forked from OSchip/llvm-project
272 lines
8.2 KiB
LLVM
272 lines
8.2 KiB
LLVM
; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
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; RUN: opt < %s -instcombine -S | FileCheck %s
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; PR4374
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define float @test1(float %x, float %y) {
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; CHECK-LABEL: @test1(
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; CHECK-NEXT: [[T1:%.*]] = fsub float [[X:%.*]], [[Y:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fsub float -0.000000e+00, [[T1]]
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; CHECK-NEXT: ret float [[T2]]
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;
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%t1 = fsub float %x, %y
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%t2 = fsub float -0.0, %t1
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ret float %t2
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}
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; Can't do anything with the test above because -0.0 - 0.0 = -0.0, but if we have nsz:
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; -(X - Y) --> Y - X
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define float @neg_sub_nsz(float %x, float %y) {
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; CHECK-LABEL: @neg_sub_nsz(
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; CHECK-NEXT: [[TMP1:%.*]] = fsub nsz float [[Y:%.*]], [[X:%.*]]
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; CHECK-NEXT: ret float [[TMP1]]
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;
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%t1 = fsub float %x, %y
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%t2 = fsub nsz float -0.0, %t1
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ret float %t2
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}
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; If the subtract has another use, we don't do the transform (even though it
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; doesn't increase the IR instruction count) because we assume that fneg is
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; easier to analyze and generally cheaper than generic fsub.
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declare void @use(float)
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declare void @use2(float, double)
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define float @neg_sub_nsz_extra_use(float %x, float %y) {
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; CHECK-LABEL: @neg_sub_nsz_extra_use(
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; CHECK-NEXT: [[T1:%.*]] = fsub float [[X:%.*]], [[Y:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fsub nsz float -0.000000e+00, [[T1]]
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; CHECK-NEXT: call void @use(float [[T1]])
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; CHECK-NEXT: ret float [[T2]]
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;
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%t1 = fsub float %x, %y
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%t2 = fsub nsz float -0.0, %t1
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call void @use(float %t1)
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ret float %t2
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}
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; With nsz: Z - (X - Y) --> Z + (Y - X)
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define float @sub_sub_nsz(float %x, float %y, float %z) {
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; CHECK-LABEL: @sub_sub_nsz(
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; CHECK-NEXT: [[TMP1:%.*]] = fsub nsz float [[Y:%.*]], [[X:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fadd nsz float [[TMP1]], [[Z:%.*]]
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; CHECK-NEXT: ret float [[T2]]
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;
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%t1 = fsub float %x, %y
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%t2 = fsub nsz float %z, %t1
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ret float %t2
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}
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; With nsz and reassoc: Y - ((X * 5) + Y) --> X * -5
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define float @sub_add_neg_x(float %x, float %y) {
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; CHECK-LABEL: @sub_add_neg_x(
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; CHECK-NEXT: [[TMP1:%.*]] = fmul reassoc nsz float [[X:%.*]], -5.000000e+00
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; CHECK-NEXT: ret float [[TMP1]]
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;
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%mul = fmul float %x, 5.000000e+00
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%add = fadd float %mul, %y
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%r = fsub nsz reassoc float %y, %add
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ret float %r
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}
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; Same as above: if 'Z' is not -0.0, swap fsub operands and convert to fadd.
