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|
// Group template arguments that can be derived from the vector type (EltNum x
// EltVT). These are things like the register class for the writemask, etc.
// The idea is to pass one of these as the template argument rather than the
// individual arguments.
class X86VectorVTInfo<int numelts, ValueType EltVT, RegisterClass rc,
string suffix = ""> {
RegisterClass RC = rc;
int NumElts = numelts;
// Corresponding mask register class.
RegisterClass KRC = !cast<RegisterClass>("VK" # NumElts);
// Corresponding write-mask register class.
RegisterClass KRCWM = !cast<RegisterClass>("VK" # NumElts # "WM");
// The GPR register class that can hold the write mask. Use GR8 for fewer
// than 8 elements. Use shift-right and equal to work around the lack of
// !lt in tablegen.
RegisterClass MRC =
!cast<RegisterClass>("GR" #
!if (!eq (!srl(NumElts, 3), 0), 8, NumElts));
// Suffix used in the instruction mnemonic.
string Suffix = suffix;
string VTName = "v" # NumElts # EltVT;
// The vector VT.
ValueType VT = !cast<ValueType>(VTName);
string EltTypeName = !cast<string>(EltVT);
// Size of the element type in bits, e.g. 32 for v16i32.
string EltSizeName = !subst("i", "", !subst("f", "", EltTypeName));
int EltSize = EltVT.Size;
// "i" for integer types and "f" for floating-point types
string TypeVariantName = !subst(EltSizeName, "", EltTypeName);
// Size of RC in bits, e.g. 512 for VR512.
int Size = VT.Size;
// The corresponding memory operand, e.g. i512mem for VR512.
X86MemOperand MemOp = !cast<X86MemOperand>(TypeVariantName # Size # "mem");
X86MemOperand ScalarMemOp = !cast<X86MemOperand>(EltVT # "mem");
// Load patterns
// Note: For 128/256-bit integer VT we choose loadv2i64/loadv4i64
// due to load promotion during legalization
PatFrag LdFrag = !cast<PatFrag>("load" #
!if (!eq (TypeVariantName, "i"),
!if (!eq (Size, 128), "v2i64",
!if (!eq (Size, 256), "v4i64",
VTName)), VTName));
PatFrag ScalarLdFrag = !cast<PatFrag>("load" # EltVT);
// Load patterns used for memory operands. We only have this defined in
// case of i64 element types for sub-512 integer vectors. For now, keep
// MemOpFrag undefined in these cases.
PatFrag MemOpFrag =
!if (!eq (TypeVariantName, "f"), !cast<PatFrag>("memop" # VTName),
!if (!eq (EltTypeName, "i64"), !cast<PatFrag>("memop" # VTName),
!if (!eq (VTName, "v16i32"), !cast<PatFrag>("memop" # VTName), ?)));
// The corresponding float type, e.g. v16f32 for v16i32
// Note: For EltSize < 32, FloatVT is illegal and TableGen
// fails to compile, so we choose FloatVT = VT
ValueType FloatVT = !cast<ValueType>(
!if (!eq (!srl(EltSize,5),0),
VTName,
!if (!eq(TypeVariantName, "i"),
"v" # NumElts # "f" # EltSize,
VTName)));
// The string to specify embedded broadcast in assembly.
string BroadcastStr = "{1to" # NumElts # "}";
// 8-bit compressed displacement tuple/subvector format. This is only
// defined for NumElts <= 8.
CD8VForm CD8TupleForm = !if (!eq (!srl(NumElts, 4), 0),
!cast<CD8VForm>("CD8VT" # NumElts), ?);
SubRegIndex SubRegIdx = !if (!eq (Size, 128), sub_xmm,
!if (!eq (Size, 256), sub_ymm, ?));
Domain ExeDomain = !if (!eq (EltTypeName, "f32"), SSEPackedSingle,
!if (!eq (EltTypeName, "f64"), SSEPackedDouble,
SSEPackedInt));
// A vector type of the same width with element type i32. This is used to
// create the canonical constant zero node ImmAllZerosV.
ValueType i32VT = !cast<ValueType>("v" # !srl(Size, 5) # "i32");
dag ImmAllZerosV = (VT (bitconvert (i32VT immAllZerosV)));
}
def v64i8_info : X86VectorVTInfo<64, i8, VR512, "b">;
def v32i16_info : X86VectorVTInfo<32, i16, VR512, "w">;
def v16i32_info : X86VectorVTInfo<16, i32, VR512, "d">;
def v8i64_info : X86VectorVTInfo<8, i64, VR512, "q">;
def v16f32_info : X86VectorVTInfo<16, f32, VR512, "ps">;
def v8f64_info : X86VectorVTInfo<8, f64, VR512, "pd">;
// "x" in v32i8x_info means RC = VR256X
def v32i8x_info : X86VectorVTInfo<32, i8, VR256X, "b">;
def v16i16x_info : X86VectorVTInfo<16, i16, VR256X, "w">;
def v8i32x_info : X86VectorVTInfo<8, i32, VR256X, "d">;
def v4i64x_info : X86VectorVTInfo<4, i64, VR256X, "q">;
def v8f32x_info : X86VectorVTInfo<8, f32, VR256X, "ps">;
def v4f64x_info : X86VectorVTInfo<4, f64, VR256X, "pd">;
def v16i8x_info : X86VectorVTInfo<16, i8, VR128X, "b">;
def v8i16x_info : X86VectorVTInfo<8, i16, VR128X, "w">;
def v4i32x_info : X86VectorVTInfo<4, i32, VR128X, "d">;
def v2i64x_info : X86VectorVTInfo<2, i64, VR128X, "q">;
def v4f32x_info : X86VectorVTInfo<4, f32, VR128X, "ps">;
def v2f64x_info : X86VectorVTInfo<2, f64, VR128X, "pd">;
class AVX512VLVectorVTInfo<X86VectorVTInfo i512, X86VectorVTInfo i256,
X86VectorVTInfo i128> {
X86VectorVTInfo info512 = i512;
X86VectorVTInfo info256 = i256;
X86VectorVTInfo info128 = i128;
}
def avx512vl_i8_info : AVX512VLVectorVTInfo<v64i8_info, v32i8x_info,
v16i8x_info>;
def avx512vl_i16_info : AVX512VLVectorVTInfo<v32i16_info, v16i16x_info,
v8i16x_info>;
def avx512vl_i32_info : AVX512VLVectorVTInfo<v16i32_info, v8i32x_info,
v4i32x_info>;
def avx512vl_i64_info : AVX512VLVectorVTInfo<v8i64_info, v4i64x_info,
v2i64x_info>;
def avx512vl_f32_info : AVX512VLVectorVTInfo<v16f32_info, v8f32x_info,
v4f32x_info>;
def avx512vl_f64_info : AVX512VLVectorVTInfo<v8f64_info, v4f64x_info,
v2f64x_info>;
// This multiclass generates the masking variants from the non-masking
// variant. It only provides the assembly pieces for the masking variants.
// It assumes custom ISel patterns for masking which can be provided as
// template arguments.
multiclass AVX512_maskable_custom<bits<8> O, Format F,
dag Outs,
dag Ins, dag MaskingIns, dag ZeroMaskingIns,
string OpcodeStr,
string AttSrcAsm, string IntelSrcAsm,
list<dag> Pattern,
list<dag> MaskingPattern,
list<dag> ZeroMaskingPattern,
string Round = "",
string MaskingConstraint = "",
InstrItinClass itin = NoItinerary,
bit IsCommutable = 0> {
let isCommutable = IsCommutable in
def NAME: AVX512<O, F, Outs, Ins,
OpcodeStr#"\t{"#AttSrcAsm#", $dst "#Round#"|"#
"$dst "#Round#", "#IntelSrcAsm#"}",
Pattern, itin>;
// Prefer over VMOV*rrk Pat<>
let AddedComplexity = 20 in
def NAME#k: AVX512<O, F, Outs, MaskingIns,
OpcodeStr#"\t{"#AttSrcAsm#", $dst {${mask}}"#Round#"|"#
"$dst {${mask}}"#Round#", "#IntelSrcAsm#"}",
MaskingPattern, itin>,
EVEX_K {
// In case of the 3src subclass this is overridden with a let.
string Constraints = MaskingConstraint;
}
let AddedComplexity = 30 in // Prefer over VMOV*rrkz Pat<>
def NAME#kz: AVX512<O, F, Outs, ZeroMaskingIns,
OpcodeStr#"\t{"#AttSrcAsm#", $dst {${mask}} {z}"#Round#"|"#
"$dst {${mask}} {z}"#Round#", "#IntelSrcAsm#"}",
ZeroMaskingPattern,
itin>,
EVEX_KZ;
}
// Common base class of AVX512_maskable and AVX512_maskable_3src.
multiclass AVX512_maskable_common<bits<8> O, Format F, X86VectorVTInfo _,
dag Outs,
dag Ins, dag MaskingIns, dag ZeroMaskingIns,
string OpcodeStr,
string AttSrcAsm, string IntelSrcAsm,
dag RHS, dag MaskingRHS,
string Round = "",
string MaskingConstraint = "",
InstrItinClass itin = NoItinerary,
bit IsCommutable = 0> :
AVX512_maskable_custom<O, F, Outs, Ins, MaskingIns, ZeroMaskingIns, OpcodeStr,
AttSrcAsm, IntelSrcAsm,
[(set _.RC:$dst, RHS)],
[(set _.RC:$dst, MaskingRHS)],
[(set _.RC:$dst,
(vselect _.KRCWM:$mask, RHS, _.ImmAllZerosV))],
Round, MaskingConstraint, NoItinerary, IsCommutable>;
// This multiclass generates the unconditional/non-masking, the masking and
// the zero-masking variant of the instruction. In the masking case, the
// perserved vector elements come from a new dummy input operand tied to $dst.
multiclass AVX512_maskable<bits<8> O, Format F, X86VectorVTInfo _,
dag Outs, dag Ins, string OpcodeStr,
string AttSrcAsm, string IntelSrcAsm,
dag RHS, string Round = "",
InstrItinClass itin = NoItinerary,
bit IsCommutable = 0> :
AVX512_maskable_common<O, F, _, Outs, Ins,
!con((ins _.RC:$src0, _.KRCWM:$mask), Ins),
!con((ins _.KRCWM:$mask), Ins),
OpcodeStr, AttSrcAsm, IntelSrcAsm, RHS,
(vselect _.KRCWM:$mask, RHS, _.RC:$src0), Round,
"$src0 = $dst", itin, IsCommutable>;
// Similar to AVX512_maskable but in this case one of the source operands
// ($src1) is already tied to $dst so we just use that for the preserved
// vector elements. NOTE that the NonTiedIns (the ins dag) should exclude
// $src1.
multiclass AVX512_maskable_3src<bits<8> O, Format F, X86VectorVTInfo _,
dag Outs, dag NonTiedIns, string OpcodeStr,
string AttSrcAsm, string IntelSrcAsm,
dag RHS> :
AVX512_maskable_common<O, F, _, Outs,
!con((ins _.RC:$src1), NonTiedIns),
!con((ins _.RC:$src1, _.KRCWM:$mask), NonTiedIns),
!con((ins _.RC:$src1, _.KRCWM:$mask), NonTiedIns),
OpcodeStr, AttSrcAsm, IntelSrcAsm, RHS,
(vselect _.KRCWM:$mask, RHS, _.RC:$src1)>;
multiclass AVX512_maskable_in_asm<bits<8> O, Format F, X86VectorVTInfo _,
dag Outs, dag Ins,
string OpcodeStr,
string AttSrcAsm, string IntelSrcAsm,
list<dag> Pattern> :
AVX512_maskable_custom<O, F, Outs, Ins,
!con((ins _.RC:$src0, _.KRCWM:$mask), Ins),
!con((ins _.KRCWM:$mask), Ins),
OpcodeStr, AttSrcAsm, IntelSrcAsm, Pattern, [], [], "",
"$src0 = $dst">;
// Bitcasts between 512-bit vector types. Return the original type since
// no instruction is needed for the conversion
let Predicates = [HasAVX512] in {
def : Pat<(v8f64 (bitconvert (v8i64 VR512:$src))), (v8f64 VR512:$src)>;
def : Pat<(v8f64 (bitconvert (v16i32 VR512:$src))), (v8f64 VR512:$src)>;
def : Pat<(v8f64 (bitconvert (v32i16 VR512:$src))), (v8f64 VR512:$src)>;
def : Pat<(v8f64 (bitconvert (v64i8 VR512:$src))), (v8f64 VR512:$src)>;
def : Pat<(v8f64 (bitconvert (v16f32 VR512:$src))), (v8f64 VR512:$src)>;
def : Pat<(v16f32 (bitconvert (v8i64 VR512:$src))), (v16f32 VR512:$src)>;
def : Pat<(v16f32 (bitconvert (v16i32 VR512:$src))), (v16f32 VR512:$src)>;
def : Pat<(v16f32 (bitconvert (v32i16 VR512:$src))), (v16f32 VR512:$src)>;
def : Pat<(v16f32 (bitconvert (v64i8 VR512:$src))), (v16f32 VR512:$src)>;
def : Pat<(v16f32 (bitconvert (v8f64 VR512:$src))), (v16f32 VR512:$src)>;
def : Pat<(v8i64 (bitconvert (v16i32 VR512:$src))), (v8i64 VR512:$src)>;
def : Pat<(v8i64 (bitconvert (v32i16 VR512:$src))), (v8i64 VR512:$src)>;
def : Pat<(v8i64 (bitconvert (v64i8 VR512:$src))), (v8i64 VR512:$src)>;
def : Pat<(v8i64 (bitconvert (v8f64 VR512:$src))), (v8i64 VR512:$src)>;
def : Pat<(v8i64 (bitconvert (v16f32 VR512:$src))), (v8i64 VR512:$src)>;
def : Pat<(v16i32 (bitconvert (v8i64 VR512:$src))), (v16i32 VR512:$src)>;
def : Pat<(v16i32 (bitconvert (v16f32 VR512:$src))), (v16i32 VR512:$src)>;
def : Pat<(v16i32 (bitconvert (v32i16 VR512:$src))), (v16i32 VR512:$src)>;
def : Pat<(v16i32 (bitconvert (v64i8 VR512:$src))), (v16i32 VR512:$src)>;
def : Pat<(v16i32 (bitconvert (v8f64 VR512:$src))), (v16i32 VR512:$src)>;
def : Pat<(v32i16 (bitconvert (v8i64 VR512:$src))), (v32i16 VR512:$src)>;
def : Pat<(v32i16 (bitconvert (v16i32 VR512:$src))), (v32i16 VR512:$src)>;
def : Pat<(v32i16 (bitconvert (v64i8 VR512:$src))), (v32i16 VR512:$src)>;
def : Pat<(v32i16 (bitconvert (v8f64 VR512:$src))), (v32i16 VR512:$src)>;
def : Pat<(v32i16 (bitconvert (v16f32 VR512:$src))), (v32i16 VR512:$src)>;
def : Pat<(v32i16 (bitconvert (v16f32 VR512:$src))), (v32i16 VR512:$src)>;
def : Pat<(v64i8 (bitconvert (v8i64 VR512:$src))), (v64i8 VR512:$src)>;
def : Pat<(v64i8 (bitconvert (v16i32 VR512:$src))), (v64i8 VR512:$src)>;
def : Pat<(v64i8 (bitconvert (v32i16 VR512:$src))), (v64i8 VR512:$src)>;
def : Pat<(v64i8 (bitconvert (v8f64 VR512:$src))), (v64i8 VR512:$src)>;
def : Pat<(v64i8 (bitconvert (v16f32 VR512:$src))), (v64i8 VR512:$src)>;
def : Pat<(v2i64 (bitconvert (v4i32 VR128X:$src))), (v2i64 VR128X:$src)>;
def : Pat<(v2i64 (bitconvert (v8i16 VR128X:$src))), (v2i64 VR128X:$src)>;
def : Pat<(v2i64 (bitconvert (v16i8 VR128X:$src))), (v2i64 VR128X:$src)>;
def : Pat<(v2i64 (bitconvert (v2f64 VR128X:$src))), (v2i64 VR128X:$src)>;
def : Pat<(v2i64 (bitconvert (v4f32 VR128X:$src))), (v2i64 VR128X:$src)>;
def : Pat<(v4i32 (bitconvert (v2i64 VR128X:$src))), (v4i32 VR128X:$src)>;
def : Pat<(v4i32 (bitconvert (v8i16 VR128X:$src))), (v4i32 VR128X:$src)>;
def : Pat<(v4i32 (bitconvert (v16i8 VR128X:$src))), (v4i32 VR128X:$src)>;
def : Pat<(v4i32 (bitconvert (v2f64 VR128X:$src))), (v4i32 VR128X:$src)>;
def : Pat<(v4i32 (bitconvert (v4f32 VR128X:$src))), (v4i32 VR128X:$src)>;
def : Pat<(v8i16 (bitconvert (v2i64 VR128X:$src))), (v8i16 VR128X:$src)>;
def : Pat<(v8i16 (bitconvert (v4i32 VR128X:$src))), (v8i16 VR128X:$src)>;
def : Pat<(v8i16 (bitconvert (v16i8 VR128X:$src))), (v8i16 VR128X:$src)>;
def : Pat<(v8i16 (bitconvert (v2f64 VR128X:$src))), (v8i16 VR128X:$src)>;
def : Pat<(v8i16 (bitconvert (v4f32 VR128X:$src))), (v8i16 VR128X:$src)>;
def : Pat<(v16i8 (bitconvert (v2i64 VR128X:$src))), (v16i8 VR128X:$src)>;
def : Pat<(v16i8 (bitconvert (v4i32 VR128X:$src))), (v16i8 VR128X:$src)>;
def : Pat<(v16i8 (bitconvert (v8i16 VR128X:$src))), (v16i8 VR128X:$src)>;
def : Pat<(v16i8 (bitconvert (v2f64 VR128X:$src))), (v16i8 VR128X:$src)>;
def : Pat<(v16i8 (bitconvert (v4f32 VR128X:$src))), (v16i8 VR128X:$src)>;
def : Pat<(v4f32 (bitconvert (v2i64 VR128X:$src))), (v4f32 VR128X:$src)>;
def : Pat<(v4f32 (bitconvert (v4i32 VR128X:$src))), (v4f32 VR128X:$src)>;
def : Pat<(v4f32 (bitconvert (v8i16 VR128X:$src))), (v4f32 VR128X:$src)>;
def : Pat<(v4f32 (bitconvert (v16i8 VR128X:$src))), (v4f32 VR128X:$src)>;
def : Pat<(v4f32 (bitconvert (v2f64 VR128X:$src))), (v4f32 VR128X:$src)>;
def : Pat<(v2f64 (bitconvert (v2i64 VR128X:$src))), (v2f64 VR128X:$src)>;
def : Pat<(v2f64 (bitconvert (v4i32 VR128X:$src))), (v2f64 VR128X:$src)>;
def : Pat<(v2f64 (bitconvert (v8i16 VR128X:$src))), (v2f64 VR128X:$src)>;
def : Pat<(v2f64 (bitconvert (v16i8 VR128X:$src))), (v2f64 VR128X:$src)>;
def : Pat<(v2f64 (bitconvert (v4f32 VR128X:$src))), (v2f64 VR128X:$src)>;
// Bitcasts between 256-bit vector types. Return the original type since
// no instruction is needed for the conversion
def : Pat<(v4f64 (bitconvert (v8f32 VR256X:$src))), (v4f64 VR256X:$src)>;
def : Pat<(v4f64 (bitconvert (v8i32 VR256X:$src))), (v4f64 VR256X:$src)>;
def : Pat<(v4f64 (bitconvert (v4i64 VR256X:$src))), (v4f64 VR256X:$src)>;
def : Pat<(v4f64 (bitconvert (v16i16 VR256X:$src))), (v4f64 VR256X:$src)>;
def : Pat<(v4f64 (bitconvert (v32i8 VR256X:$src))), (v4f64 VR256X:$src)>;
def : Pat<(v8f32 (bitconvert (v8i32 VR256X:$src))), (v8f32 VR256X:$src)>;
def : Pat<(v8f32 (bitconvert (v4i64 VR256X:$src))), (v8f32 VR256X:$src)>;
def : Pat<(v8f32 (bitconvert (v4f64 VR256X:$src))), (v8f32 VR256X:$src)>;
def : Pat<(v8f32 (bitconvert (v32i8 VR256X:$src))), (v8f32 VR256X:$src)>;
def : Pat<(v8f32 (bitconvert (v16i16 VR256X:$src))), (v8f32 VR256X:$src)>;
def : Pat<(v4i64 (bitconvert (v8f32 VR256X:$src))), (v4i64 VR256X:$src)>;
def : Pat<(v4i64 (bitconvert (v8i32 VR256X:$src))), (v4i64 VR256X:$src)>;
def : Pat<(v4i64 (bitconvert (v4f64 VR256X:$src))), (v4i64 VR256X:$src)>;
def : Pat<(v4i64 (bitconvert (v32i8 VR256X:$src))), (v4i64 VR256X:$src)>;
def : Pat<(v4i64 (bitconvert (v16i16 VR256X:$src))), (v4i64 VR256X:$src)>;
def : Pat<(v32i8 (bitconvert (v4f64 VR256X:$src))), (v32i8 VR256X:$src)>;
def : Pat<(v32i8 (bitconvert (v4i64 VR256X:$src))), (v32i8 VR256X:$src)>;
def : Pat<(v32i8 (bitconvert (v8f32 VR256X:$src))), (v32i8 VR256X:$src)>;
def : Pat<(v32i8 (bitconvert (v8i32 VR256X:$src))), (v32i8 VR256X:$src)>;
def : Pat<(v32i8 (bitconvert (v16i16 VR256X:$src))), (v32i8 VR256X:$src)>;
def : Pat<(v8i32 (bitconvert (v32i8 VR256X:$src))), (v8i32 VR256X:$src)>;
def : Pat<(v8i32 (bitconvert (v16i16 VR256X:$src))), (v8i32 VR256X:$src)>;
def : Pat<(v8i32 (bitconvert (v8f32 VR256X:$src))), (v8i32 VR256X:$src)>;
def : Pat<(v8i32 (bitconvert (v4i64 VR256X:$src))), (v8i32 VR256X:$src)>;
def : Pat<(v8i32 (bitconvert (v4f64 VR256X:$src))), (v8i32 VR256X:$src)>;
def : Pat<(v16i16 (bitconvert (v8f32 VR256X:$src))), (v16i16 VR256X:$src)>;
def : Pat<(v16i16 (bitconvert (v8i32 VR256X:$src))), (v16i16 VR256X:$src)>;
def : Pat<(v16i16 (bitconvert (v4i64 VR256X:$src))), (v16i16 VR256X:$src)>;
def : Pat<(v16i16 (bitconvert (v4f64 VR256X:$src))), (v16i16 VR256X:$src)>;
def : Pat<(v16i16 (bitconvert (v32i8 VR256X:$src))), (v16i16 VR256X:$src)>;
}
//
// AVX-512: VPXOR instruction writes zero to its upper part, it's safe build zeros.
//
let isReMaterializable = 1, isAsCheapAsAMove = 1, canFoldAsLoad = 1,
isPseudo = 1, Predicates = [HasAVX512] in {
def AVX512_512_SET0 : I<0, Pseudo, (outs VR512:$dst), (ins), "",
[(set VR512:$dst, (v16f32 immAllZerosV))]>;
}
let Predicates = [HasAVX512] in {
def : Pat<(v8i64 immAllZerosV), (AVX512_512_SET0)>;
def : Pat<(v16i32 immAllZerosV), (AVX512_512_SET0)>;
def : Pat<(v8f64 immAllZerosV), (AVX512_512_SET0)>;
}
//===----------------------------------------------------------------------===//
// AVX-512 - VECTOR INSERT
//
multiclass vinsert_for_size_no_alt<int Opcode,
X86VectorVTInfo From, X86VectorVTInfo To,
PatFrag vinsert_insert,
SDNodeXForm INSERT_get_vinsert_imm> {
let hasSideEffects = 0, ExeDomain = To.ExeDomain in {
def rr : AVX512AIi8<Opcode, MRMSrcReg, (outs VR512:$dst),
(ins VR512:$src1, From.RC:$src2, i8imm:$src3),
"vinsert" # From.EltTypeName # "x" # From.NumElts #
"\t{$src3, $src2, $src1, $dst|"
"$dst, $src1, $src2, $src3}",
[(set To.RC:$dst, (vinsert_insert:$src3 (To.VT VR512:$src1),
(From.VT From.RC:$src2),
(iPTR imm)))]>,
EVEX_4V, EVEX_V512;
let mayLoad = 1 in
def rm : AVX512AIi8<Opcode, MRMSrcMem, (outs VR512:$dst),
(ins VR512:$src1, From.MemOp:$src2, i8imm:$src3),
"vinsert" # From.EltTypeName # "x" # From.NumElts #
"\t{$src3, $src2, $src1, $dst|"
"$dst, $src1, $src2, $src3}",
[]>,
EVEX_4V, EVEX_V512, EVEX_CD8<From.EltSize, From.CD8TupleForm>;
}
}
multiclass vinsert_for_size<int Opcode,
X86VectorVTInfo From, X86VectorVTInfo To,
X86VectorVTInfo AltFrom, X86VectorVTInfo AltTo,
PatFrag vinsert_insert,
SDNodeXForm INSERT_get_vinsert_imm> :
vinsert_for_size_no_alt<Opcode, From, To,
vinsert_insert, INSERT_get_vinsert_imm> {
// Codegen pattern with the alternative types, e.g. v2i64 -> v8i64 for
// vinserti32x4. Only add this if 64x2 and friends are not supported
// natively via AVX512DQ.
let Predicates = [NoDQI] in
def : Pat<(vinsert_insert:$ins
(AltTo.VT VR512:$src1), (AltFrom.VT From.RC:$src2), (iPTR imm)),
(AltTo.VT (!cast<Instruction>(NAME # From.EltSize # "x4rr")
VR512:$src1, From.RC:$src2,
(INSERT_get_vinsert_imm VR512:$ins)))>;
}
multiclass vinsert_for_type<ValueType EltVT32, int Opcode128,
ValueType EltVT64, int Opcode256> {
defm NAME # "32x4" : vinsert_for_size<Opcode128,
X86VectorVTInfo< 4, EltVT32, VR128X>,
X86VectorVTInfo<16, EltVT32, VR512>,
X86VectorVTInfo< 2, EltVT64, VR128X>,
X86VectorVTInfo< 8, EltVT64, VR512>,
vinsert128_insert,
INSERT_get_vinsert128_imm>;
let Predicates = [HasDQI] in
defm NAME # "64x2" : vinsert_for_size_no_alt<Opcode128,
X86VectorVTInfo< 2, EltVT64, VR128X>,
X86VectorVTInfo< 8, EltVT64, VR512>,
vinsert128_insert,
INSERT_get_vinsert128_imm>, VEX_W;
defm NAME # "64x4" : vinsert_for_size<Opcode256,
X86VectorVTInfo< 4, EltVT64, VR256X>,
X86VectorVTInfo< 8, EltVT64, VR512>,
X86VectorVTInfo< 8, EltVT32, VR256>,
X86VectorVTInfo<16, EltVT32, VR512>,
vinsert256_insert,
INSERT_get_vinsert256_imm>, VEX_W;
let Predicates = [HasDQI] in
defm NAME # "32x8" : vinsert_for_size_no_alt<Opcode256,
X86VectorVTInfo< 8, EltVT32, VR256X>,
X86VectorVTInfo<16, EltVT32, VR512>,
vinsert256_insert,
INSERT_get_vinsert256_imm>;
}
defm VINSERTF : vinsert_for_type<f32, 0x18, f64, 0x1a>;
defm VINSERTI : vinsert_for_type<i32, 0x38, i64, 0x3a>;
// vinsertps - insert f32 to XMM
def VINSERTPSzrr : AVX512AIi8<0x21, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src1, VR128X:$src2, i8imm:$src3),
"vinsertps\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}",
[(set VR128X:$dst, (X86insertps VR128X:$src1, VR128X:$src2, imm:$src3))]>,
EVEX_4V;
def VINSERTPSzrm: AVX512AIi8<0x21, MRMSrcMem, (outs VR128X:$dst),
(ins VR128X:$src1, f32mem:$src2, i8imm:$src3),
"vinsertps\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}",
[(set VR128X:$dst, (X86insertps VR128X:$src1,
(v4f32 (scalar_to_vector (loadf32 addr:$src2))),
imm:$src3))]>, EVEX_4V, EVEX_CD8<32, CD8VT1>;
//===----------------------------------------------------------------------===//
// AVX-512 VECTOR EXTRACT
//---
multiclass vextract_for_size<int Opcode,
X86VectorVTInfo From, X86VectorVTInfo To,
X86VectorVTInfo AltFrom, X86VectorVTInfo AltTo,
PatFrag vextract_extract,
SDNodeXForm EXTRACT_get_vextract_imm> {
let hasSideEffects = 0, ExeDomain = To.ExeDomain in {
defm rr : AVX512_maskable_in_asm<Opcode, MRMDestReg, To, (outs To.RC:$dst),
(ins VR512:$src1, i8imm:$idx),
"vextract" # To.EltTypeName # "x4",
"$idx, $src1", "$src1, $idx",
[(set To.RC:$dst, (vextract_extract:$idx (From.VT VR512:$src1),
(iPTR imm)))]>,
AVX512AIi8Base, EVEX, EVEX_V512;
let mayStore = 1 in
def rm : AVX512AIi8<Opcode, MRMDestMem, (outs),
(ins To.MemOp:$dst, VR512:$src1, i8imm:$src2),
"vextract" # To.EltTypeName # "x4\t{$src2, $src1, $dst|"
"$dst, $src1, $src2}",
[]>, EVEX, EVEX_V512, EVEX_CD8<To.EltSize, CD8VT4>;
}
// Codegen pattern with the alternative types, e.g. v8i64 -> v2i64 for
// vextracti32x4
def : Pat<(vextract_extract:$ext (AltFrom.VT VR512:$src1), (iPTR imm)),
(AltTo.VT (!cast<Instruction>(NAME # To.EltSize # "x4rr")
VR512:$src1,
(EXTRACT_get_vextract_imm To.RC:$ext)))>;
// A 128/256-bit subvector extract from the first 512-bit vector position is
// a subregister copy that needs no instruction.
def : Pat<(To.VT (extract_subvector (From.VT VR512:$src), (iPTR 0))),
(To.VT
(EXTRACT_SUBREG (From.VT VR512:$src), To.SubRegIdx))>;
// And for the alternative types.
def : Pat<(AltTo.VT (extract_subvector (AltFrom.VT VR512:$src), (iPTR 0))),
(AltTo.VT
(EXTRACT_SUBREG (AltFrom.VT VR512:$src), AltTo.SubRegIdx))>;
// Intrinsic call with masking.
def : Pat<(!cast<Intrinsic>("int_x86_avx512_mask_vextract" # To.EltTypeName #
"x4_512")
VR512:$src1, (iPTR imm:$idx), To.RC:$src0, GR8:$mask),
(!cast<Instruction>(NAME # To.EltSize # "x4rrk") To.RC:$src0,
(v4i1 (COPY_TO_REGCLASS GR8:$mask, VK4WM)),
VR512:$src1, imm:$idx)>;
// Intrinsic call with zero-masking.
def : Pat<(!cast<Intrinsic>("int_x86_avx512_mask_vextract" # To.EltTypeName #
"x4_512")
VR512:$src1, (iPTR imm:$idx), To.ImmAllZerosV, GR8:$mask),
(!cast<Instruction>(NAME # To.EltSize # "x4rrkz")
(v4i1 (COPY_TO_REGCLASS GR8:$mask, VK4WM)),
VR512:$src1, imm:$idx)>;
// Intrinsic call without masking.
def : Pat<(!cast<Intrinsic>("int_x86_avx512_mask_vextract" # To.EltTypeName #
"x4_512")
VR512:$src1, (iPTR imm:$idx), To.ImmAllZerosV, (i8 -1)),
(!cast<Instruction>(NAME # To.EltSize # "x4rr")
VR512:$src1, imm:$idx)>;
}
multiclass vextract_for_type<ValueType EltVT32, int Opcode32,
ValueType EltVT64, int Opcode64> {
defm NAME # "32x4" : vextract_for_size<Opcode32,
X86VectorVTInfo<16, EltVT32, VR512>,
X86VectorVTInfo< 4, EltVT32, VR128X>,
X86VectorVTInfo< 8, EltVT64, VR512>,
X86VectorVTInfo< 2, EltVT64, VR128X>,
vextract128_extract,
EXTRACT_get_vextract128_imm>;
defm NAME # "64x4" : vextract_for_size<Opcode64,
X86VectorVTInfo< 8, EltVT64, VR512>,
X86VectorVTInfo< 4, EltVT64, VR256X>,
X86VectorVTInfo<16, EltVT32, VR512>,
X86VectorVTInfo< 8, EltVT32, VR256>,
vextract256_extract,
EXTRACT_get_vextract256_imm>, VEX_W;
}
defm VEXTRACTF : vextract_for_type<f32, 0x19, f64, 0x1b>;
defm VEXTRACTI : vextract_for_type<i32, 0x39, i64, 0x3b>;
// A 128-bit subvector insert to the first 512-bit vector position
// is a subregister copy that needs no instruction.
