; SOFT:
; RUN: llc < %s -mtriple=arm-none-eabi -float-abi=soft | FileCheck %s --check-prefixes=CHECK,CHECK-SOFT
; RUN: llc < %s -mtriple=thumb-none-eabi -float-abi=soft | FileCheck %s --check-prefixes=CHECK,CHECK-SOFT
; RUN: llc < %s -mtriple=thumbv8.1m.main-none-eabi -mattr=+mve | FileCheck %s --check-prefixes=CHECK,CHECK-SOFT
; RUN: llc < %s -mtriple=thumbv8.1m.main-none-eabi -float-abi=soft -mattr=+mve | FileCheck %s --check-prefixes=CHECK,CHECK-SOFT
; SOFTFP:
; RUN: llc < %s -mtriple=arm-none-eabi -mattr=+vfp3 | FileCheck %s --check-prefixes=CHECK,CHECK-SOFTFP-VFP3
; RUN: llc < %s -mtriple=arm-none-eabi -mattr=+vfp4 | FileCheck %s --check-prefixes=CHECK,CHECK-SOFTFP-FP16,CHECK-SOFTFP-FP16-A32
; RUN: llc < %s -mtriple=arm-none-eabi -mattr=+fullfp16,+fp64 | FileCheck %s --check-prefixes=CHECK,CHECK-SOFTFP-FULLFP16
; RUN: llc < %s -mtriple=thumbv7-none-eabi -mattr=+vfp3 | FileCheck %s --check-prefixes=CHECK,CHECK-SOFTFP-VFP3
; RUN: llc < %s -mtriple=thumbv7-none-eabi -mattr=+vfp4 | FileCheck %s --check-prefixes=CHECK,CHECK-SOFTFP-FP16,CHECK-SOFTFP-FP16-T32
; RUN: llc < %s -mtriple=thumbv7-none-eabi -mattr=+fullfp16,+fp64 | FileCheck %s --check-prefixes=CHECK,CHECK-SOFTFP-FULLFP16
; Test fast-isel
; RUN: llc < %s -mtriple=arm-none-eabi -mattr=+fullfp16,+fp64 -O0 | FileCheck %s --check-prefixes=CHECK-SPILL-RELOAD
; RUN: llc < %s -mtriple=thumbv7-none-eabi -mattr=+fullfp16,+fp64 -O0 | FileCheck %s --check-prefixes=CHECK-SPILL-RELOAD
; HARD:
; RUN: llc < %s -mtriple=arm-none-eabihf -mattr=+vfp3 | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-VFP3
; RUN: llc < %s -mtriple=arm-none-eabihf -mattr=+vfp4 | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-FP16
; RUN: llc < %s -mtriple=arm-none-eabihf -mattr=+fullfp16,+fp64 | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-FULLFP16
; RUN: llc < %s -mtriple=thumbv7-none-eabihf -mattr=+vfp3 | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-VFP3
; RUN: llc < %s -mtriple=thumbv7-none-eabihf -mattr=+vfp4 | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-FP16
; RUN: llc < %s -mtriple=thumbv7-none-eabihf -mattr=+fullfp16,fp64 | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-FULLFP16
; FP-CONTRACT=FAST
; RUN: llc < %s -mtriple=arm-none-eabihf -mattr=+fullfp16,+fp64 -fp-contract=fast | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-FULLFP16-FAST
; RUN: llc < %s -mtriple=thumbv7-none-eabihf -mattr=+fullfp16,+fp64 -fp-contract=fast | FileCheck %s --check-prefixes=CHECK,CHECK-HARDFP-FULLFP16-FAST
; TODO: we can't pass half-precision arguments as "half" types yet. We do
; that for the time being by passing "float %f.coerce" and the necessary
; bitconverts/truncates. But when we can pass half types, we do want to use
; and test that here.
define float @RetValBug(float %A.coerce) {
entry:
ret float undef
; Check thatLowerReturn can handle undef nodes (i.e. nodes which do not have
; any operands) when FullFP16 is enabled.
