Add minnum / maxnum intrinsics

These are named following the IEEE-754 names for these
functions, rather than the libm fmin / fmax to avoid
possible ambiguities. Some languages may implement something
resembling fmin / fmax which return NaN if either operand is
to propagate errors. These implement the IEEE-754 semantics
of returning the other operand if either is a NaN representing
missing data.

llvm-svn: 220341
This commit is contained in:
Matt Arsenault 2014-10-21 23:00:20 +00:00
parent 38802ea9da
commit 74dd906076
14 changed files with 773 additions and 2 deletions

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@ -8028,9 +8028,9 @@ all types however.
declare float @llvm.fabs.f32(float %Val)
declare double @llvm.fabs.f64(double %Val)
declare x86_fp80 @llvm.fabs.f80(x86_fp80 %Val)
declare x86_fp80 @llvm.fabs.f80(x86_fp80 %Val)
declare fp128 @llvm.fabs.f128(fp128 %Val)
declare ppc_fp128 @llvm.fabs.ppcf128(ppc_fp128 %Val)
declare ppc_fp128 @llvm.fabs.ppcf128(ppc_fp128 %Val)
Overview:
"""""""""
@ -8050,6 +8050,89 @@ Semantics:
This function returns the same values as the libm ``fabs`` functions
would, and handles error conditions in the same way.
'``llvm.minnum.*``' Intrinsic
^^^^^^^^^^^^^^^^^^^^^^^^^^^
Syntax:
"""""""
This is an overloaded intrinsic. You can use ``llvm.minnum`` on any
floating point or vector of floating point type. Not all targets support
all types however.
::
declare float @llvm.minnum.f32(float %Val)
declare double @llvm.minnum.f64(double %Val)
declare x86_fp80 @llvm.minnum.f80(x86_fp80 %Val)
declare fp128 @llvm.minnum.f128(fp128 %Val)
declare ppc_fp128 @llvm.minnum.ppcf128(ppc_fp128 %Val)
Overview:
"""""""""
The '``llvm.minnum.*``' intrinsics return the minimum of the two
arguments.
Arguments:
""""""""""
The arguments and return value are floating point numbers of the same
type.
Semantics:
""""""""""
Follows the IEEE-754 semantics for minNum, which also match for libm's
fmin.
If either operand is a NaN, returns the other non-NaN operand. Returns
NaN only if both operands are NaN. If the operands compare equal,
returns a value that compares equal to both operands. This means that
fmin(+/-0.0, +/-0.0) could return either -0.0 or 0.0.
'``llvm.maxnum.*``' Intrinsic
^^^^^^^^^^^^^^^^^^^^^^^^^^^
Syntax:
"""""""
This is an overloaded intrinsic. You can use ``llvm.maxnum`` on any
floating point or vector of floating point type. Not all targets support
all types however.
::
declare float @llvm.maxnum.f32(float %Val)
declare double @llvm.maxnum.f64(double %Val)
declare x86_fp80 @llvm.maxnum.f80(x86_fp80 %Val)
declare fp128 @llvm.maxnum.f128(fp128 %Val)
declare ppc_fp128 @llvm.maxnum.ppcf128(ppc_fp128 %Val)
Overview:
"""""""""
The '``llvm.maxnum.*``' intrinsics return the maximum of the two
arguments.
Arguments:
""""""""""
The arguments and return value are floating point numbers of the same
type.
Semantics:
""""""""""
Follows the IEEE-754 semantics for maxNum, which also match for libm's
fmax.
If either operand is a NaN, returns the other non-NaN operand. Returns
NaN only if both operands are NaN. If the operands compare equal,
returns a value that compares equal to both operands. This means that
fmax(+/-0.0, +/-0.0) could return either -0.0 or 0.0.
'``llvm.copysign.*``' Intrinsic
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

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@ -328,6 +328,8 @@ let Properties = [IntrNoMem] in {
def int_exp : Intrinsic<[llvm_anyfloat_ty], [LLVMMatchType<0>]>;
def int_exp2 : Intrinsic<[llvm_anyfloat_ty], [LLVMMatchType<0>]>;
def int_fabs : Intrinsic<[llvm_anyfloat_ty], [LLVMMatchType<0>]>;
def int_minnum : Intrinsic<[llvm_anyfloat_ty], [LLVMMatchType<0>, LLVMMatchType<0>]>;
def int_maxnum : Intrinsic<[llvm_anyfloat_ty], [LLVMMatchType<0>, LLVMMatchType<0>]>;
def int_copysign : Intrinsic<[llvm_anyfloat_ty],
[LLVMMatchType<0>, LLVMMatchType<0>]>;
def int_floor : Intrinsic<[llvm_anyfloat_ty], [LLVMMatchType<0>]>;