def : Pat<(insert_subvector undef, (v2i64 VR128X:$src), (iPTR 0)),
(INSERT_SUBREG (v8i64 (IMPLICIT_DEF)),
(INSERT_SUBREG (v4i64 (IMPLICIT_DEF)), VR128X:$src, sub_xmm),
sub_ymm)>;
def : Pat<(insert_subvector undef, (v2f64 VR128X:$src), (iPTR 0)),
(INSERT_SUBREG (v8f64 (IMPLICIT_DEF)),
(INSERT_SUBREG (v4f64 (IMPLICIT_DEF)), VR128X:$src, sub_xmm),
sub_ymm)>;
def : Pat<(insert_subvector undef, (v4i32 VR128X:$src), (iPTR 0)),
(INSERT_SUBREG (v16i32 (IMPLICIT_DEF)),
(INSERT_SUBREG (v8i32 (IMPLICIT_DEF)), VR128X:$src, sub_xmm),
sub_ymm)>;
def : Pat<(insert_subvector undef, (v4f32 VR128X:$src), (iPTR 0)),
(INSERT_SUBREG (v16f32 (IMPLICIT_DEF)),
(INSERT_SUBREG (v8f32 (IMPLICIT_DEF)), VR128X:$src, sub_xmm),
sub_ymm)>;
def : Pat<(insert_subvector undef, (v4i64 VR256X:$src), (iPTR 0)),
(INSERT_SUBREG (v8i64 (IMPLICIT_DEF)), VR256X:$src, sub_ymm)>;
def : Pat<(insert_subvector undef, (v4f64 VR256X:$src), (iPTR 0)),
(INSERT_SUBREG (v8f64 (IMPLICIT_DEF)), VR256X:$src, sub_ymm)>;
def : Pat<(insert_subvector undef, (v8i32 VR256X:$src), (iPTR 0)),
(INSERT_SUBREG (v16i32 (IMPLICIT_DEF)), VR256X:$src, sub_ymm)>;
def : Pat<(insert_subvector undef, (v8f32 VR256X:$src), (iPTR 0)),
(INSERT_SUBREG (v16f32 (IMPLICIT_DEF)), VR256X:$src, sub_ymm)>;
// vextractps - extract 32 bits from XMM
def VEXTRACTPSzrr : AVX512AIi8<0x17, MRMDestReg, (outs GR32:$dst),
(ins VR128X:$src1, i32i8imm:$src2),
"vextractps\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[(set GR32:$dst, (extractelt (bc_v4i32 (v4f32 VR128X:$src1)), imm:$src2))]>,
EVEX;
def VEXTRACTPSzmr : AVX512AIi8<0x17, MRMDestMem, (outs),
(ins f32mem:$dst, VR128X:$src1, i32i8imm:$src2),
"vextractps\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[(store (extractelt (bc_v4i32 (v4f32 VR128X:$src1)), imm:$src2),
addr:$dst)]>, EVEX, EVEX_CD8<32, CD8VT1>;
//===---------------------------------------------------------------------===//
// AVX-512 BROADCAST
//---
multiclass avx512_fp_broadcast<bits<8> opc, SDNode OpNode, RegisterClass SrcRC,
ValueType svt, X86VectorVTInfo _> {
defm r : AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins SrcRC:$src), "vbroadcast"## !subst("p", "s", _.Suffix),
"$src", "$src", (_.VT (OpNode (svt SrcRC:$src)))>,
T8PD, EVEX;
let mayLoad = 1 in {
defm m : AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.ScalarMemOp:$src),
"vbroadcast"##!subst("p", "s", _.Suffix), "$src", "$src",
(_.VT (OpNode (_.ScalarLdFrag addr:$src)))>,
T8PD, EVEX;
}
}
multiclass avx512_fp_broadcast_vl<bits<8> opc, SDNode OpNode,
AVX512VLVectorVTInfo _> {
defm Z : avx512_fp_broadcast<opc, OpNode, VR128X, _.info128.VT, _.info512>,
EVEX_V512;
let Predicates = [HasVLX] in {
defm Z256 : avx512_fp_broadcast<opc, OpNode, VR128X, _.info128.VT, _.info256>,
EVEX_V256;
}
}
let ExeDomain = SSEPackedSingle in {
defm VBROADCASTSS : avx512_fp_broadcast_vl<0x18, X86VBroadcast,
avx512vl_f32_info>, EVEX_CD8<32, CD8VT1>;
let Predicates = [HasVLX] in {
defm VBROADCASTSSZ128 : avx512_fp_broadcast<0x18, X86VBroadcast, VR128X,
v4f32, v4f32x_info>, EVEX_V128,
EVEX_CD8<32, CD8VT1>;
}
}
let ExeDomain = SSEPackedDouble in {
defm VBROADCASTSD : avx512_fp_broadcast_vl<0x19, X86VBroadcast,
avx512vl_f64_info>, VEX_W, EVEX_CD8<64, CD8VT1>;
}
def : Pat<(v16f32 (X86VBroadcast (loadf32 addr:$src))),
(VBROADCASTSSZm addr:$src)>;
def : Pat<(v8f64 (X86VBroadcast (loadf64 addr:$src))),
(VBROADCASTSDZm addr:$src)>;
def : Pat<(int_x86_avx512_vbroadcast_ss_512 addr:$src),
(VBROADCASTSSZm addr:$src)>;
def : Pat<(int_x86_avx512_vbroadcast_sd_512 addr:$src),
(VBROADCASTSDZm addr:$src)>;
multiclass avx512_int_broadcast_reg<bits<8> opc, string OpcodeStr,
RegisterClass SrcRC, RegisterClass KRC> {
def Zrr : AVX5128I<opc, MRMSrcReg, (outs VR512:$dst), (ins SrcRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX, EVEX_V512;
def Zkrr : AVX5128I<opc, MRMSrcReg, (outs VR512:$dst),
(ins KRC:$mask, SrcRC:$src),
!strconcat(OpcodeStr,
" \t{$src, $dst {${mask}} {z}|$dst {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_V512, EVEX_KZ;
}
defm VPBROADCASTDr : avx512_int_broadcast_reg<0x7C, "vpbroadcastd", GR32, VK16WM>;
defm VPBROADCASTQr : avx512_int_broadcast_reg<0x7C, "vpbroadcastq", GR64, VK8WM>,
VEX_W;
def : Pat <(v16i32 (X86vzext VK16WM:$mask)),
(VPBROADCASTDrZkrr VK16WM:$mask, (i32 (MOV32ri 0x1)))>;
def : Pat <(v8i64 (X86vzext VK8WM:$mask)),
(VPBROADCASTQrZkrr VK8WM:$mask, (i64 (MOV64ri 0x1)))>;
def : Pat<(v16i32 (X86VBroadcast (i32 GR32:$src))),
(VPBROADCASTDrZrr GR32:$src)>;
def : Pat<(v16i32 (X86VBroadcastm VK16WM:$mask, (i32 GR32:$src))),
(VPBROADCASTDrZkrr VK16WM:$mask, GR32:$src)>;
def : Pat<(v8i64 (X86VBroadcast (i64 GR64:$src))),
(VPBROADCASTQrZrr GR64:$src)>;
def : Pat<(v8i64 (X86VBroadcastm VK8WM:$mask, (i64 GR64:$src))),
(VPBROADCASTQrZkrr VK8WM:$mask, GR64:$src)>;
def : Pat<(v16i32 (int_x86_avx512_pbroadcastd_i32_512 (i32 GR32:$src))),
(VPBROADCASTDrZrr GR32:$src)>;
def : Pat<(v8i64 (int_x86_avx512_pbroadcastq_i64_512 (i64 GR64:$src))),
(VPBROADCASTQrZrr GR64:$src)>;
def : Pat<(v16i32 (int_x86_avx512_mask_pbroadcast_d_gpr_512 (i32 GR32:$src),
(v16i32 immAllZerosV), (i16 GR16:$mask))),
(VPBROADCASTDrZkrr (COPY_TO_REGCLASS GR16:$mask, VK16WM), GR32:$src)>;
def : Pat<(v8i64 (int_x86_avx512_mask_pbroadcast_q_gpr_512 (i64 GR64:$src),
(bc_v8i64 (v16i32 immAllZerosV)), (i8 GR8:$mask))),
(VPBROADCASTQrZkrr (COPY_TO_REGCLASS GR8:$mask, VK8WM), GR64:$src)>;
multiclass avx512_int_broadcast_rm<bits<8> opc, string OpcodeStr,
X86MemOperand x86memop, PatFrag ld_frag,
RegisterClass DstRC, ValueType OpVT, ValueType SrcVT,
RegisterClass KRC> {
def rr : AVX5128I<opc, MRMSrcReg, (outs DstRC:$dst), (ins VR128X:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (X86VBroadcast (SrcVT VR128X:$src))))]>, EVEX;
def krr : AVX5128I<opc, MRMSrcReg, (outs DstRC:$dst), (ins KRC:$mask,
VR128X:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[(set DstRC:$dst,
(OpVT (X86VBroadcastm KRC:$mask, (SrcVT VR128X:$src))))]>,
EVEX, EVEX_KZ;
let mayLoad = 1 in {
def rm : AVX5128I<opc, MRMSrcMem, (outs DstRC:$dst), (ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (X86VBroadcast (ld_frag addr:$src))))]>, EVEX;
def krm : AVX5128I<opc, MRMSrcMem, (outs DstRC:$dst), (ins KRC:$mask,
x86memop:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[(set DstRC:$dst, (OpVT (X86VBroadcastm KRC:$mask,
(ld_frag addr:$src))))]>, EVEX, EVEX_KZ;
}
}
defm VPBROADCASTDZ : avx512_int_broadcast_rm<0x58, "vpbroadcastd", i32mem,
loadi32, VR512, v16i32, v4i32, VK16WM>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VPBROADCASTQZ : avx512_int_broadcast_rm<0x59, "vpbroadcastq", i64mem,
loadi64, VR512, v8i64, v2i64, VK8WM>, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VT1>;
multiclass avx512_int_subvec_broadcast_rm<bits<8> opc, string OpcodeStr,
X86MemOperand x86memop, PatFrag ld_frag,
RegisterClass KRC> {
let mayLoad = 1 in {
def rm : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst), (ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX;
def krm : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst), (ins KRC:$mask,
x86memop:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
}
}
defm VBROADCASTI32X4 : avx512_int_subvec_broadcast_rm<0x5a, "vbroadcasti32x4",
i128mem, loadv2i64, VK16WM>,
EVEX_V512, EVEX_CD8<32, CD8VT4>;
defm VBROADCASTI64X4 : avx512_int_subvec_broadcast_rm<0x5b, "vbroadcasti64x4",
i256mem, loadv4i64, VK16WM>, VEX_W,
EVEX_V512, EVEX_CD8<64, CD8VT4>;
def : Pat<(v16i32 (int_x86_avx512_pbroadcastd_512 (v4i32 VR128X:$src))),
(VPBROADCASTDZrr VR128X:$src)>;
def : Pat<(v8i64 (int_x86_avx512_pbroadcastq_512 (v2i64 VR128X:$src))),
(VPBROADCASTQZrr VR128X:$src)>;
def : Pat<(v16f32 (X86VBroadcast (v16f32 VR512:$src))),
(VBROADCASTSSZr (EXTRACT_SUBREG (v16f32 VR512:$src), sub_xmm))>;
def : Pat<(v8f64 (X86VBroadcast (v8f64 VR512:$src))),
(VBROADCASTSDZr (EXTRACT_SUBREG (v8f64 VR512:$src), sub_xmm))>;
def : Pat<(v16i32 (X86VBroadcast (v16i32 VR512:$src))),
(VPBROADCASTDZrr (EXTRACT_SUBREG (v16i32 VR512:$src), sub_xmm))>;
def : Pat<(v8i64 (X86VBroadcast (v8i64 VR512:$src))),
(VPBROADCASTQZrr (EXTRACT_SUBREG (v8i64 VR512:$src), sub_xmm))>;
def : Pat<(v16f32 (int_x86_avx512_vbroadcast_ss_ps_512 (v4f32 VR128X:$src))),
(VBROADCASTSSZr VR128X:$src)>;
def : Pat<(v8f64 (int_x86_avx512_vbroadcast_sd_pd_512 (v2f64 VR128X:$src))),
(VBROADCASTSDZr VR128X:$src)>;
// Provide fallback in case the load node that is used in the patterns above
// is used by additional users, which prevents the pattern selection.
def : Pat<(v16f32 (X86VBroadcast FR32X:$src)),
(VBROADCASTSSZr (COPY_TO_REGCLASS FR32X:$src, VR128X))>;
def : Pat<(v8f64 (X86VBroadcast FR64X:$src)),
(VBROADCASTSDZr (COPY_TO_REGCLASS FR64X:$src, VR128X))>;
let Predicates = [HasAVX512] in {
def : Pat<(v8i32 (X86VBroadcastm (v8i1 VK8WM:$mask), (loadi32 addr:$src))),
(EXTRACT_SUBREG
(v16i32 (VPBROADCASTDZkrm (COPY_TO_REGCLASS VK8WM:$mask, VK16WM),
addr:$src)), sub_ymm)>;
}
//===----------------------------------------------------------------------===//
// AVX-512 BROADCAST MASK TO VECTOR REGISTER
//---
multiclass avx512_mask_broadcast<bits<8> opc, string OpcodeStr,
RegisterClass KRC> {
let Predicates = [HasCDI] in
def Zrr : AVX512XS8I<opc, MRMSrcReg, (outs VR512:$dst), (ins KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX, EVEX_V512;
let Predicates = [HasCDI, HasVLX] in {
def Z128rr : AVX512XS8I<opc, MRMSrcReg, (outs VR128:$dst), (ins KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX, EVEX_V128;
def Z256rr : AVX512XS8I<opc, MRMSrcReg, (outs VR256:$dst), (ins KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX, EVEX_V256;
}
}
let Predicates = [HasCDI] in {
defm VPBROADCASTMW2D : avx512_mask_broadcast<0x3A, "vpbroadcastmw2d",
VK16>;
defm VPBROADCASTMB2Q : avx512_mask_broadcast<0x2A, "vpbroadcastmb2q",
VK8>, VEX_W;
}
//===----------------------------------------------------------------------===//
// AVX-512 - VPERM
//
// -- immediate form --
multiclass avx512_perm_imm<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _> {
let ExeDomain = _.ExeDomain in {
def ri : AVX512AIi8<opc, MRMSrcReg, (outs _.RC:$dst),
(ins _.RC:$src1, i8imm:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.RC:$dst,
(_.VT (OpNode _.RC:$src1, (i8 imm:$src2))))]>,
EVEX;
def mi : AVX512AIi8<opc, MRMSrcMem, (outs _.RC:$dst),
(ins _.MemOp:$src1, i8imm:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.RC:$dst,
(_.VT (OpNode (_.MemOpFrag addr:$src1),
(i8 imm:$src2))))]>,
EVEX, EVEX_CD8<_.EltSize, CD8VF>;
}
}
multiclass avx512_permil<bits<8> OpcImm, bits<8> OpcVar, X86VectorVTInfo _,
X86VectorVTInfo Ctrl> :
avx512_perm_imm<OpcImm, "vpermil" # _.Suffix, X86VPermilpi, _> {
let ExeDomain = _.ExeDomain in {
def rr : AVX5128I<OpcVar, MRMSrcReg, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src2),
!strconcat("vpermil" # _.Suffix,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.RC:$dst,
(_.VT (X86VPermilpv _.RC:$src1,
(Ctrl.VT Ctrl.RC:$src2))))]>,
EVEX_4V;
def rm : AVX5128I<OpcVar, MRMSrcMem, (outs _.RC:$dst),
(ins _.RC:$src1, Ctrl.MemOp:$src2),
!strconcat("vpermil" # _.Suffix,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.RC:$dst,
(_.VT (X86VPermilpv _.RC:$src1,
(Ctrl.VT (Ctrl.MemOpFrag addr:$src2)))))]>,
EVEX_4V;
}
}
defm VPERMQZ : avx512_perm_imm<0x00, "vpermq", X86VPermi, v8i64_info>,
EVEX_V512, VEX_W;
defm VPERMPDZ : avx512_perm_imm<0x01, "vpermpd", X86VPermi, v8f64_info>,
EVEX_V512, VEX_W;
defm VPERMILPSZ : avx512_permil<0x04, 0x0C, v16f32_info, v16i32_info>,
EVEX_V512;
defm VPERMILPDZ : avx512_permil<0x05, 0x0D, v8f64_info, v8i64_info>,
EVEX_V512, VEX_W;
def : Pat<(v16i32 (X86VPermilpi VR512:$src1, (i8 imm:$imm))),
(VPERMILPSZri VR512:$src1, imm:$imm)>;
def : Pat<(v8i64 (X86VPermilpi VR512:$src1, (i8 imm:$imm))),
(VPERMILPDZri VR512:$src1, imm:$imm)>;
// -- VPERM - register form --
multiclass avx512_perm<bits<8> opc, string OpcodeStr, RegisterClass RC,
PatFrag mem_frag, X86MemOperand x86memop, ValueType OpVT> {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(OpVT (X86VPermv RC:$src1, RC:$src2)))]>, EVEX_4V;
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(OpVT (X86VPermv RC:$src1, (mem_frag addr:$src2))))]>,
EVEX_4V;
}
defm VPERMDZ : avx512_perm<0x36, "vpermd", VR512, memopv16i32, i512mem,
v16i32>, EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPERMQZ : avx512_perm<0x36, "vpermq", VR512, memopv8i64, i512mem,
v8i64>, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
let ExeDomain = SSEPackedSingle in
defm VPERMPSZ : avx512_perm<0x16, "vpermps", VR512, memopv16f32, f512mem,
v16f32>, EVEX_V512, EVEX_CD8<32, CD8VF>;
let ExeDomain = SSEPackedDouble in
defm VPERMPDZ : avx512_perm<0x16, "vpermpd", VR512, memopv8f64, f512mem,
v8f64>, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
// -- VPERM2I - 3 source operands form --
multiclass avx512_perm_3src<bits<8> opc, string OpcodeStr, RegisterClass RC,
PatFrag mem_frag, X86MemOperand x86memop,
SDNode OpNode, ValueType OpVT, RegisterClass KRC> {
let Constraints = "$src1 = $dst" in {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2, RC:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst|$dst, $src2, $src3}"),
[(set RC:$dst,
(OpVT (OpNode RC:$src1, RC:$src2, RC:$src3)))]>,
EVEX_4V;
def rrk : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, RC:$src2, RC:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst {${mask}}|"
"$dst {${mask}}, $src2, $src3}"),
[(set RC:$dst, (OpVT (vselect KRC:$mask,
(OpNode RC:$src1, RC:$src2,
RC:$src3),
RC:$src1)))]>,
EVEX_4V, EVEX_K;
let AddedComplexity = 30 in // Prefer over VMOV*rrkz Pat<>
def rrkz : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, RC:$src2, RC:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst {${mask}} {z} |",
"$dst {${mask}} {z}, $src2, $src3}"),
[(set RC:$dst, (OpVT (vselect KRC:$mask,
(OpNode RC:$src1, RC:$src2,
RC:$src3),
(OpVT (bitconvert
(v16i32 immAllZerosV))))))]>,
EVEX_4V, EVEX_KZ;
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, RC:$src2, x86memop:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst|$dst, $src2, $src3}"),
[(set RC:$dst,
(OpVT (OpNode RC:$src1, RC:$src2,
(mem_frag addr:$src3))))]>, EVEX_4V;
def rmk : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, RC:$src2, x86memop:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst {${mask}}|"
"$dst {${mask}}, $src2, $src3}"),
[(set RC:$dst,
(OpVT (vselect KRC:$mask,
(OpNode RC:$src1, RC:$src2,
(mem_frag addr:$src3)),
RC:$src1)))]>,
EVEX_4V, EVEX_K;
let AddedComplexity = 10 in // Prefer over the rrkz variant
def rmkz : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, RC:$src2, x86memop:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst {${mask}} {z}|"
"$dst {${mask}} {z}, $src2, $src3}"),
[(set RC:$dst,
(OpVT (vselect KRC:$mask,
(OpNode RC:$src1, RC:$src2,
(mem_frag addr:$src3)),
(OpVT (bitconvert
(v16i32 immAllZerosV))))))]>,
EVEX_4V, EVEX_KZ;
}
}
defm VPERMI2D : avx512_perm_3src<0x76, "vpermi2d", VR512, memopv16i32,
i512mem, X86VPermiv3, v16i32, VK16WM>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPERMI2Q : avx512_perm_3src<0x76, "vpermi2q", VR512, memopv8i64,
i512mem, X86VPermiv3, v8i64, VK8WM>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VPERMI2PS : avx512_perm_3src<0x77, "vpermi2ps", VR512, memopv16f32,
i512mem, X86VPermiv3, v16f32, VK16WM>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPERMI2PD : avx512_perm_3src<0x77, "vpermi2pd", VR512, memopv8f64,
i512mem, X86VPermiv3, v8f64, VK8WM>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
multiclass avx512_perm_table_3src<bits<8> opc, string Suffix, RegisterClass RC,
PatFrag mem_frag, X86MemOperand x86memop,
SDNode OpNode, ValueType OpVT, RegisterClass KRC,
ValueType MaskVT, RegisterClass MRC> :
avx512_perm_3src<opc, "vpermt2"##Suffix, RC, mem_frag, x86memop, OpNode,
OpVT, KRC> {
def : Pat<(OpVT (!cast<Intrinsic>("int_x86_avx512_mask_vpermt_"##Suffix##"_512")
VR512:$idx, VR512:$src1, VR512:$src2, -1)),
(!cast<Instruction>(NAME#rr) VR512:$src1, VR512:$idx, VR512:$src2)>;
def : Pat<(OpVT (!cast<Intrinsic>("int_x86_avx512_mask_vpermt_"##Suffix##"_512")
VR512:$idx, VR512:$src1, VR512:$src2, MRC:$mask)),
(!cast<Instruction>(NAME#rrk) VR512:$src1,
(MaskVT (COPY_TO_REGCLASS MRC:$mask, KRC)), VR512:$idx, VR512:$src2)>;
}
defm VPERMT2D : avx512_perm_table_3src<0x7E, "d", VR512, memopv16i32, i512mem,
X86VPermv3, v16i32, VK16WM, v16i1, GR16>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPERMT2Q : avx512_perm_table_3src<0x7E, "q", VR512, memopv8i64, i512mem,
X86VPermv3, v8i64, VK8WM, v8i1, GR8>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VPERMT2PS : avx512_perm_table_3src<0x7F, "ps", VR512, memopv16f32, i512mem,
X86VPermv3, v16f32, VK16WM, v16i1, GR16>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPERMT2PD : avx512_perm_table_3src<0x7F, "pd", VR512, memopv8f64, i512mem,
X86VPermv3, v8f64, VK8WM, v8i1, GR8>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
//===----------------------------------------------------------------------===//
// AVX-512 - BLEND using mask
//
multiclass avx512_blendmask<bits<8> opc, string OpcodeStr,
RegisterClass KRC, RegisterClass RC,
X86MemOperand x86memop, PatFrag mem_frag,
SDNode OpNode, ValueType vt> {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, ${dst} {${mask}}|${dst} {${mask}}, $src1, $src2}"),
[(set RC:$dst, (OpNode KRC:$mask, (vt RC:$src2),
(vt RC:$src1)))]>, EVEX_4V, EVEX_K;
let mayLoad = 1 in
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, ${dst} {${mask}}|${dst} {${mask}}, $src1, $src2}"),
[]>, EVEX_4V, EVEX_K;
}
let ExeDomain = SSEPackedSingle in
defm VBLENDMPSZ : avx512_blendmask<0x65, "vblendmps",
VK16WM, VR512, f512mem,
memopv16f32, vselect, v16f32>,
EVEX_CD8<32, CD8VF>, EVEX_V512;
let ExeDomain = SSEPackedDouble in
defm VBLENDMPDZ : avx512_blendmask<0x65, "vblendmpd",
VK8WM, VR512, f512mem,
memopv8f64, vselect, v8f64>,
VEX_W, EVEX_CD8<64, CD8VF>, EVEX_V512;
def : Pat<(v16f32 (int_x86_avx512_mask_blend_ps_512 (v16f32 VR512:$src1),
(v16f32 VR512:$src2), (i16 GR16:$mask))),
(VBLENDMPSZrr (COPY_TO_REGCLASS GR16:$mask, VK16WM),
VR512:$src1, VR512:$src2)>;
def : Pat<(v8f64 (int_x86_avx512_mask_blend_pd_512 (v8f64 VR512:$src1),
(v8f64 VR512:$src2), (i8 GR8:$mask))),
(VBLENDMPDZrr (COPY_TO_REGCLASS GR8:$mask, VK8WM),
VR512:$src1, VR512:$src2)>;
defm VPBLENDMDZ : avx512_blendmask<0x64, "vpblendmd",
VK16WM, VR512, f512mem,
memopv16i32, vselect, v16i32>,
EVEX_CD8<32, CD8VF>, EVEX_V512;
defm VPBLENDMQZ : avx512_blendmask<0x64, "vpblendmq",
VK8WM, VR512, f512mem,
memopv8i64, vselect, v8i64>,
VEX_W, EVEX_CD8<64, CD8VF>, EVEX_V512;
def : Pat<(v16i32 (int_x86_avx512_mask_blend_d_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (i16 GR16:$mask))),
(VPBLENDMDZrr (COPY_TO_REGCLASS GR16:$mask, VK16),
VR512:$src1, VR512:$src2)>;
def : Pat<(v8i64 (int_x86_avx512_mask_blend_q_512 (v8i64 VR512:$src1),
(v8i64 VR512:$src2), (i8 GR8:$mask))),
(VPBLENDMQZrr (COPY_TO_REGCLASS GR8:$mask, VK8),
VR512:$src1, VR512:$src2)>;
let Predicates = [HasAVX512] in {
def : Pat<(v8f32 (vselect (v8i1 VK8WM:$mask), (v8f32 VR256X:$src1),
(v8f32 VR256X:$src2))),
(EXTRACT_SUBREG
(v16f32 (VBLENDMPSZrr (COPY_TO_REGCLASS VK8WM:$mask, VK16WM),
(v16f32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm)),
(v16f32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)))), sub_ymm)>;
def : Pat<(v8i32 (vselect (v8i1 VK8WM:$mask), (v8i32 VR256X:$src1),
(v8i32 VR256X:$src2))),
(EXTRACT_SUBREG
(v16i32 (VPBLENDMDZrr (COPY_TO_REGCLASS VK8WM:$mask, VK16WM),
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm)),
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)))), sub_ymm)>;
}
//===----------------------------------------------------------------------===//
// Compare Instructions
//===----------------------------------------------------------------------===//
// avx512_cmp_scalar - AVX512 CMPSS and CMPSD
multiclass avx512_cmp_scalar<RegisterClass RC, X86MemOperand x86memop,
Operand CC, SDNode OpNode, ValueType VT,
PatFrag ld_frag, string asm, string asm_alt> {
def rr : AVX512Ii8<0xC2, MRMSrcReg,
(outs VK1:$dst), (ins RC:$src1, RC:$src2, CC:$cc), asm,
[(set VK1:$dst, (OpNode (VT RC:$src1), RC:$src2, imm:$cc))],
IIC_SSE_ALU_F32S_RR>, EVEX_4V;
def rm : AVX512Ii8<0xC2, MRMSrcMem,
(outs VK1:$dst), (ins RC:$src1, x86memop:$src2, CC:$cc), asm,
[(set VK1:$dst, (OpNode (VT RC:$src1),
(ld_frag addr:$src2), imm:$cc))], IIC_SSE_ALU_F32P_RM>, EVEX_4V;
let isAsmParserOnly = 1, hasSideEffects = 0 in {
def rri_alt : AVX512Ii8<0xC2, MRMSrcReg,
(outs VK1:$dst), (ins RC:$src1, RC:$src2, i8imm:$cc),
asm_alt, [], IIC_SSE_ALU_F32S_RR>, EVEX_4V;
def rmi_alt : AVX512Ii8<0xC2, MRMSrcMem,
(outs VK1:$dst), (ins RC:$src1, x86memop:$src2, i8imm:$cc),
asm_alt, [], IIC_SSE_ALU_F32P_RM>, EVEX_4V;
}
}
let Predicates = [HasAVX512] in {
defm VCMPSSZ : avx512_cmp_scalar<FR32X, f32mem, AVXCC, X86cmpms, f32, loadf32,
"vcmp${cc}ss\t{$src2, $src1, $dst|$dst, $src1, $src2}",
"vcmpss\t{$cc, $src2, $src1, $dst|$dst, $src1, $src2, $cc}">,
XS;
defm VCMPSDZ : avx512_cmp_scalar<FR64X, f64mem, AVXCC, X86cmpms, f64, loadf64,
"vcmp${cc}sd\t{$src2, $src1, $dst|$dst, $src1, $src2}",
"vcmpsd\t{$cc, $src2, $src1, $dst|$dst, $src1, $src2, $cc}">,
XD, VEX_W;
}
multiclass avx512_icmp_packed<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _> {
def rr : AVX512BI<opc, MRMSrcReg,
(outs _.KRC:$dst), (ins _.RC:$src1, _.RC:$src2),
!strconcat(OpcodeStr, "\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.KRC:$dst, (OpNode (_.VT _.RC:$src1), (_.VT _.RC:$src2)))],
IIC_SSE_ALU_F32P_RR>, EVEX_4V;
let mayLoad = 1 in
def rm : AVX512BI<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.RC:$src1, _.MemOp:$src2),
!strconcat(OpcodeStr, "\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.KRC:$dst, (OpNode (_.VT _.RC:$src1),
(_.VT (bitconvert (_.LdFrag addr:$src2)))))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V;
def rrk : AVX512BI<opc, MRMSrcReg,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1, _.RC:$src2),
!strconcat(OpcodeStr, "\t{$src2, $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, $src2}"),
[(set _.KRC:$dst, (and _.KRCWM:$mask,
(OpNode (_.VT _.RC:$src1), (_.VT _.RC:$src2))))],
IIC_SSE_ALU_F32P_RR>, EVEX_4V, EVEX_K;
let mayLoad = 1 in
def rmk : AVX512BI<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1, _.MemOp:$src2),
!strconcat(OpcodeStr, "\t{$src2, $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, $src2}"),
[(set _.KRC:$dst, (and _.KRCWM:$mask,
(OpNode (_.VT _.RC:$src1),
(_.VT (bitconvert
(_.LdFrag addr:$src2))))))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_K;
}
multiclass avx512_icmp_packed_rmb<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _> :
avx512_icmp_packed<opc, OpcodeStr, OpNode, _> {
let mayLoad = 1 in {
def rmb : AVX512BI<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.RC:$src1, _.ScalarMemOp:$src2),
!strconcat(OpcodeStr, "\t{${src2}", _.BroadcastStr, ", $src1, $dst",
"|$dst, $src1, ${src2}", _.BroadcastStr, "}"),
[(set _.KRC:$dst, (OpNode (_.VT _.RC:$src1),
(X86VBroadcast (_.ScalarLdFrag addr:$src2))))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_B;
def rmbk : AVX512BI<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1,
_.ScalarMemOp:$src2),
!strconcat(OpcodeStr,
"\t{${src2}", _.BroadcastStr, ", $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, ${src2}", _.BroadcastStr, "}"),
[(set _.KRC:$dst, (and _.KRCWM:$mask,
(OpNode (_.VT _.RC:$src1),
(X86VBroadcast
(_.ScalarLdFrag addr:$src2)))))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_K, EVEX_B;
}
}
multiclass avx512_icmp_packed_vl<bits<8> opc, string OpcodeStr, SDNode OpNode,
AVX512VLVectorVTInfo VTInfo, Predicate prd> {
let Predicates = [prd] in
defm Z : avx512_icmp_packed<opc, OpcodeStr, OpNode, VTInfo.info512>,
EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_icmp_packed<opc, OpcodeStr, OpNode, VTInfo.info256>,
EVEX_V256;
defm Z128 : avx512_icmp_packed<opc, OpcodeStr, OpNode, VTInfo.info128>,
EVEX_V128;
}
}
multiclass avx512_icmp_packed_rmb_vl<bits<8> opc, string OpcodeStr,
SDNode OpNode, AVX512VLVectorVTInfo VTInfo,
Predicate prd> {
let Predicates = [prd] in
defm Z : avx512_icmp_packed_rmb<opc, OpcodeStr, OpNode, VTInfo.info512>,
EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_icmp_packed_rmb<opc, OpcodeStr, OpNode, VTInfo.info256>,
EVEX_V256;
defm Z128 : avx512_icmp_packed_rmb<opc, OpcodeStr, OpNode, VTInfo.info128>,
EVEX_V128;
}
}
defm VPCMPEQB : avx512_icmp_packed_vl<0x74, "vpcmpeqb", X86pcmpeqm,
avx512vl_i8_info, HasBWI>,
EVEX_CD8<8, CD8VF>;
defm VPCMPEQW : avx512_icmp_packed_vl<0x75, "vpcmpeqw", X86pcmpeqm,
avx512vl_i16_info, HasBWI>,
EVEX_CD8<16, CD8VF>;
defm VPCMPEQD : avx512_icmp_packed_rmb_vl<0x76, "vpcmpeqd", X86pcmpeqm,
avx512vl_i32_info, HasAVX512>,
EVEX_CD8<32, CD8VF>;
defm VPCMPEQQ : avx512_icmp_packed_rmb_vl<0x29, "vpcmpeqq", X86pcmpeqm,
avx512vl_i64_info, HasAVX512>,
T8PD, VEX_W, EVEX_CD8<64, CD8VF>;
defm VPCMPGTB : avx512_icmp_packed_vl<0x64, "vpcmpgtb", X86pcmpgtm,
avx512vl_i8_info, HasBWI>,
EVEX_CD8<8, CD8VF>;
defm VPCMPGTW : avx512_icmp_packed_vl<0x65, "vpcmpgtw", X86pcmpgtm,
avx512vl_i16_info, HasBWI>,
EVEX_CD8<16, CD8VF>;
defm VPCMPGTD : avx512_icmp_packed_rmb_vl<0x66, "vpcmpgtd", X86pcmpgtm,
avx512vl_i32_info, HasAVX512>,
EVEX_CD8<32, CD8VF>;
defm VPCMPGTQ : avx512_icmp_packed_rmb_vl<0x37, "vpcmpgtq", X86pcmpgtm,
avx512vl_i64_info, HasAVX512>,
T8PD, VEX_W, EVEX_CD8<64, CD8VF>;
def : Pat<(v8i1 (X86pcmpgtm (v8i32 VR256X:$src1), (v8i32 VR256X:$src2))),
(COPY_TO_REGCLASS (VPCMPGTDZrr
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)),
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm))), VK8)>;
def : Pat<(v8i1 (X86pcmpeqm (v8i32 VR256X:$src1), (v8i32 VR256X:$src2))),
(COPY_TO_REGCLASS (VPCMPEQDZrr
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)),
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm))), VK8)>;
multiclass avx512_icmp_cc<bits<8> opc, string Suffix, SDNode OpNode,
X86VectorVTInfo _> {
def rri : AVX512AIi8<opc, MRMSrcReg,
(outs _.KRC:$dst), (ins _.RC:$src1, _.RC:$src2, AVXCC:$cc),
!strconcat("vpcmp${cc}", Suffix,
"\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.KRC:$dst, (OpNode (_.VT _.RC:$src1), (_.VT _.RC:$src2),
imm:$cc))],
IIC_SSE_ALU_F32P_RR>, EVEX_4V;
let mayLoad = 1 in
def rmi : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.RC:$src1, _.MemOp:$src2, AVXCC:$cc),
!strconcat("vpcmp${cc}", Suffix,
"\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set _.KRC:$dst, (OpNode (_.VT _.RC:$src1),
(_.VT (bitconvert (_.LdFrag addr:$src2))),
imm:$cc))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V;
def rrik : AVX512AIi8<opc, MRMSrcReg,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1, _.RC:$src2,
AVXCC:$cc),
!strconcat("vpcmp${cc}", Suffix,
"\t{$src2, $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, $src2}"),
[(set _.KRC:$dst, (and _.KRCWM:$mask,
(OpNode (_.VT _.RC:$src1), (_.VT _.RC:$src2),
imm:$cc)))],
IIC_SSE_ALU_F32P_RR>, EVEX_4V, EVEX_K;
let mayLoad = 1 in
def rmik : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1, _.MemOp:$src2,
AVXCC:$cc),
!strconcat("vpcmp${cc}", Suffix,
"\t{$src2, $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, $src2}"),
[(set _.KRC:$dst, (and _.KRCWM:$mask,
(OpNode (_.VT _.RC:$src1),
(_.VT (bitconvert (_.LdFrag addr:$src2))),
imm:$cc)))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_K;
// Accept explicit immediate argument form instead of comparison code.