;
; CHECK-LABEL: RetValBug:
; CHECK-HARDFP-FULLFP16: {{.*}} lr
}
; 2. VADD
define float @Add(float %a.coerce, float %b.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%add = fadd half %1, %3
%4 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %4 to i32
%5 = bitcast i32 %tmp4.0.insert.ext to float
ret float %5
; CHECK-LABEL: Add:
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_fadd
; CHECK-SOFT: bl __aeabi_f2h
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: vadd.f32
; CHECK-SOFTFP-VFP3: bl __aeabi_f2h
; CHECK-SOFTFP-FP16-DAG: vmov [[S0:s[0-9]]], r0
; CHECK-SOFTFP-FP16-DAG: vmov [[S2:s[0-9]]], r1
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S2]], [[S2]]
; CHECK-SOFTFP-FP16: vadd.f32 [[S0]], [[S0]], [[S2]]
; CHECK-SOFTFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16: vmov r0, s0
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0:s[0-9]]], r1
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S2:s[0-9]]], r0
; CHECK-SOFTFP-FULLFP16: vadd.f16 [[S0]], [[S2]], [[S0]]
; CHECK-SOFTFP-FULLFP16-NEXT: vmov.f16 r0, s0
; CHECK-HARDFP-VFP3: vmov r
; CHECK-HARDFP-VFP3: vmov.f32 s
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: vadd.f32
; CHECK-HARDFP-VFP3: bl __aeabi_f2h
; CHECK-HARDFP-VFP3: vmov s0, r0
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S2:s[0-9]]], s1
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S0:s[0-9]]], s0
; CHECK-HARDFP-FP16: vadd.f32 [[S0]], [[S0]], [[S2]]
; CHECK-HARDFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-HARDFP-FULLFP16: vadd.f16 s0, s0, s1
}
; 3. VCMP
define zeroext i1 @VCMP1(float %F.coerce, float %G.coerce) {
entry:
%0 = bitcast float %F.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %G.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%cmp = fcmp une half %1, %3
ret i1 %cmp
; CHECK-LABEL: VCMP1:
; CHECK-SOFT: bl __aeabi_fcmpeq
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: vcmp.f32 s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16: vcvtb.f32.f16 s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16: vcvtb.f32.f16 s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16: vcmp.f32 s{{.}}, s{{.}}
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S2:s[0-9]]], r0
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0:s[0-9]]], r1
; CHECK-SOFTFP-FULLFP16: vcmp.f16 [[S2]], [[S0]]
; CHECK-HARDFP-FULLFP16-NOT: vmov.f16 s{{.}}, r0
; CHECK-HARDFP-FULLFP16-NOT: vmov.f16 s{{.}}, r1
; CHECK-HARDFP-FULLFP16: vcmp.f16 s0, s1
}
; Check VCMPZH
define zeroext i1 @VCMP2(float %F.coerce) {
entry:
%0 = bitcast float %F.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%cmp = fcmp une half %1, 0.000000e+00
ret i1 %cmp
; CHECK-LABEL: VCMP2:
; CHECK-SOFT: bl __aeabi_fcmpeq
; CHECK-SOFTFP-FP16: vcmp.f32 s0, #0
; CHECK-SOFTFP-FULLFP16: vcmp.f16 s0, #0
; CHECK-HARDFP-FULLFP16: vcmp.f16 s0, #0
}
; 4. VCMPE
define i32 @VCMPE1(float %F.coerce) {
entry:
%0 = bitcast float %F.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%tmp = fcmp olt half %1, 0.000000e+00
%tmp1 = zext i1 %tmp to i32
ret i32 %tmp1
; CHECK-LABEL: VCMPE1:
; CHECK-SOFT: bl __aeabi_fcmplt
; CHECK-SOFTFP-FP16: vcmp.f32 s0, #0
; CHECK-SOFTFP-FULLFP16: vcmp.f16 s0, #0
; CHECK-HARDFP-FULLFP16: vcmp.f16 s0, #0
}
define i32 @VCMPE2(float %F.coerce, float %G.coerce) {
entry:
%0 = bitcast float %F.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %G.coerce to i32
%tmp.1.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp.1.extract.trunc to half
