxed' type tests now get shorter (both from not needing a mov to copy the variable, but also from the fact that 'testb' encodes shorter than 'andq'). --- lib/hipe/x86/hipe_rtl_to_x86.erl | 70 +++++++++++++++++++++++++--------------- lib/hipe/x86/hipe_x86.erl | 4 +-- 2 files changed, 46 insertions(+), 28 deletions(-) (limited to 'lib/hipe/x86') diff --git a/lib/hipe/x86/hipe_rtl_to_x86.erl b/lib/hipe/x86/hipe_rtl_to_x86.erl index 4c8c98551c..ccb9b7632b 100644 --- a/lib/hipe/x86/hipe_rtl_to_x86.erl +++ b/lib/hipe/x86/hipe_rtl_to_x86.erl @@ -91,26 +91,31 @@ conv_insn(I, Map, Data) -> #alub{} -> %% dst = src1 op src2; if COND goto label BinOp = conv_binop(hipe_rtl:alub_op(I)), - {Dst, Map0} = conv_dst(hipe_rtl:alub_dst(I), Map), - {FixSrc1, Src1, Map1} = conv_src(hipe_rtl:alub_src1(I), Map0), - {FixSrc2, Src2, Map2} = conv_src(hipe_rtl:alub_src2(I), Map1), + {FixSrc1, Src1, Map0} = conv_src(hipe_rtl:alub_src1(I), Map), + {FixSrc2, Src2, Map1} = conv_src(hipe_rtl:alub_src2(I), Map0), Cc = conv_cond(hipe_rtl:alub_cond(I)), - I1 = [hipe_x86:mk_pseudo_jcc(Cc, - hipe_rtl:alub_true_label(I), - hipe_rtl:alub_false_label(I), - hipe_rtl:alub_pred(I))], - I2 = conv_alu(Dst, Src1, BinOp, Src2, I1), - {FixSrc1++FixSrc2++I2, Map2, Data}; - #branch{} -> - %% = src1 - src2; if COND goto label - {FixSrc1, Src1, Map0} = conv_src(hipe_rtl:branch_src1(I), Map), - {FixSrc2, Src2, Map1} = conv_src(hipe_rtl:branch_src2(I), Map0), - Cc = conv_cond(hipe_rtl:branch_cond(I)), - I2 = conv_branch(Src1, Cc, Src2, - hipe_rtl:branch_true_label(I), - hipe_rtl:branch_false_label(I), - hipe_rtl:branch_pred(I)), - {FixSrc1++FixSrc2++I2, Map1, Data}; + BranchOp = conv_branchop(BinOp), + HasDst = hipe_rtl:alub_has_dst(I), + {I2, Map3} = + case (not HasDst) andalso BranchOp =/= none of + true -> + {conv_branch(Src1, BranchOp, Src2, Cc, + hipe_rtl:alub_true_label(I), + hipe_rtl:alub_false_label(I), + hipe_rtl:alub_pred(I)), Map1}; + false -> + {Dst, Map2} = + case HasDst of + false -> {new_untagged_temp(), Map1}; + true -> conv_dst(hipe_rtl:alub_dst(I), Map1) + end, + I1 = [hipe_x86:mk_pseudo_jcc(Cc, + hipe_rtl:alub_true_label(I), + hipe_rtl:alub_false_label(I), + hipe_rtl:alub_pred(I))], + {conv_alu(Dst, Src1, BinOp, Src2, I1), Map2} + end, + {FixSrc1++FixSrc2++I2, Map3, Data}; #call{} -> %% push %% ... @@ -360,28 +365,41 @@ conv_shift(Dst, Src1, BinOp, Src2) -> %%% Finalise the conversion of a conditional branch operation, taking %%% care to not introduce more temps and moves than necessary. -conv_branch(Src1, Cc, Src2, TrueLab, FalseLab, Pred) -> +conv_branchop('sub') -> 'cmp'; +conv_branchop('and') -> 'test'; +conv_branchop(_) -> none. + +branchop_commutes('cmp') -> false; +branchop_commutes('test') -> true. + +conv_branch(Src1, Op, Src2, Cc, TrueLab, FalseLab, Pred) -> case hipe_x86:is_imm(Src1) of false -> - mk_branch(Src1, Cc, Src2, TrueLab, FalseLab, Pred); + mk_branch(Src1, Op, Src2, Cc, TrueLab, FalseLab, Pred); true -> case hipe_x86:is_imm(Src2) of false -> - NewCc = commute_cc(Cc), - mk_branch(Src2, NewCc, Src1, TrueLab, FalseLab, Pred); + NewCc = case branchop_commutes(Op) of + true -> Cc; + false -> commute_cc(Cc) + end, + mk_branch(Src2, Op, Src1, NewCc, TrueLab, FalseLab, Pred); true -> %% two immediates, let the optimiser clean it up Tmp = new_untagged_temp(), [hipe_x86:mk_move(Src1, Tmp) | - mk_branch(Tmp, Cc, Src2, TrueLab, FalseLab, Pred)] + mk_branch(Tmp, Op, Src2, Cc, TrueLab, FalseLab, Pred)] end end. -mk_branch(Src1, Cc, Src2, TrueLab, FalseLab, Pred) -> +mk_branch(Src1, Op, Src2, Cc, TrueLab, FalseLab, Pred) -> %% PRE: not(is_imm(Src1)) - [hipe_x86:mk_cmp(Src2, Src1), + [mk_branchtest(Src1, Op, Src2), hipe_x86:mk_pseudo_jcc(Cc, TrueLab, FalseLab, Pred)]. +mk_branchtest(Src1, cmp, Src2) -> hipe_x86:mk_cmp(Src2, Src1); +mk_branchtest(Src1, test, Src2) -> hipe_x86:mk_test(Src2, Src1). + %%% Convert an RTL ALU or ALUB binary operator. conv_binop(BinOp) -> diff --git a/lib/hipe/x86/hipe_x86.erl b/lib/hipe/x86/hipe_x86.erl index 33d7f77cf1..e7c4497cda 100644 --- a/lib/hipe/x86/hipe_x86.erl +++ b/lib/hipe/x86/hipe_x86.erl @@ -201,7 +201,7 @@ shift_src/1, shift_dst/1, - %% mk_test/2, + mk_test/2, test_src/1, test_dst/1, @@ -305,7 +305,7 @@ mk_cmp(Src, Dst) -> #cmp{src=Src, dst=Dst}. cmp_src(#cmp{src=Src}) -> Src. cmp_dst(#cmp{dst=Dst}) -> Dst. -%% mk_test(Src, Dst) -> #test{src=Src, dst=Dst}. +mk_test(Src, Dst) -> #test{src=Src, dst=Dst}. test_src(#test{src=Src}) -> Src. test_dst(#test{dst=Dst}) -> Dst. -- cgit v1.2.3