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@ -1228,6 +1228,18 @@ m_BSwap(const Opnd0 &Op0) {
return m_Intrinsic<Intrinsic::bswap>(Op0);
}
template<typename Opnd0, typename Opnd1>
inline typename m_Intrinsic_Ty<Opnd0, Opnd1>::Ty
m_FMin(const Opnd0 &Op0, const Opnd1 &Op1) {
return m_Intrinsic<Intrinsic::minnum>(Op0, Op1);
}
template<typename Opnd0, typename Opnd1>
inline typename m_Intrinsic_Ty<Opnd0, Opnd1>::Ty
m_FMax(const Opnd0 &Op0, const Opnd1 &Op1) {
return m_Intrinsic<Intrinsic::maxnum>(Op0, Op1);
}
} // end namespace PatternMatch
} // end namespace llvm

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@ -373,6 +373,8 @@ def fdiv : SDNode<"ISD::FDIV" , SDTFPBinOp>;
def frem : SDNode<"ISD::FREM" , SDTFPBinOp>;
def fma : SDNode<"ISD::FMA" , SDTFPTernaryOp>;
def fabs : SDNode<"ISD::FABS" , SDTFPUnaryOp>;
def fminnum : SDNode<"ISD::FMINNUM" , SDTFPBinOp>;
def fmaxnum : SDNode<"ISD::FMAXNUM" , SDTFPBinOp>;
def fgetsign : SDNode<"ISD::FGETSIGN" , SDTFPToIntOp>;
def fneg : SDNode<"ISD::FNEG" , SDTFPUnaryOp>;
def fsqrt : SDNode<"ISD::FSQRT" , SDTFPUnaryOp>;

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@ -36,6 +36,8 @@ static inline bool isTriviallyVectorizable(Intrinsic::ID ID) {
case Intrinsic::log10:
case Intrinsic::log2:
case Intrinsic::fabs:
case Intrinsic::minnum:
case Intrinsic::maxnum:
case Intrinsic::copysign:
case Intrinsic::floor:
case Intrinsic::ceil:
@ -153,6 +155,14 @@ getIntrinsicIDForCall(CallInst *CI, const TargetLibraryInfo *TLI) {
case LibFunc::fabsf:
case LibFunc::fabsl:
return checkUnaryFloatSignature(*CI, Intrinsic::fabs);
case LibFunc::fmin:
case LibFunc::fminf:
case LibFunc::fminl:
return checkBinaryFloatSignature(*CI, Intrinsic::minnum);
case LibFunc::fmax:
case LibFunc::fmaxf:
case LibFunc::fmaxl:
return checkBinaryFloatSignature(*CI, Intrinsic::maxnum);
case LibFunc::copysign:
case LibFunc::copysignf:
case LibFunc::copysignl:

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@ -1229,6 +1229,8 @@ Constant *llvm::ConstantFoldLoadThroughGEPIndices(Constant *C,
bool llvm::canConstantFoldCallTo(const Function *F) {
switch (F->getIntrinsicID()) {
case Intrinsic::fabs:
case Intrinsic::minnum:
case Intrinsic::maxnum:
case Intrinsic::log:
case Intrinsic::log2:
case Intrinsic::log10:
@ -1625,6 +1627,19 @@ static Constant *ConstantFoldScalarCall(StringRef Name, unsigned IntrinsicID,
V1.copySign(V2);
return ConstantFP::get(Ty->getContext(), V1);
}
if (IntrinsicID == Intrinsic::minnum) {
const APFloat &C1 = Op1->getValueAPF();
const APFloat &C2 = Op2->getValueAPF();
return ConstantFP::get(Ty->getContext(), minnum(C1, C2));
}
if (IntrinsicID == Intrinsic::maxnum) {
const APFloat &C1 = Op1->getValueAPF();
const APFloat &C2 = Op2->getValueAPF();
return ConstantFP::get(Ty->getContext(), maxnum(C1, C2));
}
if (!TLI)
return nullptr;
if (Name == "pow" && TLI->has(LibFunc::pow))

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@ -475,6 +475,8 @@ struct NoTTI final : ImmutablePass, TargetTransformInfo {
// These will all likely lower to a single selection DAG node.
if (Name == "copysign" || Name == "copysignf" || Name == "copysignl" ||
Name == "fabs" || Name == "fabsf" || Name == "fabsl" || Name == "sin" ||
Name == "fmin" || Name == "fminf" || Name == "fminl" ||
Name == "fmax" || Name == "fmaxf" || Name == "fmaxl" ||
Name == "sinf" || Name == "sinl" || Name == "cos" || Name == "cosf" ||
Name == "cosl" || Name == "sqrt" || Name == "sqrtf" || Name == "sqrtl")
return false;

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@ -2578,6 +2578,8 @@ bool llvm::isSafeToSpeculativelyExecute(const Value *V,
case Intrinsic::fma:
case Intrinsic::fmuladd:
case Intrinsic::fabs:
case Intrinsic::minnum:
case Intrinsic::maxnum:
return true;
// TODO: some fp intrinsics are marked as having the same error handling
// as libm. They're safe to speculate when they won't error.

