If the vectorized insertelements instructions form indentity subvector (the subvector at the beginning of the long vector), it is just enough to extend the vector itself, no need to generate inserting subvector shuffle. Differential Revision: https://reviews.llvm.org/D107494
105 lines
4.1 KiB
LLVM
105 lines
4.1 KiB
LLVM
; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
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; RUN: opt -slp-vectorizer < %s -S -mtriple="x86_64-grtev3-linux-gnu" -mcpu=corei7-avx | FileCheck %s
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target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"
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; We used to crash on this example because we were building a constant
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; expression during vectorization and the vectorizer expects instructions
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; as elements of the vectorized tree.
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; PR19621
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define void @test() {
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; CHECK-LABEL: @test(
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; CHECK-NEXT: bb279:
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; CHECK-NEXT: br label [[BB283:%.*]]
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; CHECK: bb283:
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; CHECK-NEXT: [[TMP0:%.*]] = phi <2 x float> [ undef, [[BB279:%.*]] ], [ [[TMP11:%.*]], [[EXIT:%.*]] ]
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; CHECK-NEXT: [[TMP1:%.*]] = phi <2 x float> [ undef, [[BB279]] ], [ undef, [[EXIT]] ]
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; CHECK-NEXT: br label [[BB284:%.*]]
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; CHECK: bb284:
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; CHECK-NEXT: [[TMP2:%.*]] = fpext <2 x float> [[TMP0]] to <2 x double>
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; CHECK-NEXT: [[TMP3:%.*]] = fsub <2 x double> [[TMP2]], undef
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; CHECK-NEXT: [[TMP4:%.*]] = fsub <2 x double> [[TMP3]], undef
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; CHECK-NEXT: br label [[BB21_I:%.*]]
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; CHECK: bb21.i:
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; CHECK-NEXT: br i1 undef, label [[BB22_I:%.*]], label [[EXIT]]
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; CHECK: bb22.i:
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; CHECK-NEXT: [[TMP5:%.*]] = fadd <2 x double> undef, [[TMP4]]
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; CHECK-NEXT: br label [[BB32_I:%.*]]
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; CHECK: bb32.i:
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; CHECK-NEXT: [[TMP6:%.*]] = phi <2 x double> [ [[TMP5]], [[BB22_I]] ], [ zeroinitializer, [[BB32_I]] ]
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; CHECK-NEXT: br i1 undef, label [[BB32_I]], label [[BB21_I]]
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; CHECK: exit:
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; CHECK-NEXT: [[TMP7:%.*]] = fpext <2 x float> [[TMP1]] to <2 x double>
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; CHECK-NEXT: [[TMP8:%.*]] = fmul <2 x double> [[TMP7]], <double undef, double 0.000000e+00>
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; CHECK-NEXT: [[TMP9:%.*]] = fadd <2 x double> undef, [[TMP8]]
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; CHECK-NEXT: [[TMP10:%.*]] = fadd <2 x double> [[TMP9]], undef
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; CHECK-NEXT: [[TMP11]] = fptrunc <2 x double> [[TMP10]] to <2 x float>
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; CHECK-NEXT: br label [[BB283]]
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;
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bb279:
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br label %bb283
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bb283:
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%Av.sroa.8.0 = phi float [ undef, %bb279 ], [ %tmp315, %exit ]
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%Av.sroa.5.0 = phi float [ undef, %bb279 ], [ %tmp319, %exit ]
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%Av.sroa.3.0 = phi float [ undef, %bb279 ], [ %tmp307, %exit ]
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%Av.sroa.0.0 = phi float [ undef, %bb279 ], [ %tmp317, %exit ]
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br label %bb284
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bb284:
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%tmp7.i = fpext float %Av.sroa.3.0 to double
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%tmp8.i = fsub double %tmp7.i, undef
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%tmp9.i = fsub double %tmp8.i, undef
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%tmp17.i = fpext float %Av.sroa.8.0 to double
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%tmp19.i = fsub double %tmp17.i, undef
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%tmp20.i = fsub double %tmp19.i, undef
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br label %bb21.i
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bb21.i:
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br i1 undef, label %bb22.i, label %exit
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bb22.i:
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%tmp24.i = fadd double undef, %tmp9.i
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%tmp26.i = fadd double undef, %tmp20.i
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br label %bb32.i
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bb32.i:
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%xs.0.i = phi double [ %tmp24.i, %bb22.i ], [ 0.000000e+00, %bb32.i ]
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%ys.0.i = phi double [ %tmp26.i, %bb22.i ], [ 0.000000e+00, %bb32.i ]
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br i1 undef, label %bb32.i, label %bb21.i
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exit:
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%tmp303 = fpext float %Av.sroa.0.0 to double
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%tmp304 = fmul double %tmp303, undef
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%tmp305 = fadd double undef, %tmp304
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%tmp306 = fadd double %tmp305, undef
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%tmp307 = fptrunc double %tmp306 to float
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%tmp311 = fpext float %Av.sroa.5.0 to double
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%tmp312 = fmul double %tmp311, 0.000000e+00
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%tmp313 = fadd double undef, %tmp312
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%tmp314 = fadd double %tmp313, undef
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%tmp315 = fptrunc double %tmp314 to float
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%tmp317 = fptrunc double undef to float
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%tmp319 = fptrunc double undef to float
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br label %bb283
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}
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; Make sure that we probably handle constant folded vectorized trees. The
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; vectorizer starts at the type (%t2, %t3) and wil constant fold the tree.
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; The code that handles insertelement instructions must handle this.
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define <4 x double> @constant_folding() {
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; CHECK-LABEL: @constant_folding(
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; CHECK-NEXT: entry:
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; CHECK-NEXT: ret <4 x double> <double 2.000000e+00, double 1.000000e+00, double undef, double undef>
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;
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entry:
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%t0 = fadd double 1.000000e+00 , 0.000000e+00
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%t1 = fadd double 1.000000e+00 , 1.000000e+00
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%t2 = fmul double %t0, 1.000000e+00
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%i1 = insertelement <4 x double> poison, double %t2, i32 1
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%t3 = fmul double %t1, 1.000000e+00
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%i2 = insertelement <4 x double> %i1, double %t3, i32 0
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ret <4 x double> %i2
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}
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