let isAsmParserOnly = 1, hasSideEffects = 0 in {
def rri_alt : AVX512AIi8<opc, MRMSrcReg,
(outs _.KRC:$dst), (ins _.RC:$src1, _.RC:$src2, i8imm:$cc),
!strconcat("vpcmp", Suffix, "\t{$cc, $src2, $src1, $dst|",
"$dst, $src1, $src2, $cc}"),
[], IIC_SSE_ALU_F32P_RR>, EVEX_4V;
def rmi_alt : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.RC:$src1, _.MemOp:$src2, i8imm:$cc),
!strconcat("vpcmp", Suffix, "\t{$cc, $src2, $src1, $dst|",
"$dst, $src1, $src2, $cc}"),
[], IIC_SSE_ALU_F32P_RM>, EVEX_4V;
def rrik_alt : AVX512AIi8<opc, MRMSrcReg,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1, _.RC:$src2,
i8imm:$cc),
!strconcat("vpcmp", Suffix,
"\t{$cc, $src2, $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, $src2, $cc}"),
[], IIC_SSE_ALU_F32P_RR>, EVEX_4V, EVEX_K;
def rmik_alt : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1, _.MemOp:$src2,
i8imm:$cc),
!strconcat("vpcmp", Suffix,
"\t{$cc, $src2, $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, $src2, $cc}"),
[], IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_K;
}
}
multiclass avx512_icmp_cc_rmb<bits<8> opc, string Suffix, SDNode OpNode,
X86VectorVTInfo _> :
avx512_icmp_cc<opc, Suffix, OpNode, _> {
let mayLoad = 1 in {
def rmib : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.RC:$src1, _.ScalarMemOp:$src2,
AVXCC:$cc),
!strconcat("vpcmp${cc}", Suffix,
"\t{${src2}", _.BroadcastStr, ", $src1, $dst|",
"$dst, $src1, ${src2}", _.BroadcastStr, "}"),
[(set _.KRC:$dst, (OpNode (_.VT _.RC:$src1),
(X86VBroadcast (_.ScalarLdFrag addr:$src2)),
imm:$cc))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_B;
def rmibk : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1,
_.ScalarMemOp:$src2, AVXCC:$cc),
!strconcat("vpcmp${cc}", Suffix,
"\t{${src2}", _.BroadcastStr, ", $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, ${src2}", _.BroadcastStr, "}"),
[(set _.KRC:$dst, (and _.KRCWM:$mask,
(OpNode (_.VT _.RC:$src1),
(X86VBroadcast (_.ScalarLdFrag addr:$src2)),
imm:$cc)))],
IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_K, EVEX_B;
}
// Accept explicit immediate argument form instead of comparison code.
let isAsmParserOnly = 1, hasSideEffects = 0 in {
def rmib_alt : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.RC:$src1, _.ScalarMemOp:$src2,
i8imm:$cc),
!strconcat("vpcmp", Suffix,
"\t{$cc, ${src2}", _.BroadcastStr, ", $src1, $dst|",
"$dst, $src1, ${src2}", _.BroadcastStr, ", $cc}"),
[], IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_B;
def rmibk_alt : AVX512AIi8<opc, MRMSrcMem,
(outs _.KRC:$dst), (ins _.KRCWM:$mask, _.RC:$src1,
_.ScalarMemOp:$src2, i8imm:$cc),
!strconcat("vpcmp", Suffix,
"\t{$cc, ${src2}", _.BroadcastStr, ", $src1, $dst {${mask}}|",
"$dst {${mask}}, $src1, ${src2}", _.BroadcastStr, ", $cc}"),
[], IIC_SSE_ALU_F32P_RM>, EVEX_4V, EVEX_K, EVEX_B;
}
}
multiclass avx512_icmp_cc_vl<bits<8> opc, string Suffix, SDNode OpNode,
AVX512VLVectorVTInfo VTInfo, Predicate prd> {
let Predicates = [prd] in
defm Z : avx512_icmp_cc<opc, Suffix, OpNode, VTInfo.info512>, EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_icmp_cc<opc, Suffix, OpNode, VTInfo.info256>, EVEX_V256;
defm Z128 : avx512_icmp_cc<opc, Suffix, OpNode, VTInfo.info128>, EVEX_V128;
}
}
multiclass avx512_icmp_cc_rmb_vl<bits<8> opc, string Suffix, SDNode OpNode,
AVX512VLVectorVTInfo VTInfo, Predicate prd> {
let Predicates = [prd] in
defm Z : avx512_icmp_cc_rmb<opc, Suffix, OpNode, VTInfo.info512>,
EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_icmp_cc_rmb<opc, Suffix, OpNode, VTInfo.info256>,
EVEX_V256;
defm Z128 : avx512_icmp_cc_rmb<opc, Suffix, OpNode, VTInfo.info128>,
EVEX_V128;
}
}
defm VPCMPB : avx512_icmp_cc_vl<0x3F, "b", X86cmpm, avx512vl_i8_info,
HasBWI>, EVEX_CD8<8, CD8VF>;
defm VPCMPUB : avx512_icmp_cc_vl<0x3E, "ub", X86cmpmu, avx512vl_i8_info,
HasBWI>, EVEX_CD8<8, CD8VF>;
defm VPCMPW : avx512_icmp_cc_vl<0x3F, "w", X86cmpm, avx512vl_i16_info,
HasBWI>, VEX_W, EVEX_CD8<16, CD8VF>;
defm VPCMPUW : avx512_icmp_cc_vl<0x3E, "uw", X86cmpmu, avx512vl_i16_info,
HasBWI>, VEX_W, EVEX_CD8<16, CD8VF>;
defm VPCMPD : avx512_icmp_cc_rmb_vl<0x1F, "d", X86cmpm, avx512vl_i32_info,
HasAVX512>, EVEX_CD8<32, CD8VF>;
defm VPCMPUD : avx512_icmp_cc_rmb_vl<0x1E, "ud", X86cmpmu, avx512vl_i32_info,
HasAVX512>, EVEX_CD8<32, CD8VF>;
defm VPCMPQ : avx512_icmp_cc_rmb_vl<0x1F, "q", X86cmpm, avx512vl_i64_info,
HasAVX512>, VEX_W, EVEX_CD8<64, CD8VF>;
defm VPCMPUQ : avx512_icmp_cc_rmb_vl<0x1E, "uq", X86cmpmu, avx512vl_i64_info,
HasAVX512>, VEX_W, EVEX_CD8<64, CD8VF>;
// avx512_cmp_packed - compare packed instructions
multiclass avx512_cmp_packed<RegisterClass KRC, RegisterClass RC,
X86MemOperand x86memop, ValueType vt,
string suffix, Domain d> {
def rri : AVX512PIi8<0xC2, MRMSrcReg,
(outs KRC:$dst), (ins RC:$src1, RC:$src2, AVXCC:$cc),
!strconcat("vcmp${cc}", suffix,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set KRC:$dst, (X86cmpm (vt RC:$src1), (vt RC:$src2), imm:$cc))], d>;
def rrib: AVX512PIi8<0xC2, MRMSrcReg,
(outs KRC:$dst), (ins RC:$src1, RC:$src2, AVXCC:$cc),
!strconcat("vcmp${cc}", suffix,
" \t{{sae}, $src2, $src1, $dst|$dst, $src1, $src2, {sae}}"),
[], d>, EVEX_B;
def rmi : AVX512PIi8<0xC2, MRMSrcMem,
(outs KRC:$dst), (ins RC:$src1, x86memop:$src2, AVXCC:$cc),
!strconcat("vcmp${cc}", suffix,
" \t{$src2, $src1, $dst|$dst, $src1, $src2, $cc}"),
[(set KRC:$dst,
(X86cmpm (vt RC:$src1), (memop addr:$src2), imm:$cc))], d>;
// Accept explicit immediate argument form instead of comparison code.
let isAsmParserOnly = 1, hasSideEffects = 0 in {
def rri_alt : AVX512PIi8<0xC2, MRMSrcReg,
(outs KRC:$dst), (ins RC:$src1, RC:$src2, i8imm:$cc),
!strconcat("vcmp", suffix,
" \t{$cc, $src2, $src1, $dst|$dst, $src1, $src2, $cc}"), [], d>;
def rmi_alt : AVX512PIi8<0xC2, MRMSrcMem,
(outs KRC:$dst), (ins RC:$src1, x86memop:$src2, i8imm:$cc),
!strconcat("vcmp", suffix,
" \t{$cc, $src2, $src1, $dst|$dst, $src1, $src2, $cc}"), [], d>;
}
}
defm VCMPPSZ : avx512_cmp_packed<VK16, VR512, f512mem, v16f32,
"ps", SSEPackedSingle>, PS, EVEX_4V, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VCMPPDZ : avx512_cmp_packed<VK8, VR512, f512mem, v8f64,
"pd", SSEPackedDouble>, PD, EVEX_4V, VEX_W, EVEX_V512,
EVEX_CD8<64, CD8VF>;
def : Pat<(v8i1 (X86cmpm (v8f32 VR256X:$src1), (v8f32 VR256X:$src2), imm:$cc)),
(COPY_TO_REGCLASS (VCMPPSZrri
(v16f32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)),
(v16f32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm)),
imm:$cc), VK8)>;
def : Pat<(v8i1 (X86cmpm (v8i32 VR256X:$src1), (v8i32 VR256X:$src2), imm:$cc)),
(COPY_TO_REGCLASS (VPCMPDZrri
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)),
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm)),
imm:$cc), VK8)>;
def : Pat<(v8i1 (X86cmpmu (v8i32 VR256X:$src1), (v8i32 VR256X:$src2), imm:$cc)),
(COPY_TO_REGCLASS (VPCMPUDZrri
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)),
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src2, sub_ymm)),
imm:$cc), VK8)>;
def : Pat<(i16 (int_x86_avx512_mask_cmp_ps_512 (v16f32 VR512:$src1),
(v16f32 VR512:$src2), imm:$cc, (i16 -1),
FROUND_NO_EXC)),
(COPY_TO_REGCLASS (VCMPPSZrrib VR512:$src1, VR512:$src2,
(I8Imm imm:$cc)), GR16)>;
def : Pat<(i8 (int_x86_avx512_mask_cmp_pd_512 (v8f64 VR512:$src1),
(v8f64 VR512:$src2), imm:$cc, (i8 -1),
FROUND_NO_EXC)),
(COPY_TO_REGCLASS (VCMPPDZrrib VR512:$src1, VR512:$src2,
(I8Imm imm:$cc)), GR8)>;
def : Pat<(i16 (int_x86_avx512_mask_cmp_ps_512 (v16f32 VR512:$src1),
(v16f32 VR512:$src2), imm:$cc, (i16 -1),
FROUND_CURRENT)),
(COPY_TO_REGCLASS (VCMPPSZrri VR512:$src1, VR512:$src2,
(I8Imm imm:$cc)), GR16)>;
def : Pat<(i8 (int_x86_avx512_mask_cmp_pd_512 (v8f64 VR512:$src1),
(v8f64 VR512:$src2), imm:$cc, (i8 -1),
FROUND_CURRENT)),
(COPY_TO_REGCLASS (VCMPPDZrri VR512:$src1, VR512:$src2,
(I8Imm imm:$cc)), GR8)>;
// Mask register copy, including
// - copy between mask registers
// - load/store mask registers
// - copy from GPR to mask register and vice versa
//
multiclass avx512_mask_mov<bits<8> opc_kk, bits<8> opc_km, bits<8> opc_mk,
string OpcodeStr, RegisterClass KRC,
ValueType vvt, ValueType ivt, X86MemOperand x86memop> {
let hasSideEffects = 0 in {
def kk : I<opc_kk, MRMSrcReg, (outs KRC:$dst), (ins KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"), []>;
let mayLoad = 1 in
def km : I<opc_km, MRMSrcMem, (outs KRC:$dst), (ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set KRC:$dst, (vvt (bitconvert (ivt (load addr:$src)))))]>;
let mayStore = 1 in
def mk : I<opc_mk, MRMDestMem, (outs), (ins x86memop:$dst, KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"), []>;
}
}
multiclass avx512_mask_mov_gpr<bits<8> opc_kr, bits<8> opc_rk,
string OpcodeStr,
RegisterClass KRC, RegisterClass GRC> {
let hasSideEffects = 0 in {
def kr : I<opc_kr, MRMSrcReg, (outs KRC:$dst), (ins GRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"), []>;
def rk : I<opc_rk, MRMSrcReg, (outs GRC:$dst), (ins KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"), []>;
}
}
let Predicates = [HasDQI] in
defm KMOVB : avx512_mask_mov<0x90, 0x90, 0x91, "kmovb", VK8, v8i1, i8,
i8mem>,
avx512_mask_mov_gpr<0x92, 0x93, "kmovb", VK8, GR32>,
VEX, PD;
let Predicates = [HasAVX512] in
defm KMOVW : avx512_mask_mov<0x90, 0x90, 0x91, "kmovw", VK16, v16i1, i16,
i16mem>,
avx512_mask_mov_gpr<0x92, 0x93, "kmovw", VK16, GR32>,
VEX, PS;
let Predicates = [HasBWI] in {
defm KMOVD : avx512_mask_mov<0x90, 0x90, 0x91, "kmovd", VK32, v32i1, i32,
i32mem>, VEX, PD, VEX_W;
defm KMOVD : avx512_mask_mov_gpr<0x92, 0x93, "kmovd", VK32, GR32>,
VEX, XD;
}
let Predicates = [HasBWI] in {
defm KMOVQ : avx512_mask_mov<0x90, 0x90, 0x91, "kmovq", VK64, v64i1, i64,
i64mem>, VEX, PS, VEX_W;
defm KMOVQ : avx512_mask_mov_gpr<0x92, 0x93, "kmovq", VK64, GR64>,
VEX, XD, VEX_W;
}
// GR from/to mask register
let Predicates = [HasDQI] in {
def : Pat<(v8i1 (bitconvert (i8 GR8:$src))),
(KMOVBkr (SUBREG_TO_REG (i32 0), GR8:$src, sub_8bit))>;
def : Pat<(i8 (bitconvert (v8i1 VK8:$src))),
(EXTRACT_SUBREG (KMOVBrk VK8:$src), sub_8bit)>;
}
let Predicates = [HasAVX512] in {
def : Pat<(v16i1 (bitconvert (i16 GR16:$src))),
(KMOVWkr (SUBREG_TO_REG (i32 0), GR16:$src, sub_16bit))>;
def : Pat<(i16 (bitconvert (v16i1 VK16:$src))),
(EXTRACT_SUBREG (KMOVWrk VK16:$src), sub_16bit)>;
}
let Predicates = [HasBWI] in {
def : Pat<(v32i1 (bitconvert (i32 GR32:$src))), (KMOVDkr GR32:$src)>;
def : Pat<(i32 (bitconvert (v32i1 VK32:$src))), (KMOVDrk VK32:$src)>;
}
let Predicates = [HasBWI] in {
def : Pat<(v64i1 (bitconvert (i64 GR64:$src))), (KMOVQkr GR64:$src)>;
def : Pat<(i64 (bitconvert (v64i1 VK64:$src))), (KMOVQrk VK64:$src)>;
}
// Load/store kreg
let Predicates = [HasDQI] in {
def : Pat<(store (i8 (bitconvert (v8i1 VK8:$src))), addr:$dst),
(KMOVBmk addr:$dst, VK8:$src)>;
}
let Predicates = [HasAVX512] in {
def : Pat<(store (i16 (bitconvert (v16i1 VK16:$src))), addr:$dst),
(KMOVWmk addr:$dst, VK16:$src)>;
def : Pat<(store (i8 (bitconvert (v8i1 VK8:$src))), addr:$dst),
(KMOVWmk addr:$dst, (COPY_TO_REGCLASS VK8:$src, VK16))>;
def : Pat<(i1 (load addr:$src)),
(COPY_TO_REGCLASS (KMOVWkm addr:$src), VK1)>;
def : Pat<(v8i1 (bitconvert (i8 (load addr:$src)))),
(COPY_TO_REGCLASS (KMOVWkm addr:$src), VK8)>;
}
let Predicates = [HasBWI] in {
def : Pat<(store (i32 (bitconvert (v32i1 VK32:$src))), addr:$dst),
(KMOVDmk addr:$dst, VK32:$src)>;
}
let Predicates = [HasBWI] in {
def : Pat<(store (i64 (bitconvert (v64i1 VK64:$src))), addr:$dst),
(KMOVQmk addr:$dst, VK64:$src)>;
}
let Predicates = [HasAVX512] in {
def : Pat<(i1 (trunc (i64 GR64:$src))),
(COPY_TO_REGCLASS (KMOVWkr (AND32ri (EXTRACT_SUBREG $src, sub_32bit),
(i32 1))), VK1)>;
def : Pat<(i1 (trunc (i32 GR32:$src))),
(COPY_TO_REGCLASS (KMOVWkr (AND32ri $src, (i32 1))), VK1)>;
def : Pat<(i1 (trunc (i8 GR8:$src))),
(COPY_TO_REGCLASS
(KMOVWkr (AND32ri (SUBREG_TO_REG (i32 0), GR8:$src, sub_8bit), (i32 1))),
VK1)>;
def : Pat<(i1 (trunc (i16 GR16:$src))),
(COPY_TO_REGCLASS
(KMOVWkr (AND32ri (SUBREG_TO_REG (i32 0), $src, sub_16bit), (i32 1))),
VK1)>;
def : Pat<(i32 (zext VK1:$src)),
(AND32ri (KMOVWrk (COPY_TO_REGCLASS VK1:$src, VK16)), (i32 1))>;
def : Pat<(i8 (zext VK1:$src)),
(EXTRACT_SUBREG
(AND32ri (KMOVWrk
(COPY_TO_REGCLASS VK1:$src, VK16)), (i32 1)), sub_8bit)>;
def : Pat<(i64 (zext VK1:$src)),
(AND64ri8 (SUBREG_TO_REG (i64 0),
(KMOVWrk (COPY_TO_REGCLASS VK1:$src, VK16)), sub_32bit), (i64 1))>;
def : Pat<(i16 (zext VK1:$src)),
(EXTRACT_SUBREG
(AND32ri (KMOVWrk (COPY_TO_REGCLASS VK1:$src, VK16)), (i32 1)),
sub_16bit)>;
def : Pat<(v16i1 (scalar_to_vector VK1:$src)),
(COPY_TO_REGCLASS VK1:$src, VK16)>;
def : Pat<(v8i1 (scalar_to_vector VK1:$src)),
(COPY_TO_REGCLASS VK1:$src, VK8)>;
}
let Predicates = [HasBWI] in {
def : Pat<(v32i1 (scalar_to_vector VK1:$src)),
(COPY_TO_REGCLASS VK1:$src, VK32)>;
def : Pat<(v64i1 (scalar_to_vector VK1:$src)),
(COPY_TO_REGCLASS VK1:$src, VK64)>;
}
// With AVX-512 only, 8-bit mask is promoted to 16-bit mask.
let Predicates = [HasAVX512] in {
// GR from/to 8-bit mask without native support
def : Pat<(v8i1 (bitconvert (i8 GR8:$src))),
(COPY_TO_REGCLASS
(KMOVWkr (SUBREG_TO_REG (i32 0), GR8:$src, sub_8bit)),
VK8)>;
def : Pat<(i8 (bitconvert (v8i1 VK8:$src))),
(EXTRACT_SUBREG
(KMOVWrk (COPY_TO_REGCLASS VK8:$src, VK16)),
sub_8bit)>;
def : Pat<(i1 (X86Vextract VK16:$src, (iPTR 0))),
(COPY_TO_REGCLASS VK16:$src, VK1)>;
def : Pat<(i1 (X86Vextract VK8:$src, (iPTR 0))),
(COPY_TO_REGCLASS VK8:$src, VK1)>;
}
let Predicates = [HasBWI] in {
def : Pat<(i1 (X86Vextract VK32:$src, (iPTR 0))),
(COPY_TO_REGCLASS VK32:$src, VK1)>;
def : Pat<(i1 (X86Vextract VK64:$src, (iPTR 0))),
(COPY_TO_REGCLASS VK64:$src, VK1)>;
}
// Mask unary operation
// - KNOT
multiclass avx512_mask_unop<bits<8> opc, string OpcodeStr,
RegisterClass KRC, SDPatternOperator OpNode,
Predicate prd> {
let Predicates = [prd] in
def rr : I<opc, MRMSrcReg, (outs KRC:$dst), (ins KRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set KRC:$dst, (OpNode KRC:$src))]>;
}
multiclass avx512_mask_unop_all<bits<8> opc, string OpcodeStr,
SDPatternOperator OpNode> {
defm B : avx512_mask_unop<opc, !strconcat(OpcodeStr, "b"), VK8, OpNode,
HasDQI>, VEX, PD;
defm W : avx512_mask_unop<opc, !strconcat(OpcodeStr, "w"), VK16, OpNode,
HasAVX512>, VEX, PS;
defm D : avx512_mask_unop<opc, !strconcat(OpcodeStr, "d"), VK32, OpNode,
HasBWI>, VEX, PD, VEX_W;
defm Q : avx512_mask_unop<opc, !strconcat(OpcodeStr, "q"), VK64, OpNode,
HasBWI>, VEX, PS, VEX_W;
}
defm KNOT : avx512_mask_unop_all<0x44, "knot", not>;
multiclass avx512_mask_unop_int<string IntName, string InstName> {
let Predicates = [HasAVX512] in
def : Pat<(!cast<Intrinsic>("int_x86_avx512_"##IntName##"_w")
(i16 GR16:$src)),
(COPY_TO_REGCLASS (!cast<Instruction>(InstName##"Wrr")
(v16i1 (COPY_TO_REGCLASS GR16:$src, VK16))), GR16)>;
}
defm : avx512_mask_unop_int<"knot", "KNOT">;
let Predicates = [HasDQI] in
def : Pat<(xor VK8:$src1, (v8i1 immAllOnesV)), (KNOTBrr VK8:$src1)>;
let Predicates = [HasAVX512] in
def : Pat<(xor VK16:$src1, (v16i1 immAllOnesV)), (KNOTWrr VK16:$src1)>;
let Predicates = [HasBWI] in
def : Pat<(xor VK32:$src1, (v32i1 immAllOnesV)), (KNOTDrr VK32:$src1)>;
let Predicates = [HasBWI] in
def : Pat<(xor VK64:$src1, (v64i1 immAllOnesV)), (KNOTQrr VK64:$src1)>;
// KNL does not support KMOVB, 8-bit mask is promoted to 16-bit
let Predicates = [HasAVX512] in {
def : Pat<(xor VK8:$src1, (v8i1 immAllOnesV)),
(COPY_TO_REGCLASS (KNOTWrr (COPY_TO_REGCLASS VK8:$src1, VK16)), VK8)>;
def : Pat<(not VK8:$src),
(COPY_TO_REGCLASS
(KNOTWrr (COPY_TO_REGCLASS VK8:$src, VK16)), VK8)>;
}
// Mask binary operation
// - KAND, KANDN, KOR, KXNOR, KXOR
multiclass avx512_mask_binop<bits<8> opc, string OpcodeStr,
RegisterClass KRC, SDPatternOperator OpNode,
Predicate prd> {
let Predicates = [prd] in
def rr : I<opc, MRMSrcReg, (outs KRC:$dst), (ins KRC:$src1, KRC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set KRC:$dst, (OpNode KRC:$src1, KRC:$src2))]>;
}
multiclass avx512_mask_binop_all<bits<8> opc, string OpcodeStr,
SDPatternOperator OpNode> {
defm B : avx512_mask_binop<opc, !strconcat(OpcodeStr, "b"), VK8, OpNode,
HasDQI>, VEX_4V, VEX_L, PD;
defm W : avx512_mask_binop<opc, !strconcat(OpcodeStr, "w"), VK16, OpNode,
HasAVX512>, VEX_4V, VEX_L, PS;
defm D : avx512_mask_binop<opc, !strconcat(OpcodeStr, "d"), VK32, OpNode,
HasBWI>, VEX_4V, VEX_L, VEX_W, PD;
defm Q : avx512_mask_binop<opc, !strconcat(OpcodeStr, "q"), VK64, OpNode,
HasBWI>, VEX_4V, VEX_L, VEX_W, PS;
}
def andn : PatFrag<(ops node:$i0, node:$i1), (and (not node:$i0), node:$i1)>;
def xnor : PatFrag<(ops node:$i0, node:$i1), (not (xor node:$i0, node:$i1))>;
let isCommutable = 1 in {
defm KAND : avx512_mask_binop_all<0x41, "kand", and>;
defm KOR : avx512_mask_binop_all<0x45, "kor", or>;
defm KXNOR : avx512_mask_binop_all<0x46, "kxnor", xnor>;
defm KXOR : avx512_mask_binop_all<0x47, "kxor", xor>;
}
let isCommutable = 0 in
defm KANDN : avx512_mask_binop_all<0x42, "kandn", andn>;
def : Pat<(xor VK1:$src1, VK1:$src2),
(COPY_TO_REGCLASS (KXORWrr (COPY_TO_REGCLASS VK1:$src1, VK16),
(COPY_TO_REGCLASS VK1:$src2, VK16)), VK1)>;
def : Pat<(or VK1:$src1, VK1:$src2),
(COPY_TO_REGCLASS (KORWrr (COPY_TO_REGCLASS VK1:$src1, VK16),
(COPY_TO_REGCLASS VK1:$src2, VK16)), VK1)>;
def : Pat<(and VK1:$src1, VK1:$src2),
(COPY_TO_REGCLASS (KANDWrr (COPY_TO_REGCLASS VK1:$src1, VK16),
(COPY_TO_REGCLASS VK1:$src2, VK16)), VK1)>;
multiclass avx512_mask_binop_int<string IntName, string InstName> {
let Predicates = [HasAVX512] in
def : Pat<(!cast<Intrinsic>("int_x86_avx512_"##IntName##"_w")
(i16 GR16:$src1), (i16 GR16:$src2)),
(COPY_TO_REGCLASS (!cast<Instruction>(InstName##"Wrr")
(v16i1 (COPY_TO_REGCLASS GR16:$src1, VK16)),
(v16i1 (COPY_TO_REGCLASS GR16:$src2, VK16))), GR16)>;
}
defm : avx512_mask_binop_int<"kand", "KAND">;
defm : avx512_mask_binop_int<"kandn", "KANDN">;
defm : avx512_mask_binop_int<"kor", "KOR">;
defm : avx512_mask_binop_int<"kxnor", "KXNOR">;
defm : avx512_mask_binop_int<"kxor", "KXOR">;
// With AVX-512, 8-bit mask is promoted to 16-bit mask.
multiclass avx512_binop_pat<SDPatternOperator OpNode, Instruction Inst> {
let Predicates = [HasAVX512] in
def : Pat<(OpNode VK8:$src1, VK8:$src2),
(COPY_TO_REGCLASS
(Inst (COPY_TO_REGCLASS VK8:$src1, VK16),
(COPY_TO_REGCLASS VK8:$src2, VK16)), VK8)>;
}
defm : avx512_binop_pat<and, KANDWrr>;
defm : avx512_binop_pat<andn, KANDNWrr>;
defm : avx512_binop_pat<or, KORWrr>;
defm : avx512_binop_pat<xnor, KXNORWrr>;
defm : avx512_binop_pat<xor, KXORWrr>;
// Mask unpacking
multiclass avx512_mask_unpck<bits<8> opc, string OpcodeStr,
RegisterClass KRC> {
let Predicates = [HasAVX512] in
def rr : I<opc, MRMSrcReg, (outs KRC:$dst), (ins KRC:$src1, KRC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>;
}
multiclass avx512_mask_unpck_bw<bits<8> opc, string OpcodeStr> {
defm BW : avx512_mask_unpck<opc, !strconcat(OpcodeStr, "bw"), VK16>,
VEX_4V, VEX_L, PD;
}
defm KUNPCK : avx512_mask_unpck_bw<0x4b, "kunpck">;
def : Pat<(v16i1 (concat_vectors (v8i1 VK8:$src1), (v8i1 VK8:$src2))),
(KUNPCKBWrr (COPY_TO_REGCLASS VK8:$src2, VK16),
(COPY_TO_REGCLASS VK8:$src1, VK16))>;
multiclass avx512_mask_unpck_int<string IntName, string InstName> {
let Predicates = [HasAVX512] in
def : Pat<(!cast<Intrinsic>("int_x86_avx512_"##IntName##"_bw")
(i16 GR16:$src1), (i16 GR16:$src2)),
(COPY_TO_REGCLASS (!cast<Instruction>(InstName##"BWrr")
(v16i1 (COPY_TO_REGCLASS GR16:$src1, VK16)),
(v16i1 (COPY_TO_REGCLASS GR16:$src2, VK16))), GR16)>;
}
defm : avx512_mask_unpck_int<"kunpck", "KUNPCK">;
// Mask bit testing
multiclass avx512_mask_testop<bits<8> opc, string OpcodeStr, RegisterClass KRC,
SDNode OpNode> {
let Predicates = [HasAVX512], Defs = [EFLAGS] in
def rr : I<opc, MRMSrcReg, (outs), (ins KRC:$src1, KRC:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1|$src1, $src2}"),
[(set EFLAGS, (OpNode KRC:$src1, KRC:$src2))]>;
}
multiclass avx512_mask_testop_w<bits<8> opc, string OpcodeStr, SDNode OpNode> {
defm W : avx512_mask_testop<opc, !strconcat(OpcodeStr, "w"), VK16, OpNode>,
VEX, PS;
}
defm KORTEST : avx512_mask_testop_w<0x98, "kortest", X86kortest>;
def : Pat<(X86cmp VK1:$src1, (i1 0)),
(KORTESTWrr (COPY_TO_REGCLASS VK1:$src1, VK16),
(COPY_TO_REGCLASS VK1:$src1, VK16))>;
// Mask shift
multiclass avx512_mask_shiftop<bits<8> opc, string OpcodeStr, RegisterClass KRC,
SDNode OpNode> {
let Predicates = [HasAVX512] in
def ri : Ii8<opc, MRMSrcReg, (outs KRC:$dst), (ins KRC:$src, i8imm:$imm),
!strconcat(OpcodeStr,
" \t{$imm, $src, $dst|$dst, $src, $imm}"),
[(set KRC:$dst, (OpNode KRC:$src, (i8 imm:$imm)))]>;
}
multiclass avx512_mask_shiftop_w<bits<8> opc1, bits<8> opc2, string OpcodeStr,
SDNode OpNode> {
defm W : avx512_mask_shiftop<opc1, !strconcat(OpcodeStr, "w"), VK16, OpNode>,
VEX, TAPD, VEX_W;
}
defm KSHIFTL : avx512_mask_shiftop_w<0x32, 0x33, "kshiftl", X86vshli>;
defm KSHIFTR : avx512_mask_shiftop_w<0x30, 0x31, "kshiftr", X86vsrli>;
// Mask setting all 0s or 1s
multiclass avx512_mask_setop<RegisterClass KRC, ValueType VT, PatFrag Val> {
let Predicates = [HasAVX512] in
let isReMaterializable = 1, isAsCheapAsAMove = 1, isPseudo = 1 in
def #NAME# : I<0, Pseudo, (outs KRC:$dst), (ins), "",
[(set KRC:$dst, (VT Val))]>;
}
multiclass avx512_mask_setop_w<PatFrag Val> {
defm B : avx512_mask_setop<VK8, v8i1, Val>;
defm W : avx512_mask_setop<VK16, v16i1, Val>;
}
defm KSET0 : avx512_mask_setop_w<immAllZerosV>;
defm KSET1 : avx512_mask_setop_w<immAllOnesV>;
// With AVX-512 only, 8-bit mask is promoted to 16-bit mask.