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@ -519,6 +519,90 @@ Instruction *InstCombiner::visitCallInst(CallInst &CI) {
}
}
break;
case Intrinsic::minnum:
case Intrinsic::maxnum: {
Value *Arg0 = II->getArgOperand(0);
Value *Arg1 = II->getArgOperand(1);
// fmin(x, x) -> x
if (Arg0 == Arg1)
return ReplaceInstUsesWith(CI, Arg0);
const ConstantFP *C0 = dyn_cast<ConstantFP>(Arg0);
const ConstantFP *C1 = dyn_cast<ConstantFP>(Arg1);
// Canonicalize constants into the RHS.
if (C0 && !C1) {
II->setArgOperand(0, Arg1);
II->setArgOperand(1, Arg0);
return II;
}
// fmin(x, nan) -> x
if (C1 && C1->isNaN())
return ReplaceInstUsesWith(CI, Arg0);
// This is the value because if undef were NaN, we would return the other
// value and cannot return a NaN unless both operands are.
//
// fmin(undef, x) -> x
if (isa<UndefValue>(Arg0))
return ReplaceInstUsesWith(CI, Arg1);
// fmin(x, undef) -> x
if (isa<UndefValue>(Arg1))
return ReplaceInstUsesWith(CI, Arg0);
Value *X = nullptr;
Value *Y = nullptr;
if (II->getIntrinsicID() == Intrinsic::minnum) {
// fmin(x, fmin(x, y)) -> fmin(x, y)
// fmin(y, fmin(x, y)) -> fmin(x, y)
if (match(Arg1, m_FMin(m_Value(X), m_Value(Y)))) {
if (Arg0 == X || Arg0 == Y)
return ReplaceInstUsesWith(CI, Arg1);
}
// fmin(fmin(x, y), x) -> fmin(x, y)
// fmin(fmin(x, y), y) -> fmin(x, y)
if (match(Arg0, m_FMin(m_Value(X), m_Value(Y)))) {
if (Arg1 == X || Arg1 == Y)
return ReplaceInstUsesWith(CI, Arg0);
}
// TODO: fmin(nnan x, inf) -> x
// TODO: fmin(nnan ninf x, flt_max) -> x
if (C1 && C1->isInfinity()) {
// fmin(x, -inf) -> -inf
if (C1->isNegative())
return ReplaceInstUsesWith(CI, Arg1);
}
} else {
assert(II->getIntrinsicID() == Intrinsic::maxnum);
// fmax(x, fmax(x, y)) -> fmax(x, y)
// fmax(y, fmax(x, y)) -> fmax(x, y)
if (match(Arg1, m_FMax(m_Value(X), m_Value(Y)))) {
if (Arg0 == X || Arg0 == Y)
return ReplaceInstUsesWith(CI, Arg1);
}
// fmax(fmax(x, y), x) -> fmax(x, y)
// fmax(fmax(x, y), y) -> fmax(x, y)
if (match(Arg0, m_FMax(m_Value(X), m_Value(Y)))) {
if (Arg1 == X || Arg1 == Y)
return ReplaceInstUsesWith(CI, Arg0);
}
// TODO: fmax(nnan x, -inf) -> x
// TODO: fmax(nnan ninf x, -flt_max) -> x
if (C1 && C1->isInfinity()) {
// fmax(x, inf) -> inf
if (!C1->isNegative())
return ReplaceInstUsesWith(CI, Arg1);
}
}
break;
}
case Intrinsic::ppc_altivec_lvx:
case Intrinsic::ppc_altivec_lvxl:
// Turn PPC lvx -> load if the pointer is known aligned.

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@ -685,6 +685,8 @@ namespace {
case Intrinsic::trunc:
case Intrinsic::floor:
case Intrinsic::fabs:
case Intrinsic::minnum:
case Intrinsic::maxnum:
return Config.VectorizeMath;
case Intrinsic::bswap:
case Intrinsic::ctpop:

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@ -0,0 +1,222 @@
; RUN: opt -S -instcombine < %s | FileCheck %s
declare float @llvm.maxnum.f32(float, float) #0
declare float @llvm.maxnum.v2f32(<2 x float>, <2 x float>) #0
declare <4 x float> @llvm.maxnum.v4f32(<4 x float>, <4 x float>) #0
declare double @llvm.maxnum.f64(double, double) #0
declare <2 x double> @llvm.maxnum.v2f64(<2 x double>, <2 x double>) #0
; CHECK-LABEL: @constant_fold_maxnum_f32
; CHECK-NEXT: ret float 2.000000e+00
define float @constant_fold_maxnum_f32() #0 {
%x = call float @llvm.maxnum.f32(float 1.0, float 2.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_inv
; CHECK-NEXT: ret float 2.000000e+00
define float @constant_fold_maxnum_f32_inv() #0 {
%x = call float @llvm.maxnum.f32(float 2.0, float 1.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_nan0
; CHECK-NEXT: ret float 2.000000e+00
define float @constant_fold_maxnum_f32_nan0() #0 {
%x = call float @llvm.maxnum.f32(float 0x7FF8000000000000, float 2.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_nan1
; CHECK-NEXT: ret float 2.000000e+00
define float @constant_fold_maxnum_f32_nan1() #0 {
%x = call float @llvm.maxnum.f32(float 2.0, float 0x7FF8000000000000) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_nan_nan
; CHECK-NEXT: ret float 0x7FF8000000000000
define float @constant_fold_maxnum_f32_nan_nan() #0 {
%x = call float @llvm.maxnum.f32(float 0x7FF8000000000000, float 0x7FF8000000000000) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_p0_p0
; CHECK-NEXT: ret float 0.000000e+00
define float @constant_fold_maxnum_f32_p0_p0() #0 {
%x = call float @llvm.maxnum.f32(float 0.0, float 0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_p0_n0
; CHECK-NEXT: ret float 0.000000e+00
define float @constant_fold_maxnum_f32_p0_n0() #0 {
%x = call float @llvm.maxnum.f32(float 0.0, float -0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_n0_p0
; CHECK-NEXT: ret float -0.000000e+00
define float @constant_fold_maxnum_f32_n0_p0() #0 {
%x = call float @llvm.maxnum.f32(float -0.0, float 0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_f32_n0_n0
; CHECK-NEXT: ret float -0.000000e+00
define float @constant_fold_maxnum_f32_n0_n0() #0 {
%x = call float @llvm.maxnum.f32(float -0.0, float -0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_maxnum_v4f32
; CHECK-NEXT: ret <4 x float> <float 2.000000e+00, float 8.000000e+00, float 1.000000e+01, float 9.000000e+00>
define <4 x float> @constant_fold_maxnum_v4f32() #0 {
%x = call <4 x float> @llvm.maxnum.v4f32(<4 x float> <float 1.0, float 8.0, float 3.0, float 9.0>, <4 x float> <float 2.0, float 2.0, float 10.0, float 5.0>)
ret <4 x float> %x
}
; CHECK-LABEL: @constant_fold_maxnum_f64
; CHECK-NEXT: ret double 2.000000e+00
define double @constant_fold_maxnum_f64() #0 {
%x = call double @llvm.maxnum.f64(double 1.0, double 2.0) #0
ret double %x
}
; CHECK-LABEL: @constant_fold_maxnum_f64_nan0
; CHECK-NEXT: ret double 2.000000e+00
define double @constant_fold_maxnum_f64_nan0() #0 {
%x = call double @llvm.maxnum.f64(double 0x7FF8000000000000, double 2.0) #0
ret double %x
}
; CHECK-LABEL: @constant_fold_maxnum_f64_nan1
; CHECK-NEXT: ret double 2.000000e+00
define double @constant_fold_maxnum_f64_nan1() #0 {
%x = call double @llvm.maxnum.f64(double 2.0, double 0x7FF8000000000000) #0
ret double %x
}
; CHECK-LABEL: @constant_fold_maxnum_f64_nan_nan
; CHECK-NEXT: ret double 0x7FF8000000000000
define double @constant_fold_maxnum_f64_nan_nan() #0 {
%x = call double @llvm.maxnum.f64(double 0x7FF8000000000000, double 0x7FF8000000000000) #0
ret double %x
}
; CHECK-LABEL: @canonicalize_constant_maxnum_f32
; CHECK: call float @llvm.maxnum.f32(float %x, float 1.000000e+00)