%tmp = fcmp olt half %1, %3
%tmp1 = zext i1 %tmp to i32
ret i32 %tmp1
; CHECK-LABEL: VCMPE2:
; CHECK-SOFT: bl __aeabi_fcmplt
; CHECK-SOFTFP-FP16: vcmp.f32 s{{.}}, s{{.}}
; CHECK-SOFTFP-FULLFP16: vcmp.f16 s{{.}}, s{{.}}
; CHECK-HARDFP-FULLFP16: vcmp.f16 s{{.}}, s{{.}}
}
; Test lowering of BR_CC
define hidden i32 @VCMPBRCC() {
entry:
%f = alloca half, align 2
br label %for.cond
for.cond:
%0 = load half, ptr %f, align 2
%cmp = fcmp nnan ninf nsz ole half %0, 0xH6800
br i1 %cmp, label %for.body, label %for.end
for.body:
ret i32 1
for.end:
ret i32 0
; CHECK-LABEL: VCMPBRCC:
; CHECK-SOFT: bl __aeabi_fcmp{{gt|le}}
; CHECK-SOFT: cmp r0, #{{0|1}}
; CHECK-SOFTFP-FP16: vcvtb.f32.f16 [[S2:s[0-9]]], [[S2]]
; CHECK-SOFTFP-FP16: vcmp.f32 [[S2]], s0
; CHECK-SOFTFP-FP16: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FULLFP16: vcmp.f16 s{{.}}, s{{.}}
; CHECK-SOFTFP-FULLFP16: vmrs APSR_nzcv, fpscr
}
; 5. VCVT (between floating-point and fixed-point)
; Only assembly/disassembly support
; 6. VCVT (between floating-point and integer, both directions)
define i32 @fptosi(i32 %A.coerce) {
entry:
%tmp.0.extract.trunc = trunc i32 %A.coerce to i16
%0 = bitcast i16 %tmp.0.extract.trunc to half
%conv = fptosi half %0 to i32
ret i32 %conv
; CHECK-LABEL: fptosi:
; CHECK-HARDFP-FULLFP16: vmov.f16 s0, r0
; CHECK-HARDFP-FULLFP16-NEXT: vcvt.s32.f16 s0, s0
; CHECK-HARDFP-FULLFP16-NEXT: vmov r0, s0
}
define i32 @fptoui(i32 %A.coerce) {
entry:
%tmp.0.extract.trunc = trunc i32 %A.coerce to i16
%0 = bitcast i16 %tmp.0.extract.trunc to half
%conv = fptoui half %0 to i32
ret i32 %conv
; CHECK-HARDFP-FULLFP16: vcvt.u32.f16 s0, s0
; CHECK-HARDFP-FULLFP16-NEXT: vmov r0, s0
}
define float @UintToH(i32 %a, i32 %b) {
entry:
%0 = uitofp i32 %a to half
%1 = bitcast half %0 to i16
%tmp0.insert.ext = zext i16 %1 to i32
%2 = bitcast i32 %tmp0.insert.ext to float
ret float %2
; CHECK-LABEL: UintToH:
; CHECK-HARDFP-FULLFP16: vmov s0, r0
; CHECK-HARDFP-FULLFP16-NEXT: vcvt.f16.u32 s0, s0
}
define float @SintToH(i32 %a, i32 %b) {
entry:
%0 = sitofp i32 %a to half
%1 = bitcast half %0 to i16
%tmp0.insert.ext = zext i16 %1 to i32
%2 = bitcast i32 %tmp0.insert.ext to float
ret float %2
; CHECK-LABEL: SintToH:
; CHECK-HARDFP-FULLFP16: vmov s0, r0
; CHECK-HARDFP-FULLFP16-NEXT: vcvt.f16.s32 s0, s0
}
define i32 @f2h(float %f) {
entry:
%conv = fptrunc float %f to half
%0 = bitcast half %conv to i16
%tmp.0.insert.ext = zext i16 %0 to i32
ret i32 %tmp.0.insert.ext
; CHECK-LABEL: f2h:
; CHECK-HARDFP-FULLFP16: vcvtb.f16.f32 s0, s0
}
define float @h2f(i32 %h.coerce) {
entry:
%tmp.0.extract.trunc = trunc i32 %h.coerce to i16
%0 = bitcast i16 %tmp.0.extract.trunc to half
%conv = fpext half %0 to float
ret float %conv
; CHECK-LABEL: h2f:
; CHECK-HARDFP-FULLFP16: vcvtb.f32.f16 s0, s0
}
define double @h2d(i32 %h.coerce) {
entry:
%tmp.0.extract.trunc = trunc i32 %h.coerce to i16
%0 = bitcast i16 %tmp.0.extract.trunc to half
%conv = fpext half %0 to double
ret double %conv
; CHECK-LABEL: h2d:
; CHECK-HARDFP-FULLFP16: vcvtb.f64.f16 d{{.*}}, s{{.}}
}
define i32 @d2h(double %d) {
entry:
%conv = fptrunc double %d to half
%0 = bitcast half %conv to i16
%tmp.0.insert.ext = zext i16 %0 to i32
ret i32 %tmp.0.insert.ext
; CHECK-LABEL: d2h:
; CHECK-HARDFP-FULLFP16: vcvtb.f16.f64 s0, d{{.*}}
}
; TODO:
; 7. VCVTA
; 8. VCVTM
; 9. VCVTN
; 10. VCVTP
; 11. VCVTR
; 12. VDIV
define float @Div(float %a.coerce, float %b.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%add = fdiv half %1, %3