let Predicates = [HasAVX512] in {
def : Pat<(v8i1 immAllZerosV), (COPY_TO_REGCLASS (KSET0W), VK8)>;
def : Pat<(v8i1 immAllOnesV), (COPY_TO_REGCLASS (KSET1W), VK8)>;
def : Pat<(i1 0), (COPY_TO_REGCLASS (KSET0W), VK1)>;
def : Pat<(i1 1), (COPY_TO_REGCLASS (KSET1W), VK1)>;
def : Pat<(i1 -1), (COPY_TO_REGCLASS (KSET1W), VK1)>;
}
def : Pat<(v8i1 (extract_subvector (v16i1 VK16:$src), (iPTR 0))),
(v8i1 (COPY_TO_REGCLASS VK16:$src, VK8))>;
def : Pat<(v16i1 (insert_subvector undef, (v8i1 VK8:$src), (iPTR 0))),
(v16i1 (COPY_TO_REGCLASS VK8:$src, VK16))>;
def : Pat<(v8i1 (extract_subvector (v16i1 VK16:$src), (iPTR 8))),
(v8i1 (COPY_TO_REGCLASS (KSHIFTRWri VK16:$src, (i8 8)), VK8))>;
let Predicates = [HasVLX] in {
def : Pat<(v8i1 (insert_subvector undef, (v4i1 VK4:$src), (iPTR 0))),
(v8i1 (COPY_TO_REGCLASS VK4:$src, VK8))>;
def : Pat<(v8i1 (insert_subvector undef, (v2i1 VK2:$src), (iPTR 0))),
(v8i1 (COPY_TO_REGCLASS VK2:$src, VK8))>;
def : Pat<(v4i1 (extract_subvector (v8i1 VK8:$src), (iPTR 0))),
(v4i1 (COPY_TO_REGCLASS VK8:$src, VK4))>;
def : Pat<(v2i1 (extract_subvector (v8i1 VK8:$src), (iPTR 0))),
(v2i1 (COPY_TO_REGCLASS VK8:$src, VK2))>;
}
def : Pat<(v8i1 (X86vshli VK8:$src, (i8 imm:$imm))),
(v8i1 (COPY_TO_REGCLASS (KSHIFTLWri (COPY_TO_REGCLASS VK8:$src, VK16), (I8Imm $imm)), VK8))>;
def : Pat<(v8i1 (X86vsrli VK8:$src, (i8 imm:$imm))),
(v8i1 (COPY_TO_REGCLASS (KSHIFTRWri (COPY_TO_REGCLASS VK8:$src, VK16), (I8Imm $imm)), VK8))>;
//===----------------------------------------------------------------------===//
// AVX-512 - Aligned and unaligned load and store
//
multiclass avx512_load<bits<8> opc, string OpcodeStr, PatFrag ld_frag,
RegisterClass KRC, RegisterClass RC,
ValueType vt, ValueType zvt, X86MemOperand memop,
Domain d, bit IsReMaterializable = 1> {
let hasSideEffects = 0 in {
def rr : AVX512PI<opc, MRMSrcReg, (outs RC:$dst), (ins RC:$src),
!strconcat(OpcodeStr, "\t{$src, $dst|$dst, $src}"), [],
d>, EVEX;
def rrkz : AVX512PI<opc, MRMSrcReg, (outs RC:$dst), (ins KRC:$mask, RC:$src),
!strconcat(OpcodeStr, "\t{$src, ${dst} {${mask}} {z}|",
"${dst} {${mask}} {z}, $src}"), [], d>, EVEX, EVEX_KZ;
}
let canFoldAsLoad = 1, isReMaterializable = IsReMaterializable,
SchedRW = [WriteLoad] in
def rm : AVX512PI<opc, MRMSrcMem, (outs RC:$dst), (ins memop:$src),
!strconcat(OpcodeStr, "\t{$src, $dst|$dst, $src}"),
[(set RC:$dst, (vt (bitconvert (ld_frag addr:$src))))],
d>, EVEX;
let AddedComplexity = 20 in {
let Constraints = "$src0 = $dst", hasSideEffects = 0 in {
let hasSideEffects = 0 in
def rrk : AVX512PI<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src0, KRC:$mask, RC:$src1),
!strconcat(OpcodeStr, "\t{$src1, ${dst} {${mask}}|",
"${dst} {${mask}}, $src1}"),
[(set RC:$dst, (vt (vselect KRC:$mask,
(vt RC:$src1),
(vt RC:$src0))))],
d>, EVEX, EVEX_K;
let mayLoad = 1, SchedRW = [WriteLoad] in
def rmk : AVX512PI<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src0, KRC:$mask, memop:$src1),
!strconcat(OpcodeStr, "\t{$src1, ${dst} {${mask}}|",
"${dst} {${mask}}, $src1}"),
[(set RC:$dst, (vt
(vselect KRC:$mask,
(vt (bitconvert (ld_frag addr:$src1))),
(vt RC:$src0))))],
d>, EVEX, EVEX_K;
}
let mayLoad = 1, SchedRW = [WriteLoad] in
def rmkz : AVX512PI<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, memop:$src),
!strconcat(OpcodeStr, "\t{$src, ${dst} {${mask}} {z}|",
"${dst} {${mask}} {z}, $src}"),
[(set RC:$dst, (vt
(vselect KRC:$mask,
(vt (bitconvert (ld_frag addr:$src))),
(vt (bitconvert (zvt immAllZerosV))))))],
d>, EVEX, EVEX_KZ;
}
}
multiclass avx512_load_vl<bits<8> opc, string OpcodeStr, string ld_pat,
string elty, string elsz, string vsz512,
string vsz256, string vsz128, Domain d,
Predicate prd, bit IsReMaterializable = 1> {
let Predicates = [prd] in
defm Z : avx512_load<opc, OpcodeStr,
!cast<PatFrag>(ld_pat##"v"##vsz512##elty##elsz),
!cast<RegisterClass>("VK"##vsz512##"WM"), VR512,
!cast<ValueType>("v"##vsz512##elty##elsz), v16i32,
!cast<X86MemOperand>(elty##"512mem"), d,
IsReMaterializable>, EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_load<opc, OpcodeStr,
!cast<PatFrag>(ld_pat##!if(!eq(elty,"f"),
"v"##vsz256##elty##elsz, "v4i64")),
!cast<RegisterClass>("VK"##vsz256##"WM"), VR256X,
!cast<ValueType>("v"##vsz256##elty##elsz), v8i32,
!cast<X86MemOperand>(elty##"256mem"), d,
IsReMaterializable>, EVEX_V256;
defm Z128 : avx512_load<opc, OpcodeStr,
!cast<PatFrag>(ld_pat##!if(!eq(elty,"f"),
"v"##vsz128##elty##elsz, "v2i64")),
!cast<RegisterClass>("VK"##vsz128##"WM"), VR128X,
!cast<ValueType>("v"##vsz128##elty##elsz), v4i32,
!cast<X86MemOperand>(elty##"128mem"), d,
IsReMaterializable>, EVEX_V128;
}
}
multiclass avx512_store<bits<8> opc, string OpcodeStr, PatFrag st_frag,
ValueType OpVT, RegisterClass KRC, RegisterClass RC,
X86MemOperand memop, Domain d> {
let isAsmParserOnly = 1, hasSideEffects = 0 in {
def rr_alt : AVX512PI<opc, MRMDestReg, (outs RC:$dst), (ins RC:$src),
!strconcat(OpcodeStr, "\t{$src, $dst|$dst, $src}"), [], d>,
EVEX;
let Constraints = "$src1 = $dst" in
def rrk_alt : AVX512PI<opc, MRMDestReg, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, RC:$src2),
!strconcat(OpcodeStr,
"\t{$src2, ${dst} {${mask}}|${dst} {${mask}}, $src2}"), [], d>,
EVEX, EVEX_K;
def rrkz_alt : AVX512PI<opc, MRMDestReg, (outs RC:$dst),
(ins KRC:$mask, RC:$src),
!strconcat(OpcodeStr,
"\t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[], d>, EVEX, EVEX_KZ;
}
let mayStore = 1 in {
def mr : AVX512PI<opc, MRMDestMem, (outs), (ins memop:$dst, RC:$src),
!strconcat(OpcodeStr, "\t{$src, $dst|$dst, $src}"),
[(st_frag (OpVT RC:$src), addr:$dst)], d>, EVEX;
def mrk : AVX512PI<opc, MRMDestMem, (outs),
(ins memop:$dst, KRC:$mask, RC:$src),
!strconcat(OpcodeStr,
"\t{$src, ${dst} {${mask}}|${dst} {${mask}}, $src}"),
[], d>, EVEX, EVEX_K;
}
}
multiclass avx512_store_vl<bits<8> opc, string OpcodeStr, string st_pat,
string st_suff_512, string st_suff_256,
string st_suff_128, string elty, string elsz,
string vsz512, string vsz256, string vsz128,
Domain d, Predicate prd> {
let Predicates = [prd] in
defm Z : avx512_store<opc, OpcodeStr, !cast<PatFrag>(st_pat##st_suff_512),
!cast<ValueType>("v"##vsz512##elty##elsz),
!cast<RegisterClass>("VK"##vsz512##"WM"), VR512,
!cast<X86MemOperand>(elty##"512mem"), d>, EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_store<opc, OpcodeStr, !cast<PatFrag>(st_pat##st_suff_256),
!cast<ValueType>("v"##vsz256##elty##elsz),
!cast<RegisterClass>("VK"##vsz256##"WM"), VR256X,
!cast<X86MemOperand>(elty##"256mem"), d>, EVEX_V256;
defm Z128 : avx512_store<opc, OpcodeStr, !cast<PatFrag>(st_pat##st_suff_128),
!cast<ValueType>("v"##vsz128##elty##elsz),
!cast<RegisterClass>("VK"##vsz128##"WM"), VR128X,
!cast<X86MemOperand>(elty##"128mem"), d>, EVEX_V128;
}
}
defm VMOVAPS : avx512_load_vl<0x28, "vmovaps", "alignedload", "f", "32",
"16", "8", "4", SSEPackedSingle, HasAVX512>,
avx512_store_vl<0x29, "vmovaps", "alignedstore",
"512", "256", "", "f", "32", "16", "8", "4",
SSEPackedSingle, HasAVX512>,
PS, EVEX_CD8<32, CD8VF>;
defm VMOVAPD : avx512_load_vl<0x28, "vmovapd", "alignedload", "f", "64",
"8", "4", "2", SSEPackedDouble, HasAVX512>,
avx512_store_vl<0x29, "vmovapd", "alignedstore",
"512", "256", "", "f", "64", "8", "4", "2",
SSEPackedDouble, HasAVX512>,
PD, VEX_W, EVEX_CD8<64, CD8VF>;
defm VMOVUPS : avx512_load_vl<0x10, "vmovups", "load", "f", "32",
"16", "8", "4", SSEPackedSingle, HasAVX512>,
avx512_store_vl<0x11, "vmovups", "store", "", "", "", "f", "32",
"16", "8", "4", SSEPackedSingle, HasAVX512>,
PS, EVEX_CD8<32, CD8VF>;
defm VMOVUPD : avx512_load_vl<0x10, "vmovupd", "load", "f", "64",
"8", "4", "2", SSEPackedDouble, HasAVX512, 0>,
avx512_store_vl<0x11, "vmovupd", "store", "", "", "", "f", "64",
"8", "4", "2", SSEPackedDouble, HasAVX512>,
PD, VEX_W, EVEX_CD8<64, CD8VF>;
def: Pat<(v8f64 (int_x86_avx512_mask_loadu_pd_512 addr:$ptr,
(bc_v8f64 (v16i32 immAllZerosV)), GR8:$mask)),
(VMOVUPDZrmkz (v8i1 (COPY_TO_REGCLASS GR8:$mask, VK8WM)), addr:$ptr)>;
def: Pat<(v16f32 (int_x86_avx512_mask_loadu_ps_512 addr:$ptr,
(bc_v16f32 (v16i32 immAllZerosV)), GR16:$mask)),
(VMOVUPSZrmkz (v16i1 (COPY_TO_REGCLASS GR16:$mask, VK16WM)), addr:$ptr)>;
def: Pat<(int_x86_avx512_mask_storeu_ps_512 addr:$ptr, (v16f32 VR512:$src),
GR16:$mask),
(VMOVUPSZmrk addr:$ptr, (v16i1 (COPY_TO_REGCLASS GR16:$mask, VK16WM)),
VR512:$src)>;
def: Pat<(int_x86_avx512_mask_storeu_pd_512 addr:$ptr, (v8f64 VR512:$src),
GR8:$mask),
(VMOVUPDZmrk addr:$ptr, (v8i1 (COPY_TO_REGCLASS GR8:$mask, VK8WM)),
VR512:$src)>;
defm VMOVDQA32 : avx512_load_vl<0x6F, "vmovdqa32", "alignedload", "i", "32",
"16", "8", "4", SSEPackedInt, HasAVX512>,
avx512_store_vl<0x7F, "vmovdqa32", "alignedstore",
"512", "256", "", "i", "32", "16", "8", "4",
SSEPackedInt, HasAVX512>,
PD, EVEX_CD8<32, CD8VF>;
defm VMOVDQA64 : avx512_load_vl<0x6F, "vmovdqa64", "alignedload", "i", "64",
"8", "4", "2", SSEPackedInt, HasAVX512>,
avx512_store_vl<0x7F, "vmovdqa64", "alignedstore",
"512", "256", "", "i", "64", "8", "4", "2",
SSEPackedInt, HasAVX512>,
PD, VEX_W, EVEX_CD8<64, CD8VF>;
defm VMOVDQU8 : avx512_load_vl<0x6F, "vmovdqu8", "load", "i", "8",
"64", "32", "16", SSEPackedInt, HasBWI>,
avx512_store_vl<0x7F, "vmovdqu8", "store", "", "", "",
"i", "8", "64", "32", "16", SSEPackedInt,
HasBWI>, XD, EVEX_CD8<8, CD8VF>;
defm VMOVDQU16 : avx512_load_vl<0x6F, "vmovdqu16", "load", "i", "16",
"32", "16", "8", SSEPackedInt, HasBWI>,
avx512_store_vl<0x7F, "vmovdqu16", "store", "", "", "",
"i", "16", "32", "16", "8", SSEPackedInt,
HasBWI>, XD, VEX_W, EVEX_CD8<16, CD8VF>;
defm VMOVDQU32 : avx512_load_vl<0x6F, "vmovdqu32", "load", "i", "32",
"16", "8", "4", SSEPackedInt, HasAVX512>,
avx512_store_vl<0x7F, "vmovdqu32", "store", "", "", "",
"i", "32", "16", "8", "4", SSEPackedInt,
HasAVX512>, XS, EVEX_CD8<32, CD8VF>;
defm VMOVDQU64 : avx512_load_vl<0x6F, "vmovdqu64", "load", "i", "64",
"8", "4", "2", SSEPackedInt, HasAVX512>,
avx512_store_vl<0x7F, "vmovdqu64", "store", "", "", "",
"i", "64", "8", "4", "2", SSEPackedInt,
HasAVX512>, XS, VEX_W, EVEX_CD8<64, CD8VF>;
def: Pat<(v16i32 (int_x86_avx512_mask_loadu_d_512 addr:$ptr,
(v16i32 immAllZerosV), GR16:$mask)),
(VMOVDQU32Zrmkz (v16i1 (COPY_TO_REGCLASS GR16:$mask, VK16WM)), addr:$ptr)>;
def: Pat<(v8i64 (int_x86_avx512_mask_loadu_q_512 addr:$ptr,
(bc_v8i64 (v16i32 immAllZerosV)), GR8:$mask)),
(VMOVDQU64Zrmkz (v8i1 (COPY_TO_REGCLASS GR8:$mask, VK8WM)), addr:$ptr)>;
def: Pat<(int_x86_avx512_mask_storeu_d_512 addr:$ptr, (v16i32 VR512:$src),
GR16:$mask),
(VMOVDQU32Zmrk addr:$ptr, (v16i1 (COPY_TO_REGCLASS GR16:$mask, VK16WM)),
VR512:$src)>;
def: Pat<(int_x86_avx512_mask_storeu_q_512 addr:$ptr, (v8i64 VR512:$src),
GR8:$mask),
(VMOVDQU64Zmrk addr:$ptr, (v8i1 (COPY_TO_REGCLASS GR8:$mask, VK8WM)),
VR512:$src)>;
let AddedComplexity = 20 in {
def : Pat<(v8i64 (vselect VK8WM:$mask, (v8i64 VR512:$src),
(bc_v8i64 (v16i32 immAllZerosV)))),
(VMOVDQU64Zrrkz VK8WM:$mask, VR512:$src)>;
def : Pat<(v8i64 (vselect VK8WM:$mask, (bc_v8i64 (v16i32 immAllZerosV)),
(v8i64 VR512:$src))),
(VMOVDQU64Zrrkz (COPY_TO_REGCLASS (KNOTWrr (COPY_TO_REGCLASS VK8:$mask, VK16)),
VK8), VR512:$src)>;
def : Pat<(v16i32 (vselect VK16WM:$mask, (v16i32 VR512:$src),
(v16i32 immAllZerosV))),
(VMOVDQU32Zrrkz VK16WM:$mask, VR512:$src)>;
def : Pat<(v16i32 (vselect VK16WM:$mask, (v16i32 immAllZerosV),
(v16i32 VR512:$src))),
(VMOVDQU32Zrrkz (KNOTWrr VK16WM:$mask), VR512:$src)>;
}
// Move Int Doubleword to Packed Double Int
//
def VMOVDI2PDIZrr : AVX512BI<0x6E, MRMSrcReg, (outs VR128X:$dst), (ins GR32:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(set VR128X:$dst,
(v4i32 (scalar_to_vector GR32:$src)))], IIC_SSE_MOVDQ>,
EVEX, VEX_LIG;
def VMOVDI2PDIZrm : AVX512BI<0x6E, MRMSrcMem, (outs VR128X:$dst), (ins i32mem:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(set VR128X:$dst,
(v4i32 (scalar_to_vector (loadi32 addr:$src))))],
IIC_SSE_MOVDQ>, EVEX, VEX_LIG, EVEX_CD8<32, CD8VT1>;
def VMOV64toPQIZrr : AVX512BI<0x6E, MRMSrcReg, (outs VR128X:$dst), (ins GR64:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set VR128X:$dst,
(v2i64 (scalar_to_vector GR64:$src)))],
IIC_SSE_MOVDQ>, EVEX, VEX_W, VEX_LIG;
let isCodeGenOnly = 1 in {
def VMOV64toSDZrr : AVX512BI<0x6E, MRMSrcReg, (outs FR64:$dst), (ins GR64:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set FR64:$dst, (bitconvert GR64:$src))],
IIC_SSE_MOVDQ>, EVEX, VEX_W, Sched<[WriteMove]>;
def VMOVSDto64Zrr : AVX512BI<0x7E, MRMDestReg, (outs GR64:$dst), (ins FR64:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set GR64:$dst, (bitconvert FR64:$src))],
IIC_SSE_MOVDQ>, EVEX, VEX_W, Sched<[WriteMove]>;
}
def VMOVSDto64Zmr : AVX512BI<0x7E, MRMDestMem, (outs), (ins i64mem:$dst, FR64:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(store (i64 (bitconvert FR64:$src)), addr:$dst)],
IIC_SSE_MOVDQ>, EVEX, VEX_W, Sched<[WriteStore]>,
EVEX_CD8<64, CD8VT1>;
// Move Int Doubleword to Single Scalar
//
let isCodeGenOnly = 1 in {
def VMOVDI2SSZrr : AVX512BI<0x6E, MRMSrcReg, (outs FR32X:$dst), (ins GR32:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(set FR32X:$dst, (bitconvert GR32:$src))],
IIC_SSE_MOVDQ>, EVEX, VEX_LIG;
def VMOVDI2SSZrm : AVX512BI<0x6E, MRMSrcMem, (outs FR32X:$dst), (ins i32mem:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(set FR32X:$dst, (bitconvert (loadi32 addr:$src)))],
IIC_SSE_MOVDQ>, EVEX, VEX_LIG, EVEX_CD8<32, CD8VT1>;
}
// Move doubleword from xmm register to r/m32
//
def VMOVPDI2DIZrr : AVX512BI<0x7E, MRMDestReg, (outs GR32:$dst), (ins VR128X:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(set GR32:$dst, (vector_extract (v4i32 VR128X:$src),
(iPTR 0)))], IIC_SSE_MOVD_ToGP>,
EVEX, VEX_LIG;
def VMOVPDI2DIZmr : AVX512BI<0x7E, MRMDestMem, (outs),
(ins i32mem:$dst, VR128X:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(store (i32 (vector_extract (v4i32 VR128X:$src),
(iPTR 0))), addr:$dst)], IIC_SSE_MOVDQ>,
EVEX, VEX_LIG, EVEX_CD8<32, CD8VT1>;
// Move quadword from xmm1 register to r/m64
//
def VMOVPQIto64Zrr : I<0x7E, MRMDestReg, (outs GR64:$dst), (ins VR128X:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set GR64:$dst, (extractelt (v2i64 VR128X:$src),
(iPTR 0)))],
IIC_SSE_MOVD_ToGP>, PD, EVEX, VEX_LIG, VEX_W,
Requires<[HasAVX512, In64BitMode]>;
def VMOVPQIto64Zmr : I<0xD6, MRMDestMem, (outs),
(ins i64mem:$dst, VR128X:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(store (extractelt (v2i64 VR128X:$src), (iPTR 0)),
addr:$dst)], IIC_SSE_MOVDQ>,
EVEX, PD, VEX_LIG, VEX_W, EVEX_CD8<64, CD8VT1>,
Sched<[WriteStore]>, Requires<[HasAVX512, In64BitMode]>;
// Move Scalar Single to Double Int
//
let isCodeGenOnly = 1 in {
def VMOVSS2DIZrr : AVX512BI<0x7E, MRMDestReg, (outs GR32:$dst),
(ins FR32X:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(set GR32:$dst, (bitconvert FR32X:$src))],
IIC_SSE_MOVD_ToGP>, EVEX, VEX_LIG;
def VMOVSS2DIZmr : AVX512BI<0x7E, MRMDestMem, (outs),
(ins i32mem:$dst, FR32X:$src),
"vmovd\t{$src, $dst|$dst, $src}",
[(store (i32 (bitconvert FR32X:$src)), addr:$dst)],
IIC_SSE_MOVDQ>, EVEX, VEX_LIG, EVEX_CD8<32, CD8VT1>;
}
// Move Quadword Int to Packed Quadword Int
//
def VMOVQI2PQIZrm : AVX512BI<0x6E, MRMSrcMem, (outs VR128X:$dst),
(ins i64mem:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set VR128X:$dst,
(v2i64 (scalar_to_vector (loadi64 addr:$src))))]>,
EVEX, VEX_LIG, VEX_W, EVEX_CD8<64, CD8VT1>;
//===----------------------------------------------------------------------===//
// AVX-512 MOVSS, MOVSD
//===----------------------------------------------------------------------===//
multiclass avx512_move_scalar <string asm, RegisterClass RC,
SDNode OpNode, ValueType vt,
X86MemOperand x86memop, PatFrag mem_pat> {
let hasSideEffects = 0 in {
def rr : SI<0x10, MRMSrcReg, (outs VR128X:$dst), (ins VR128X:$src1, RC:$src2),
!strconcat(asm, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set VR128X:$dst, (vt (OpNode VR128X:$src1,
(scalar_to_vector RC:$src2))))],
IIC_SSE_MOV_S_RR>, EVEX_4V, VEX_LIG;
let Constraints = "$src1 = $dst" in
def rrk : SI<0x10, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src1, VK1WM:$mask, RC:$src2, RC:$src3),
!strconcat(asm,
" \t{$src3, $src2, $dst {${mask}}|$dst {${mask}}, $src2, $src3}"),
[], IIC_SSE_MOV_S_RR>, EVEX_4V, VEX_LIG, EVEX_K;
def rm : SI<0x10, MRMSrcMem, (outs RC:$dst), (ins x86memop:$src),
!strconcat(asm, " \t{$src, $dst|$dst, $src}"),
[(set RC:$dst, (mem_pat addr:$src))], IIC_SSE_MOV_S_RM>,
EVEX, VEX_LIG;
let mayStore = 1 in {
def mr: SI<0x11, MRMDestMem, (outs), (ins x86memop:$dst, RC:$src),
!strconcat(asm, " \t{$src, $dst|$dst, $src}"),
[(store RC:$src, addr:$dst)], IIC_SSE_MOV_S_MR>,
EVEX, VEX_LIG;
def mrk: SI<0x11, MRMDestMem, (outs), (ins x86memop:$dst, VK1WM:$mask, RC:$src),
!strconcat(asm, " \t{$src, $dst {${mask}}|$dst {${mask}}, $src}"),
[], IIC_SSE_MOV_S_MR>,
EVEX, VEX_LIG, EVEX_K;
} // mayStore
} //hasSideEffects = 0
}
let ExeDomain = SSEPackedSingle in
defm VMOVSSZ : avx512_move_scalar<"movss", FR32X, X86Movss, v4f32, f32mem,
loadf32>, XS, EVEX_CD8<32, CD8VT1>;
let ExeDomain = SSEPackedDouble in
defm VMOVSDZ : avx512_move_scalar<"movsd", FR64X, X86Movsd, v2f64, f64mem,
loadf64>, XD, VEX_W, EVEX_CD8<64, CD8VT1>;
def : Pat<(f32 (X86select VK1WM:$mask, (f32 FR32X:$src1), (f32 FR32X:$src2))),
(COPY_TO_REGCLASS (VMOVSSZrrk (COPY_TO_REGCLASS FR32X:$src2, VR128X),
VK1WM:$mask, (f32 (IMPLICIT_DEF)), FR32X:$src1), FR32X)>;
def : Pat<(f64 (X86select VK1WM:$mask, (f64 FR64X:$src1), (f64 FR64X:$src2))),
(COPY_TO_REGCLASS (VMOVSDZrrk (COPY_TO_REGCLASS FR64X:$src2, VR128X),
VK1WM:$mask, (f64 (IMPLICIT_DEF)), FR64X:$src1), FR64X)>;
def : Pat<(int_x86_avx512_mask_store_ss addr:$dst, VR128X:$src, GR8:$mask),
(VMOVSSZmrk addr:$dst, (i1 (COPY_TO_REGCLASS GR8:$mask, VK1WM)),
(COPY_TO_REGCLASS VR128X:$src, FR32X))>;
// For the disassembler
let isCodeGenOnly = 1, ForceDisassemble = 1, hasSideEffects = 0 in {
def VMOVSSZrr_REV : SI<0x11, MRMDestReg, (outs VR128X:$dst),
(ins VR128X:$src1, FR32X:$src2),
"movss\t{$src2, $src1, $dst|$dst, $src1, $src2}", [],
IIC_SSE_MOV_S_RR>,
XS, EVEX_4V, VEX_LIG;
def VMOVSDZrr_REV : SI<0x11, MRMDestReg, (outs VR128X:$dst),
(ins VR128X:$src1, FR64X:$src2),
"movsd\t{$src2, $src1, $dst|$dst, $src1, $src2}", [],
IIC_SSE_MOV_S_RR>,
XD, EVEX_4V, VEX_LIG, VEX_W;
}
let Predicates = [HasAVX512] in {
let AddedComplexity = 15 in {
// Move scalar to XMM zero-extended, zeroing a VR128X then do a
// MOVS{S,D} to the lower bits.
def : Pat<(v4f32 (X86vzmovl (v4f32 (scalar_to_vector FR32X:$src)))),
(VMOVSSZrr (v4f32 (V_SET0)), FR32X:$src)>;
def : Pat<(v4f32 (X86vzmovl (v4f32 VR128X:$src))),
(VMOVSSZrr (v4f32 (V_SET0)), (COPY_TO_REGCLASS VR128X:$src, FR32X))>;
def : Pat<(v4i32 (X86vzmovl (v4i32 VR128X:$src))),
(VMOVSSZrr (v4i32 (V_SET0)), (COPY_TO_REGCLASS VR128X:$src, FR32X))>;
def : Pat<(v2f64 (X86vzmovl (v2f64 (scalar_to_vector FR64X:$src)))),
(VMOVSDZrr (v2f64 (V_SET0)), FR64X:$src)>;
// Move low f32 and clear high bits.
def : Pat<(v8f32 (X86vzmovl (v8f32 VR256X:$src))),
(SUBREG_TO_REG (i32 0),
(VMOVSSZrr (v4f32 (V_SET0)),
(EXTRACT_SUBREG (v8f32 VR256X:$src), sub_xmm)), sub_xmm)>;
def : Pat<(v8i32 (X86vzmovl (v8i32 VR256X:$src))),
(SUBREG_TO_REG (i32 0),
(VMOVSSZrr (v4i32 (V_SET0)),
(EXTRACT_SUBREG (v8i32 VR256X:$src), sub_xmm)), sub_xmm)>;
}
let AddedComplexity = 20 in {
// MOVSSrm zeros the high parts of the register; represent this
// with SUBREG_TO_REG. The AVX versions also write: DST[255:128] <- 0
def : Pat<(v4f32 (X86vzmovl (v4f32 (scalar_to_vector (loadf32 addr:$src))))),
(COPY_TO_REGCLASS (VMOVSSZrm addr:$src), VR128X)>;
def : Pat<(v4f32 (scalar_to_vector (loadf32 addr:$src))),
(COPY_TO_REGCLASS (VMOVSSZrm addr:$src), VR128X)>;
def : Pat<(v4f32 (X86vzmovl (loadv4f32 addr:$src))),
(COPY_TO_REGCLASS (VMOVSSZrm addr:$src), VR128X)>;
// MOVSDrm zeros the high parts of the register; represent this
// with SUBREG_TO_REG. The AVX versions also write: DST[255:128] <- 0
def : Pat<(v2f64 (X86vzmovl (v2f64 (scalar_to_vector (loadf64 addr:$src))))),
(COPY_TO_REGCLASS (VMOVSDZrm addr:$src), VR128X)>;
def : Pat<(v2f64 (scalar_to_vector (loadf64 addr:$src))),
(COPY_TO_REGCLASS (VMOVSDZrm addr:$src), VR128X)>;
def : Pat<(v2f64 (X86vzmovl (loadv2f64 addr:$src))),
(COPY_TO_REGCLASS (VMOVSDZrm addr:$src), VR128X)>;
def : Pat<(v2f64 (X86vzmovl (bc_v2f64 (loadv4f32 addr:$src)))),
(COPY_TO_REGCLASS (VMOVSDZrm addr:$src), VR128X)>;
def : Pat<(v2f64 (X86vzload addr:$src)),
(COPY_TO_REGCLASS (VMOVSDZrm addr:$src), VR128X)>;
// Represent the same patterns above but in the form they appear for
// 256-bit types
def : Pat<(v8i32 (X86vzmovl (insert_subvector undef,
(v4i32 (scalar_to_vector (loadi32 addr:$src))), (iPTR 0)))),
(SUBREG_TO_REG (i32 0), (VMOVDI2PDIZrm addr:$src), sub_xmm)>;
def : Pat<(v8f32 (X86vzmovl (insert_subvector undef,
(v4f32 (scalar_to_vector (loadf32 addr:$src))), (iPTR 0)))),
(SUBREG_TO_REG (i32 0), (VMOVSSZrm addr:$src), sub_xmm)>;
def : Pat<(v4f64 (X86vzmovl (insert_subvector undef,
(v2f64 (scalar_to_vector (loadf64 addr:$src))), (iPTR 0)))),
(SUBREG_TO_REG (i32 0), (VMOVSDZrm addr:$src), sub_xmm)>;
}
def : Pat<(v8f32 (X86vzmovl (insert_subvector undef,
(v4f32 (scalar_to_vector FR32X:$src)), (iPTR 0)))),
(SUBREG_TO_REG (i32 0), (v4f32 (VMOVSSZrr (v4f32 (V_SET0)),
FR32X:$src)), sub_xmm)>;
def : Pat<(v4f64 (X86vzmovl (insert_subvector undef,
(v2f64 (scalar_to_vector FR64X:$src)), (iPTR 0)))),
(SUBREG_TO_REG (i64 0), (v2f64 (VMOVSDZrr (v2f64 (V_SET0)),
FR64X:$src)), sub_xmm)>;
def : Pat<(v4i64 (X86vzmovl (insert_subvector undef,
(v2i64 (scalar_to_vector (loadi64 addr:$src))), (iPTR 0)))),
(SUBREG_TO_REG (i64 0), (VMOVQI2PQIZrm addr:$src), sub_xmm)>;
// Move low f64 and clear high bits.