define float @canonicalize_constant_maxnum_f32(float %x) #0 {
%y = call float @llvm.maxnum.f32(float 1.0, float %x) #0
ret float %y
}
; CHECK-LABEL: @noop_maxnum_f32
; CHECK-NEXT: ret float %x
define float @noop_maxnum_f32(float %x) #0 {
%y = call float @llvm.maxnum.f32(float %x, float %x) #0
ret float %y
}
; CHECK-LABEL: @maxnum_f32_nan_val
; CHECK-NEXT: ret float %x
define float @maxnum_f32_nan_val(float %x) #0 {
%y = call float @llvm.maxnum.f32(float 0x7FF8000000000000, float %x) #0
ret float %y
}
; CHECK-LABEL: @maxnum_f32_val_nan
; CHECK-NEXT: ret float %x
define float @maxnum_f32_val_nan(float %x) #0 {
%y = call float @llvm.maxnum.f32(float %x, float 0x7FF8000000000000) #0
ret float %y
}
; CHECK-LABEL: @fold_maxnum_f32_undef_undef
; CHECK-NEXT: ret float undef
define float @fold_maxnum_f32_undef_undef(float %x) nounwind {
%val = call float @llvm.maxnum.f32(float undef, float undef) #0
ret float %val
}
; CHECK-LABEL: @fold_maxnum_f32_val_undef
; CHECK-NEXT: ret float %x
define float @fold_maxnum_f32_val_undef(float %x) nounwind {
%val = call float @llvm.maxnum.f32(float %x, float undef) #0
ret float %val
}
; CHECK-LABEL: @fold_maxnum_f32_undef_val
; CHECK-NEXT: ret float %x
define float @fold_maxnum_f32_undef_val(float %x) nounwind {
%val = call float @llvm.maxnum.f32(float undef, float %x) #0
ret float %val
}
; CHECK-LABEL: @maxnum_x_maxnum_x_y
; CHECK-NEXT: call float @llvm.maxnum.f32(float %x, float %y)
; CHECK-NEXT: ret float
define float @maxnum_x_maxnum_x_y(float %x, float %y) #0 {
%a = call float @llvm.maxnum.f32(float %x, float %y) #0
%b = call float @llvm.maxnum.f32(float %x, float %a) #0
ret float %b
}
; CHECK-LABEL: @maxnum_y_maxnum_x_y
; CHECK-NEXT: call float @llvm.maxnum.f32(float %x, float %y)
; CHECK-NEXT: ret float
define float @maxnum_y_maxnum_x_y(float %x, float %y) #0 {
%a = call float @llvm.maxnum.f32(float %x, float %y) #0
%b = call float @llvm.maxnum.f32(float %y, float %a) #0
ret float %b
}
; CHECK-LABEL: @maxnum_z_maxnum_x_y
; CHECK-NEXT: call float @llvm.maxnum.f32(float %x, float %y)
; CHECK-NEXT: call float @llvm.maxnum.f32(float %z, float %a)
; CHECK-NEXT: ret float
define float @maxnum_z_maxnum_x_y(float %x, float %y, float %z) #0 {
%a = call float @llvm.maxnum.f32(float %x, float %y) #0
%b = call float @llvm.maxnum.f32(float %z, float %a) #0
ret float %b
}
; CHECK-LABEL: @maxnum_maxnum_x_y_z
; CHECK-NEXT: call float @llvm.maxnum.f32(float %x, float %y)
; CHECK-NEXT: call float @llvm.maxnum.f32(float %a, float %z)
; CHECK-NEXT: ret float
define float @maxnum_maxnum_x_y_z(float %x, float %y, float %z) #0 {
%a = call float @llvm.maxnum.f32(float %x, float %y) #0
%b = call float @llvm.maxnum.f32(float %a, float %z) #0
ret float %b
}
; CHECK-LABEL: @maxnum4
; CHECK-NEXT: call float @llvm.maxnum.f32(float %x, float %y)
; CHECK-NEXT: call float @llvm.maxnum.f32(float %z, float %w)
; CHECK-NEXT: call float @llvm.maxnum.f32(float %a, float %b)
; CHECK-NEXT: ret float
define float @maxnum4(float %x, float %y, float %z, float %w) #0 {
%a = call float @llvm.maxnum.f32(float %x, float %y) #0
%b = call float @llvm.maxnum.f32(float %z, float %w) #0
%c = call float @llvm.maxnum.f32(float %a, float %b) #0
ret float %c
}
; CHECK-LABEL: @fold_maxnum_f32_inf_val
; CHECK-NEXT: ret float 0x7FF0000000000000
define float @fold_maxnum_f32_inf_val(float %x) nounwind {
%val = call float @llvm.maxnum.f32(float 0x7FF0000000000000, float %x) #0
ret float %val
}
; CHECK-LABEL: @fold_maxnum_f32_neginf_val
; CHECK-NEXT: call float @llvm.maxnum.f32(float %x, float 0xFFF0000000000000)
; CHECK-NEXT: ret float
define float @fold_maxnum_f32_neginf_val(float %x) nounwind {
%val = call float @llvm.maxnum.f32(float 0xFFF0000000000000, float %x) #0
ret float %val
}
attributes #0 = { nounwind readnone }

