forked from OSchip/llvm-project
272 lines
8.3 KiB
LLVM
272 lines
8.3 KiB
LLVM
; RUN: opt < %s -instcombine -S | FileCheck %s
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target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64"
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target triple = "x86_64-apple-darwin10.0.0"
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; Bitcasts between vectors and scalars are valid.
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; PR4487
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define i32 @test1(i64 %a) {
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%t1 = bitcast i64 %a to <2 x i32>
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%t2 = bitcast i64 %a to <2 x i32>
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%t3 = xor <2 x i32> %t1, %t2
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%t4 = extractelement <2 x i32> %t3, i32 0
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ret i32 %t4
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; CHECK-LABEL: @test1(
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; CHECK: ret i32 0
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}
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; Perform the bitwise logic in the source type of the operands to eliminate bitcasts.
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define <2 x i32> @xor_two_vector_bitcasts(<1 x i64> %a, <1 x i64> %b) {
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%t1 = bitcast <1 x i64> %a to <2 x i32>
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%t2 = bitcast <1 x i64> %b to <2 x i32>
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%t3 = xor <2 x i32> %t1, %t2
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ret <2 x i32> %t3
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; CHECK-LABEL: @xor_two_vector_bitcasts(
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; CHECK-NEXT: %t31 = xor <1 x i64> %a, %b
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; CHECK-NEXT: %t3 = bitcast <1 x i64> %t31 to <2 x i32>
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; CHECK-NEXT: ret <2 x i32> %t3
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}
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; Verify that 'xor' of vector and constant is done as a vector bitwise op before the bitcast.
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define <2 x i32> @xor_bitcast_vec_to_vec(<1 x i64> %a) {
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%t1 = bitcast <1 x i64> %a to <2 x i32>
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%t2 = xor <2 x i32> <i32 1, i32 2>, %t1
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ret <2 x i32> %t2
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; CHECK-LABEL: @xor_bitcast_vec_to_vec(
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; CHECK-NEXT: %t21 = xor <1 x i64> %a, <i64 8589934593>
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; CHECK-NEXT: %t2 = bitcast <1 x i64> %t21 to <2 x i32>
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; CHECK-NEXT: ret <2 x i32> %t2
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}
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; Verify that 'and' of integer and constant is done as a vector bitwise op before the bitcast.
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define i64 @and_bitcast_vec_to_int(<2 x i32> %a) {
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%t1 = bitcast <2 x i32> %a to i64
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%t2 = and i64 %t1, 3
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ret i64 %t2
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; CHECK-LABEL: @and_bitcast_vec_to_int(
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; CHECK-NEXT: %t21 = and <2 x i32> %a, <i32 3, i32 0>
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; CHECK-NEXT: %t2 = bitcast <2 x i32> %t21 to i64
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; CHECK-NEXT: ret i64 %t2
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}
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; Verify that 'or' of vector and constant is done as an integer bitwise op before the bitcast.
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define <2 x i32> @or_bitcast_int_to_vec(i64 %a) {
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%t1 = bitcast i64 %a to <2 x i32>
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%t2 = or <2 x i32> %t1, <i32 1, i32 2>
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ret <2 x i32> %t2
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; CHECK-LABEL: @or_bitcast_int_to_vec(
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; CHECK-NEXT: %t21 = or i64 %a, 8589934593
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; CHECK-NEXT: %t2 = bitcast i64 %t21 to <2 x i32>
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; CHECK-NEXT: ret <2 x i32> %t2
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}
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; Optimize bitcasts that are extracting low element of vector. This happens
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; because of SRoA.
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; rdar://7892780
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define float @test2(<2 x float> %A, <2 x i32> %B) {
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%tmp28 = bitcast <2 x float> %A to i64 ; <i64> [#uses=2]
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%tmp23 = trunc i64 %tmp28 to i32 ; <i32> [#uses=1]
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%tmp24 = bitcast i32 %tmp23 to float ; <float> [#uses=1]
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%tmp = bitcast <2 x i32> %B to i64
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%tmp2 = trunc i64 %tmp to i32 ; <i32> [#uses=1]
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%tmp4 = bitcast i32 %tmp2 to float ; <float> [#uses=1]
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%add = fadd float %tmp24, %tmp4
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ret float %add
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; CHECK-LABEL: @test2(
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; CHECK-NEXT: %tmp24 = extractelement <2 x float> %A, i32 0
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; CHECK-NEXT: bitcast <2 x i32> %B to <2 x float>
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; CHECK-NEXT: %tmp4 = extractelement <2 x float> {{.*}}, i32 0
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; CHECK-NEXT: %add = fadd float %tmp24, %tmp4
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; CHECK-NEXT: ret float %add
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}
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; Optimize bitcasts that are extracting other elements of a vector. This
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; happens because of SRoA.