def : Pat<(v4f64 (X86vzmovl (v4f64 VR256X:$src))),
(SUBREG_TO_REG (i32 0),
(VMOVSDZrr (v2f64 (V_SET0)),
(EXTRACT_SUBREG (v4f64 VR256X:$src), sub_xmm)), sub_xmm)>;
def : Pat<(v4i64 (X86vzmovl (v4i64 VR256X:$src))),
(SUBREG_TO_REG (i32 0), (VMOVSDZrr (v2i64 (V_SET0)),
(EXTRACT_SUBREG (v4i64 VR256X:$src), sub_xmm)), sub_xmm)>;
// Extract and store.
def : Pat<(store (f32 (vector_extract (v4f32 VR128X:$src), (iPTR 0))),
addr:$dst),
(VMOVSSZmr addr:$dst, (COPY_TO_REGCLASS (v4f32 VR128X:$src), FR32X))>;
def : Pat<(store (f64 (vector_extract (v2f64 VR128X:$src), (iPTR 0))),
addr:$dst),
(VMOVSDZmr addr:$dst, (COPY_TO_REGCLASS (v2f64 VR128X:$src), FR64X))>;
// Shuffle with VMOVSS
def : Pat<(v4i32 (X86Movss VR128X:$src1, VR128X:$src2)),
(VMOVSSZrr (v4i32 VR128X:$src1),
(COPY_TO_REGCLASS (v4i32 VR128X:$src2), FR32X))>;
def : Pat<(v4f32 (X86Movss VR128X:$src1, VR128X:$src2)),
(VMOVSSZrr (v4f32 VR128X:$src1),
(COPY_TO_REGCLASS (v4f32 VR128X:$src2), FR32X))>;
// 256-bit variants
def : Pat<(v8i32 (X86Movss VR256X:$src1, VR256X:$src2)),
(SUBREG_TO_REG (i32 0),
(VMOVSSZrr (EXTRACT_SUBREG (v8i32 VR256X:$src1), sub_xmm),
(EXTRACT_SUBREG (v8i32 VR256X:$src2), sub_xmm)),
sub_xmm)>;
def : Pat<(v8f32 (X86Movss VR256X:$src1, VR256X:$src2)),
(SUBREG_TO_REG (i32 0),
(VMOVSSZrr (EXTRACT_SUBREG (v8f32 VR256X:$src1), sub_xmm),
(EXTRACT_SUBREG (v8f32 VR256X:$src2), sub_xmm)),
sub_xmm)>;
// Shuffle with VMOVSD
def : Pat<(v2i64 (X86Movsd VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
def : Pat<(v2f64 (X86Movsd VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
def : Pat<(v4f32 (X86Movsd VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
def : Pat<(v4i32 (X86Movsd VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
// 256-bit variants
def : Pat<(v4i64 (X86Movsd VR256X:$src1, VR256X:$src2)),
(SUBREG_TO_REG (i32 0),
(VMOVSDZrr (EXTRACT_SUBREG (v4i64 VR256X:$src1), sub_xmm),
(EXTRACT_SUBREG (v4i64 VR256X:$src2), sub_xmm)),
sub_xmm)>;
def : Pat<(v4f64 (X86Movsd VR256X:$src1, VR256X:$src2)),
(SUBREG_TO_REG (i32 0),
(VMOVSDZrr (EXTRACT_SUBREG (v4f64 VR256X:$src1), sub_xmm),
(EXTRACT_SUBREG (v4f64 VR256X:$src2), sub_xmm)),
sub_xmm)>;
def : Pat<(v2f64 (X86Movlpd VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
def : Pat<(v2i64 (X86Movlpd VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
def : Pat<(v4f32 (X86Movlps VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
def : Pat<(v4i32 (X86Movlps VR128X:$src1, VR128X:$src2)),
(VMOVSDZrr VR128X:$src1, (COPY_TO_REGCLASS VR128X:$src2, FR64X))>;
}
let AddedComplexity = 15 in
def VMOVZPQILo2PQIZrr : AVX512XSI<0x7E, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set VR128X:$dst, (v2i64 (X86vzmovl
(v2i64 VR128X:$src))))],
IIC_SSE_MOVQ_RR>, EVEX, VEX_W;
let AddedComplexity = 20 in
def VMOVZPQILo2PQIZrm : AVX512XSI<0x7E, MRMSrcMem, (outs VR128X:$dst),
(ins i128mem:$src),
"vmovq\t{$src, $dst|$dst, $src}",
[(set VR128X:$dst, (v2i64 (X86vzmovl
(loadv2i64 addr:$src))))],
IIC_SSE_MOVDQ>, EVEX, VEX_W,
EVEX_CD8<8, CD8VT8>;
let Predicates = [HasAVX512] in {
// AVX 128-bit movd/movq instruction write zeros in the high 128-bit part.
let AddedComplexity = 20 in {
def : Pat<(v4i32 (X86vzmovl (v4i32 (scalar_to_vector (loadi32 addr:$src))))),
(VMOVDI2PDIZrm addr:$src)>;
def : Pat<(v2i64 (X86vzmovl (v2i64 (scalar_to_vector GR64:$src)))),
(VMOV64toPQIZrr GR64:$src)>;
def : Pat<(v4i32 (X86vzmovl (v4i32 (scalar_to_vector GR32:$src)))),
(VMOVDI2PDIZrr GR32:$src)>;
def : Pat<(v4i32 (X86vzmovl (bc_v4i32 (loadv4f32 addr:$src)))),
(VMOVDI2PDIZrm addr:$src)>;
def : Pat<(v4i32 (X86vzmovl (bc_v4i32 (loadv2i64 addr:$src)))),
(VMOVDI2PDIZrm addr:$src)>;
def : Pat<(v2i64 (X86vzmovl (loadv2i64 addr:$src))),
(VMOVZPQILo2PQIZrm addr:$src)>;
def : Pat<(v2f64 (X86vzmovl (v2f64 VR128X:$src))),
(VMOVZPQILo2PQIZrr VR128X:$src)>;
def : Pat<(v2i64 (X86vzload addr:$src)),
(VMOVZPQILo2PQIZrm addr:$src)>;
}
// Use regular 128-bit instructions to match 256-bit scalar_to_vec+zext.
def : Pat<(v8i32 (X86vzmovl (insert_subvector undef,
(v4i32 (scalar_to_vector GR32:$src)),(iPTR 0)))),
(SUBREG_TO_REG (i32 0), (VMOVDI2PDIZrr GR32:$src), sub_xmm)>;
def : Pat<(v4i64 (X86vzmovl (insert_subvector undef,
(v2i64 (scalar_to_vector GR64:$src)),(iPTR 0)))),
(SUBREG_TO_REG (i64 0), (VMOV64toPQIZrr GR64:$src), sub_xmm)>;
}
def : Pat<(v16i32 (X86Vinsert (v16i32 immAllZerosV), GR32:$src2, (iPTR 0))),
(SUBREG_TO_REG (i32 0), (VMOVDI2PDIZrr GR32:$src2), sub_xmm)>;
def : Pat<(v8i64 (X86Vinsert (bc_v8i64 (v16i32 immAllZerosV)), GR64:$src2, (iPTR 0))),
(SUBREG_TO_REG (i32 0), (VMOV64toPQIZrr GR64:$src2), sub_xmm)>;
def : Pat<(v16i32 (X86Vinsert undef, GR32:$src2, (iPTR 0))),
(SUBREG_TO_REG (i32 0), (VMOVDI2PDIZrr GR32:$src2), sub_xmm)>;
def : Pat<(v8i64 (X86Vinsert undef, GR64:$src2, (iPTR 0))),
(SUBREG_TO_REG (i32 0), (VMOV64toPQIZrr GR64:$src2), sub_xmm)>;
//===----------------------------------------------------------------------===//
// AVX-512 - Non-temporals
//===----------------------------------------------------------------------===//
let SchedRW = [WriteLoad] in {
def VMOVNTDQAZrm : AVX512PI<0x2A, MRMSrcMem, (outs VR512:$dst),
(ins i512mem:$src), "vmovntdqa\t{$src, $dst|$dst, $src}",
[(set VR512:$dst, (int_x86_avx512_movntdqa addr:$src))],
SSEPackedInt>, EVEX, T8PD, EVEX_V512,
EVEX_CD8<64, CD8VF>;
let Predicates = [HasAVX512, HasVLX] in {
def VMOVNTDQAZ256rm : AVX512PI<0x2A, MRMSrcMem, (outs VR256X:$dst),
(ins i256mem:$src),
"vmovntdqa\t{$src, $dst|$dst, $src}", [],
SSEPackedInt>, EVEX, T8PD, EVEX_V256,
EVEX_CD8<64, CD8VF>;
def VMOVNTDQAZ128rm : AVX512PI<0x2A, MRMSrcMem, (outs VR128X:$dst),
(ins i128mem:$src),
"vmovntdqa\t{$src, $dst|$dst, $src}", [],
SSEPackedInt>, EVEX, T8PD, EVEX_V128,
EVEX_CD8<64, CD8VF>;
}
}
multiclass avx512_movnt<bits<8> opc, string OpcodeStr, PatFrag st_frag,
ValueType OpVT, RegisterClass RC, X86MemOperand memop,
Domain d, InstrItinClass itin = IIC_SSE_MOVNT> {
let SchedRW = [WriteStore], mayStore = 1,
AddedComplexity = 400 in
def mr : AVX512PI<opc, MRMDestMem, (outs), (ins memop:$dst, RC:$src),
!strconcat(OpcodeStr, "\t{$src, $dst|$dst, $src}"),
[(st_frag (OpVT RC:$src), addr:$dst)], d, itin>, EVEX;
}
multiclass avx512_movnt_vl<bits<8> opc, string OpcodeStr, PatFrag st_frag,
string elty, string elsz, string vsz512,
string vsz256, string vsz128, Domain d,
Predicate prd, InstrItinClass itin = IIC_SSE_MOVNT> {
let Predicates = [prd] in
defm Z : avx512_movnt<opc, OpcodeStr, st_frag,
!cast<ValueType>("v"##vsz512##elty##elsz), VR512,
!cast<X86MemOperand>(elty##"512mem"), d, itin>,
EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_movnt<opc, OpcodeStr, st_frag,
!cast<ValueType>("v"##vsz256##elty##elsz), VR256X,
!cast<X86MemOperand>(elty##"256mem"), d, itin>,
EVEX_V256;
defm Z128 : avx512_movnt<opc, OpcodeStr, st_frag,
!cast<ValueType>("v"##vsz128##elty##elsz), VR128X,
!cast<X86MemOperand>(elty##"128mem"), d, itin>,
EVEX_V128;
}
}
defm VMOVNTDQ : avx512_movnt_vl<0xE7, "vmovntdq", alignednontemporalstore,
"i", "64", "8", "4", "2", SSEPackedInt,
HasAVX512>, PD, EVEX_CD8<64, CD8VF>;
defm VMOVNTPD : avx512_movnt_vl<0x2B, "vmovntpd", alignednontemporalstore,
"f", "64", "8", "4", "2", SSEPackedDouble,
HasAVX512>, PD, VEX_W, EVEX_CD8<64, CD8VF>;
defm VMOVNTPS : avx512_movnt_vl<0x2B, "vmovntps", alignednontemporalstore,
"f", "32", "16", "8", "4", SSEPackedSingle,
HasAVX512>, PS, EVEX_CD8<32, CD8VF>;
//===----------------------------------------------------------------------===//
// AVX-512 - Integer arithmetic
//
multiclass avx512_binop_rm<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _, OpndItins itins,
bit IsCommutable = 0> {
defm rr : AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src2), OpcodeStr##_.Suffix,
"$src2, $src1", "$src1, $src2",
(_.VT (OpNode _.RC:$src1, _.RC:$src2)),
"", itins.rr, IsCommutable>,
AVX512BIBase, EVEX_4V;
let mayLoad = 1 in
defm rm : AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.MemOp:$src2), OpcodeStr##_.Suffix,
"$src2, $src1", "$src1, $src2",
(_.VT (OpNode _.RC:$src1,
(bitconvert (_.LdFrag addr:$src2)))),
"", itins.rm>,
AVX512BIBase, EVEX_4V;
}
multiclass avx512_binop_rmb<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _, OpndItins itins,
bit IsCommutable = 0> :
avx512_binop_rm<opc, OpcodeStr, OpNode, _, itins, IsCommutable> {
let mayLoad = 1 in
defm rmb : AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.ScalarMemOp:$src2), OpcodeStr##_.Suffix,
"${src2}"##_.BroadcastStr##", $src1",
"$src1, ${src2}"##_.BroadcastStr,
(_.VT (OpNode _.RC:$src1,
(X86VBroadcast
(_.ScalarLdFrag addr:$src2)))),
"", itins.rm>,
AVX512BIBase, EVEX_4V, EVEX_B;
}
multiclass avx512_binop_rm_vl<bits<8> opc, string OpcodeStr, SDNode OpNode,
AVX512VLVectorVTInfo VTInfo, OpndItins itins,
Predicate prd, bit IsCommutable = 0> {
let Predicates = [prd] in
defm Z : avx512_binop_rm<opc, OpcodeStr, OpNode, VTInfo.info512, itins,
IsCommutable>, EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_binop_rm<opc, OpcodeStr, OpNode, VTInfo.info256, itins,
IsCommutable>, EVEX_V256;
defm Z128 : avx512_binop_rm<opc, OpcodeStr, OpNode, VTInfo.info128, itins,
IsCommutable>, EVEX_V128;
}
}
multiclass avx512_binop_rmb_vl<bits<8> opc, string OpcodeStr, SDNode OpNode,
AVX512VLVectorVTInfo VTInfo, OpndItins itins,
Predicate prd, bit IsCommutable = 0> {
let Predicates = [prd] in
defm Z : avx512_binop_rmb<opc, OpcodeStr, OpNode, VTInfo.info512, itins,
IsCommutable>, EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : avx512_binop_rmb<opc, OpcodeStr, OpNode, VTInfo.info256, itins,
IsCommutable>, EVEX_V256;
defm Z128 : avx512_binop_rmb<opc, OpcodeStr, OpNode, VTInfo.info128, itins,
IsCommutable>, EVEX_V128;
}
}
multiclass avx512_binop_rm_vl_q<bits<8> opc, string OpcodeStr, SDNode OpNode,
OpndItins itins, Predicate prd,
bit IsCommutable = 0> {
defm NAME : avx512_binop_rmb_vl<opc, OpcodeStr, OpNode, avx512vl_i64_info,
itins, prd, IsCommutable>,
VEX_W, EVEX_CD8<64, CD8VF>;
}
multiclass avx512_binop_rm_vl_d<bits<8> opc, string OpcodeStr, SDNode OpNode,
OpndItins itins, Predicate prd,
bit IsCommutable = 0> {
defm NAME : avx512_binop_rmb_vl<opc, OpcodeStr, OpNode, avx512vl_i32_info,
itins, prd, IsCommutable>, EVEX_CD8<32, CD8VF>;
}
multiclass avx512_binop_rm_vl_w<bits<8> opc, string OpcodeStr, SDNode OpNode,
OpndItins itins, Predicate prd,
bit IsCommutable = 0> {
defm NAME : avx512_binop_rm_vl<opc, OpcodeStr, OpNode, avx512vl_i16_info,
itins, prd, IsCommutable>, EVEX_CD8<16, CD8VF>;
}
multiclass avx512_binop_rm_vl_b<bits<8> opc, string OpcodeStr, SDNode OpNode,
OpndItins itins, Predicate prd,
bit IsCommutable = 0> {
defm NAME : avx512_binop_rm_vl<opc, OpcodeStr, OpNode, avx512vl_i8_info,
itins, prd, IsCommutable>, EVEX_CD8<8, CD8VF>;
}
multiclass avx512_binop_rm_vl_dq<bits<8> opc_d, bits<8> opc_q, string OpcodeStr,
SDNode OpNode, OpndItins itins, Predicate prd,
bit IsCommutable = 0> {
defm Q : avx512_binop_rm_vl_q<opc_q, OpcodeStr, OpNode, itins, prd,
IsCommutable>;
defm D : avx512_binop_rm_vl_d<opc_d, OpcodeStr, OpNode, itins, prd,
IsCommutable>;
}
multiclass avx512_binop_rm_vl_bw<bits<8> opc_b, bits<8> opc_w, string OpcodeStr,
SDNode OpNode, OpndItins itins, Predicate prd,
bit IsCommutable = 0> {
defm W : avx512_binop_rm_vl_w<opc_w, OpcodeStr, OpNode, itins, prd,
IsCommutable>;
defm B : avx512_binop_rm_vl_b<opc_b, OpcodeStr, OpNode, itins, prd,
IsCommutable>;
}
multiclass avx512_binop_rm_vl_all<bits<8> opc_b, bits<8> opc_w,
bits<8> opc_d, bits<8> opc_q,
string OpcodeStr, SDNode OpNode,
OpndItins itins, bit IsCommutable = 0> {
defm NAME : avx512_binop_rm_vl_dq<opc_d, opc_q, OpcodeStr, OpNode,
itins, HasAVX512, IsCommutable>,
avx512_binop_rm_vl_bw<opc_b, opc_w, OpcodeStr, OpNode,
itins, HasBWI, IsCommutable>;
}
multiclass avx512_binop_rm2<bits<8> opc, string OpcodeStr, ValueType DstVT,
ValueType SrcVT, RegisterClass KRC, RegisterClass RC,
PatFrag memop_frag, X86MemOperand x86memop,
PatFrag scalar_mfrag, X86MemOperand x86scalar_mop,
string BrdcstStr, OpndItins itins, bit IsCommutable = 0> {
let isCommutable = IsCommutable in
{
def rr : AVX512BI<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[]>, EVEX_4V;
def rrk : AVX512BI<opc, MRMSrcReg, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst {${mask}}|$dst {${mask}}, $src1, $src2}"),
[], itins.rr>, EVEX_4V, EVEX_K;
def rrkz : AVX512BI<opc, MRMSrcReg, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, RC:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst {${mask}} {z}" ,
"|$dst {${mask}} {z}, $src1, $src2}"),
[], itins.rr>, EVEX_4V, EVEX_KZ;
}
let mayLoad = 1 in {
def rm : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[]>, EVEX_4V;
def rmk : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst {${mask}}|$dst {${mask}}, $src1, $src2}"),
[], itins.rm>, EVEX_4V, EVEX_K;
def rmkz : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst {${mask}} {z}|$dst {${mask}} {z}, $src1, $src2}"),
[], itins.rm>, EVEX_4V, EVEX_KZ;
def rmb : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86scalar_mop:$src2),
!strconcat(OpcodeStr, " \t{${src2}", BrdcstStr,
", $src1, $dst|$dst, $src1, ${src2}", BrdcstStr, "}"),
[], itins.rm>, EVEX_4V, EVEX_B;
def rmbk : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, x86scalar_mop:$src2),
!strconcat(OpcodeStr, " \t{${src2}", BrdcstStr,
", $src1, $dst {${mask}}|$dst {${mask}}, $src1, ${src2}",
BrdcstStr, "}"),
[], itins.rm>, EVEX_4V, EVEX_B, EVEX_K;
def rmbkz : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, x86scalar_mop:$src2),
!strconcat(OpcodeStr, " \t{${src2}", BrdcstStr,
", $src1, $dst {${mask}} {z}|$dst {${mask}} {z}, $src1, ${src2}",
BrdcstStr, "}"),
[], itins.rm>, EVEX_4V, EVEX_B, EVEX_KZ;
}
}
defm VPADD : avx512_binop_rm_vl_all<0xFC, 0xFD, 0xFE, 0xD4, "vpadd", add,
SSE_INTALU_ITINS_P, 1>;
defm VPSUB : avx512_binop_rm_vl_all<0xF8, 0xF9, 0xFA, 0xFB, "vpsub", sub,
SSE_INTALU_ITINS_P, 0>;
defm VPMULLD : avx512_binop_rm_vl_d<0x40, "vpmull", mul,
SSE_INTALU_ITINS_P, HasAVX512, 1>, T8PD;
defm VPMULLW : avx512_binop_rm_vl_w<0xD5, "vpmull", mul,
SSE_INTALU_ITINS_P, HasBWI, 1>;
defm VPMULLQ : avx512_binop_rm_vl_q<0x40, "vpmull", mul,
SSE_INTALU_ITINS_P, HasDQI, 1>, T8PD;
defm VPMULDQZ : avx512_binop_rm2<0x28, "vpmuldq", v8i64, v16i32, VK8WM, VR512,
memopv8i64, i512mem, loadi64, i64mem, "{1to8}",
SSE_INTALU_ITINS_P, 1>, T8PD, EVEX_V512,
EVEX_CD8<64, CD8VF>, VEX_W;
defm VPMULUDQZ : avx512_binop_rm2<0xF4, "vpmuludq", v8i64, v16i32, VK8WM, VR512,
memopv8i64, i512mem, loadi64, i64mem, "{1to8}",
SSE_INTMUL_ITINS_P, 1>, EVEX_V512, EVEX_CD8<64, CD8VF>, VEX_W;
def : Pat<(v8i64 (X86pmuludq (v16i32 VR512:$src1), (v16i32 VR512:$src2))),
(VPMULUDQZrr VR512:$src1, VR512:$src2)>;
def : Pat<(v8i64 (int_x86_avx512_mask_pmulu_dq_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPMULUDQZrr VR512:$src1, VR512:$src2)>;
def : Pat<(v8i64 (int_x86_avx512_mask_pmul_dq_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPMULDQZrr VR512:$src1, VR512:$src2)>;
defm VPMAXSB : avx512_binop_rm_vl_b<0x3C, "vpmaxs", X86smax,
SSE_INTALU_ITINS_P, HasBWI, 1>, T8PD;
defm VPMAXSW : avx512_binop_rm_vl_w<0xEE, "vpmaxs", X86smax,
SSE_INTALU_ITINS_P, HasBWI, 1>;
defm VPMAXS : avx512_binop_rm_vl_dq<0x3D, 0x3D, "vpmaxs", X86smax,
SSE_INTALU_ITINS_P, HasAVX512, 1>, T8PD;
defm VPMAXUB : avx512_binop_rm_vl_b<0xDE, "vpmaxu", X86umax,
SSE_INTALU_ITINS_P, HasBWI, 1>;
defm VPMAXUW : avx512_binop_rm_vl_w<0x3E, "vpmaxu", X86umax,
SSE_INTALU_ITINS_P, HasBWI, 1>, T8PD;
defm VPMAXU : avx512_binop_rm_vl_dq<0x3F, 0x3F, "vpmaxu", X86umax,
SSE_INTALU_ITINS_P, HasAVX512, 1>, T8PD;
defm VPMINSB : avx512_binop_rm_vl_b<0x38, "vpmins", X86smin,
SSE_INTALU_ITINS_P, HasBWI, 1>, T8PD;
defm VPMINSW : avx512_binop_rm_vl_w<0xEA, "vpmins", X86smin,
SSE_INTALU_ITINS_P, HasBWI, 1>;
defm VPMINS : avx512_binop_rm_vl_dq<0x39, 0x39, "vpmins", X86smin,
SSE_INTALU_ITINS_P, HasAVX512, 1>, T8PD;
defm VPMINUB : avx512_binop_rm_vl_b<0xDA, "vpminu", X86umin,
SSE_INTALU_ITINS_P, HasBWI, 1>;
defm VPMINUW : avx512_binop_rm_vl_w<0x3A, "vpminu", X86umin,
SSE_INTALU_ITINS_P, HasBWI, 1>, T8PD;
defm VPMINU : avx512_binop_rm_vl_dq<0x3B, 0x3B, "vpminu", X86umin,
SSE_INTALU_ITINS_P, HasAVX512, 1>, T8PD;
def : Pat <(v16i32 (int_x86_avx512_mask_pmaxs_d_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (v16i32 immAllZerosV), (i16 -1))),
(VPMAXSDZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v16i32 (int_x86_avx512_mask_pmaxu_d_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (v16i32 immAllZerosV), (i16 -1))),
(VPMAXUDZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v8i64 (int_x86_avx512_mask_pmaxs_q_512 (v8i64 VR512:$src1),
(v8i64 VR512:$src2), (bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPMAXSQZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v8i64 (int_x86_avx512_mask_pmaxu_q_512 (v8i64 VR512:$src1),
(v8i64 VR512:$src2), (bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPMAXUQZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v16i32 (int_x86_avx512_mask_pmins_d_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (v16i32 immAllZerosV), (i16 -1))),
(VPMINSDZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v16i32 (int_x86_avx512_mask_pminu_d_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (v16i32 immAllZerosV), (i16 -1))),
(VPMINUDZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v8i64 (int_x86_avx512_mask_pmins_q_512 (v8i64 VR512:$src1),
(v8i64 VR512:$src2), (bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPMINSQZrr VR512:$src1, VR512:$src2)>;
def : Pat <(v8i64 (int_x86_avx512_mask_pminu_q_512 (v8i64 VR512:$src1),
(v8i64 VR512:$src2), (bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPMINUQZrr VR512:$src1, VR512:$src2)>;
//===----------------------------------------------------------------------===//
// AVX-512 - Unpack Instructions
//===----------------------------------------------------------------------===//
multiclass avx512_unpack_fp<bits<8> opc, SDNode OpNode, ValueType vt,
PatFrag mem_frag, RegisterClass RC,
X86MemOperand x86memop, string asm,
Domain d> {
def rr : AVX512PI<opc, MRMSrcReg,
(outs RC:$dst), (ins RC:$src1, RC:$src2),
asm, [(set RC:$dst,
(vt (OpNode RC:$src1, RC:$src2)))],
d>, EVEX_4V;
def rm : AVX512PI<opc, MRMSrcMem,
(outs RC:$dst), (ins RC:$src1, x86memop:$src2),
asm, [(set RC:$dst,
(vt (OpNode RC:$src1,
(bitconvert (mem_frag addr:$src2)))))],
d>, EVEX_4V;
}
defm VUNPCKHPSZ: avx512_unpack_fp<0x15, X86Unpckh, v16f32, memopv8f64,
VR512, f512mem, "vunpckhps\t{$src2, $src1, $dst|$dst, $src1, $src2}",
SSEPackedSingle>, PS, EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VUNPCKHPDZ: avx512_unpack_fp<0x15, X86Unpckh, v8f64, memopv8f64,
VR512, f512mem, "vunpckhpd\t{$src2, $src1, $dst|$dst, $src1, $src2}",
SSEPackedDouble>, PD, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VUNPCKLPSZ: avx512_unpack_fp<0x14, X86Unpckl, v16f32, memopv8f64,
VR512, f512mem, "vunpcklps\t{$src2, $src1, $dst|$dst, $src1, $src2}",
SSEPackedSingle>, PS, EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VUNPCKLPDZ: avx512_unpack_fp<0x14, X86Unpckl, v8f64, memopv8f64,
VR512, f512mem, "vunpcklpd\t{$src2, $src1, $dst|$dst, $src1, $src2}",
SSEPackedDouble>, PD, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
multiclass avx512_unpack_int<bits<8> opc, string OpcodeStr, SDNode OpNode,
ValueType OpVT, RegisterClass RC, PatFrag memop_frag,
X86MemOperand x86memop> {
def rr : AVX512BI<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst, (OpVT (OpNode (OpVT RC:$src1), (OpVT RC:$src2))))],
IIC_SSE_UNPCK>, EVEX_4V;
def rm : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst, (OpVT (OpNode (OpVT RC:$src1),
(bitconvert (memop_frag addr:$src2)))))],
IIC_SSE_UNPCK>, EVEX_4V;
}
defm VPUNPCKLDQZ : avx512_unpack_int<0x62, "vpunpckldq", X86Unpckl, v16i32,
VR512, memopv16i32, i512mem>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPUNPCKLQDQZ : avx512_unpack_int<0x6C, "vpunpcklqdq", X86Unpckl, v8i64,
VR512, memopv8i64, i512mem>, EVEX_V512,
VEX_W, EVEX_CD8<64, CD8VF>;
defm VPUNPCKHDQZ : avx512_unpack_int<0x6A, "vpunpckhdq", X86Unpckh, v16i32,
VR512, memopv16i32, i512mem>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPUNPCKHQDQZ : avx512_unpack_int<0x6D, "vpunpckhqdq", X86Unpckh, v8i64,
VR512, memopv8i64, i512mem>, EVEX_V512,
VEX_W, EVEX_CD8<64, CD8VF>;
//===----------------------------------------------------------------------===//
// AVX-512 - PSHUFD
//
multiclass avx512_pshuf_imm<bits<8> opc, string OpcodeStr, RegisterClass RC,
SDNode OpNode, PatFrag mem_frag,
X86MemOperand x86memop, ValueType OpVT> {
def ri : AVX512Ii8<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, i8imm:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(OpVT (OpNode RC:$src1, (i8 imm:$src2))))]>,
EVEX;
def mi : AVX512Ii8<opc, MRMSrcMem, (outs RC:$dst),
(ins x86memop:$src1, i8imm:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(OpVT (OpNode (mem_frag addr:$src1),
(i8 imm:$src2))))]>, EVEX;
}
defm VPSHUFDZ : avx512_pshuf_imm<0x70, "vpshufd", VR512, X86PShufd, memopv16i32,
i512mem, v16i32>, PD, EVEX_V512, EVEX_CD8<32, CD8VF>;
//===----------------------------------------------------------------------===//
// AVX-512 Logical Instructions
//===----------------------------------------------------------------------===//
defm VPAND : avx512_binop_rm_vl_dq<0xDB, 0xDB, "vpand", and,
SSE_INTALU_ITINS_P, HasAVX512, 1>;
defm VPOR : avx512_binop_rm_vl_dq<0xEB, 0xEB, "vpor", or,
SSE_INTALU_ITINS_P, HasAVX512, 1>;
defm VPXOR : avx512_binop_rm_vl_dq<0xEF, 0xEF, "vpxor", xor,
SSE_INTALU_ITINS_P, HasAVX512, 1>;
defm VPANDN : avx512_binop_rm_vl_dq<0xDF, 0xDF, "vpandn", X86andnp,
SSE_INTALU_ITINS_P, HasAVX512, 1>;
//===----------------------------------------------------------------------===//
// AVX-512 FP arithmetic
//===----------------------------------------------------------------------===//
multiclass avx512_binop_s<bits<8> opc, string OpcodeStr, SDNode OpNode,
SizeItins itins> {
defm SSZ : sse12_fp_scalar<opc, !strconcat(OpcodeStr, "ss"), OpNode, FR32X,
f32mem, itins.s, 0>, XS, EVEX_4V, VEX_LIG,
EVEX_CD8<32, CD8VT1>;
defm SDZ : sse12_fp_scalar<opc, !strconcat(OpcodeStr, "sd"), OpNode, FR64X,
f64mem, itins.d, 0>, XD, VEX_W, EVEX_4V, VEX_LIG,
EVEX_CD8<64, CD8VT1>;
}
let isCommutable = 1 in {
defm VADD : avx512_binop_s<0x58, "add", fadd, SSE_ALU_ITINS_S>;
defm VMUL : avx512_binop_s<0x59, "mul", fmul, SSE_ALU_ITINS_S>;
defm VMIN : avx512_binop_s<0x5D, "min", X86fmin, SSE_ALU_ITINS_S>;
defm VMAX : avx512_binop_s<0x5F, "max", X86fmax, SSE_ALU_ITINS_S>;
}
let isCommutable = 0 in {
defm VSUB : avx512_binop_s<0x5C, "sub", fsub, SSE_ALU_ITINS_S>;
defm VDIV : avx512_binop_s<0x5E, "div", fdiv, SSE_ALU_ITINS_S>;
}
multiclass avx512_fp_packed<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _, bit IsCommutable> {
defm rr: AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src2), OpcodeStr##_.Suffix,
"$src2, $src1", "$src1, $src2",
(_.VT (OpNode _.RC:$src1, _.RC:$src2))>, EVEX_4V;
let mayLoad = 1 in {
defm rm: AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.MemOp:$src2), OpcodeStr##_.Suffix,
"$src2, $src1", "$src1, $src2",
(OpNode _.RC:$src1, (_.LdFrag addr:$src2))>, EVEX_4V;
defm rmb: AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.ScalarMemOp:$src2), OpcodeStr##_.Suffix,
"${src2}"##_.BroadcastStr##", $src1",
"$src1, ${src2}"##_.BroadcastStr,
(OpNode _.RC:$src1, (_.VT (X86VBroadcast
(_.ScalarLdFrag addr:$src2))))>,
EVEX_4V, EVEX_B;
}//let mayLoad = 1
}
multiclass avx512_fp_binop_p<bits<8> opc, string OpcodeStr, SDNode OpNode,
bit IsCommutable = 0> {
defm PSZ : avx512_fp_packed<opc, OpcodeStr, OpNode, v16f32_info,
IsCommutable>, EVEX_V512, PS,
EVEX_CD8<32, CD8VF>;
defm PDZ : avx512_fp_packed<opc, OpcodeStr, OpNode, v8f64_info,
IsCommutable>, EVEX_V512, PD, VEX_W,
EVEX_CD8<64, CD8VF>;
// Define only if AVX512VL feature is present.