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@ -0,0 +1,244 @@
; RUN: opt -S -instcombine < %s | FileCheck %s
declare float @llvm.minnum.f32(float, float) #0
declare float @llvm.minnum.v2f32(<2 x float>, <2 x float>) #0
declare <4 x float> @llvm.minnum.v4f32(<4 x float>, <4 x float>) #0
declare double @llvm.minnum.f64(double, double) #0
declare <2 x double> @llvm.minnum.v2f64(<2 x double>, <2 x double>) #0
declare float @llvm.fmax.f32(float, float) #0
; CHECK-LABEL: @constant_fold_minnum_f32
; CHECK-NEXT: ret float 1.000000e+00
define float @constant_fold_minnum_f32() #0 {
%x = call float @llvm.minnum.f32(float 1.0, float 2.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_inv
; CHECK-NEXT: ret float 1.000000e+00
define float @constant_fold_minnum_f32_inv() #0 {
%x = call float @llvm.minnum.f32(float 2.0, float 1.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_nan0
; CHECK-NEXT: ret float 2.000000e+00
define float @constant_fold_minnum_f32_nan0() #0 {
%x = call float @llvm.minnum.f32(float 0x7FF8000000000000, float 2.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_nan1
; CHECK-NEXT: ret float 2.000000e+00
define float @constant_fold_minnum_f32_nan1() #0 {
%x = call float @llvm.minnum.f32(float 2.0, float 0x7FF8000000000000) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_nan_nan
; CHECK-NEXT: ret float 0x7FF8000000000000
define float @constant_fold_minnum_f32_nan_nan() #0 {
%x = call float @llvm.minnum.f32(float 0x7FF8000000000000, float 0x7FF8000000000000) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_p0_p0
; CHECK-NEXT: ret float 0.000000e+00
define float @constant_fold_minnum_f32_p0_p0() #0 {
%x = call float @llvm.minnum.f32(float 0.0, float 0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_p0_n0
; CHECK-NEXT: ret float 0.000000e+00
define float @constant_fold_minnum_f32_p0_n0() #0 {
%x = call float @llvm.minnum.f32(float 0.0, float -0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_n0_p0
; CHECK-NEXT: ret float -0.000000e+00
define float @constant_fold_minnum_f32_n0_p0() #0 {
%x = call float @llvm.minnum.f32(float -0.0, float 0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_f32_n0_n0
; CHECK-NEXT: ret float -0.000000e+00
define float @constant_fold_minnum_f32_n0_n0() #0 {
%x = call float @llvm.minnum.f32(float -0.0, float -0.0) #0
ret float %x
}
; CHECK-LABEL: @constant_fold_minnum_v4f32
; CHECK-NEXT: ret <4 x float> <float 1.000000e+00, float 2.000000e+00, float 3.000000e+00, float 5.000000e+00>
define <4 x float> @constant_fold_minnum_v4f32() #0 {
%x = call <4 x float> @llvm.minnum.v4f32(<4 x float> <float 1.0, float 8.0, float 3.0, float 9.0>, <4 x float> <float 2.0, float 2.0, float 10.0, float 5.0>)
ret <4 x float> %x
}
; CHECK-LABEL: @constant_fold_minnum_f64
; CHECK-NEXT: ret double 1.000000e+00
define double @constant_fold_minnum_f64() #0 {
%x = call double @llvm.minnum.f64(double 1.0, double 2.0) #0
ret double %x
}
; CHECK-LABEL: @constant_fold_minnum_f64_nan0
; CHECK-NEXT: ret double 2.000000e+00
define double @constant_fold_minnum_f64_nan0() #0 {
%x = call double @llvm.minnum.f64(double 0x7FF8000000000000, double 2.0) #0
ret double %x
}
; CHECK-LABEL: @constant_fold_minnum_f64_nan1
; CHECK-NEXT: ret double 2.000000e+00
define double @constant_fold_minnum_f64_nan1() #0 {
%x = call double @llvm.minnum.f64(double 2.0, double 0x7FF8000000000000) #0
ret double %x
}
; CHECK-LABEL: @constant_fold_minnum_f64_nan_nan
; CHECK-NEXT: ret double 0x7FF8000000000000
define double @constant_fold_minnum_f64_nan_nan() #0 {
%x = call double @llvm.minnum.f64(double 0x7FF8000000000000, double 0x7FF8000000000000) #0
ret double %x
}
; CHECK-LABEL: @canonicalize_constant_minnum_f32
; CHECK: call float @llvm.minnum.f32(float %x, float 1.000000e+00)
define float @canonicalize_constant_minnum_f32(float %x) #0 {
%y = call float @llvm.minnum.f32(float 1.0, float %x) #0
ret float %y
}
; CHECK-LABEL: @noop_minnum_f32
; CHECK-NEXT: ret float %x
define float @noop_minnum_f32(float %x) #0 {
%y = call float @llvm.minnum.f32(float %x, float %x) #0
ret float %y
}