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; rdar://7892780
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define float @test3(<2 x float> %A, <2 x i64> %B) {
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%tmp28 = bitcast <2 x float> %A to i64
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%tmp29 = lshr i64 %tmp28, 32
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%tmp23 = trunc i64 %tmp29 to i32
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%tmp24 = bitcast i32 %tmp23 to float
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%tmp = bitcast <2 x i64> %B to i128
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%tmp1 = lshr i128 %tmp, 64
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%tmp2 = trunc i128 %tmp1 to i32
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%tmp4 = bitcast i32 %tmp2 to float
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%add = fadd float %tmp24, %tmp4
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ret float %add
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; CHECK-LABEL: @test3(
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; CHECK-NEXT: %tmp24 = extractelement <2 x float> %A, i32 1
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; CHECK-NEXT: bitcast <2 x i64> %B to <4 x float>
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; CHECK-NEXT: %tmp4 = extractelement <4 x float> {{.*}}, i32 2
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; CHECK-NEXT: %add = fadd float %tmp24, %tmp4
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; CHECK-NEXT: ret float %add
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}
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; Both bitcasts are unnecessary; change the extractelement.
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define float @bitcast_extelt1(<2 x float> %A) {
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%bc1 = bitcast <2 x float> %A to <2 x i32>
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%ext = extractelement <2 x i32> %bc1, i32 0
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%bc2 = bitcast i32 %ext to float
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ret float %bc2
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; CHECK-LABEL: @bitcast_extelt1(
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; CHECK-NEXT: %bc2 = extractelement <2 x float> %A, i32 0
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; CHECK-NEXT: ret float %bc2
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}
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; Second bitcast can be folded into the first.
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define i64 @bitcast_extelt2(<4 x float> %A) {
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%bc1 = bitcast <4 x float> %A to <2 x double>
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%ext = extractelement <2 x double> %bc1, i32 1
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%bc2 = bitcast double %ext to i64
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ret i64 %bc2
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; CHECK-LABEL: @bitcast_extelt2(
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; CHECK-NEXT: %bc = bitcast <4 x float> %A to <2 x i64>
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; CHECK-NEXT: %bc2 = extractelement <2 x i64> %bc, i32 1
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; CHECK-NEXT: ret i64 %bc2
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}
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; TODO: This should return %A.
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define <2 x i32> @bitcast_extelt3(<2 x i32> %A) {
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%bc1 = bitcast <2 x i32> %A to <1 x i64>
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%ext = extractelement <1 x i64> %bc1, i32 0
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%bc2 = bitcast i64 %ext to <2 x i32>
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ret <2 x i32> %bc2
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; CHECK-LABEL: @bitcast_extelt3(
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; CHECK-NEXT: %bc1 = bitcast <2 x i32> %A to <1 x i64>
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; CHECK-NEXT: %ext = extractelement <1 x i64> %bc1, i32 0
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; CHECK-NEXT: %bc2 = bitcast i64 %ext to <2 x i32>
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; CHECK-NEXT: ret <2 x i32> %bc2
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}
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; Handle the case where the input is not a vector.