%4 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %4 to i32
%5 = bitcast i32 %tmp4.0.insert.ext to float
ret float %5
; CHECK-LABEL: Div:
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_fdiv
; CHECK-SOFT: bl __aeabi_f2h
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: vdiv.f32
; CHECK-SOFTFP-VFP3: bl __aeabi_f2h
; CHECK-SOFTFP-FP16-DAG: vmov [[S0:s[0-9]]], r0
; CHECK-SOFTFP-FP16-DAG: vmov [[S2:s[0-9]]], r1
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S2]], [[S2]]
; CHECK-SOFTFP-FP16: vdiv.f32 [[S0]], [[S0]], [[S2]]
; CHECK-SOFTFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16: vmov r0, s0
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0:s[0-9]]], r1
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S2:s[0-9]]], r0
; CHECK-SOFTFP-FULLFP16: vdiv.f16 [[S0]], [[S2]], [[S0]]
; CHECK-SOFTFP-FULLFP16-NEXT: vmov.f16 r0, s0
; CHECK-HARDFP-VFP3: vmov r
; CHECK-HARDFP-VFP3: vmov.f32 s
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: vdiv.f32
; CHECK-HARDFP-VFP3: bl __aeabi_f2h
; CHECK-HARDFP-VFP3: vmov s0, r0
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S2:s[0-9]]], s1
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S0:s[0-9]]], s0
; CHECK-HARDFP-FP16: vdiv.f32 [[S0]], [[S0]], [[S2]]
; CHECK-HARDFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-HARDFP-FULLFP16: vdiv.f16 s0, s0, s1
}
; 13. VFMA
define float @VFMA(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%mul = fmul half %1, %3
%add = fadd half %mul, %5
%6 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VFMA:
; CHECK-HARDFP-FULLFP16-FAST: vfma.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16-FAST-NEXT: vmov.f32 s0, s2
}
; 14. VFMS
define float @VFMS(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%mul = fmul half %1, %3
%sub = fsub half %5, %mul
%6 = bitcast half %sub to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VFMS:
; CHECK-HARDFP-FULLFP16-FAST: vfms.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16-FAST-NEXT: vmov.f32 s0, s2
}
; 15. VFNMA
define float @VFNMA(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%mul = fmul half %1, %3
%sub = fsub half -0.0, %mul
%sub2 = fsub half %sub, %5
%6 = bitcast half %sub2 to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VFNMA:
; CHECK-HARDFP-FULLFP16-FAST: vfnma.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16-FAST-NEXT: vmov.f32 s0, s2
}
; 16. VFNMS
define float @VFNMS(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%mul = fmul half %1, %3
%sub2 = fsub half %mul, %5
%6 = bitcast half %sub2 to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VFNMS:
; CHECK-HARDFP-FULLFP16-FAST: vfnms.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16-FAST-NEXT: vmov.f32 s0, s2
}
; 17. VMAXNM
; 18. VMINNM
; Tested in fp16-vminmaxnm.ll and fp16-vminmaxnm-safe.ll
; 19. VMLA
define float @VMLA(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%mul = fmul half %1, %3
%add = fadd half %5, %mul
%6 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VMLA:
; CHECK-HARDFP-FULLFP16: vmla.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16-NEXT: vmov.f32 s0, s2
}
; 20. VMLS
define float @VMLS(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%mul = fmul half %1, %3
%add = fsub half %5, %mul
%6 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VMLS:
; CHECK-HARDFP-FULLFP16: vmls.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16-NEXT: vmov.f32 s0, s2
}
; TODO: fix immediates.