; CHECK-LABEL: @minnum_f32_nan_val
; CHECK-NEXT: ret float %x
define float @minnum_f32_nan_val(float %x) #0 {
%y = call float @llvm.minnum.f32(float 0x7FF8000000000000, float %x) #0
ret float %y
}
; CHECK-LABEL: @minnum_f32_val_nan
; CHECK-NEXT: ret float %x
define float @minnum_f32_val_nan(float %x) #0 {
%y = call float @llvm.minnum.f32(float %x, float 0x7FF8000000000000) #0
ret float %y
}
; CHECK-LABEL: @fold_minnum_f32_undef_undef
; CHECK-NEXT: ret float undef
define float @fold_minnum_f32_undef_undef(float %x) nounwind {
%val = call float @llvm.minnum.f32(float undef, float undef) #0
ret float %val
}
; CHECK-LABEL: @fold_minnum_f32_val_undef
; CHECK-NEXT: ret float %x
define float @fold_minnum_f32_val_undef(float %x) nounwind {
%val = call float @llvm.minnum.f32(float %x, float undef) #0
ret float %val
}
; CHECK-LABEL: @fold_minnum_f32_undef_val
; CHECK-NEXT: ret float %x
define float @fold_minnum_f32_undef_val(float %x) nounwind {
%val = call float @llvm.minnum.f32(float undef, float %x) #0
ret float %val
}
; CHECK-LABEL: @minnum_x_minnum_x_y
; CHECK-NEXT: call float @llvm.minnum.f32(float %x, float %y)
; CHECK-NEXT: ret float
define float @minnum_x_minnum_x_y(float %x, float %y) #0 {
%a = call float @llvm.minnum.f32(float %x, float %y) #0
%b = call float @llvm.minnum.f32(float %x, float %a) #0
ret float %b
}
; CHECK-LABEL: @minnum_y_minnum_x_y
; CHECK-NEXT: call float @llvm.minnum.f32(float %x, float %y)
; CHECK-NEXT: ret float
define float @minnum_y_minnum_x_y(float %x, float %y) #0 {
%a = call float @llvm.minnum.f32(float %x, float %y) #0
%b = call float @llvm.minnum.f32(float %y, float %a) #0
ret float %b
}
; CHECK-LABEL: @minnum_z_minnum_x_y
; CHECK-NEXT: call float @llvm.minnum.f32(float %x, float %y)
; CHECK-NEXT: call float @llvm.minnum.f32(float %z, float %a)
; CHECK-NEXT: ret float
define float @minnum_z_minnum_x_y(float %x, float %y, float %z) #0 {
%a = call float @llvm.minnum.f32(float %x, float %y) #0
%b = call float @llvm.minnum.f32(float %z, float %a) #0
ret float %b
}
; CHECK-LABEL: @minnum_minnum_x_y_z
; CHECK-NEXT: call float @llvm.minnum.f32(float %x, float %y)
; CHECK-NEXT: call float @llvm.minnum.f32(float %a, float %z)
; CHECK-NEXT: ret float
define float @minnum_minnum_x_y_z(float %x, float %y, float %z) #0 {
%a = call float @llvm.minnum.f32(float %x, float %y) #0
%b = call float @llvm.minnum.f32(float %a, float %z) #0
ret float %b
}
; CHECK-LABEL: @minnum4
; CHECK-NEXT: call float @llvm.minnum.f32(float %x, float %y)
; CHECK-NEXT: call float @llvm.minnum.f32(float %z, float %w)
; CHECK-NEXT: call float @llvm.minnum.f32(float %a, float %b)
; CHECK-NEXT: ret float
define float @minnum4(float %x, float %y, float %z, float %w) #0 {
%a = call float @llvm.minnum.f32(float %x, float %y) #0
%b = call float @llvm.minnum.f32(float %z, float %w) #0
%c = call float @llvm.minnum.f32(float %a, float %b) #0
ret float %c
}
; CHECK-LABEL: @minnum_x_fmax_x_y
; CHECK-NEXT: call float @llvm.fmax.f32
; CHECK-NEXT: call float @llvm.minnum.f32
; CHECK-NEXT: ret float
define float @minnum_x_fmax_x_y(float %x, float %y) #0 {
%a = call float @llvm.fmax.f32(float %x, float %y) #0
%b = call float @llvm.minnum.f32(float %x, float %a) #0
ret float %b
}
; CHECK-LABEL: @fmax_x_minnum_x_y
; CHECK-NEXT: call float @llvm.minnum.f32
; CHECK-NEXT: call float @llvm.fmax.f32
; CHECK-NEXT: ret float
define float @fmax_x_minnum_x_y(float %x, float %y) #0 {
%a = call float @llvm.minnum.f32(float %x, float %y) #0
%b = call float @llvm.fmax.f32(float %x, float %a) #0
ret float %b
}
; CHECK-LABEL: @fold_minnum_f32_inf_val
; CHECK-NEXT: call float @llvm.minnum.f32(float %x, float 0x7FF0000000000000)
; CHECK-NEXT: ret float
define float @fold_minnum_f32_inf_val(float %x) nounwind {
%val = call float @llvm.minnum.f32(float 0x7FF0000000000000, float %x) #0
ret float %val
}
; CHECK-LABEL: @fold_minnum_f32_minf_val
; CHECK-NEXT: ret float 0xFFF0000000000000
define float @fold_minnum_f32_minf_val(float %x) nounwind {
%val = call float @llvm.minnum.f32(float 0xFFF0000000000000, float %x) #0
ret float %val
}
attributes #0 = { nounwind readnone }

