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[Power9] Add __float128 builtins for Round To Odd

GCC has builtins for these round to odd instructions:

__float128 __builtin_sqrtf128_round_to_odd (__float128)
__float128 __builtin_{add,sub,mul,div}f128_round_to_odd (__float128, __float128)
__float128 __builtin_fmaf128_round_to_odd (__float128, __float128, __float128)

Differential Revision: https://reviews.llvm.org/D47550

llvm-svn: 336578
This commit is contained in:
Stefan Pintilie 2018-07-09 18:50:06 +00:00
parent d2c77b0c03
commit 781674a1db
6 changed files with 138 additions and 9 deletions

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@ -97,7 +97,7 @@ namespace Intrinsic {
/// intrinsic. This is returned by getIntrinsicInfoTableEntries.
struct IITDescriptor {
enum IITDescriptorKind {
Void, VarArg, MMX, Token, Metadata, Half, Float, Double,
Void, VarArg, MMX, Token, Metadata, Half, Float, Double, Quad,
Integer, Vector, Pointer, Struct,
Argument, ExtendArgument, TruncArgument, HalfVecArgument,
SameVecWidthArgument, PtrToArgument, PtrToElt, VecOfAnyPtrsToElt

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@ -61,6 +61,26 @@ let TargetPrefix = "ppc" in { // All intrinsics start with "llvm.ppc.".
def int_ppc_bpermd : GCCBuiltin<"__builtin_bpermd">,
Intrinsic<[llvm_i64_ty], [llvm_i64_ty, llvm_i64_ty],
[IntrNoMem]>;
def int_ppc_sqrtf128_round_to_odd
: GCCBuiltin<"__builtin_sqrtf128_round_to_odd">,
Intrinsic <[llvm_f128_ty], [llvm_f128_ty], [IntrNoMem]>;
def int_ppc_addf128_round_to_odd
: GCCBuiltin<"__builtin_addf128_round_to_odd">,
Intrinsic <[llvm_f128_ty], [llvm_f128_ty,llvm_f128_ty], [IntrNoMem]>;
def int_ppc_subf128_round_to_odd
: GCCBuiltin<"__builtin_subf128_round_to_odd">,
Intrinsic <[llvm_f128_ty], [llvm_f128_ty,llvm_f128_ty], [IntrNoMem]>;
def int_ppc_mulf128_round_to_odd
: GCCBuiltin<"__builtin_mulf128_round_to_odd">,
Intrinsic <[llvm_f128_ty], [llvm_f128_ty,llvm_f128_ty], [IntrNoMem]>;
def int_ppc_divf128_round_to_odd
: GCCBuiltin<"__builtin_divf128_round_to_odd">,
Intrinsic <[llvm_f128_ty], [llvm_f128_ty,llvm_f128_ty], [IntrNoMem]>;
def int_ppc_fmaf128_round_to_odd
: GCCBuiltin<"__builtin_fmaf128_round_to_odd">,
Intrinsic <[llvm_f128_ty], [llvm_f128_ty,llvm_f128_ty,llvm_f128_ty], [IntrNoMem]>;
}

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@ -673,7 +673,8 @@ enum IIT_Info {
IIT_V1024 = 37,
IIT_STRUCT6 = 38,
IIT_STRUCT7 = 39,
IIT_STRUCT8 = 40
IIT_STRUCT8 = 40,
IIT_F128 = 41
};
static void DecodeIITType(unsigned &NextElt, ArrayRef<unsigned char> Infos,
@ -708,6 +709,9 @@ static void DecodeIITType(unsigned &NextElt, ArrayRef<unsigned char> Infos,
case IIT_F64:
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Double, 0));
return;
case IIT_F128:
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Quad, 0));
return;
case IIT_I1:
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Integer, 1));
return;
@ -892,6 +896,7 @@ static Type *DecodeFixedType(ArrayRef<Intrinsic::IITDescriptor> &Infos,
case IITDescriptor::Half: return Type::getHalfTy(Context);
case IITDescriptor::Float: return Type::getFloatTy(Context);
case IITDescriptor::Double: return Type::getDoubleTy(Context);
case IITDescriptor::Quad: return Type::getFP128Ty(Context);
case IITDescriptor::Integer:
return IntegerType::get(Context, D.Integer_Width);
@ -1034,6 +1039,7 @@ bool Intrinsic::matchIntrinsicType(Type *Ty, ArrayRef<Intrinsic::IITDescriptor>
case IITDescriptor::Half: return !Ty->isHalfTy();
case IITDescriptor::Float: return !Ty->isFloatTy();
case IITDescriptor::Double: return !Ty->isDoubleTy();
case IITDescriptor::Quad: return !Ty->isFP128Ty();
case IITDescriptor::Integer: return !Ty->isIntegerTy(D.Integer_Width);
case IITDescriptor::Vector: {
VectorType *VT = dyn_cast<VectorType>(Ty);