; 21. VMOV (between general-purpose register and half-precision register)
; 22. VMOV (immediate)
define i32 @movi(i32 %a.coerce) {
entry:
%tmp.0.extract.trunc = trunc i32 %a.coerce to i16
%0 = bitcast i16 %tmp.0.extract.trunc to half
%add = fadd half %0, 0xHC000
%1 = bitcast half %add to i16
%tmp2.0.insert.ext = zext i16 %1 to i32
ret i32 %tmp2.0.insert.ext
; CHECK-LABEL: movi:
; CHECK-HARDFP-FULLFP16: vmov.f16 s0, #-2.000000e+00
}
; 23. VMUL
define float @Mul(float %a.coerce, float %b.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%add = fmul half %1, %3
%4 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %4 to i32
%5 = bitcast i32 %tmp4.0.insert.ext to float
ret float %5
; CHECK-LABEL: Mul:
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_fmul
; CHECK-SOFT: bl __aeabi_f2h
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: vmul.f32
; CHECK-SOFTFP-VFP3: bl __aeabi_f2h
; CHECK-SOFTFP-FP16-DAG: vmov [[S0:s[0-9]]], r0
; CHECK-SOFTFP-FP16-DAG: vmov [[S2:s[0-9]]], r1
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S2]], [[S2]]
; CHECK-SOFTFP-FP16: vmul.f32 [[S0]], [[S0]], [[S2]]
; CHECK-SOFTFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16: vmov r0, s0
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0:s[0-9]]], r1
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S2:s[0-9]]], r0
; CHECK-SOFTFP-FULLFP16: vmul.f16 [[S0]], [[S2]], [[S0]]
; CHECK-SOFTFP-FULLFP16-NEXT: vmov.f16 r0, s0
; CHECK-HARDFP-VFP3: vmov r
; CHECK-HARDFP-VFP3: vmov.f32 s
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: vmul.f32
; CHECK-HARDFP-VFP3: bl __aeabi_f2h
; CHECK-HARDFP-VFP3: vmov s0, r0
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S2:s[0-9]]], s1
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S0:s[0-9]]], s0
; CHECK-HARDFP-FP16: vmul.f32 [[S0]], [[S0]], [[S2]]
; CHECK-HARDFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-HARDFP-FULLFP16: vmul.f16 s0, s0, s1
}
; 24. VNEG
define float @Neg(float %a.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = fsub half -0.000000e+00, %1
%3 = bitcast half %2 to i16
%tmp4.0.insert.ext = zext i16 %3 to i32
%4 = bitcast i32 %tmp4.0.insert.ext to float
ret float %4
; CHECK-LABEL: Neg:
; CHECK-HARDFP-FULLFP16: vneg.f16 s0, s0
}
; 25. VNMLA
define float @VNMLA(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%add = fmul half %1, %3
%add2 = fsub half -0.000000e+00, %add
%add3 = fsub half %add2, %5
%6 = bitcast half %add3 to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VNMLA:
; CHECK-HARDFP-FULLFP16: vnmla.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16: vmov.f32 s0, s2
}
; 26. VNMLS
define float @VNMLS(float %a.coerce, float %b.coerce, float %c.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%4 = bitcast float %c.coerce to i32
%tmp2.0.extract.trunc = trunc i32 %4 to i16
%5 = bitcast i16 %tmp2.0.extract.trunc to half
%add = fmul half %1, %3
%add2 = fsub half %add, %5
%6 = bitcast half %add2 to i16
%tmp4.0.insert.ext = zext i16 %6 to i32
%7 = bitcast i32 %tmp4.0.insert.ext to float
ret float %7
; CHECK-LABEL: VNMLS:
; CHECK-HARDFP-FULLFP16: vnmls.f16 s2, s0, s1
; CHECK-HARDFP-FULLFP16: vmov.f32 s0, s2
}
; 27. VNMUL