let Predicates = [HasVLX] in {
defm PSZ128 : avx512_fp_packed<opc, OpcodeStr, OpNode, v4f32x_info,
IsCommutable>, EVEX_V128, PS,
EVEX_CD8<32, CD8VF>;
defm PSZ256 : avx512_fp_packed<opc, OpcodeStr, OpNode, v8f32x_info,
IsCommutable>, EVEX_V256, PS,
EVEX_CD8<32, CD8VF>;
defm PDZ128 : avx512_fp_packed<opc, OpcodeStr, OpNode, v2f64x_info,
IsCommutable>, EVEX_V128, PD, VEX_W,
EVEX_CD8<64, CD8VF>;
defm PDZ256 : avx512_fp_packed<opc, OpcodeStr, OpNode, v4f64x_info,
IsCommutable>, EVEX_V256, PD, VEX_W,
EVEX_CD8<64, CD8VF>;
}
}
defm VADD : avx512_fp_binop_p<0x58, "vadd", fadd, 1>;
defm VMUL : avx512_fp_binop_p<0x59, "vmul", fmul, 1>;
defm VMIN : avx512_fp_binop_p<0x5D, "vmin", X86fmin, 1>;
defm VMAX : avx512_fp_binop_p<0x5F, "vmax", X86fmax, 1>;
defm VSUB : avx512_fp_binop_p<0x5C, "vsub", fsub>;
defm VDIV : avx512_fp_binop_p<0x5E, "vdiv", fdiv>;
def : Pat<(v16f32 (int_x86_avx512_mask_max_ps_512 (v16f32 VR512:$src1),
(v16f32 VR512:$src2), (bc_v16f32 (v16i32 immAllZerosV)),
(i16 -1), FROUND_CURRENT)),
(VMAXPSZrr VR512:$src1, VR512:$src2)>;
def : Pat<(v8f64 (int_x86_avx512_mask_max_pd_512 (v8f64 VR512:$src1),
(v8f64 VR512:$src2), (bc_v8f64 (v16i32 immAllZerosV)),
(i8 -1), FROUND_CURRENT)),
(VMAXPDZrr VR512:$src1, VR512:$src2)>;
def : Pat<(v16f32 (int_x86_avx512_mask_min_ps_512 (v16f32 VR512:$src1),
(v16f32 VR512:$src2), (bc_v16f32 (v16i32 immAllZerosV)),
(i16 -1), FROUND_CURRENT)),
(VMINPSZrr VR512:$src1, VR512:$src2)>;
def : Pat<(v8f64 (int_x86_avx512_mask_min_pd_512 (v8f64 VR512:$src1),
(v8f64 VR512:$src2), (bc_v8f64 (v16i32 immAllZerosV)),
(i8 -1), FROUND_CURRENT)),
(VMINPDZrr VR512:$src1, VR512:$src2)>;
//===----------------------------------------------------------------------===//
// AVX-512 VPTESTM instructions
//===----------------------------------------------------------------------===//
multiclass avx512_vptest<bits<8> opc, string OpcodeStr, RegisterClass KRC,
RegisterClass RC, X86MemOperand x86memop, PatFrag memop_frag,
SDNode OpNode, ValueType vt> {
def rr : AVX512PI<opc, MRMSrcReg,
(outs KRC:$dst), (ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set KRC:$dst, (OpNode (vt RC:$src1), (vt RC:$src2)))],
SSEPackedInt>, EVEX_4V;
def rm : AVX512PI<opc, MRMSrcMem,
(outs KRC:$dst), (ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set KRC:$dst, (OpNode (vt RC:$src1),
(bitconvert (memop_frag addr:$src2))))], SSEPackedInt>, EVEX_4V;
}
defm VPTESTMDZ : avx512_vptest<0x27, "vptestmd", VK16, VR512, f512mem,
memopv16i32, X86testm, v16i32>, T8PD, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPTESTMQZ : avx512_vptest<0x27, "vptestmq", VK8, VR512, f512mem,
memopv8i64, X86testm, v8i64>, T8PD, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VF>;
let Predicates = [HasCDI] in {
defm VPTESTNMDZ : avx512_vptest<0x27, "vptestnmd", VK16, VR512, f512mem,
memopv16i32, X86testnm, v16i32>, T8XS, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPTESTNMQZ : avx512_vptest<0x27, "vptestnmq", VK8, VR512, f512mem,
memopv8i64, X86testnm, v8i64>, T8XS, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VF>;
}
def : Pat <(i16 (int_x86_avx512_mask_ptestm_d_512 (v16i32 VR512:$src1),
(v16i32 VR512:$src2), (i16 -1))),
(COPY_TO_REGCLASS (VPTESTMDZrr VR512:$src1, VR512:$src2), GR16)>;
def : Pat <(i8 (int_x86_avx512_mask_ptestm_q_512 (v8i64 VR512:$src1),
(v8i64 VR512:$src2), (i8 -1))),
(COPY_TO_REGCLASS (VPTESTMQZrr VR512:$src1, VR512:$src2), GR8)>;
//===----------------------------------------------------------------------===//
// AVX-512 Shift instructions
//===----------------------------------------------------------------------===//
multiclass avx512_shift_rmi<bits<8> opc, Format ImmFormR, Format ImmFormM,
string OpcodeStr, SDNode OpNode, X86VectorVTInfo _> {
defm ri : AVX512_maskable<opc, ImmFormR, _, (outs _.RC:$dst),
(ins _.RC:$src1, i8imm:$src2), OpcodeStr,
"$src2, $src1", "$src1, $src2",
(_.VT (OpNode _.RC:$src1, (i8 imm:$src2))),
" ", SSE_INTSHIFT_ITINS_P.rr>, AVX512BIi8Base, EVEX_4V;
defm mi : AVX512_maskable<opc, ImmFormM, _, (outs _.RC:$dst),
(ins _.MemOp:$src1, i8imm:$src2), OpcodeStr,
"$src2, $src1", "$src1, $src2",
(_.VT (OpNode (_.MemOpFrag addr:$src1), (i8 imm:$src2))),
" ", SSE_INTSHIFT_ITINS_P.rm>, AVX512BIi8Base, EVEX_4V;
}
multiclass avx512_shift_rrm<bits<8> opc, string OpcodeStr, SDNode OpNode,
RegisterClass RC, ValueType vt, ValueType SrcVT,
PatFrag bc_frag, RegisterClass KRC> {
// src2 is always 128-bit
def rr : AVX512BI<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, VR128X:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst, (vt (OpNode RC:$src1, (SrcVT VR128X:$src2))))],
SSE_INTSHIFT_ITINS_P.rr>, EVEX_4V;
def rrk : AVX512BI<opc, MRMSrcReg, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, VR128X:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst {${mask}}|$dst {${mask}}, $src1, $src2}"),
[], SSE_INTSHIFT_ITINS_P.rr>, EVEX_4V, EVEX_K;
def rm : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, i128mem:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst, (vt (OpNode RC:$src1,
(bc_frag (memopv2i64 addr:$src2)))))],
SSE_INTSHIFT_ITINS_P.rm>, EVEX_4V;
def rmk : AVX512BI<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, RC:$src1, i128mem:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst {${mask}}|$dst {${mask}}, $src1, $src2}"),
[], SSE_INTSHIFT_ITINS_P.rm>, EVEX_4V, EVEX_K;
}
defm VPSRLDZ : avx512_shift_rmi<0x72, MRM2r, MRM2m, "vpsrld", X86vsrli,
v16i32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPSRLDZ : avx512_shift_rrm<0xD2, "vpsrld", X86vsrl,
VR512, v16i32, v4i32, bc_v4i32, VK16WM>, EVEX_V512,
EVEX_CD8<32, CD8VQ>;
defm VPSRLQZ : avx512_shift_rmi<0x73, MRM2r, MRM2m, "vpsrlq", X86vsrli,
v8i64_info>, EVEX_V512,
EVEX_CD8<64, CD8VF>, VEX_W;
defm VPSRLQZ : avx512_shift_rrm<0xD3, "vpsrlq", X86vsrl,
VR512, v8i64, v2i64, bc_v2i64, VK8WM>, EVEX_V512,
EVEX_CD8<64, CD8VQ>, VEX_W;
defm VPSLLDZ : avx512_shift_rmi<0x72, MRM6r, MRM6m, "vpslld", X86vshli,
v16i32_info>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPSLLDZ : avx512_shift_rrm<0xF2, "vpslld", X86vshl,
VR512, v16i32, v4i32, bc_v4i32, VK16WM>, EVEX_V512,
EVEX_CD8<32, CD8VQ>;
defm VPSLLQZ : avx512_shift_rmi<0x73, MRM6r, MRM6m, "vpsllq", X86vshli,
v8i64_info>, EVEX_V512,
EVEX_CD8<64, CD8VF>, VEX_W;
defm VPSLLQZ : avx512_shift_rrm<0xF3, "vpsllq", X86vshl,
VR512, v8i64, v2i64, bc_v2i64, VK8WM>, EVEX_V512,
EVEX_CD8<64, CD8VQ>, VEX_W;
defm VPSRADZ : avx512_shift_rmi<0x72, MRM4r, MRM4m, "vpsrad", X86vsrai,
v16i32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPSRADZ : avx512_shift_rrm<0xE2, "vpsrad", X86vsra,
VR512, v16i32, v4i32, bc_v4i32, VK16WM>, EVEX_V512,
EVEX_CD8<32, CD8VQ>;
defm VPSRAQZ : avx512_shift_rmi<0x72, MRM4r, MRM4m, "vpsraq", X86vsrai,
v8i64_info>, EVEX_V512,
EVEX_CD8<64, CD8VF>, VEX_W;
defm VPSRAQZ : avx512_shift_rrm<0xE2, "vpsraq", X86vsra,
VR512, v8i64, v2i64, bc_v2i64, VK8WM>, EVEX_V512,
EVEX_CD8<64, CD8VQ>, VEX_W;
//===-------------------------------------------------------------------===//
// Variable Bit Shifts
//===-------------------------------------------------------------------===//
multiclass avx512_var_shift<bits<8> opc, string OpcodeStr, SDNode OpNode,
RegisterClass RC, ValueType vt,
X86MemOperand x86memop, PatFrag mem_frag> {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(vt (OpNode RC:$src1, (vt RC:$src2))))]>,
EVEX_4V;
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(vt (OpNode RC:$src1, (mem_frag addr:$src2))))]>,
EVEX_4V;
}
defm VPSLLVDZ : avx512_var_shift<0x47, "vpsllvd", shl, VR512, v16i32,
i512mem, memopv16i32>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPSLLVQZ : avx512_var_shift<0x47, "vpsllvq", shl, VR512, v8i64,
i512mem, memopv8i64>, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VF>;
defm VPSRLVDZ : avx512_var_shift<0x45, "vpsrlvd", srl, VR512, v16i32,
i512mem, memopv16i32>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPSRLVQZ : avx512_var_shift<0x45, "vpsrlvq", srl, VR512, v8i64,
i512mem, memopv8i64>, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VF>;
defm VPSRAVDZ : avx512_var_shift<0x46, "vpsravd", sra, VR512, v16i32,
i512mem, memopv16i32>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPSRAVQZ : avx512_var_shift<0x46, "vpsravq", sra, VR512, v8i64,
i512mem, memopv8i64>, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VF>;
//===----------------------------------------------------------------------===//
// AVX-512 - MOVDDUP
//===----------------------------------------------------------------------===//
multiclass avx512_movddup<string OpcodeStr, RegisterClass RC, ValueType VT,
X86MemOperand x86memop, PatFrag memop_frag> {
def rr : AVX512PDI<0x12, MRMSrcReg, (outs RC:$dst), (ins RC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set RC:$dst, (VT (X86Movddup RC:$src)))]>, EVEX;
def rm : AVX512PDI<0x12, MRMSrcMem, (outs RC:$dst), (ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set RC:$dst,
(VT (X86Movddup (memop_frag addr:$src))))]>, EVEX;
}
defm VMOVDDUPZ : avx512_movddup<"vmovddup", VR512, v8f64, f512mem, memopv8f64>,
VEX_W, EVEX_V512, EVEX_CD8<64, CD8VF>;
def : Pat<(X86Movddup (v8f64 (scalar_to_vector (loadf64 addr:$src)))),
(VMOVDDUPZrm addr:$src)>;
//===---------------------------------------------------------------------===//
// Replicate Single FP - MOVSHDUP and MOVSLDUP
//===---------------------------------------------------------------------===//
multiclass avx512_replicate_sfp<bits<8> op, SDNode OpNode, string OpcodeStr,
ValueType vt, RegisterClass RC, PatFrag mem_frag,
X86MemOperand x86memop> {
def rr : AVX512XSI<op, MRMSrcReg, (outs RC:$dst), (ins RC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set RC:$dst, (vt (OpNode RC:$src)))]>, EVEX;
let mayLoad = 1 in
def rm : AVX512XSI<op, MRMSrcMem, (outs RC:$dst), (ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set RC:$dst, (OpNode (mem_frag addr:$src)))]>, EVEX;
}
defm VMOVSHDUPZ : avx512_replicate_sfp<0x16, X86Movshdup, "vmovshdup",
v16f32, VR512, memopv16f32, f512mem>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VMOVSLDUPZ : avx512_replicate_sfp<0x12, X86Movsldup, "vmovsldup",
v16f32, VR512, memopv16f32, f512mem>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
def : Pat<(v16i32 (X86Movshdup VR512:$src)), (VMOVSHDUPZrr VR512:$src)>;
def : Pat<(v16i32 (X86Movshdup (memopv16i32 addr:$src))),
(VMOVSHDUPZrm addr:$src)>;
def : Pat<(v16i32 (X86Movsldup VR512:$src)), (VMOVSLDUPZrr VR512:$src)>;
def : Pat<(v16i32 (X86Movsldup (memopv16i32 addr:$src))),
(VMOVSLDUPZrm addr:$src)>;
//===----------------------------------------------------------------------===//
// Move Low to High and High to Low packed FP Instructions
//===----------------------------------------------------------------------===//
def VMOVLHPSZrr : AVX512PSI<0x16, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src1, VR128X:$src2),
"vmovlhps\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[(set VR128X:$dst, (v4f32 (X86Movlhps VR128X:$src1, VR128X:$src2)))],
IIC_SSE_MOV_LH>, EVEX_4V;
def VMOVHLPSZrr : AVX512PSI<0x12, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src1, VR128X:$src2),
"vmovhlps\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[(set VR128X:$dst, (v4f32 (X86Movhlps VR128X:$src1, VR128X:$src2)))],
IIC_SSE_MOV_LH>, EVEX_4V;
let Predicates = [HasAVX512] in {
// MOVLHPS patterns
def : Pat<(v4i32 (X86Movlhps VR128X:$src1, VR128X:$src2)),
(VMOVLHPSZrr VR128X:$src1, VR128X:$src2)>;
def : Pat<(v2i64 (X86Movlhps VR128X:$src1, VR128X:$src2)),
(VMOVLHPSZrr (v2i64 VR128X:$src1), VR128X:$src2)>;
// MOVHLPS patterns
def : Pat<(v4i32 (X86Movhlps VR128X:$src1, VR128X:$src2)),
(VMOVHLPSZrr VR128X:$src1, VR128X:$src2)>;
}
//===----------------------------------------------------------------------===//
// FMA - Fused Multiply Operations
//
let Constraints = "$src1 = $dst" in {
// Omitting the parameter OpNode (= null_frag) disables ISel pattern matching.
multiclass avx512_fma3p_rm<bits<8> opc, string OpcodeStr, X86VectorVTInfo _,
SDPatternOperator OpNode = null_frag> {
defm r: AVX512_maskable_3src<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src2, _.RC:$src3),
OpcodeStr, "$src3, $src2", "$src2, $src3",
(_.VT (OpNode _.RC:$src1, _.RC:$src2, _.RC:$src3))>,
AVX512FMA3Base;
let mayLoad = 1 in
def m: AVX512FMA3<opc, MRMSrcMem, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src2, _.MemOp:$src3),
!strconcat(OpcodeStr, " \t{$src3, $src2, $dst|$dst, $src2, $src3}"),
[(set _.RC:$dst, (_.VT (OpNode _.RC:$src1, _.RC:$src2,
(_.MemOpFrag addr:$src3))))]>;
def mb: AVX512FMA3<opc, MRMSrcMem, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src2, _.ScalarMemOp:$src3),
!strconcat(OpcodeStr, " \t{${src3}", _.BroadcastStr,
", $src2, $dst|$dst, $src2, ${src3}", _.BroadcastStr, "}"),
[(set _.RC:$dst, (OpNode _.RC:$src1, _.RC:$src2,
(_.VT (X86VBroadcast (_.ScalarLdFrag addr:$src3)))))]>, EVEX_B;
}
} // Constraints = "$src1 = $dst"
multiclass avx512_fma3p_forms<bits<8> opc213, bits<8> opc231,
string OpcodeStr, X86VectorVTInfo VTI,
SDPatternOperator OpNode> {
defm v213 : avx512_fma3p_rm<opc213, !strconcat(OpcodeStr, "213", VTI.Suffix),
VTI, OpNode>,
EVEX_V512, EVEX_CD8<VTI.EltSize, CD8VF>;
defm v231 : avx512_fma3p_rm<opc231, !strconcat(OpcodeStr, "231", VTI.Suffix),
VTI>,
EVEX_V512, EVEX_CD8<VTI.EltSize, CD8VF>;
}
let ExeDomain = SSEPackedSingle in {
defm VFMADDPSZ : avx512_fma3p_forms<0xA8, 0xB8, "vfmadd",
v16f32_info, X86Fmadd>;
defm VFMSUBPSZ : avx512_fma3p_forms<0xAA, 0xBA, "vfmsub",
v16f32_info, X86Fmsub>;
defm VFMADDSUBPSZ : avx512_fma3p_forms<0xA6, 0xB6, "vfmaddsub",
v16f32_info, X86Fmaddsub>;
defm VFMSUBADDPSZ : avx512_fma3p_forms<0xA7, 0xB7, "vfmsubadd",
v16f32_info, X86Fmsubadd>;
defm VFNMADDPSZ : avx512_fma3p_forms<0xAC, 0xBC, "vfnmadd",
v16f32_info, X86Fnmadd>;
defm VFNMSUBPSZ : avx512_fma3p_forms<0xAE, 0xBE, "vfnmsub",
v16f32_info, X86Fnmsub>;
}
let ExeDomain = SSEPackedDouble in {
defm VFMADDPDZ : avx512_fma3p_forms<0xA8, 0xB8, "vfmadd",
v8f64_info, X86Fmadd>, VEX_W;
defm VFMSUBPDZ : avx512_fma3p_forms<0xAA, 0xBA, "vfmsub",
v8f64_info, X86Fmsub>, VEX_W;
defm VFMADDSUBPDZ : avx512_fma3p_forms<0xA6, 0xB6, "vfmaddsub",
v8f64_info, X86Fmaddsub>, VEX_W;
defm VFMSUBADDPDZ : avx512_fma3p_forms<0xA7, 0xB7, "vfmsubadd",
v8f64_info, X86Fmsubadd>, VEX_W;
defm VFNMADDPDZ : avx512_fma3p_forms<0xAC, 0xBC, "vfnmadd",
v8f64_info, X86Fnmadd>, VEX_W;
defm VFNMSUBPDZ : avx512_fma3p_forms<0xAE, 0xBE, "vfnmsub",
v8f64_info, X86Fnmsub>, VEX_W;
}
let Constraints = "$src1 = $dst" in {
multiclass avx512_fma3p_m132<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _> {
let mayLoad = 1 in
def m: AVX512FMA3<opc, MRMSrcMem, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src3, _.MemOp:$src2),
!strconcat(OpcodeStr, " \t{$src2, $src3, $dst|$dst, $src3, $src2}"),
[(set _.RC:$dst, (_.VT (OpNode _.RC:$src1, (_.MemOpFrag addr:$src2),
_.RC:$src3)))]>;
def mb: AVX512FMA3<opc, MRMSrcMem, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src3, _.ScalarMemOp:$src2),
!strconcat(OpcodeStr, " \t{${src2}", _.BroadcastStr,
", $src3, $dst|$dst, $src3, ${src2}", _.BroadcastStr, "}"),
[(set _.RC:$dst,
(OpNode _.RC:$src1, (_.VT (X86VBroadcast
(_.ScalarLdFrag addr:$src2))),
_.RC:$src3))]>, EVEX_B;
}
} // Constraints = "$src1 = $dst"
let ExeDomain = SSEPackedSingle in {
defm VFMADD132PSZ : avx512_fma3p_m132<0x98, "vfmadd132ps", X86Fmadd,
v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VFMSUB132PSZ : avx512_fma3p_m132<0x9A, "vfmsub132ps", X86Fmsub,
v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VFMADDSUB132PSZ : avx512_fma3p_m132<0x96, "vfmaddsub132ps", X86Fmaddsub,
v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VFMSUBADD132PSZ : avx512_fma3p_m132<0x97, "vfmsubadd132ps", X86Fmsubadd,
v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VFNMADD132PSZ : avx512_fma3p_m132<0x9C, "vfnmadd132ps", X86Fnmadd,
v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VFNMSUB132PSZ : avx512_fma3p_m132<0x9E, "vfnmsub132ps", X86Fnmsub,
v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
}
let ExeDomain = SSEPackedDouble in {
defm VFMADD132PDZ : avx512_fma3p_m132<0x98, "vfmadd132pd", X86Fmadd,
v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VFMSUB132PDZ : avx512_fma3p_m132<0x9A, "vfmsub132pd", X86Fmsub,
v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VFMADDSUB132PDZ : avx512_fma3p_m132<0x96, "vfmaddsub132pd", X86Fmaddsub,
v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VFMSUBADD132PDZ : avx512_fma3p_m132<0x97, "vfmsubadd132pd", X86Fmsubadd,
v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VFNMADD132PDZ : avx512_fma3p_m132<0x9C, "vfnmadd132pd", X86Fnmadd,
v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
defm VFNMSUB132PDZ : avx512_fma3p_m132<0x9E, "vfnmsub132pd", X86Fnmsub,
v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
}
// Scalar FMA
let Constraints = "$src1 = $dst" in {
multiclass avx512_fma3s_rm<bits<8> opc, string OpcodeStr, SDNode OpNode,
RegisterClass RC, ValueType OpVT,
X86MemOperand x86memop, Operand memop,
PatFrag mem_frag> {
let isCommutable = 1 in
def r : AVX512FMA3<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2, RC:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst|$dst, $src2, $src3}"),
[(set RC:$dst,
(OpVT (OpNode RC:$src2, RC:$src1, RC:$src3)))]>;
let mayLoad = 1 in
def m : AVX512FMA3<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, RC:$src2, f128mem:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $dst|$dst, $src2, $src3}"),
[(set RC:$dst,
(OpVT (OpNode RC:$src2, RC:$src1,
(mem_frag addr:$src3))))]>;
}
} // Constraints = "$src1 = $dst"
defm VFMADDSSZ : avx512_fma3s_rm<0xA9, "vfmadd213ss", X86Fmadd, FR32X,
f32, f32mem, ssmem, loadf32>, EVEX_CD8<32, CD8VT1>;
defm VFMADDSDZ : avx512_fma3s_rm<0xA9, "vfmadd213sd", X86Fmadd, FR64X,
f64, f64mem, sdmem, loadf64>, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VFMSUBSSZ : avx512_fma3s_rm<0xAB, "vfmsub213ss", X86Fmsub, FR32X,
f32, f32mem, ssmem, loadf32>, EVEX_CD8<32, CD8VT1>;
defm VFMSUBSDZ : avx512_fma3s_rm<0xAB, "vfmsub213sd", X86Fmsub, FR64X,
f64, f64mem, sdmem, loadf64>, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VFNMADDSSZ : avx512_fma3s_rm<0xAD, "vfnmadd213ss", X86Fnmadd, FR32X,
f32, f32mem, ssmem, loadf32>, EVEX_CD8<32, CD8VT1>;
defm VFNMADDSDZ : avx512_fma3s_rm<0xAD, "vfnmadd213sd", X86Fnmadd, FR64X,
f64, f64mem, sdmem, loadf64>, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VFNMSUBSSZ : avx512_fma3s_rm<0xAF, "vfnmsub213ss", X86Fnmsub, FR32X,
f32, f32mem, ssmem, loadf32>, EVEX_CD8<32, CD8VT1>;
defm VFNMSUBSDZ : avx512_fma3s_rm<0xAF, "vfnmsub213sd", X86Fnmsub, FR64X,
f64, f64mem, sdmem, loadf64>, VEX_W, EVEX_CD8<64, CD8VT1>;
//===----------------------------------------------------------------------===//
// AVX-512 Scalar convert from sign integer to float/double
//===----------------------------------------------------------------------===//
multiclass avx512_vcvtsi<bits<8> opc, RegisterClass SrcRC, RegisterClass DstRC,
X86MemOperand x86memop, string asm> {
let hasSideEffects = 0 in {
def rr : SI<opc, MRMSrcReg, (outs DstRC:$dst), (ins DstRC:$src1, SrcRC:$src),
!strconcat(asm," \t{$src, $src1, $dst|$dst, $src1, $src}"), []>,
EVEX_4V;
let mayLoad = 1 in
def rm : SI<opc, MRMSrcMem, (outs DstRC:$dst),
(ins DstRC:$src1, x86memop:$src),
!strconcat(asm," \t{$src, $src1, $dst|$dst, $src1, $src}"), []>,
EVEX_4V;
} // hasSideEffects = 0
}
let Predicates = [HasAVX512] in {
defm VCVTSI2SSZ : avx512_vcvtsi<0x2A, GR32, FR32X, i32mem, "cvtsi2ss{l}">,
XS, VEX_LIG, EVEX_CD8<32, CD8VT1>;
defm VCVTSI642SSZ : avx512_vcvtsi<0x2A, GR64, FR32X, i64mem, "cvtsi2ss{q}">,
XS, VEX_W, VEX_LIG, EVEX_CD8<64, CD8VT1>;
defm VCVTSI2SDZ : avx512_vcvtsi<0x2A, GR32, FR64X, i32mem, "cvtsi2sd{l}">,
XD, VEX_LIG, EVEX_CD8<32, CD8VT1>;
defm VCVTSI642SDZ : avx512_vcvtsi<0x2A, GR64, FR64X, i64mem, "cvtsi2sd{q}">,
XD, VEX_W, VEX_LIG, EVEX_CD8<64, CD8VT1>;
def : Pat<(f32 (sint_to_fp (loadi32 addr:$src))),
(VCVTSI2SSZrm (f32 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f32 (sint_to_fp (loadi64 addr:$src))),
(VCVTSI642SSZrm (f32 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f64 (sint_to_fp (loadi32 addr:$src))),
(VCVTSI2SDZrm (f64 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f64 (sint_to_fp (loadi64 addr:$src))),
(VCVTSI642SDZrm (f64 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f32 (sint_to_fp GR32:$src)),
(VCVTSI2SSZrr (f32 (IMPLICIT_DEF)), GR32:$src)>;
def : Pat<(f32 (sint_to_fp GR64:$src)),
(VCVTSI642SSZrr (f32 (IMPLICIT_DEF)), GR64:$src)>;
def : Pat<(f64 (sint_to_fp GR32:$src)),
(VCVTSI2SDZrr (f64 (IMPLICIT_DEF)), GR32:$src)>;
def : Pat<(f64 (sint_to_fp GR64:$src)),
(VCVTSI642SDZrr (f64 (IMPLICIT_DEF)), GR64:$src)>;
defm VCVTUSI2SSZ : avx512_vcvtsi<0x7B, GR32, FR32X, i32mem, "cvtusi2ss{l}">,
XS, VEX_LIG, EVEX_CD8<32, CD8VT1>;
defm VCVTUSI642SSZ : avx512_vcvtsi<0x7B, GR64, FR32X, i64mem, "cvtusi2ss{q}">,
XS, VEX_W, VEX_LIG, EVEX_CD8<64, CD8VT1>;
defm VCVTUSI2SDZ : avx512_vcvtsi<0x7B, GR32, FR64X, i32mem, "cvtusi2sd{l}">,
XD, VEX_LIG, EVEX_CD8<32, CD8VT1>;
defm VCVTUSI642SDZ : avx512_vcvtsi<0x7B, GR64, FR64X, i64mem, "cvtusi2sd{q}">,
XD, VEX_W, VEX_LIG, EVEX_CD8<64, CD8VT1>;
def : Pat<(f32 (uint_to_fp (loadi32 addr:$src))),
(VCVTUSI2SSZrm (f32 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f32 (uint_to_fp (loadi64 addr:$src))),
(VCVTUSI642SSZrm (f32 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f64 (uint_to_fp (loadi32 addr:$src))),
(VCVTUSI2SDZrm (f64 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f64 (uint_to_fp (loadi64 addr:$src))),