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define float @sub_sub_known_not_negzero(float %x, float %y) {
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; CHECK-LABEL: @sub_sub_known_not_negzero(
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; CHECK-NEXT: [[TMP1:%.*]] = fsub float [[Y:%.*]], [[X:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fadd float [[TMP1]], 4.200000e+01
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; CHECK-NEXT: ret float [[T2]]
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;
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%t1 = fsub float %x, %y
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%t2 = fsub float 42.0, %t1
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ret float %t2
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}
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; <rdar://problem/7530098>
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define double @test2(double %x, double %y) {
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; CHECK-LABEL: @test2(
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; CHECK-NEXT: [[T1:%.*]] = fadd double [[X:%.*]], [[Y:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fsub double [[X]], [[T1]]
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; CHECK-NEXT: ret double [[T2]]
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;
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%t1 = fadd double %x, %y
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%t2 = fsub double %x, %t1
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ret double %t2
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}
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; X - C --> X + (-C)
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define float @constant_op1(float %x, float %y) {
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; CHECK-LABEL: @constant_op1(
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; CHECK-NEXT: [[R:%.*]] = fadd float [[X:%.*]], -4.200000e+01
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; CHECK-NEXT: ret float [[R]]
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;
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%r = fsub float %x, 42.0
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ret float %r
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}
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define <2 x float> @constant_op1_vec(<2 x float> %x, <2 x float> %y) {
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; CHECK-LABEL: @constant_op1_vec(
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; CHECK-NEXT: [[R:%.*]] = fadd <2 x float> [[X:%.*]], <float -4.200000e+01, float 4.200000e+01>
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; CHECK-NEXT: ret <2 x float> [[R]]
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;
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%r = fsub <2 x float> %x, <float 42.0, float -42.0>
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ret <2 x float> %r
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}
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define <2 x float> @constant_op1_vec_undef(<2 x float> %x, <2 x float> %y) {
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; CHECK-LABEL: @constant_op1_vec_undef(
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; CHECK-NEXT: [[R:%.*]] = fadd <2 x float> [[X:%.*]], <float 0x7FF8000000000000, float 4.200000e+01>
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; CHECK-NEXT: ret <2 x float> [[R]]
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;
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%r = fsub <2 x float> %x, <float undef, float -42.0>
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ret <2 x float> %r
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}
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; X - (-Y) --> X + Y
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define float @neg_op1(float %x, float %y) {
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; CHECK-LABEL: @neg_op1(
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; CHECK-NEXT: [[R:%.*]] = fadd float [[X:%.*]], [[Y:%.*]]
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; CHECK-NEXT: ret float [[R]]
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;
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%negy = fsub float -0.0, %y
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%r = fsub float %x, %negy
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ret float %r
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}
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define <2 x float> @neg_op1_vec(<2 x float> %x, <2 x float> %y) {
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; CHECK-LABEL: @neg_op1_vec(
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; CHECK-NEXT: [[R:%.*]] = fadd <2 x float> [[X:%.*]], [[Y:%.*]]
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; CHECK-NEXT: ret <2 x float> [[R]]
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;
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%negy = fsub <2 x float> <float -0.0, float -0.0>, %y
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%r = fsub <2 x float> %x, %negy
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ret <2 x float> %r
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}
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define <2 x float> @neg_op1_vec_undef(<2 x float> %x, <2 x float> %y) {
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; CHECK-LABEL: @neg_op1_vec_undef(
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; CHECK-NEXT: [[R:%.*]] = fadd <2 x float> [[X:%.*]], [[Y:%.*]]
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; CHECK-NEXT: ret <2 x float> [[R]]
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;
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%negy = fsub <2 x float> <float -0.0, float undef>, %y
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%r = fsub <2 x float> %x, %negy
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ret <2 x float> %r
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}
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; Similar to above - but look through fpext/fptrunc casts to find the fneg.
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define double @neg_ext_op1(float %a, double %b) {
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; CHECK-LABEL: @neg_ext_op1(
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; CHECK-NEXT: [[TMP1:%.*]] = fpext float [[A:%.*]] to double
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; CHECK-NEXT: [[T3:%.*]] = fadd double [[TMP1]], [[B:%.*]]
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; CHECK-NEXT: ret double [[T3]]
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;
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%t1 = fsub float -0.0, %a
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%t2 = fpext float %t1 to double
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%t3 = fsub double %b, %t2
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ret double %t3
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}
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; Verify that vectors work too.
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define <2 x float> @neg_trunc_op1(<2 x double> %a, <2 x float> %b) {
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; CHECK-LABEL: @neg_trunc_op1(
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; CHECK-NEXT: [[TMP1:%.*]] = fptrunc <2 x double> [[A:%.*]] to <2 x float>
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; CHECK-NEXT: [[T3:%.*]] = fadd <2 x float> [[TMP1]], [[B:%.*]]
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; CHECK-NEXT: ret <2 x float> [[T3]]
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;
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%t1 = fsub <2 x double> <double -0.0, double -0.0>, %a
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%t2 = fptrunc <2 x double> %t1 to <2 x float>
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%t3 = fsub <2 x float> %b, %t2
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ret <2 x float> %t3
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}
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; No FMF needed, but they should propagate to the fadd.