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define double @bitcast_extelt4(i128 %A) {
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%bc1 = bitcast i128 %A to <2 x i64>
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%ext = extractelement <2 x i64> %bc1, i32 0
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%bc2 = bitcast i64 %ext to double
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ret double %bc2
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; CHECK-LABEL: @bitcast_extelt4(
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; CHECK-NEXT: %bc = bitcast i128 %A to <2 x double>
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; CHECK-NEXT: %bc2 = extractelement <2 x double> %bc, i32 0
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; CHECK-NEXT: ret double %bc2
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}
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define <2 x i32> @test4(i32 %A, i32 %B){
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%tmp38 = zext i32 %A to i64
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%tmp32 = zext i32 %B to i64
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%tmp33 = shl i64 %tmp32, 32
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%ins35 = or i64 %tmp33, %tmp38
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%tmp43 = bitcast i64 %ins35 to <2 x i32>
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ret <2 x i32> %tmp43
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; CHECK-LABEL: @test4(
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; CHECK-NEXT: insertelement <2 x i32> undef, i32 %A, i32 0
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; CHECK-NEXT: insertelement <2 x i32> {{.*}}, i32 %B, i32 1
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; CHECK-NEXT: ret <2 x i32>
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}
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; rdar://8360454
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define <2 x float> @test5(float %A, float %B) {
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%tmp37 = bitcast float %A to i32
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%tmp38 = zext i32 %tmp37 to i64
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%tmp31 = bitcast float %B to i32
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%tmp32 = zext i32 %tmp31 to i64
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%tmp33 = shl i64 %tmp32, 32
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%ins35 = or i64 %tmp33, %tmp38
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%tmp43 = bitcast i64 %ins35 to <2 x float>
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ret <2 x float> %tmp43
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; CHECK-LABEL: @test5(
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; CHECK-NEXT: insertelement <2 x float> undef, float %A, i32 0
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; CHECK-NEXT: insertelement <2 x float> {{.*}}, float %B, i32 1
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; CHECK-NEXT: ret <2 x float>
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}
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define <2 x float> @test6(float %A){
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%tmp23 = bitcast float %A to i32 ; <i32> [#uses=1]
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%tmp24 = zext i32 %tmp23 to i64 ; <i64> [#uses=1]
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%tmp25 = shl i64 %tmp24, 32 ; <i64> [#uses=1]
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%mask20 = or i64 %tmp25, 1109917696 ; <i64> [#uses=1]
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%tmp35 = bitcast i64 %mask20 to <2 x float> ; <<2 x float>> [#uses=1]
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ret <2 x float> %tmp35
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; CHECK-LABEL: @test6(
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; CHECK-NEXT: insertelement <2 x float> <float 4.200000e+01, float undef>, float %A, i32 1
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; CHECK: ret
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}
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define i64 @ISPC0(i64 %in) {
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%out = and i64 %in, xor (i64 bitcast (<4 x i16> <i16 -1, i16 -1, i16 -1, i16 -1> to i64), i64 -1)
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ret i64 %out
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; CHECK-LABEL: @ISPC0(
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; CHECK: ret i64 0
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}
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define i64 @Vec2(i64 %in) {
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%out = and i64 %in, xor (i64 bitcast (<4 x i16> <i16 0, i16 0, i16 0, i16 0> to i64), i64 0)
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ret i64 %out
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; CHECK-LABEL: @Vec2(
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; CHECK: ret i64 0
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}
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define i64 @All11(i64 %in) {
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%out = and i64 %in, xor (i64 bitcast (<2 x float> bitcast (i64 -1 to <2 x float>) to i64), i64 -1)
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ret i64 %out
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; CHECK-LABEL: @All11(
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; CHECK: ret i64 0
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}
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define i32 @All111(i32 %in) {
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%out = and i32 %in, xor (i32 bitcast (<1 x float> bitcast (i32 -1 to <1 x float>) to i32), i32 -1)
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ret i32 %out
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; CHECK-LABEL: @All111(
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; CHECK: ret i32 0
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}
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define <2 x i16> @BitcastInsert(i32 %a) {
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%v = insertelement <1 x i32> undef, i32 %a, i32 0
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%r = bitcast <1 x i32> %v to <2 x i16>
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ret <2 x i16> %r
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; CHECK-LABEL: @BitcastInsert(
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; CHECK: bitcast i32 %a to <2 x i16>
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}
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; PR17293
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define <2 x i64> @test7(<2 x i8*>* %arg) nounwind {
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%cast = bitcast <2 x i8*>* %arg to <2 x i64>*
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%load = load <2 x i64>, <2 x i64>* %cast, align 16
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ret <2 x i64> %load
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; CHECK: @test7
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; CHECK: bitcast
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; CHECK: load
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}
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define i8 @test8() {
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%res = bitcast <8 x i1> <i1 true, i1 true, i1 false, i1 true, i1 false, i1 true, i1 false, i1 true> to i8
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ret i8 %res
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; CHECK: @test8
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; CHECK: ret i8 -85
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}
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