(VCVTUSI642SDZrm (f64 (IMPLICIT_DEF)), addr:$src)>;
def : Pat<(f32 (uint_to_fp GR32:$src)),
(VCVTUSI2SSZrr (f32 (IMPLICIT_DEF)), GR32:$src)>;
def : Pat<(f32 (uint_to_fp GR64:$src)),
(VCVTUSI642SSZrr (f32 (IMPLICIT_DEF)), GR64:$src)>;
def : Pat<(f64 (uint_to_fp GR32:$src)),
(VCVTUSI2SDZrr (f64 (IMPLICIT_DEF)), GR32:$src)>;
def : Pat<(f64 (uint_to_fp GR64:$src)),
(VCVTUSI642SDZrr (f64 (IMPLICIT_DEF)), GR64:$src)>;
}
//===----------------------------------------------------------------------===//
// AVX-512 Scalar convert from float/double to integer
//===----------------------------------------------------------------------===//
multiclass avx512_cvt_s_int<bits<8> opc, RegisterClass SrcRC, RegisterClass DstRC,
Intrinsic Int, Operand memop, ComplexPattern mem_cpat,
string asm> {
let hasSideEffects = 0 in {
def rr : SI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst, (Int SrcRC:$src))]>, EVEX, VEX_LIG,
Requires<[HasAVX512]>;
let mayLoad = 1 in
def rm : SI<opc, MRMSrcMem, (outs DstRC:$dst), (ins memop:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"), []>, EVEX, VEX_LIG,
Requires<[HasAVX512]>;
} // hasSideEffects = 0
}
let Predicates = [HasAVX512] in {
// Convert float/double to signed/unsigned int 32/64
defm VCVTSS2SIZ: avx512_cvt_s_int<0x2D, VR128X, GR32, int_x86_sse_cvtss2si,
ssmem, sse_load_f32, "cvtss2si">,
XS, EVEX_CD8<32, CD8VT1>;
defm VCVTSS2SI64Z: avx512_cvt_s_int<0x2D, VR128X, GR64, int_x86_sse_cvtss2si64,
ssmem, sse_load_f32, "cvtss2si">,
XS, VEX_W, EVEX_CD8<32, CD8VT1>;
defm VCVTSS2USIZ: avx512_cvt_s_int<0x79, VR128X, GR32, int_x86_avx512_cvtss2usi,
ssmem, sse_load_f32, "cvtss2usi">,
XS, EVEX_CD8<32, CD8VT1>;
defm VCVTSS2USI64Z: avx512_cvt_s_int<0x79, VR128X, GR64,
int_x86_avx512_cvtss2usi64, ssmem,
sse_load_f32, "cvtss2usi">, XS, VEX_W,
EVEX_CD8<32, CD8VT1>;
defm VCVTSD2SIZ: avx512_cvt_s_int<0x2D, VR128X, GR32, int_x86_sse2_cvtsd2si,
sdmem, sse_load_f64, "cvtsd2si">,
XD, EVEX_CD8<64, CD8VT1>;
defm VCVTSD2SI64Z: avx512_cvt_s_int<0x2D, VR128X, GR64, int_x86_sse2_cvtsd2si64,
sdmem, sse_load_f64, "cvtsd2si">,
XD, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VCVTSD2USIZ: avx512_cvt_s_int<0x79, VR128X, GR32, int_x86_avx512_cvtsd2usi,
sdmem, sse_load_f64, "cvtsd2usi">,
XD, EVEX_CD8<64, CD8VT1>;
defm VCVTSD2USI64Z: avx512_cvt_s_int<0x79, VR128X, GR64,
int_x86_avx512_cvtsd2usi64, sdmem,
sse_load_f64, "cvtsd2usi">, XD, VEX_W,
EVEX_CD8<64, CD8VT1>;
let isCodeGenOnly = 1 in {
defm Int_VCVTSI2SSZ : sse12_cvt_sint_3addr<0x2A, GR32, VR128X,
int_x86_sse_cvtsi2ss, i32mem, loadi32, "cvtsi2ss{l}",
SSE_CVT_Scalar, 0>, XS, EVEX_4V;
defm Int_VCVTSI2SS64Z : sse12_cvt_sint_3addr<0x2A, GR64, VR128X,
int_x86_sse_cvtsi642ss, i64mem, loadi64, "cvtsi2ss{q}",
SSE_CVT_Scalar, 0>, XS, EVEX_4V, VEX_W;
defm Int_VCVTSI2SDZ : sse12_cvt_sint_3addr<0x2A, GR32, VR128X,
int_x86_sse2_cvtsi2sd, i32mem, loadi32, "cvtsi2sd{l}",
SSE_CVT_Scalar, 0>, XD, EVEX_4V;
defm Int_VCVTSI2SD64Z : sse12_cvt_sint_3addr<0x2A, GR64, VR128X,
int_x86_sse2_cvtsi642sd, i64mem, loadi64, "cvtsi2sd{q}",
SSE_CVT_Scalar, 0>, XD, EVEX_4V, VEX_W;
defm Int_VCVTUSI2SSZ : sse12_cvt_sint_3addr<0x2A, GR32, VR128X,
int_x86_avx512_cvtusi2ss, i32mem, loadi32, "cvtusi2ss{l}",
SSE_CVT_Scalar, 0>, XS, EVEX_4V;
defm Int_VCVTUSI2SS64Z : sse12_cvt_sint_3addr<0x2A, GR64, VR128X,
int_x86_avx512_cvtusi642ss, i64mem, loadi64, "cvtusi2ss{q}",
SSE_CVT_Scalar, 0>, XS, EVEX_4V, VEX_W;
defm Int_VCVTUSI2SDZ : sse12_cvt_sint_3addr<0x2A, GR32, VR128X,
int_x86_avx512_cvtusi2sd, i32mem, loadi32, "cvtusi2sd{l}",
SSE_CVT_Scalar, 0>, XD, EVEX_4V;
defm Int_VCVTUSI2SD64Z : sse12_cvt_sint_3addr<0x2A, GR64, VR128X,
int_x86_avx512_cvtusi642sd, i64mem, loadi64, "cvtusi2sd{q}",
SSE_CVT_Scalar, 0>, XD, EVEX_4V, VEX_W;
} // isCodeGenOnly = 1
// Convert float/double to signed/unsigned int 32/64 with truncation
let isCodeGenOnly = 1 in {
defm Int_VCVTTSS2SIZ : avx512_cvt_s_int<0x2C, VR128X, GR32, int_x86_sse_cvttss2si,
ssmem, sse_load_f32, "cvttss2si">,
XS, EVEX_CD8<32, CD8VT1>;
defm Int_VCVTTSS2SI64Z : avx512_cvt_s_int<0x2C, VR128X, GR64,
int_x86_sse_cvttss2si64, ssmem, sse_load_f32,
"cvttss2si">, XS, VEX_W,
EVEX_CD8<32, CD8VT1>;
defm Int_VCVTTSD2SIZ : avx512_cvt_s_int<0x2C, VR128X, GR32, int_x86_sse2_cvttsd2si,
sdmem, sse_load_f64, "cvttsd2si">, XD,
EVEX_CD8<64, CD8VT1>;
defm Int_VCVTTSD2SI64Z : avx512_cvt_s_int<0x2C, VR128X, GR64,
int_x86_sse2_cvttsd2si64, sdmem, sse_load_f64,
"cvttsd2si">, XD, VEX_W,
EVEX_CD8<64, CD8VT1>;
defm Int_VCVTTSS2USIZ : avx512_cvt_s_int<0x78, VR128X, GR32,
int_x86_avx512_cvttss2usi, ssmem, sse_load_f32,
"cvttss2usi">, XS, EVEX_CD8<32, CD8VT1>;
defm Int_VCVTTSS2USI64Z : avx512_cvt_s_int<0x78, VR128X, GR64,
int_x86_avx512_cvttss2usi64, ssmem,
sse_load_f32, "cvttss2usi">, XS, VEX_W,
EVEX_CD8<32, CD8VT1>;
defm Int_VCVTTSD2USIZ : avx512_cvt_s_int<0x78, VR128X, GR32,
int_x86_avx512_cvttsd2usi,
sdmem, sse_load_f64, "cvttsd2usi">, XD,
EVEX_CD8<64, CD8VT1>;
defm Int_VCVTTSD2USI64Z : avx512_cvt_s_int<0x78, VR128X, GR64,
int_x86_avx512_cvttsd2usi64, sdmem,
sse_load_f64, "cvttsd2usi">, XD, VEX_W,
EVEX_CD8<64, CD8VT1>;
} // isCodeGenOnly = 1
multiclass avx512_cvt_s<bits<8> opc, RegisterClass SrcRC, RegisterClass DstRC,
SDNode OpNode, X86MemOperand x86memop, PatFrag ld_frag,
string asm> {
def rr : SI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst, (OpNode SrcRC:$src))]>, EVEX;
def rm : SI<opc, MRMSrcMem, (outs DstRC:$dst), (ins x86memop:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst, (OpNode (ld_frag addr:$src)))]>, EVEX;
}
defm VCVTTSS2SIZ : avx512_cvt_s<0x2C, FR32X, GR32, fp_to_sint, f32mem,
loadf32, "cvttss2si">, XS,
EVEX_CD8<32, CD8VT1>;
defm VCVTTSS2USIZ : avx512_cvt_s<0x78, FR32X, GR32, fp_to_uint, f32mem,
loadf32, "cvttss2usi">, XS,
EVEX_CD8<32, CD8VT1>;
defm VCVTTSS2SI64Z : avx512_cvt_s<0x2C, FR32X, GR64, fp_to_sint, f32mem,
loadf32, "cvttss2si">, XS, VEX_W,
EVEX_CD8<32, CD8VT1>;
defm VCVTTSS2USI64Z : avx512_cvt_s<0x78, FR32X, GR64, fp_to_uint, f32mem,
loadf32, "cvttss2usi">, XS, VEX_W,
EVEX_CD8<32, CD8VT1>;
defm VCVTTSD2SIZ : avx512_cvt_s<0x2C, FR64X, GR32, fp_to_sint, f64mem,
loadf64, "cvttsd2si">, XD,
EVEX_CD8<64, CD8VT1>;
defm VCVTTSD2USIZ : avx512_cvt_s<0x78, FR64X, GR32, fp_to_uint, f64mem,
loadf64, "cvttsd2usi">, XD,
EVEX_CD8<64, CD8VT1>;
defm VCVTTSD2SI64Z : avx512_cvt_s<0x2C, FR64X, GR64, fp_to_sint, f64mem,
loadf64, "cvttsd2si">, XD, VEX_W,
EVEX_CD8<64, CD8VT1>;
defm VCVTTSD2USI64Z : avx512_cvt_s<0x78, FR64X, GR64, fp_to_uint, f64mem,
loadf64, "cvttsd2usi">, XD, VEX_W,
EVEX_CD8<64, CD8VT1>;
} // HasAVX512
//===----------------------------------------------------------------------===//
// AVX-512 Convert form float to double and back
//===----------------------------------------------------------------------===//
let hasSideEffects = 0 in {
def VCVTSS2SDZrr : AVX512XSI<0x5A, MRMSrcReg, (outs FR64X:$dst),
(ins FR32X:$src1, FR32X:$src2),
"vcvtss2sd\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[]>, EVEX_4V, VEX_LIG, Sched<[WriteCvtF2F]>;
let mayLoad = 1 in
def VCVTSS2SDZrm : AVX512XSI<0x5A, MRMSrcMem, (outs FR64X:$dst),
(ins FR32X:$src1, f32mem:$src2),
"vcvtss2sd\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[]>, EVEX_4V, VEX_LIG, Sched<[WriteCvtF2FLd, ReadAfterLd]>,
EVEX_CD8<32, CD8VT1>;
// Convert scalar double to scalar single
def VCVTSD2SSZrr : AVX512XDI<0x5A, MRMSrcReg, (outs FR32X:$dst),
(ins FR64X:$src1, FR64X:$src2),
"vcvtsd2ss\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[]>, EVEX_4V, VEX_LIG, VEX_W, Sched<[WriteCvtF2F]>;
let mayLoad = 1 in
def VCVTSD2SSZrm : AVX512XDI<0x5A, MRMSrcMem, (outs FR32X:$dst),
(ins FR64X:$src1, f64mem:$src2),
"vcvtsd2ss\t{$src2, $src1, $dst|$dst, $src1, $src2}",
[]>, EVEX_4V, VEX_LIG, VEX_W,
Sched<[WriteCvtF2FLd, ReadAfterLd]>, EVEX_CD8<64, CD8VT1>;
}
def : Pat<(f64 (fextend FR32X:$src)), (VCVTSS2SDZrr FR32X:$src, FR32X:$src)>,
Requires<[HasAVX512]>;
def : Pat<(fextend (loadf32 addr:$src)),
(VCVTSS2SDZrm (f32 (IMPLICIT_DEF)), addr:$src)>, Requires<[HasAVX512]>;
def : Pat<(extloadf32 addr:$src),
(VCVTSS2SDZrm (f32 (IMPLICIT_DEF)), addr:$src)>,
Requires<[HasAVX512, OptForSize]>;
def : Pat<(extloadf32 addr:$src),
(VCVTSS2SDZrr (f32 (IMPLICIT_DEF)), (VMOVSSZrm addr:$src))>,
Requires<[HasAVX512, OptForSpeed]>;
def : Pat<(f32 (fround FR64X:$src)), (VCVTSD2SSZrr FR64X:$src, FR64X:$src)>,
Requires<[HasAVX512]>;
multiclass avx512_vcvt_fp_with_rc<bits<8> opc, string asm, RegisterClass SrcRC,
RegisterClass DstRC, SDNode OpNode, PatFrag mem_frag,
X86MemOperand x86memop, ValueType OpVT, ValueType InVT,
Domain d> {
let hasSideEffects = 0 in {
def rr : AVX512PI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (OpNode (InVT SrcRC:$src))))], d>, EVEX;
def rrb : AVX512PI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src, AVX512RC:$rc),
!strconcat(asm," \t{$rc, $src, $dst|$dst, $src, $rc}"),
[], d>, EVEX, EVEX_B, EVEX_RC;
let mayLoad = 1 in
def rm : AVX512PI<opc, MRMSrcMem, (outs DstRC:$dst), (ins x86memop:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (OpNode (InVT (bitconvert (mem_frag addr:$src))))))], d>, EVEX;
} // hasSideEffects = 0
}
multiclass avx512_vcvt_fp<bits<8> opc, string asm, RegisterClass SrcRC,
RegisterClass DstRC, SDNode OpNode, PatFrag mem_frag,
X86MemOperand x86memop, ValueType OpVT, ValueType InVT,
Domain d> {
let hasSideEffects = 0 in {
def rr : AVX512PI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (OpNode (InVT SrcRC:$src))))], d>, EVEX;
let mayLoad = 1 in
def rm : AVX512PI<opc, MRMSrcMem, (outs DstRC:$dst), (ins x86memop:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (OpNode (InVT (bitconvert (mem_frag addr:$src))))))], d>, EVEX;
} // hasSideEffects = 0
}
defm VCVTPD2PSZ : avx512_vcvt_fp_with_rc<0x5A, "vcvtpd2ps", VR512, VR256X, fround,
memopv8f64, f512mem, v8f32, v8f64,
SSEPackedSingle>, EVEX_V512, VEX_W, PD,
EVEX_CD8<64, CD8VF>;
defm VCVTPS2PDZ : avx512_vcvt_fp<0x5A, "vcvtps2pd", VR256X, VR512, fextend,
memopv4f64, f256mem, v8f64, v8f32,
SSEPackedDouble>, EVEX_V512, PS,
EVEX_CD8<32, CD8VH>;
def : Pat<(v8f64 (extloadv8f32 addr:$src)),
(VCVTPS2PDZrm addr:$src)>;
def : Pat<(v8f32 (int_x86_avx512_mask_cvtpd2ps_512 (v8f64 VR512:$src),
(bc_v8f32(v8i32 immAllZerosV)), (i8 -1), (i32 FROUND_CURRENT))),
(VCVTPD2PSZrr VR512:$src)>;
def : Pat<(v8f32 (int_x86_avx512_mask_cvtpd2ps_512 (v8f64 VR512:$src),
(bc_v8f32(v8i32 immAllZerosV)), (i8 -1), imm:$rc)),
(VCVTPD2PSZrrb VR512:$src, imm:$rc)>;
//===----------------------------------------------------------------------===//
// AVX-512 Vector convert from sign integer to float/double
//===----------------------------------------------------------------------===//
defm VCVTDQ2PSZ : avx512_vcvt_fp_with_rc<0x5B, "vcvtdq2ps", VR512, VR512, sint_to_fp,
memopv8i64, i512mem, v16f32, v16i32,
SSEPackedSingle>, EVEX_V512, PS,
EVEX_CD8<32, CD8VF>;
defm VCVTDQ2PDZ : avx512_vcvt_fp<0xE6, "vcvtdq2pd", VR256X, VR512, sint_to_fp,
memopv4i64, i256mem, v8f64, v8i32,
SSEPackedDouble>, EVEX_V512, XS,
EVEX_CD8<32, CD8VH>;
defm VCVTTPS2DQZ : avx512_vcvt_fp<0x5B, "vcvttps2dq", VR512, VR512, fp_to_sint,
memopv16f32, f512mem, v16i32, v16f32,
SSEPackedSingle>, EVEX_V512, XS,
EVEX_CD8<32, CD8VF>;
defm VCVTTPD2DQZ : avx512_vcvt_fp<0xE6, "vcvttpd2dq", VR512, VR256X, fp_to_sint,
memopv8f64, f512mem, v8i32, v8f64,
SSEPackedDouble>, EVEX_V512, PD, VEX_W,
EVEX_CD8<64, CD8VF>;
defm VCVTTPS2UDQZ : avx512_vcvt_fp<0x78, "vcvttps2udq", VR512, VR512, fp_to_uint,
memopv16f32, f512mem, v16i32, v16f32,
SSEPackedSingle>, EVEX_V512, PS,
EVEX_CD8<32, CD8VF>;
// cvttps2udq (src, 0, mask-all-ones, sae-current)
def : Pat<(v16i32 (int_x86_avx512_mask_cvttps2udq_512 (v16f32 VR512:$src),
(v16i32 immAllZerosV), (i16 -1), FROUND_CURRENT)),
(VCVTTPS2UDQZrr VR512:$src)>;
defm VCVTTPD2UDQZ : avx512_vcvt_fp<0x78, "vcvttpd2udq", VR512, VR256X, fp_to_uint,
memopv8f64, f512mem, v8i32, v8f64,
SSEPackedDouble>, EVEX_V512, PS, VEX_W,
EVEX_CD8<64, CD8VF>;
// cvttpd2udq (src, 0, mask-all-ones, sae-current)
def : Pat<(v8i32 (int_x86_avx512_mask_cvttpd2udq_512 (v8f64 VR512:$src),
(v8i32 immAllZerosV), (i8 -1), FROUND_CURRENT)),
(VCVTTPD2UDQZrr VR512:$src)>;
defm VCVTUDQ2PDZ : avx512_vcvt_fp<0x7A, "vcvtudq2pd", VR256X, VR512, uint_to_fp,
memopv4i64, f256mem, v8f64, v8i32,
SSEPackedDouble>, EVEX_V512, XS,
EVEX_CD8<32, CD8VH>;
defm VCVTUDQ2PSZ : avx512_vcvt_fp_with_rc<0x7A, "vcvtudq2ps", VR512, VR512, uint_to_fp,
memopv16i32, f512mem, v16f32, v16i32,
SSEPackedSingle>, EVEX_V512, XD,
EVEX_CD8<32, CD8VF>;
def : Pat<(v8i32 (fp_to_uint (v8f32 VR256X:$src1))),
(EXTRACT_SUBREG (v16i32 (VCVTTPS2UDQZrr
(v16f32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)))), sub_ymm)>;
def : Pat<(v4i32 (fp_to_uint (v4f32 VR128X:$src1))),
(EXTRACT_SUBREG (v16i32 (VCVTTPS2UDQZrr
(v16f32 (SUBREG_TO_REG (i32 0), VR128X:$src1, sub_xmm)))), sub_xmm)>;
def : Pat<(v8f32 (uint_to_fp (v8i32 VR256X:$src1))),
(EXTRACT_SUBREG (v16f32 (VCVTUDQ2PSZrr
(v16i32 (SUBREG_TO_REG (i32 0), VR256X:$src1, sub_ymm)))), sub_ymm)>;
def : Pat<(v4f32 (uint_to_fp (v4i32 VR128X:$src1))),
(EXTRACT_SUBREG (v16f32 (VCVTUDQ2PSZrr
(v16i32 (SUBREG_TO_REG (i32 0), VR128X:$src1, sub_xmm)))), sub_xmm)>;
def : Pat<(v4f64 (uint_to_fp (v4i32 VR128X:$src1))),
(EXTRACT_SUBREG (v8f64 (VCVTUDQ2PDZrr
(v8i32 (SUBREG_TO_REG (i32 0), VR128X:$src1, sub_xmm)))), sub_ymm)>;
def : Pat<(v16f32 (int_x86_avx512_mask_cvtdq2ps_512 (v16i32 VR512:$src),
(bc_v16f32 (v16i32 immAllZerosV)), (i16 -1), imm:$rc)),
(VCVTDQ2PSZrrb VR512:$src, imm:$rc)>;
def : Pat<(v8f64 (int_x86_avx512_mask_cvtdq2pd_512 (v8i32 VR256X:$src),
(bc_v8f64 (v16i32 immAllZerosV)), (i8 -1))),
(VCVTDQ2PDZrr VR256X:$src)>;
def : Pat<(v16f32 (int_x86_avx512_mask_cvtudq2ps_512 (v16i32 VR512:$src),
(bc_v16f32 (v16i32 immAllZerosV)), (i16 -1), imm:$rc)),
(VCVTUDQ2PSZrrb VR512:$src, imm:$rc)>;
def : Pat<(v8f64 (int_x86_avx512_mask_cvtudq2pd_512 (v8i32 VR256X:$src),
(bc_v8f64 (v16i32 immAllZerosV)), (i8 -1))),
(VCVTUDQ2PDZrr VR256X:$src)>;
multiclass avx512_vcvt_fp2int<bits<8> opc, string asm, RegisterClass SrcRC,
RegisterClass DstRC, PatFrag mem_frag,
X86MemOperand x86memop, Domain d> {
let hasSideEffects = 0 in {
def rr : AVX512PI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[], d>, EVEX;
def rrb : AVX512PI<opc, MRMSrcReg, (outs DstRC:$dst), (ins SrcRC:$src, AVX512RC:$rc),
!strconcat(asm," \t{$rc, $src, $dst|$dst, $src, $rc}"),
[], d>, EVEX, EVEX_B, EVEX_RC;
let mayLoad = 1 in
def rm : AVX512PI<opc, MRMSrcMem, (outs DstRC:$dst), (ins x86memop:$src),
!strconcat(asm," \t{$src, $dst|$dst, $src}"),
[], d>, EVEX;
} // hasSideEffects = 0
}
defm VCVTPS2DQZ : avx512_vcvt_fp2int<0x5B, "vcvtps2dq", VR512, VR512,
memopv16f32, f512mem, SSEPackedSingle>, PD,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VCVTPD2DQZ : avx512_vcvt_fp2int<0xE6, "vcvtpd2dq", VR512, VR256X,
memopv8f64, f512mem, SSEPackedDouble>, XD, VEX_W,
EVEX_V512, EVEX_CD8<64, CD8VF>;
def : Pat <(v16i32 (int_x86_avx512_mask_cvtps2dq_512 (v16f32 VR512:$src),
(v16i32 immAllZerosV), (i16 -1), imm:$rc)),
(VCVTPS2DQZrrb VR512:$src, imm:$rc)>;
def : Pat <(v8i32 (int_x86_avx512_mask_cvtpd2dq_512 (v8f64 VR512:$src),
(v8i32 immAllZerosV), (i8 -1), imm:$rc)),
(VCVTPD2DQZrrb VR512:$src, imm:$rc)>;
defm VCVTPS2UDQZ : avx512_vcvt_fp2int<0x79, "vcvtps2udq", VR512, VR512,
memopv16f32, f512mem, SSEPackedSingle>,
PS, EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VCVTPD2UDQZ : avx512_vcvt_fp2int<0x79, "vcvtpd2udq", VR512, VR256X,
memopv8f64, f512mem, SSEPackedDouble>, VEX_W,
PS, EVEX_V512, EVEX_CD8<64, CD8VF>;
def : Pat <(v16i32 (int_x86_avx512_mask_cvtps2udq_512 (v16f32 VR512:$src),
(v16i32 immAllZerosV), (i16 -1), imm:$rc)),
(VCVTPS2UDQZrrb VR512:$src, imm:$rc)>;
def : Pat <(v8i32 (int_x86_avx512_mask_cvtpd2udq_512 (v8f64 VR512:$src),
(v8i32 immAllZerosV), (i8 -1), imm:$rc)),
(VCVTPD2UDQZrrb VR512:$src, imm:$rc)>;
let Predicates = [HasAVX512] in {
def : Pat<(v8f32 (fround (loadv8f64 addr:$src))),
(VCVTPD2PSZrm addr:$src)>;
def : Pat<(v8f64 (extloadv8f32 addr:$src)),
(VCVTPS2PDZrm addr:$src)>;
}
//===----------------------------------------------------------------------===//
// Half precision conversion instructions
//===----------------------------------------------------------------------===//
multiclass avx512_cvtph2ps<RegisterClass destRC, RegisterClass srcRC,
X86MemOperand x86memop> {
def rr : AVX5128I<0x13, MRMSrcReg, (outs destRC:$dst), (ins srcRC:$src),
"vcvtph2ps\t{$src, $dst|$dst, $src}",
[]>, EVEX;
let hasSideEffects = 0, mayLoad = 1 in
def rm : AVX5128I<0x13, MRMSrcMem, (outs destRC:$dst), (ins x86memop:$src),
"vcvtph2ps\t{$src, $dst|$dst, $src}", []>, EVEX;
}
multiclass avx512_cvtps2ph<RegisterClass destRC, RegisterClass srcRC,
X86MemOperand x86memop> {
def rr : AVX512AIi8<0x1D, MRMDestReg, (outs destRC:$dst),
(ins srcRC:$src1, i32i8imm:$src2),
"vcvtps2ph \t{$src2, $src1, $dst|$dst, $src1, $src2}",
[]>, EVEX;
let hasSideEffects = 0, mayStore = 1 in
def mr : AVX512AIi8<0x1D, MRMDestMem, (outs),
(ins x86memop:$dst, srcRC:$src1, i32i8imm:$src2),
"vcvtps2ph \t{$src2, $src1, $dst|$dst, $src1, $src2}", []>, EVEX;
}
defm VCVTPH2PSZ : avx512_cvtph2ps<VR512, VR256X, f256mem>, EVEX_V512,
EVEX_CD8<32, CD8VH>;
defm VCVTPS2PHZ : avx512_cvtps2ph<VR256X, VR512, f256mem>, EVEX_V512,
EVEX_CD8<32, CD8VH>;
def : Pat<(v16i16 (int_x86_avx512_mask_vcvtps2ph_512 (v16f32 VR512:$src),
imm:$rc, (bc_v16i16(v8i32 immAllZerosV)), (i16 -1))),
(VCVTPS2PHZrr VR512:$src, imm:$rc)>;
def : Pat<(v16f32 (int_x86_avx512_mask_vcvtph2ps_512 (v16i16 VR256X:$src),
(bc_v16f32(v16i32 immAllZerosV)), (i16 -1), (i32 FROUND_CURRENT))),
(VCVTPH2PSZrr VR256X:$src)>;
let Defs = [EFLAGS], Predicates = [HasAVX512] in {
defm VUCOMISSZ : sse12_ord_cmp<0x2E, FR32X, X86cmp, f32, f32mem, loadf32,
"ucomiss">, PS, EVEX, VEX_LIG,
EVEX_CD8<32, CD8VT1>;
defm VUCOMISDZ : sse12_ord_cmp<0x2E, FR64X, X86cmp, f64, f64mem, loadf64,
"ucomisd">, PD, EVEX,
VEX_LIG, VEX_W, EVEX_CD8<64, CD8VT1>;
let Pattern = []<dag> in {
defm VCOMISSZ : sse12_ord_cmp<0x2F, VR128X, undef, v4f32, f128mem, load,
"comiss">, PS, EVEX, VEX_LIG,
EVEX_CD8<32, CD8VT1>;
defm VCOMISDZ : sse12_ord_cmp<0x2F, VR128X, undef, v2f64, f128mem, load,
"comisd">, PD, EVEX,
VEX_LIG, VEX_W, EVEX_CD8<64, CD8VT1>;
}
let isCodeGenOnly = 1 in {
defm Int_VUCOMISSZ : sse12_ord_cmp<0x2E, VR128X, X86ucomi, v4f32, f128mem,
load, "ucomiss">, PS, EVEX, VEX_LIG,
EVEX_CD8<32, CD8VT1>;
defm Int_VUCOMISDZ : sse12_ord_cmp<0x2E, VR128X, X86ucomi, v2f64, f128mem,
load, "ucomisd">, PD, EVEX,
VEX_LIG, VEX_W, EVEX_CD8<64, CD8VT1>;
defm Int_VCOMISSZ : sse12_ord_cmp<0x2F, VR128X, X86comi, v4f32, f128mem,
load, "comiss">, PS, EVEX, VEX_LIG,
EVEX_CD8<32, CD8VT1>;
defm Int_VCOMISDZ : sse12_ord_cmp<0x2F, VR128X, X86comi, v2f64, f128mem,
load, "comisd">, PD, EVEX,
VEX_LIG, VEX_W, EVEX_CD8<64, CD8VT1>;
}
}
/// avx512_fp14_s rcp14ss, rcp14sd, rsqrt14ss, rsqrt14sd
multiclass avx512_fp14_s<bits<8> opc, string OpcodeStr, RegisterClass RC,
X86MemOperand x86memop> {
let hasSideEffects = 0 in {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>, EVEX_4V;
let mayLoad = 1 in {
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>, EVEX_4V;
}
}
}
defm VRCP14SS : avx512_fp14_s<0x4D, "vrcp14ss", FR32X, f32mem>,
EVEX_CD8<32, CD8VT1>;
defm VRCP14SD : avx512_fp14_s<0x4D, "vrcp14sd", FR64X, f64mem>,
VEX_W, EVEX_CD8<64, CD8VT1>;
defm VRSQRT14SS : avx512_fp14_s<0x4F, "vrsqrt14ss", FR32X, f32mem>,
EVEX_CD8<32, CD8VT1>;
defm VRSQRT14SD : avx512_fp14_s<0x4F, "vrsqrt14sd", FR64X, f64mem>,
VEX_W, EVEX_CD8<64, CD8VT1>;
def : Pat <(v4f32 (int_x86_avx512_rcp14_ss (v4f32 VR128X:$src1),
(v4f32 VR128X:$src2), (bc_v4f32 (v4i32 immAllZerosV)), (i8 -1))),
(COPY_TO_REGCLASS (VRCP14SSrr (COPY_TO_REGCLASS VR128X:$src1, FR32X),
(COPY_TO_REGCLASS VR128X:$src2, FR32X)), VR128X)>;
def : Pat <(v2f64 (int_x86_avx512_rcp14_sd (v2f64 VR128X:$src1),
(v2f64 VR128X:$src2), (bc_v2f64 (v4i32 immAllZerosV)), (i8 -1))),
(COPY_TO_REGCLASS (VRCP14SDrr (COPY_TO_REGCLASS VR128X:$src1, FR64X),
(COPY_TO_REGCLASS VR128X:$src2, FR64X)), VR128X)>;
def : Pat <(v4f32 (int_x86_avx512_rsqrt14_ss (v4f32 VR128X:$src1),
(v4f32 VR128X:$src2), (bc_v4f32 (v4i32 immAllZerosV)), (i8 -1))),
(COPY_TO_REGCLASS (VRSQRT14SSrr (COPY_TO_REGCLASS VR128X:$src1, FR32X),
(COPY_TO_REGCLASS VR128X:$src2, FR32X)), VR128X)>;
def : Pat <(v2f64 (int_x86_avx512_rsqrt14_sd (v2f64 VR128X:$src1),
(v2f64 VR128X:$src2), (bc_v2f64 (v4i32 immAllZerosV)), (i8 -1))),
(COPY_TO_REGCLASS (VRSQRT14SDrr (COPY_TO_REGCLASS VR128X:$src1, FR64X),
(COPY_TO_REGCLASS VR128X:$src2, FR64X)), VR128X)>;
/// avx512_fp14_p rcp14ps, rcp14pd, rsqrt14ps, rsqrt14pd
multiclass avx512_fp14_p<bits<8> opc, string OpcodeStr, SDNode OpNode,
X86VectorVTInfo _> {
defm r: AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src), OpcodeStr, "$src", "$src",
(_.FloatVT (OpNode _.RC:$src))>, EVEX, T8PD;
let mayLoad = 1 in {
defm m: AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.MemOp:$src), OpcodeStr, "$src", "$src",
(OpNode (_.FloatVT
(bitconvert (_.LdFrag addr:$src))))>, EVEX, T8PD;
defm mb: AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.ScalarMemOp:$src), OpcodeStr,
"${src}"##_.BroadcastStr, "${src}"##_.BroadcastStr,
(OpNode (_.FloatVT
(X86VBroadcast (_.ScalarLdFrag addr:$src))))>,
EVEX, T8PD, EVEX_B;
}
}
multiclass avx512_fp14_p_vl_all<bits<8> opc, string OpcodeStr, SDNode OpNode> {
defm PSZ : avx512_fp14_p<opc, !strconcat(OpcodeStr, "ps"), OpNode, v16f32_info>,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm PDZ : avx512_fp14_p<opc, !strconcat(OpcodeStr, "pd"), OpNode, v8f64_info>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
// Define only if AVX512VL feature is present.
