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llvm-mirror/test/Transforms/SLPVectorizer/X86/value-bug.ll

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; RUN: opt -slp-vectorizer < %s -S -mtriple="x86_64-grtev3-linux-gnu" -mcpu=corei7-avx | FileCheck %s
target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"
target triple = "x86_64-grtev3-linux-gnu"
; We used to crash on this example because we were building a constant
; expression during vectorization and the vectorizer expects instructions
; as elements of the vectorized tree.
; CHECK-LABEL: @test
; PR19621
define void @test() {
bb279:
br label %bb283
bb283:
%Av.sroa.8.0 = phi float [ undef, %bb279 ], [ %tmp315, %exit ]
%Av.sroa.5.0 = phi float [ undef, %bb279 ], [ %tmp319, %exit ]
%Av.sroa.3.0 = phi float [ undef, %bb279 ], [ %tmp307, %exit ]
%Av.sroa.0.0 = phi float [ undef, %bb279 ], [ %tmp317, %exit ]
br label %bb284
bb284:
%tmp7.i = fpext float %Av.sroa.3.0 to double
%tmp8.i = fsub double %tmp7.i, undef
%tmp9.i = fsub double %tmp8.i, undef
%tmp17.i = fpext float %Av.sroa.8.0 to double
%tmp19.i = fsub double %tmp17.i, undef
%tmp20.i = fsub double %tmp19.i, undef
br label %bb21.i
bb21.i:
br i1 undef, label %bb22.i, label %exit
bb22.i:
%tmp24.i = fadd double undef, %tmp9.i
%tmp26.i = fadd double undef, %tmp20.i
br label %bb32.i
bb32.i:
%xs.0.i = phi double [ %tmp24.i, %bb22.i ], [ 0.000000e+00, %bb32.i ]
%ys.0.i = phi double [ %tmp26.i, %bb22.i ], [ 0.000000e+00, %bb32.i ]
br i1 undef, label %bb32.i, label %bb21.i
exit:
%tmp303 = fpext float %Av.sroa.0.0 to double
%tmp304 = fmul double %tmp303, undef
%tmp305 = fadd double undef, %tmp304
%tmp306 = fadd double %tmp305, undef
%tmp307 = fptrunc double %tmp306 to float
%tmp311 = fpext float %Av.sroa.5.0 to double
%tmp312 = fmul double %tmp311, 0.000000e+00
%tmp313 = fadd double undef, %tmp312
%tmp314 = fadd double %tmp313, undef
%tmp315 = fptrunc double %tmp314 to float
%tmp317 = fptrunc double undef to float
%tmp319 = fptrunc double undef to float
br label %bb283
}
; Make sure that we probably handle constant folded vectorized trees. The
; vectorizer starts at the type (%t2, %t3) and wil constant fold the tree.
; The code that handles insertelement instructions must handle this.
define <4 x double> @constant_folding() {
entry:
%t0 = fadd double 1.000000e+00 , 0.000000e+00
%t1 = fadd double 1.000000e+00 , 1.000000e+00
%t2 = fmul double %t0, 1.000000e+00
%i1 = insertelement <4 x double> undef, double %t2, i32 1
%t3 = fmul double %t1, 1.000000e+00
%i2 = insertelement <4 x double> %i1, double %t3, i32 0
ret <4 x double> %i2
}
; CHECK-LABEL: @constant_folding
; CHECK: %[[V0:.+]] = extractelement <2 x double> <double 1.000000e+00, double 2.000000e+00>, i32 0
; CHECK: %[[V1:.+]] = insertelement <4 x double> undef, double %[[V0]], i32 1
; CHECK: %[[V2:.+]] = extractelement <2 x double> <double 1.000000e+00, double 2.000000e+00>, i32 1
; CHECK: %[[V3:.+]] = insertelement <4 x double> %[[V1]], double %[[V2]], i32 0
; CHECK: ret <4 x double> %[[V3]]