View File

@ -1192,3 +1192,59 @@ for.body: ; preds = %entry, %for.body
for.end: ; preds = %for.body, %entry
ret void
}
declare float @llvm.minnum.f32(float, float) nounwind readnone
;CHECK-LABEL: @minnum_f32(
;CHECK: llvm.minnum.v4f32
;CHECK: ret void
define void @minnum_f32(i32 %n, float* noalias %y, float* noalias %x, float* noalias %z) nounwind uwtable {
entry:
%cmp9 = icmp sgt i32 %n, 0
br i1 %cmp9, label %for.body, label %for.end
for.body: ; preds = %entry, %for.body
%indvars.iv = phi i64 [ %indvars.iv.next, %for.body ], [ 0, %entry ]
%arrayidx = getelementptr inbounds float* %y, i64 %indvars.iv
%0 = load float* %arrayidx, align 4
%arrayidx2 = getelementptr inbounds float* %z, i64 %indvars.iv
%1 = load float* %arrayidx2, align 4
%call = tail call float @llvm.minnum.f32(float %0, float %1) nounwind readnone
%arrayidx4 = getelementptr inbounds float* %x, i64 %indvars.iv
store float %call, float* %arrayidx4, align 4
%indvars.iv.next = add i64 %indvars.iv, 1
%lftr.wideiv = trunc i64 %indvars.iv.next to i32
%exitcond = icmp eq i32 %lftr.wideiv, %n
br i1 %exitcond, label %for.end, label %for.body
for.end: ; preds = %for.body, %entry
ret void
}
declare float @llvm.maxnum.f32(float, float) nounwind readnone
;CHECK-LABEL: @maxnum_f32(
;CHECK: llvm.maxnum.v4f32
;CHECK: ret void
define void @maxnum_f32(i32 %n, float* noalias %y, float* noalias %x, float* noalias %z) nounwind uwtable {
entry:
%cmp9 = icmp sgt i32 %n, 0
br i1 %cmp9, label %for.body, label %for.end
for.body: ; preds = %entry, %for.body
%indvars.iv = phi i64 [ %indvars.iv.next, %for.body ], [ 0, %entry ]
%arrayidx = getelementptr inbounds float* %y, i64 %indvars.iv
%0 = load float* %arrayidx, align 4
%arrayidx2 = getelementptr inbounds float* %z, i64 %indvars.iv
%1 = load float* %arrayidx2, align 4
%call = tail call float @llvm.maxnum.f32(float %0, float %1) nounwind readnone
%arrayidx4 = getelementptr inbounds float* %x, i64 %indvars.iv
store float %call, float* %arrayidx4, align 4
%indvars.iv.next = add i64 %indvars.iv, 1
%lftr.wideiv = trunc i64 %indvars.iv.next to i32
%exitcond = icmp eq i32 %lftr.wideiv, %n
br i1 %exitcond, label %for.end, label %for.body
for.end: ; preds = %for.body, %entry
ret void
}

View File

@ -4,6 +4,8 @@ declare float @llvm.sqrt.f32(float) nounwind readonly
declare float @llvm.fma.f32(float, float, float) nounwind readonly
declare float @llvm.fmuladd.f32(float, float, float) nounwind readonly
declare float @llvm.fabs.f32(float) nounwind readonly
declare float @llvm.minnum.f32(float, float) nounwind readonly
declare float @llvm.maxnum.f32(float, float) nounwind readonly
; CHECK-LABEL: @sqrt_test(
; CHECK: select
@ -73,3 +75,36 @@ test_fmuladd.exit: ; preds = %cond.else.i, %en
ret void
}
; CHECK-LABEL: @minnum_test(
; CHECK: select
define void @minnum_test(float addrspace(1)* noalias nocapture %out, float %a, float %b) nounwind {
entry:
%cmp.i = fcmp olt float %a, 0.000000e+00
br i1 %cmp.i, label %test_minnum.exit, label %cond.else.i
cond.else.i: ; preds = %entry
%0 = tail call float @llvm.minnum.f32(float %a, float %b) nounwind readnone
br label %test_minnum.exit
test_minnum.exit: ; preds = %cond.else.i, %entry
%cond.i = phi float [ %0, %cond.else.i ], [ 0x7FF8000000000000, %entry ]
store float %cond.i, float addrspace(1)* %out, align 4
ret void
}
; CHECK-LABEL: @maxnum_test(
; CHECK: select
define void @maxnum_test(float addrspace(1)* noalias nocapture %out, float %a, float %b) nounwind {
entry:
%cmp.i = fcmp olt float %a, 0.000000e+00
br i1 %cmp.i, label %test_maxnum.exit, label %cond.else.i
cond.else.i: ; preds = %entry
%0 = tail call float @llvm.maxnum.f32(float %a, float %b) nounwind readnone
br label %test_maxnum.exit
test_maxnum.exit: ; preds = %cond.else.i, %entry
%cond.i = phi float [ %0, %cond.else.i ], [ 0x7FF8000000000000, %entry ]
store float %cond.i, float addrspace(1)* %out, align 4
ret void
}