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@ -2451,30 +2451,49 @@ let AddedComplexity = 400, Predicates = [HasP9Vector] in {
let isCommutable = 1 in {
def XSADDQP : X_VT5_VA5_VB5 <63, 4, "xsaddqp",
[(set f128:$vT, (fadd f128:$vA, f128:$vB))]>;
def XSADDQPO : X_VT5_VA5_VB5_Ro<63, 4, "xsaddqpo", []>;
def XSADDQPO : X_VT5_VA5_VB5_Ro<63, 4, "xsaddqpo",
[(set f128:$vT,
(int_ppc_addf128_round_to_odd
f128:$vA, f128:$vB))]>;
def XSMULQP : X_VT5_VA5_VB5 <63, 36, "xsmulqp",
[(set f128:$vT, (fmul f128:$vA, f128:$vB))]>;
def XSMULQPO : X_VT5_VA5_VB5_Ro<63, 36, "xsmulqpo", []>;
def XSMULQPO : X_VT5_VA5_VB5_Ro<63, 36, "xsmulqpo",
[(set f128:$vT,
(int_ppc_mulf128_round_to_odd
f128:$vA, f128:$vB))]>;
}
def XSSUBQP : X_VT5_VA5_VB5 <63, 516, "xssubqp" ,
[(set f128:$vT, (fsub f128:$vA, f128:$vB))]>;
def XSSUBQPO : X_VT5_VA5_VB5_Ro<63, 516, "xssubqpo", []>;
def XSSUBQPO : X_VT5_VA5_VB5_Ro<63, 516, "xssubqpo",
[(set f128:$vT,
(int_ppc_subf128_round_to_odd
f128:$vA, f128:$vB))]>;
def XSDIVQP : X_VT5_VA5_VB5 <63, 548, "xsdivqp",
[(set f128:$vT, (fdiv f128:$vA, f128:$vB))]>;
def XSDIVQPO : X_VT5_VA5_VB5_Ro<63, 548, "xsdivqpo", []>;
def XSDIVQPO : X_VT5_VA5_VB5_Ro<63, 548, "xsdivqpo",
[(set f128:$vT,
(int_ppc_divf128_round_to_odd
f128:$vA, f128:$vB))]>;
// Square-Root
def XSSQRTQP : X_VT5_XO5_VB5 <63, 27, 804, "xssqrtqp",
[(set f128:$vT, (fsqrt f128:$vB))]>;
def XSSQRTQPO : X_VT5_XO5_VB5_Ro<63, 27, 804, "xssqrtqpo", []>;
def XSSQRTQPO : X_VT5_XO5_VB5_Ro<63, 27, 804, "xssqrtqpo",
[(set f128:$vT,
(int_ppc_sqrtf128_round_to_odd f128:$vB))]>;
// (Negative) Multiply-{Add/Subtract}
def XSMADDQP : X_VT5_VA5_VB5_FMA <63, 388, "xsmaddqp",
[(set f128:$vT,
(fma f128:$vA, f128:$vB,
f128:$vTi))]>;
def XSMADDQPO : X_VT5_VA5_VB5_FMA_Ro<63, 388, "xsmaddqpo" , []>;
def XSMADDQPO : X_VT5_VA5_VB5_FMA_Ro<63, 388, "xsmaddqpo",
[(set f128:$vT,
(int_ppc_fmaf128_round_to_odd
f128:$vA,f128:$vB,f128:$vTi))]>;
def XSMSUBQP : X_VT5_VA5_VB5_FMA <63, 420, "xsmsubqp" ,
[(set f128:$vT,
(fma f128:$vA, f128:$vB,