define float @NMul(float %a.coerce, float %b.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%add = fmul half %1, %3
%add2 = fsub half -0.0, %add
%4 = bitcast half %add2 to i16
%tmp4.0.insert.ext = zext i16 %4 to i32
%5 = bitcast i32 %tmp4.0.insert.ext to float
ret float %5
; CHECK-LABEL: NMul:
; CHECK-HARDFP-FULLFP16: vnmul.f16 s0, s0, s1
}
; 35. VSELEQ
define half @select_cc1(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz oeq half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc1:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vseleq.f16 s0,
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movne r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt eq
; CHECK-SOFTFP-FP16-T32-NEXT: movweq r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movteq r0,
}
; FIXME: more tests need to be added for VSELGE and VSELGT.
; That is, more combinations of immediate operands that can or can't
; be encoded as an FP16 immediate need to be added here.
;
; 36. VSELGE
define half @select_cc_ge1(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz oge half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_ge1:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselge.f16 s0,
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movlt r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt ge
; CHECK-SOFTFP-FP16-T32-NEXT: movwge r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtge r0,
}
define half @select_cc_ge2(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz ole half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_ge2:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselge.f16 s0,
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movhi r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt ls
; CHECK-SOFTFP-FP16-T32-NEXT: movwls r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtls r0,
}
define half @select_cc_ge3(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz ugt half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_ge3:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselge.f16 s0,
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movls r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt hi
; CHECK-SOFTFP-FP16-T32-NEXT: movwhi r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movthi r0,
}
define half @select_cc_ge4(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz ult half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_ge4:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselge.f16 s0, s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movge r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt lt
; CHECK-SOFTFP-FP16-T32-NEXT: movwlt r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtlt r0,
}
; 37. VSELGT
define half @select_cc_gt1(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz ogt half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_gt1:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselgt.f16 s0, s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movle r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt gt
; CHECK-SOFTFP-FP16-T32-NEXT: movwgt r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtgt r0,
}