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define double @neg_ext_op1_fast(float %a, double %b) {
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; CHECK-LABEL: @neg_ext_op1_fast(
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; CHECK-NEXT: [[TMP1:%.*]] = fpext float [[A:%.*]] to double
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; CHECK-NEXT: [[T3:%.*]] = fadd fast double [[TMP1]], [[B:%.*]]
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; CHECK-NEXT: ret double [[T3]]
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;
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%t1 = fsub float -0.0, %a
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%t2 = fpext float %t1 to double
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%t3 = fsub fast double %b, %t2
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ret double %t3
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}
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; Extra use should prevent the transform.
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define float @neg_ext_op1_extra_use(half %a, float %b) {
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; CHECK-LABEL: @neg_ext_op1_extra_use(
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; CHECK-NEXT: [[T1:%.*]] = fsub half 0xH8000, [[A:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fpext half [[T1]] to float
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; CHECK-NEXT: [[T3:%.*]] = fsub float [[B:%.*]], [[T2]]
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; CHECK-NEXT: call void @use(float [[T2]])
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; CHECK-NEXT: ret float [[T3]]
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;
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%t1 = fsub half -0.0, %a
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%t2 = fpext half %t1 to float
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%t3 = fsub float %b, %t2
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call void @use(float %t2)
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ret float %t3
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}
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; One-use fptrunc is always hoisted above fneg, so the corresponding
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; multi-use bug for fptrunc isn't visible with a fold starting from
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; the last fsub.
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define float @neg_trunc_op1_extra_use(double %a, float %b) {
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; CHECK-LABEL: @neg_trunc_op1_extra_use(
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; CHECK-NEXT: [[TMP1:%.*]] = fptrunc double [[A:%.*]] to float
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; CHECK-NEXT: [[T2:%.*]] = fsub float -0.000000e+00, [[TMP1]]
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; CHECK-NEXT: [[T3:%.*]] = fadd float [[TMP1]], [[B:%.*]]
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; CHECK-NEXT: call void @use(float [[T2]])
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; CHECK-NEXT: ret float [[T3]]
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;
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%t1 = fsub double -0.0, %a
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%t2 = fptrunc double %t1 to float
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%t3 = fsub float %b, %t2
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call void @use(float %t2)
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ret float %t3
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}
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; Extra uses should prevent the transform.
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define float @neg_trunc_op1_extra_uses(double %a, float %b) {
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; CHECK-LABEL: @neg_trunc_op1_extra_uses(
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; CHECK-NEXT: [[T1:%.*]] = fsub double -0.000000e+00, [[A:%.*]]
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; CHECK-NEXT: [[T2:%.*]] = fptrunc double [[T1]] to float
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; CHECK-NEXT: [[T3:%.*]] = fsub float [[B:%.*]], [[T2]]
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; CHECK-NEXT: call void @use2(float [[T2]], double [[T1]])
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; CHECK-NEXT: ret float [[T3]]
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;
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%t1 = fsub double -0.0, %a
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%t2 = fptrunc double %t1 to float
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%t3 = fsub float %b, %t2
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call void @use2(float %t2, double %t1)
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ret float %t3
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}
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; Don't negate a constant expression to form fadd and induce infinite looping:
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; https://bugs.llvm.org/show_bug.cgi?id=37605
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@b = external global i16, align 1
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define float @PR37605(float %conv) {
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; CHECK-LABEL: @PR37605(
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; CHECK-NEXT: [[SUB:%.*]] = fsub float [[CONV:%.*]], bitcast (i32 ptrtoint (i16* @b to i32) to float)
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; CHECK-NEXT: ret float [[SUB]]
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;
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%sub = fsub float %conv, bitcast (i32 ptrtoint (i16* @b to i32) to float)
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ret float %sub
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}
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