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@ -0,0 +1,82 @@
; RUN: llc -verify-machineinstrs -mcpu=pwr9 -enable-ppc-quad-precision \
; RUN: -mtriple=powerpc64le-unknown-unknown < %s | FileCheck %s
@A = common global fp128 0xL00000000000000000000000000000000, align 16
@B = common global fp128 0xL00000000000000000000000000000000, align 16
@C = common global fp128 0xL00000000000000000000000000000000, align 16
define fp128 @testSqrtOdd() {
entry:
%0 = load fp128, fp128* @A, align 16
%1 = call fp128 @llvm.ppc.sqrtf128.round.to.odd(fp128 %0)
ret fp128 %1
; CHECK-LABEL: testSqrtOdd
; CHECK: xssqrtqpo
}
declare fp128 @llvm.ppc.sqrtf128.round.to.odd(fp128)
define fp128 @testFMAOdd() {
entry:
%0 = load fp128, fp128* @A, align 16
%1 = load fp128, fp128* @B, align 16
%2 = load fp128, fp128* @C, align 16
%3 = call fp128 @llvm.ppc.fmaf128.round.to.odd(fp128 %0, fp128 %1, fp128 %2)
ret fp128 %3
; CHECK-LABEL: testFMAOdd
; CHECK: xsmaddqpo
}
declare fp128 @llvm.ppc.fmaf128.round.to.odd(fp128, fp128, fp128)
define fp128 @testAddOdd() {
entry:
%0 = load fp128, fp128* @A, align 16
%1 = load fp128, fp128* @B, align 16
%2 = call fp128 @llvm.ppc.addf128.round.to.odd(fp128 %0, fp128 %1)
ret fp128 %2
; CHECK-LABEL: testAddOdd
; CHECK: xsaddqpo
}
declare fp128 @llvm.ppc.addf128.round.to.odd(fp128, fp128)
define fp128 @testSubOdd() {
entry:
%0 = load fp128, fp128* @A, align 16
%1 = load fp128, fp128* @B, align 16
%2 = call fp128 @llvm.ppc.subf128.round.to.odd(fp128 %0, fp128 %1)
ret fp128 %2
; CHECK-LABEL: testSubOdd
; CHECK: xssubqpo
}
; Function Attrs: nounwind readnone
declare fp128 @llvm.ppc.subf128.round.to.odd(fp128, fp128)
; Function Attrs: noinline nounwind optnone
define fp128 @testMulOdd() {
entry:
%0 = load fp128, fp128* @A, align 16
%1 = load fp128, fp128* @B, align 16
%2 = call fp128 @llvm.ppc.mulf128.round.to.odd(fp128 %0, fp128 %1)
ret fp128 %2
; CHECK-LABEL: testMulOdd
; CHECK: xsmulqpo
}
; Function Attrs: nounwind readnone
declare fp128 @llvm.ppc.mulf128.round.to.odd(fp128, fp128)
define fp128 @testDivOdd() {
entry:
%0 = load fp128, fp128* @A, align 16
%1 = load fp128, fp128* @B, align 16
%2 = call fp128 @llvm.ppc.divf128.round.to.odd(fp128 %0, fp128 %1)
ret fp128 %2
; CHECK-LABEL: testDivOdd
; CHECK: xsdivqpo
}
declare fp128 @llvm.ppc.divf128.round.to.odd(fp128, fp128)

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@ -219,7 +219,8 @@ enum IIT_Info {
IIT_V1024 = 37,
IIT_STRUCT6 = 38,
IIT_STRUCT7 = 39,
IIT_STRUCT8 = 40
IIT_STRUCT8 = 40,
IIT_F128 = 41
};
static void EncodeFixedValueType(MVT::SimpleValueType VT,
@ -242,6 +243,7 @@ static void EncodeFixedValueType(MVT::SimpleValueType VT,
case MVT::f16: return Sig.push_back(IIT_F16);
case MVT::f32: return Sig.push_back(IIT_F32);
case MVT::f64: return Sig.push_back(IIT_F64);
case MVT::f128: return Sig.push_back(IIT_F128);
case MVT::token: return Sig.push_back(IIT_TOKEN);
case MVT::Metadata: return Sig.push_back(IIT_METADATA);
case MVT::x86mmx: return Sig.push_back(IIT_MMX);