define half @select_cc_gt2(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz uge half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_gt2:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselgt.f16 s0, s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movmi r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt pl
; CHECK-SOFTFP-FP16-T32-NEXT: movwpl r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtpl r0,
}
define half @select_cc_gt3(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz ule half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_gt3:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselgt.f16 s0, s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movgt r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt le
; CHECK-SOFTFP-FP16-T32-NEXT: movwle r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtle r0,
}
define half @select_cc_gt4(ptr %a0) {
%1 = load half, ptr %a0
%2 = fcmp nsz olt half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
ret half %3
; CHECK-LABEL: select_cc_gt4:
; CHECK-HARDFP-FULLFP16: vcmp.f16
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vselgt.f16 s0, s{{.}}, s{{.}}
; CHECK-SOFTFP-FP16-A32: vcmp.f32
; CHECK-SOFTFP-FP16-A32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32-NEXT: movpl r0,
; CHECK-SOFTFP-FP16-T32: vcmp.f32
; CHECK-SOFTFP-FP16-T32-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32-NEXT: itt mi
; CHECK-SOFTFP-FP16-T32-NEXT: movwmi r0,
; CHECK-SOFTFP-FP16-T32-NEXT: movtmi r0,
}
; 38. VSELVS
define float @select_cc4(float %a.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = fcmp nsz ueq half %1, 0xH0001
%3 = select i1 %2, half 0xHC000, half 0xH0002
%4 = bitcast half %3 to i16
%tmp4.0.insert.ext = zext i16 %4 to i32
%5 = bitcast i32 %tmp4.0.insert.ext to float
ret float %5
; CHECK-LABEL: select_cc4:
; CHECK-HARDFP-FULLFP16: vldr.16 [[S2:s[0-9]]], .LCPI{{.*}}
; CHECK-HARDFP-FULLFP16: vldr.16 [[S4:s[0-9]]], .LCPI{{.*}}
; CHECK-HARDFP-FULLFP16: vmov.f16 [[S6:s[0-9]]], #-2.000000e+00
; CHECK-HARDFP-FULLFP16: vcmp.f16 s0, [[S2]]
; CHECK-HARDFP-FULLFP16-NEXT: vmrs APSR_nzcv, fpscr
; CHECK-HARDFP-FULLFP16-NEXT: vseleq.f16 [[S0:s[0-9]]], [[S6]], [[S4]]
; CHECK-HARDFP-FULLFP16-NEXT: vselvs.f16 s0, [[S6]], [[S0]]
; CHECK-SOFTFP-FP16-A32: vmov [[S6:s[0-9]]], r0
; CHECK-SOFTFP-FP16-A32: vldr s0, .LCP{{.*}}
; CHECK-SOFTFP-FP16-A32: vcvtb.f32.f16 [[S6]], [[S6]]
; CHECK-SOFTFP-FP16-A32: ldr r1, .LCP{{.*}}
; CHECK-SOFTFP-FP16-A32: vcmp.f32 [[S6]], s0
; CHECK-SOFTFP-FP16-A32: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-A32: mov r0, r1
; CHECK-SOFTFP-FP16-A32-NEXT: movne r0, #2
; CHECK-SOFTFP-FP16-A32-NEXT: movvs r0, r1
; CHECK-SOFTFP-FP16-T32: vmov [[S6:s[0-9]]], r0
; CHECK-SOFTFP-FP16-T32: vldr s0, .LCP{{.*}}
; CHECK-SOFTFP-FP16-T32: vcvtb.f32.f16 [[S6]], [[S6]]
; CHECK-SOFTFP-FP16-T32: vcmp.f32 [[S6]], s0
; CHECK-SOFTFP-FP16-T32: vmrs APSR_nzcv, fpscr
; CHECK-SOFTFP-FP16-T32: itt eq
; CHECK-SOFTFP-FP16-T32-NEXT: movweq r1,
; CHECK-SOFTFP-FP16-T32-NEXT: movteq r1,
; CHECK-SOFTFP-FP16-T32-NEXT: itt vs
; CHECK-SOFTFP-FP16-T32-NEXT: movwvs r1,
; CHECK-SOFTFP-FP16-T32-NEXT: movtvs r1,
; CHECK-SOFTFP-FP16-T32-NEXT: uxth r0, r1
}
; 40. VSUB
define float @Sub(float %a.coerce, float %b.coerce) {
entry:
%0 = bitcast float %a.coerce to i32
%tmp.0.extract.trunc = trunc i32 %0 to i16
%1 = bitcast i16 %tmp.0.extract.trunc to half
%2 = bitcast float %b.coerce to i32
%tmp1.0.extract.trunc = trunc i32 %2 to i16
%3 = bitcast i16 %tmp1.0.extract.trunc to half
%add = fsub half %1, %3
%4 = bitcast half %add to i16
%tmp4.0.insert.ext = zext i16 %4 to i32
%5 = bitcast i32 %tmp4.0.insert.ext to float
ret float %5
; CHECK-LABEL: Sub:
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_h2f
; CHECK-SOFT: bl __aeabi_fsub
; CHECK-SOFT: bl __aeabi_f2h
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: bl __aeabi_h2f
; CHECK-SOFTFP-VFP3: vsub.f32
; CHECK-SOFTFP-VFP3: bl __aeabi_f2h
; CHECK-SOFTFP-FP16-DAG: vmov [[S0:s[0-9]]], r0
; CHECK-SOFTFP-FP16-DAG: vmov [[S2:s[0-9]]], r1
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16-DAG: vcvtb.f32.f16 [[S2]], [[S2]]
; CHECK-SOFTFP-FP16: vsub.f32 [[S0]], [[S0]], [[S2]]
; CHECK-SOFTFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-SOFTFP-FP16: vmov r0, s0
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0:s[0-9]]], r1
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S2:s[0-9]]], r0
; CHECK-SOFTFP-FULLFP16: vsub.f16 [[S0]], [[S2]], [[S0]]
; CHECK-SOFTFP-FULLFP16-NEXT: vmov.f16 r0, s0
; CHECK-HARDFP-VFP3: vmov r
; CHECK-HARDFP-VFP3: vmov.f32 s
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: bl __aeabi_h2f
; CHECK-HARDFP-VFP3: vsub.f32
; CHECK-HARDFP-VFP3: bl __aeabi_f2h
; CHECK-HARDFP-VFP3: vmov s0, r0
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S2:s[0-9]]], s1
; CHECK-HARDFP-FP16: vcvtb.f32.f16 [[S0:s[0-9]]], s0
; CHECK-HARDFP-FP16: vsub.f32 [[S0]], [[S0]], [[S2]]
; CHECK-HARDFP-FP16: vcvtb.f16.f32 [[S0]], [[S0]]
; CHECK-HARDFP-FULLFP16: vsub.f16 s0, s0, s1
}
; Check for VSTRH with a FCONSTH, this checks that addressing mode
; AddrMode5FP16 is supported.
define i32 @ThumbAddrMode5FP16(i32 %A.coerce) {
entry:
%S = alloca half, align 2
%tmp.0.extract.trunc = trunc i32 %A.coerce to i16
%0 = bitcast i16 %tmp.0.extract.trunc to half
store volatile half 0xH3C00, ptr %S, align 2
%S.0.S.0. = load volatile half, ptr %S, align 2
%add = fadd half %S.0.S.0., %0
%1 = bitcast half %add to i16
%tmp2.0.insert.ext = zext i16 %1 to i32
ret i32 %tmp2.0.insert.ext
; CHECK-LABEL: ThumbAddrMode5FP16
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0:s[0-9]]], #1.000000e+00
; CHECK-SOFTFP-FULLFP16: vstr.16 [[S0]], [sp, #{{.}}]
; CHECK-SOFTFP-FULLFP16: vmov.f16 [[S0_2:s[0-9]]], r0
; CHECK-SOFTFP-FULLFP16: vldr.16 [[S2:s[0-9]]], [sp, #{{.}}]
; CHECK-SOFTFP-FULLFP16: vadd.f16 s{{.}}, [[S2]], [[S0_2]]
}
; Test function calls to check store/load reg to/from stack
define i32 @fn1() {
entry:
%coerce = alloca half, align 2
%tmp2 = alloca i32, align 4
store half 0xH7C00, ptr %coerce, align 2
%0 = load i32, ptr %tmp2, align 4
%call = call i32 @fn2(i32 %0)
store half 0xH7C00, ptr %coerce, align 2
%1 = load i32, ptr %tmp2, align 4
%call3 = call i32 @fn3(i32 %1)
ret i32 %call3
; CHECK-SPILL-RELOAD-LABEL: fn1:
; CHECK-SPILL-RELOAD: vstr.16 s0, [sp, #{{.}}] @ 2-byte Spill
; CHECK-SPILL-RELOAD: bl fn2
; CHECK-SPILL-RELOAD-NEXT: vldr.16 s0, [sp, #{{.}}] @ 2-byte Reload
}
declare dso_local i32 @fn2(...)
declare dso_local i32 @fn3(...)