let Predicates = [HasVLX] in {
defm PSZ128 : avx512_fp14_p<opc, !strconcat(OpcodeStr, "ps"),
OpNode, v4f32x_info>,
EVEX_V128, EVEX_CD8<32, CD8VF>;
defm PSZ256 : avx512_fp14_p<opc, !strconcat(OpcodeStr, "ps"),
OpNode, v8f32x_info>,
EVEX_V256, EVEX_CD8<32, CD8VF>;
defm PDZ128 : avx512_fp14_p<opc, !strconcat(OpcodeStr, "pd"),
OpNode, v2f64x_info>,
EVEX_V128, VEX_W, EVEX_CD8<64, CD8VF>;
defm PDZ256 : avx512_fp14_p<opc, !strconcat(OpcodeStr, "pd"),
OpNode, v4f64x_info>,
EVEX_V256, VEX_W, EVEX_CD8<64, CD8VF>;
}
}
defm VRSQRT14 : avx512_fp14_p_vl_all<0x4E, "vrsqrt14", X86frsqrt>;
defm VRCP14 : avx512_fp14_p_vl_all<0x4C, "vrcp14", X86frcp>;
def : Pat <(v16f32 (int_x86_avx512_rsqrt14_ps_512 (v16f32 VR512:$src),
(bc_v16f32 (v16i32 immAllZerosV)), (i16 -1))),
(VRSQRT14PSZr VR512:$src)>;
def : Pat <(v8f64 (int_x86_avx512_rsqrt14_pd_512 (v8f64 VR512:$src),
(bc_v8f64 (v16i32 immAllZerosV)), (i8 -1))),
(VRSQRT14PDZr VR512:$src)>;
def : Pat <(v16f32 (int_x86_avx512_rcp14_ps_512 (v16f32 VR512:$src),
(bc_v16f32 (v16i32 immAllZerosV)), (i16 -1))),
(VRCP14PSZr VR512:$src)>;
def : Pat <(v8f64 (int_x86_avx512_rcp14_pd_512 (v8f64 VR512:$src),
(bc_v8f64 (v16i32 immAllZerosV)), (i8 -1))),
(VRCP14PDZr VR512:$src)>;
/// avx512_fp28_s rcp28ss, rcp28sd, rsqrt28ss, rsqrt28sd
multiclass avx512_fp28_s<bits<8> opc, string OpcodeStr, RegisterClass RC,
X86MemOperand x86memop> {
let hasSideEffects = 0, Predicates = [HasERI] in {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>, EVEX_4V;
def rrb : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2),
!strconcat(OpcodeStr,
" \t{{sae}, $src2, $src1, $dst|$dst, $src1, $src2, {sae}}"),
[]>, EVEX_4V, EVEX_B;
let mayLoad = 1 in {
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>, EVEX_4V;
}
}
}
defm VRCP28SS : avx512_fp28_s<0xCB, "vrcp28ss", FR32X, f32mem>,
EVEX_CD8<32, CD8VT1>;
defm VRCP28SD : avx512_fp28_s<0xCB, "vrcp28sd", FR64X, f64mem>,
VEX_W, EVEX_CD8<64, CD8VT1>;
defm VRSQRT28SS : avx512_fp28_s<0xCD, "vrsqrt28ss", FR32X, f32mem>,
EVEX_CD8<32, CD8VT1>;
defm VRSQRT28SD : avx512_fp28_s<0xCD, "vrsqrt28sd", FR64X, f64mem>,
VEX_W, EVEX_CD8<64, CD8VT1>;
def : Pat <(v4f32 (int_x86_avx512_rcp28_ss (v4f32 VR128X:$src1),
(v4f32 VR128X:$src2), (bc_v4f32 (v4i32 immAllZerosV)), (i8 -1),
FROUND_NO_EXC)),
(COPY_TO_REGCLASS (VRCP28SSrrb (COPY_TO_REGCLASS VR128X:$src1, FR32X),
(COPY_TO_REGCLASS VR128X:$src2, FR32X)), VR128X)>;
def : Pat <(v2f64 (int_x86_avx512_rcp28_sd (v2f64 VR128X:$src1),
(v2f64 VR128X:$src2), (bc_v2f64 (v4i32 immAllZerosV)), (i8 -1),
FROUND_NO_EXC)),
(COPY_TO_REGCLASS (VRCP28SDrrb (COPY_TO_REGCLASS VR128X:$src1, FR64X),
(COPY_TO_REGCLASS VR128X:$src2, FR64X)), VR128X)>;
def : Pat <(v4f32 (int_x86_avx512_rsqrt28_ss (v4f32 VR128X:$src1),
(v4f32 VR128X:$src2), (bc_v4f32 (v4i32 immAllZerosV)), (i8 -1),
FROUND_NO_EXC)),
(COPY_TO_REGCLASS (VRSQRT28SSrrb (COPY_TO_REGCLASS VR128X:$src1, FR32X),
(COPY_TO_REGCLASS VR128X:$src2, FR32X)), VR128X)>;
def : Pat <(v2f64 (int_x86_avx512_rsqrt28_sd (v2f64 VR128X:$src1),
(v2f64 VR128X:$src2), (bc_v2f64 (v4i32 immAllZerosV)), (i8 -1),
FROUND_NO_EXC)),
(COPY_TO_REGCLASS (VRSQRT28SDrrb (COPY_TO_REGCLASS VR128X:$src1, FR64X),
(COPY_TO_REGCLASS VR128X:$src2, FR64X)), VR128X)>;
/// avx512_fp28_p rcp28ps, rcp28pd, rsqrt28ps, rsqrt28pd
multiclass avx512_fp28_p<bits<8> opc, string OpcodeStr, X86VectorVTInfo _,
SDNode OpNode> {
defm r : AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src), OpcodeStr, "$src", "$src",
(OpNode (_.VT _.RC:$src), (i32 FROUND_CURRENT))>;
defm rb : AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src), OpcodeStr,
"$src", "$src",
(OpNode (_.VT _.RC:$src), (i32 FROUND_NO_EXC)), "{sae}">, EVEX_B;
defm m : AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.MemOp:$src), OpcodeStr, "$src", "$src",
(OpNode (_.FloatVT
(bitconvert (_.LdFrag addr:$src))), (i32 FROUND_CURRENT))>;
defm mb : AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.MemOp:$src), OpcodeStr, "$src", "$src",
(OpNode (_.FloatVT
(X86VBroadcast (_.ScalarLdFrag addr:$src))),
(i32 FROUND_CURRENT))>, EVEX_B;
}
multiclass avx512_eri<bits<8> opc, string OpcodeStr, SDNode OpNode> {
defm PS : avx512_fp28_p<opc, OpcodeStr#"ps", v16f32_info, OpNode>,
EVEX_CD8<32, CD8VF>;
defm PD : avx512_fp28_p<opc, OpcodeStr#"pd", v8f64_info, OpNode>,
VEX_W, EVEX_CD8<32, CD8VF>;
}
let Predicates = [HasERI], hasSideEffects = 0 in {
defm VRSQRT28 : avx512_eri<0xCC, "vrsqrt28", X86rsqrt28>, EVEX, EVEX_V512, T8PD;
defm VRCP28 : avx512_eri<0xCA, "vrcp28", X86rcp28>, EVEX, EVEX_V512, T8PD;
defm VEXP2 : avx512_eri<0xC8, "vexp2", X86exp2>, EVEX, EVEX_V512, T8PD;
}
multiclass avx512_sqrt_packed<bits<8> opc, string OpcodeStr,
SDNode OpNode, X86VectorVTInfo _>{
defm r: AVX512_maskable<opc, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src), OpcodeStr, "$src", "$src",
(_.FloatVT (OpNode _.RC:$src))>, EVEX;
let mayLoad = 1 in {
defm m: AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.MemOp:$src), OpcodeStr, "$src", "$src",
(OpNode (_.FloatVT
(bitconvert (_.LdFrag addr:$src))))>, EVEX;
defm mb: AVX512_maskable<opc, MRMSrcMem, _, (outs _.RC:$dst),
(ins _.ScalarMemOp:$src), OpcodeStr,
"${src}"##_.BroadcastStr, "${src}"##_.BroadcastStr,
(OpNode (_.FloatVT
(X86VBroadcast (_.ScalarLdFrag addr:$src))))>,
EVEX, EVEX_B;
}
}
multiclass avx512_sqrt_scalar<bits<8> opc, string OpcodeStr,
Intrinsic F32Int, Intrinsic F64Int,
OpndItins itins_s, OpndItins itins_d> {
def SSZr : SI<opc, MRMSrcReg, (outs FR32X:$dst),
(ins FR32X:$src1, FR32X:$src2),
!strconcat(OpcodeStr,
"ss\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[], itins_s.rr>, XS, EVEX_4V;
let isCodeGenOnly = 1 in
def SSZr_Int : SIi8<opc, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src1, VR128X:$src2),
!strconcat(OpcodeStr,
"ss\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set VR128X:$dst,
(F32Int VR128X:$src1, VR128X:$src2))],
itins_s.rr>, XS, EVEX_4V;
let mayLoad = 1 in {
def SSZm : SI<opc, MRMSrcMem, (outs FR32X:$dst),
(ins FR32X:$src1, f32mem:$src2),
!strconcat(OpcodeStr,
"ss\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[], itins_s.rm>, XS, EVEX_4V, EVEX_CD8<32, CD8VT1>;
let isCodeGenOnly = 1 in
def SSZm_Int : SIi8<opc, MRMSrcMem, (outs VR128X:$dst),
(ins VR128X:$src1, ssmem:$src2),
!strconcat(OpcodeStr,
"ss\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set VR128X:$dst,
(F32Int VR128X:$src1, sse_load_f32:$src2))],
itins_s.rm>, XS, EVEX_4V, EVEX_CD8<32, CD8VT1>;
}
def SDZr : SI<opc, MRMSrcReg, (outs FR64X:$dst),
(ins FR64X:$src1, FR64X:$src2),
!strconcat(OpcodeStr,
"sd\t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>,
XD, EVEX_4V, VEX_W;
let isCodeGenOnly = 1 in
def SDZr_Int : SIi8<opc, MRMSrcReg, (outs VR128X:$dst),
(ins VR128X:$src1, VR128X:$src2),
!strconcat(OpcodeStr,
"sd\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set VR128X:$dst,
(F64Int VR128X:$src1, VR128X:$src2))],
itins_s.rr>, XD, EVEX_4V, VEX_W;
let mayLoad = 1 in {
def SDZm : SI<opc, MRMSrcMem, (outs FR64X:$dst),
(ins FR64X:$src1, f64mem:$src2),
!strconcat(OpcodeStr,
"sd\t{$src2, $src1, $dst|$dst, $src1, $src2}"), []>,
XD, EVEX_4V, VEX_W, EVEX_CD8<64, CD8VT1>;
let isCodeGenOnly = 1 in
def SDZm_Int : SIi8<opc, MRMSrcMem, (outs VR128X:$dst),
(ins VR128X:$src1, sdmem:$src2),
!strconcat(OpcodeStr,
"sd\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set VR128X:$dst,
(F64Int VR128X:$src1, sse_load_f64:$src2))]>,
XD, EVEX_4V, VEX_W, EVEX_CD8<64, CD8VT1>;
}
}
multiclass avx512_sqrt_packed_all<bits<8> opc, string OpcodeStr,
SDNode OpNode> {
defm PSZ : avx512_sqrt_packed<opc, !strconcat(OpcodeStr, "ps"), OpNode,
v16f32_info>,
EVEX_V512, PS, EVEX_CD8<32, CD8VF>;
defm PDZ : avx512_sqrt_packed<opc, !strconcat(OpcodeStr, "pd"), OpNode,
v8f64_info>,
EVEX_V512, VEX_W, PD, EVEX_CD8<64, CD8VF>;
// Define only if AVX512VL feature is present.
let Predicates = [HasVLX] in {
defm PSZ128 : avx512_sqrt_packed<opc, !strconcat(OpcodeStr, "ps"),
OpNode, v4f32x_info>,
EVEX_V128, PS, EVEX_CD8<32, CD8VF>;
defm PSZ256 : avx512_sqrt_packed<opc, !strconcat(OpcodeStr, "ps"),
OpNode, v8f32x_info>,
EVEX_V256, PS, EVEX_CD8<32, CD8VF>;
defm PDZ128 : avx512_sqrt_packed<opc, !strconcat(OpcodeStr, "pd"),
OpNode, v2f64x_info>,
EVEX_V128, VEX_W, PD, EVEX_CD8<64, CD8VF>;
defm PDZ256 : avx512_sqrt_packed<opc, !strconcat(OpcodeStr, "pd"),
OpNode, v4f64x_info>,
EVEX_V256, VEX_W, PD, EVEX_CD8<64, CD8VF>;
}
}
defm VSQRT : avx512_sqrt_packed_all<0x51, "vsqrt", fsqrt>;
defm VSQRT : avx512_sqrt_scalar<0x51, "sqrt",
int_x86_avx512_sqrt_ss, int_x86_avx512_sqrt_sd,
SSE_SQRTSS, SSE_SQRTSD>;
let Predicates = [HasAVX512] in {
def : Pat<(v16f32 (int_x86_avx512_sqrt_ps_512 (v16f32 VR512:$src1),
(bc_v16f32 (v16i32 immAllZerosV)), (i16 -1), FROUND_CURRENT)),
(VSQRTPSZr VR512:$src1)>;
def : Pat<(v8f64 (int_x86_avx512_sqrt_pd_512 (v8f64 VR512:$src1),
(bc_v8f64 (v16i32 immAllZerosV)), (i8 -1), FROUND_CURRENT)),
(VSQRTPDZr VR512:$src1)>;
def : Pat<(f32 (fsqrt FR32X:$src)),
(VSQRTSSZr (f32 (IMPLICIT_DEF)), FR32X:$src)>;
def : Pat<(f32 (fsqrt (load addr:$src))),
(VSQRTSSZm (f32 (IMPLICIT_DEF)), addr:$src)>,
Requires<[OptForSize]>;
def : Pat<(f64 (fsqrt FR64X:$src)),
(VSQRTSDZr (f64 (IMPLICIT_DEF)), FR64X:$src)>;
def : Pat<(f64 (fsqrt (load addr:$src))),
(VSQRTSDZm (f64 (IMPLICIT_DEF)), addr:$src)>,
Requires<[OptForSize]>;
def : Pat<(f32 (X86frsqrt FR32X:$src)),
(VRSQRT14SSrr (f32 (IMPLICIT_DEF)), FR32X:$src)>;
def : Pat<(f32 (X86frsqrt (load addr:$src))),
(VRSQRT14SSrm (f32 (IMPLICIT_DEF)), addr:$src)>,
Requires<[OptForSize]>;
def : Pat<(f32 (X86frcp FR32X:$src)),
(VRCP14SSrr (f32 (IMPLICIT_DEF)), FR32X:$src)>;
def : Pat<(f32 (X86frcp (load addr:$src))),
(VRCP14SSrm (f32 (IMPLICIT_DEF)), addr:$src)>,
Requires<[OptForSize]>;
def : Pat<(int_x86_sse_sqrt_ss VR128X:$src),
(COPY_TO_REGCLASS (VSQRTSSZr (f32 (IMPLICIT_DEF)),
(COPY_TO_REGCLASS VR128X:$src, FR32)),
VR128X)>;
def : Pat<(int_x86_sse_sqrt_ss sse_load_f32:$src),
(VSQRTSSZm_Int (v4f32 (IMPLICIT_DEF)), sse_load_f32:$src)>;
def : Pat<(int_x86_sse2_sqrt_sd VR128X:$src),
(COPY_TO_REGCLASS (VSQRTSDZr (f64 (IMPLICIT_DEF)),
(COPY_TO_REGCLASS VR128X:$src, FR64)),
VR128X)>;
def : Pat<(int_x86_sse2_sqrt_sd sse_load_f64:$src),
(VSQRTSDZm_Int (v2f64 (IMPLICIT_DEF)), sse_load_f64:$src)>;
}
multiclass avx512_fp_unop_rm<bits<8> opcps, bits<8> opcpd, string OpcodeStr,
X86MemOperand x86memop, RegisterClass RC,
PatFrag mem_frag32, PatFrag mem_frag64,
Intrinsic V4F32Int, Intrinsic V2F64Int,
CD8VForm VForm> {
let ExeDomain = SSEPackedSingle in {
// Intrinsic operation, reg.
// Vector intrinsic operation, reg
def PSr : AVX512AIi8<opcps, MRMSrcReg,
(outs RC:$dst), (ins RC:$src1, i32i8imm:$src2),
!strconcat(OpcodeStr,
"ps\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst, (V4F32Int RC:$src1, imm:$src2))]>;
// Vector intrinsic operation, mem
def PSm : AVX512AIi8<opcps, MRMSrcMem,
(outs RC:$dst), (ins x86memop:$src1, i32i8imm:$src2),
!strconcat(OpcodeStr,
"ps\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(V4F32Int (mem_frag32 addr:$src1),imm:$src2))]>,
EVEX_CD8<32, VForm>;
} // ExeDomain = SSEPackedSingle
let ExeDomain = SSEPackedDouble in {
// Vector intrinsic operation, reg
def PDr : AVX512AIi8<opcpd, MRMSrcReg,
(outs RC:$dst), (ins RC:$src1, i32i8imm:$src2),
!strconcat(OpcodeStr,
"pd\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst, (V2F64Int RC:$src1, imm:$src2))]>;
// Vector intrinsic operation, mem
def PDm : AVX512AIi8<opcpd, MRMSrcMem,
(outs RC:$dst), (ins x86memop:$src1, i32i8imm:$src2),
!strconcat(OpcodeStr,
"pd\t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[(set RC:$dst,
(V2F64Int (mem_frag64 addr:$src1),imm:$src2))]>,
EVEX_CD8<64, VForm>;
} // ExeDomain = SSEPackedDouble
}
multiclass avx512_fp_binop_rm<bits<8> opcss, bits<8> opcsd,
string OpcodeStr,
Intrinsic F32Int,
Intrinsic F64Int> {
let ExeDomain = GenericDomain in {
// Operation, reg.
let hasSideEffects = 0 in
def SSr : AVX512AIi8<opcss, MRMSrcReg,
(outs FR32X:$dst), (ins FR32X:$src1, FR32X:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
"ss\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[]>;
// Intrinsic operation, reg.
let isCodeGenOnly = 1 in
def SSr_Int : AVX512AIi8<opcss, MRMSrcReg,
(outs VR128X:$dst), (ins VR128X:$src1, VR128X:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
"ss\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[(set VR128X:$dst, (F32Int VR128X:$src1, VR128X:$src2, imm:$src3))]>;
// Intrinsic operation, mem.
def SSm : AVX512AIi8<opcss, MRMSrcMem, (outs VR128X:$dst),
(ins VR128X:$src1, ssmem:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
"ss\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[(set VR128X:$dst, (F32Int VR128X:$src1,
sse_load_f32:$src2, imm:$src3))]>,
EVEX_CD8<32, CD8VT1>;
// Operation, reg.
let hasSideEffects = 0 in
def SDr : AVX512AIi8<opcsd, MRMSrcReg,
(outs FR64X:$dst), (ins FR64X:$src1, FR64X:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
"sd\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[]>, VEX_W;
// Intrinsic operation, reg.
let isCodeGenOnly = 1 in
def SDr_Int : AVX512AIi8<opcsd, MRMSrcReg,
(outs VR128X:$dst), (ins VR128X:$src1, VR128X:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
"sd\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[(set VR128X:$dst, (F64Int VR128X:$src1, VR128X:$src2, imm:$src3))]>,
VEX_W;
// Intrinsic operation, mem.
def SDm : AVX512AIi8<opcsd, MRMSrcMem,
(outs VR128X:$dst), (ins VR128X:$src1, sdmem:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
"sd\t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[(set VR128X:$dst,
(F64Int VR128X:$src1, sse_load_f64:$src2, imm:$src3))]>,
VEX_W, EVEX_CD8<64, CD8VT1>;
} // ExeDomain = GenericDomain
}
multiclass avx512_rndscale<bits<8> opc, string OpcodeStr,
X86MemOperand x86memop, RegisterClass RC,
PatFrag mem_frag, Domain d> {
let ExeDomain = d in {
// Intrinsic operation, reg.
// Vector intrinsic operation, reg
def r : AVX512AIi8<opc, MRMSrcReg,
(outs RC:$dst), (ins RC:$src1, i32i8imm:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[]>, EVEX;
// Vector intrinsic operation, mem
def m : AVX512AIi8<opc, MRMSrcMem,
(outs RC:$dst), (ins x86memop:$src1, i32i8imm:$src2),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[]>, EVEX;
} // ExeDomain
}
defm VRNDSCALEPSZ : avx512_rndscale<0x08, "vrndscaleps", f512mem, VR512,
memopv16f32, SSEPackedSingle>, EVEX_V512,
EVEX_CD8<32, CD8VF>;
def : Pat<(v16f32 (int_x86_avx512_mask_rndscale_ps_512 (v16f32 VR512:$src1),
imm:$src2, (v16f32 VR512:$src1), (i16 -1),
FROUND_CURRENT)),
(VRNDSCALEPSZr VR512:$src1, imm:$src2)>;
defm VRNDSCALEPDZ : avx512_rndscale<0x09, "vrndscalepd", f512mem, VR512,
memopv8f64, SSEPackedDouble>, EVEX_V512,
VEX_W, EVEX_CD8<64, CD8VF>;
def : Pat<(v8f64 (int_x86_avx512_mask_rndscale_pd_512 (v8f64 VR512:$src1),
imm:$src2, (v8f64 VR512:$src1), (i8 -1),
FROUND_CURRENT)),
(VRNDSCALEPDZr VR512:$src1, imm:$src2)>;
multiclass avx512_rndscale_scalar<bits<8> opc, string OpcodeStr,
Operand x86memop, RegisterClass RC, Domain d> {
let ExeDomain = d in {
def r : AVX512AIi8<opc, MRMSrcReg,
(outs RC:$dst), (ins RC:$src1, RC:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[]>, EVEX_4V;
def m : AVX512AIi8<opc, MRMSrcMem,
(outs RC:$dst), (ins RC:$src1, x86memop:$src2, i32i8imm:$src3),
!strconcat(OpcodeStr,
" \t{$src2, $src1, $dst|$dst, $src1, $src2}"),
[]>, EVEX_4V;
} // ExeDomain
}
defm VRNDSCALESS : avx512_rndscale_scalar<0x0A, "vrndscaless", ssmem, FR32X,
SSEPackedSingle>, EVEX_CD8<32, CD8VT1>;
defm VRNDSCALESD : avx512_rndscale_scalar<0x0B, "vrndscalesd", sdmem, FR64X,
SSEPackedDouble>, EVEX_CD8<64, CD8VT1>;
def : Pat<(ffloor FR32X:$src),
(VRNDSCALESSr (f32 (IMPLICIT_DEF)), FR32X:$src, (i32 0x1))>;
def : Pat<(f64 (ffloor FR64X:$src)),
(VRNDSCALESDr (f64 (IMPLICIT_DEF)), FR64X:$src, (i32 0x1))>;
def : Pat<(f32 (fnearbyint FR32X:$src)),
(VRNDSCALESSr (f32 (IMPLICIT_DEF)), FR32X:$src, (i32 0xC))>;
def : Pat<(f64 (fnearbyint FR64X:$src)),
(VRNDSCALESDr (f64 (IMPLICIT_DEF)), FR64X:$src, (i32 0xC))>;
def : Pat<(f32 (fceil FR32X:$src)),
(VRNDSCALESSr (f32 (IMPLICIT_DEF)), FR32X:$src, (i32 0x2))>;
def : Pat<(f64 (fceil FR64X:$src)),
(VRNDSCALESDr (f64 (IMPLICIT_DEF)), FR64X:$src, (i32 0x2))>;
def : Pat<(f32 (frint FR32X:$src)),
(VRNDSCALESSr (f32 (IMPLICIT_DEF)), FR32X:$src, (i32 0x4))>;
def : Pat<(f64 (frint FR64X:$src)),
(VRNDSCALESDr (f64 (IMPLICIT_DEF)), FR64X:$src, (i32 0x4))>;
def : Pat<(f32 (ftrunc FR32X:$src)),
(VRNDSCALESSr (f32 (IMPLICIT_DEF)), FR32X:$src, (i32 0x3))>;
def : Pat<(f64 (ftrunc FR64X:$src)),
(VRNDSCALESDr (f64 (IMPLICIT_DEF)), FR64X:$src, (i32 0x3))>;
def : Pat<(v16f32 (ffloor VR512:$src)),
(VRNDSCALEPSZr VR512:$src, (i32 0x1))>;
def : Pat<(v16f32 (fnearbyint VR512:$src)),
(VRNDSCALEPSZr VR512:$src, (i32 0xC))>;
def : Pat<(v16f32 (fceil VR512:$src)),
(VRNDSCALEPSZr VR512:$src, (i32 0x2))>;
def : Pat<(v16f32 (frint VR512:$src)),
(VRNDSCALEPSZr VR512:$src, (i32 0x4))>;
def : Pat<(v16f32 (ftrunc VR512:$src)),
(VRNDSCALEPSZr VR512:$src, (i32 0x3))>;
def : Pat<(v8f64 (ffloor VR512:$src)),
(VRNDSCALEPDZr VR512:$src, (i32 0x1))>;
def : Pat<(v8f64 (fnearbyint VR512:$src)),
(VRNDSCALEPDZr VR512:$src, (i32 0xC))>;
def : Pat<(v8f64 (fceil VR512:$src)),
(VRNDSCALEPDZr VR512:$src, (i32 0x2))>;
def : Pat<(v8f64 (frint VR512:$src)),
(VRNDSCALEPDZr VR512:$src, (i32 0x4))>;
def : Pat<(v8f64 (ftrunc VR512:$src)),
(VRNDSCALEPDZr VR512:$src, (i32 0x3))>;
//-------------------------------------------------
// Integer truncate and extend operations
//-------------------------------------------------
multiclass avx512_trunc_sat<bits<8> opc, string OpcodeStr,
RegisterClass dstRC, RegisterClass srcRC,
RegisterClass KRC, X86MemOperand x86memop> {
def rr : AVX512XS8I<opc, MRMDestReg, (outs dstRC:$dst),
(ins srcRC:$src),
!strconcat(OpcodeStr," \t{$src, $dst|$dst, $src}"),
[]>, EVEX;
def rrk : AVX512XS8I<opc, MRMDestReg, (outs dstRC:$dst),
(ins KRC:$mask, srcRC:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}}|${dst} {${mask}}, $src}"),
[]>, EVEX, EVEX_K;
def rrkz : AVX512XS8I<opc, MRMDestReg, (outs dstRC:$dst),
(ins KRC:$mask, srcRC:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
def mr : AVX512XS8I<opc, MRMDestMem, (outs), (ins x86memop:$dst, srcRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX;
def mrk : AVX512XS8I<opc, MRMDestMem, (outs),
(ins x86memop:$dst, KRC:$mask, srcRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst {${mask}}|${dst} {${mask}}, $src}"),
[]>, EVEX, EVEX_K;
}
defm VPMOVQB : avx512_trunc_sat<0x32, "vpmovqb", VR128X, VR512, VK8WM,
i128mem>, EVEX_V512, EVEX_CD8<8, CD8VO>;
defm VPMOVSQB : avx512_trunc_sat<0x22, "vpmovsqb", VR128X, VR512, VK8WM,
i128mem>, EVEX_V512, EVEX_CD8<8, CD8VO>;
defm VPMOVUSQB : avx512_trunc_sat<0x12, "vpmovusqb", VR128X, VR512, VK8WM,
i128mem>, EVEX_V512, EVEX_CD8<8, CD8VO>;
defm VPMOVQW : avx512_trunc_sat<0x34, "vpmovqw", VR128X, VR512, VK8WM,
i128mem>, EVEX_V512, EVEX_CD8<16, CD8VQ>;
defm VPMOVSQW : avx512_trunc_sat<0x24, "vpmovsqw", VR128X, VR512, VK8WM,
i128mem>, EVEX_V512, EVEX_CD8<16, CD8VQ>;
defm VPMOVUSQW : avx512_trunc_sat<0x14, "vpmovusqw", VR128X, VR512, VK8WM,
i128mem>, EVEX_V512, EVEX_CD8<16, CD8VQ>;
defm VPMOVQD : avx512_trunc_sat<0x35, "vpmovqd", VR256X, VR512, VK8WM,
i256mem>, EVEX_V512, EVEX_CD8<32, CD8VH>;
defm VPMOVSQD : avx512_trunc_sat<0x25, "vpmovsqd", VR256X, VR512, VK8WM,
i256mem>, EVEX_V512, EVEX_CD8<32, CD8VH>;
defm VPMOVUSQD : avx512_trunc_sat<0x15, "vpmovusqd", VR256X, VR512, VK8WM,
i256mem>, EVEX_V512, EVEX_CD8<32, CD8VH>;
defm VPMOVDW : avx512_trunc_sat<0x33, "vpmovdw", VR256X, VR512, VK16WM,
i256mem>, EVEX_V512, EVEX_CD8<16, CD8VH>;
defm VPMOVSDW : avx512_trunc_sat<0x23, "vpmovsdw", VR256X, VR512, VK16WM,
i256mem>, EVEX_V512, EVEX_CD8<16, CD8VH>;
defm VPMOVUSDW : avx512_trunc_sat<0x13, "vpmovusdw", VR256X, VR512, VK16WM,
i256mem>, EVEX_V512, EVEX_CD8<16, CD8VH>;
defm VPMOVDB : avx512_trunc_sat<0x31, "vpmovdb", VR128X, VR512, VK16WM,
i128mem>, EVEX_V512, EVEX_CD8<8, CD8VQ>;
defm VPMOVSDB : avx512_trunc_sat<0x21, "vpmovsdb", VR128X, VR512, VK16WM,
i128mem>, EVEX_V512, EVEX_CD8<8, CD8VQ>;
defm VPMOVUSDB : avx512_trunc_sat<0x11, "vpmovusdb", VR128X, VR512, VK16WM,
i128mem>, EVEX_V512, EVEX_CD8<8, CD8VQ>;
def : Pat<(v16i8 (X86vtrunc (v8i64 VR512:$src))), (VPMOVQBrr VR512:$src)>;
def : Pat<(v8i16 (X86vtrunc (v8i64 VR512:$src))), (VPMOVQWrr VR512:$src)>;
def : Pat<(v16i16 (X86vtrunc (v16i32 VR512:$src))), (VPMOVDWrr VR512:$src)>;
def : Pat<(v16i8 (X86vtrunc (v16i32 VR512:$src))), (VPMOVDBrr VR512:$src)>;
def : Pat<(v8i32 (X86vtrunc (v8i64 VR512:$src))), (VPMOVQDrr VR512:$src)>;
def : Pat<(v16i8 (X86vtruncm VK16WM:$mask, (v16i32 VR512:$src))),
(VPMOVDBrrkz VK16WM:$mask, VR512:$src)>;
def : Pat<(v16i16 (X86vtruncm VK16WM:$mask, (v16i32 VR512:$src))),
(VPMOVDWrrkz VK16WM:$mask, VR512:$src)>;
def : Pat<(v8i16 (X86vtruncm VK8WM:$mask, (v8i64 VR512:$src))),
(VPMOVQWrrkz VK8WM:$mask, VR512:$src)>;
def : Pat<(v8i32 (X86vtruncm VK8WM:$mask, (v8i64 VR512:$src))),
(VPMOVQDrrkz VK8WM:$mask, VR512:$src)>;
multiclass avx512_extend<bits<8> opc, string OpcodeStr, RegisterClass KRC,
RegisterClass DstRC, RegisterClass SrcRC, SDNode OpNode,
PatFrag mem_frag, X86MemOperand x86memop,
ValueType OpVT, ValueType InVT> {
def rr : AVX5128I<opc, MRMSrcReg, (outs DstRC:$dst),
(ins SrcRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst, (OpVT (OpNode (InVT SrcRC:$src))))]>, EVEX;
def rrk : AVX5128I<opc, MRMSrcReg, (outs DstRC:$dst),
(ins KRC:$mask, SrcRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst {${mask}} |$dst {${mask}}, $src}"),
[]>, EVEX, EVEX_K;
def rrkz : AVX5128I<opc, MRMSrcReg, (outs DstRC:$dst),
(ins KRC:$mask, SrcRC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst {${mask}} {z}|$dst {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
let mayLoad = 1 in {
def rm : AVX5128I<opc, MRMSrcMem, (outs DstRC:$dst),
(ins x86memop:$src),
!strconcat(OpcodeStr," \t{$src, $dst|$dst, $src}"),
[(set DstRC:$dst,
(OpVT (OpNode (InVT (bitconvert (mem_frag addr:$src))))))]>,
EVEX;
def rmk : AVX5128I<opc, MRMSrcMem, (outs DstRC:$dst),
(ins KRC:$mask, x86memop:$src),
!strconcat(OpcodeStr," \t{$src, $dst {${mask}} |$dst {${mask}}, $src}"),
[]>,
EVEX, EVEX_K;
def rmkz : AVX5128I<opc, MRMSrcMem, (outs DstRC:$dst),
(ins KRC:$mask, x86memop:$src),
!strconcat(OpcodeStr," \t{$src, $dst {${mask}} {z}|$dst {${mask}} {z}, $src}"),
[]>,
EVEX, EVEX_KZ;
}
}
defm VPMOVZXBDZ: avx512_extend<0x31, "vpmovzxbd", VK16WM, VR512, VR128X, X86vzext,
memopv2i64, i128mem, v16i32, v16i8>, EVEX_V512,
EVEX_CD8<8, CD8VQ>;
defm VPMOVZXBQZ: avx512_extend<0x32, "vpmovzxbq", VK8WM, VR512, VR128X, X86vzext,
memopv2i64, i128mem, v8i64, v16i8>, EVEX_V512,
EVEX_CD8<8, CD8VO>;
defm VPMOVZXWDZ: avx512_extend<0x33, "vpmovzxwd", VK16WM, VR512, VR256X, X86vzext,
memopv4i64, i256mem, v16i32, v16i16>, EVEX_V512,
EVEX_CD8<16, CD8VH>;
defm VPMOVZXWQZ: avx512_extend<0x34, "vpmovzxwq", VK8WM, VR512, VR128X, X86vzext,
memopv2i64, i128mem, v8i64, v8i16>, EVEX_V512,
EVEX_CD8<16, CD8VQ>;
defm VPMOVZXDQZ: avx512_extend<0x35, "vpmovzxdq", VK8WM, VR512, VR256X, X86vzext,
memopv4i64, i256mem, v8i64, v8i32>, EVEX_V512,
EVEX_CD8<32, CD8VH>;
defm VPMOVSXBDZ: avx512_extend<0x21, "vpmovsxbd", VK16WM, VR512, VR128X, X86vsext,
memopv2i64, i128mem, v16i32, v16i8>, EVEX_V512,
EVEX_CD8<8, CD8VQ>;
defm VPMOVSXBQZ: avx512_extend<0x22, "vpmovsxbq", VK8WM, VR512, VR128X, X86vsext,
memopv2i64, i128mem, v8i64, v16i8>, EVEX_V512,
EVEX_CD8<8, CD8VO>;
defm VPMOVSXWDZ: avx512_extend<0x23, "vpmovsxwd", VK16WM, VR512, VR256X, X86vsext,
memopv4i64, i256mem, v16i32, v16i16>, EVEX_V512,
EVEX_CD8<16, CD8VH>;
defm VPMOVSXWQZ: avx512_extend<0x24, "vpmovsxwq", VK8WM, VR512, VR128X, X86vsext,
memopv2i64, i128mem, v8i64, v8i16>, EVEX_V512,
EVEX_CD8<16, CD8VQ>;
defm VPMOVSXDQZ: avx512_extend<0x25, "vpmovsxdq", VK8WM, VR512, VR256X, X86vsext,
memopv4i64, i256mem, v8i64, v8i32>, EVEX_V512,
EVEX_CD8<32, CD8VH>;
//===----------------------------------------------------------------------===//
// GATHER - SCATTER Operations
multiclass avx512_gather<bits<8> opc, string OpcodeStr, RegisterClass KRC,
RegisterClass RC, X86MemOperand memop> {
let mayLoad = 1,
Constraints = "@earlyclobber $dst, $src1 = $dst, $mask = $mask_wb" in
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst, KRC:$mask_wb),
(ins RC:$src1, KRC:$mask, memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, ${dst} {${mask}}|${dst} {${mask}}, $src2}"),
[]>, EVEX, EVEX_K;
}
let ExeDomain = SSEPackedDouble in {
defm VGATHERDPDZ : avx512_gather<0x92, "vgatherdpd", VK8WM, VR512, vy64xmem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VGATHERQPDZ : avx512_gather<0x93, "vgatherqpd", VK8WM, VR512, vz64mem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
}
let ExeDomain = SSEPackedSingle in {
defm VGATHERDPSZ : avx512_gather<0x92, "vgatherdps", VK16WM, VR512, vz32mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VGATHERQPSZ : avx512_gather<0x93, "vgatherqps", VK8WM, VR256X, vz64mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
}
defm VPGATHERDQZ : avx512_gather<0x90, "vpgatherdq", VK8WM, VR512, vy64xmem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VPGATHERDDZ : avx512_gather<0x90, "vpgatherdd", VK16WM, VR512, vz32mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VPGATHERQQZ : avx512_gather<0x91, "vpgatherqq", VK8WM, VR512, vz64mem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VPGATHERQDZ : avx512_gather<0x91, "vpgatherqd", VK8WM, VR256X, vz64mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
multiclass avx512_scatter<bits<8> opc, string OpcodeStr, RegisterClass KRC,
RegisterClass RC, X86MemOperand memop> {
let mayStore = 1, Constraints = "$mask = $mask_wb" in
def mr : AVX5128I<opc, MRMDestMem, (outs KRC:$mask_wb),
(ins memop:$dst, KRC:$mask, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, ${dst} {${mask}}|${dst} {${mask}}, $src2}"),
[]>, EVEX, EVEX_K;
}
let ExeDomain = SSEPackedDouble in {
defm VSCATTERDPDZ : avx512_scatter<0xA2, "vscatterdpd", VK8WM, VR512, vy64xmem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VSCATTERQPDZ : avx512_scatter<0xA3, "vscatterqpd", VK8WM, VR512, vz64mem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
}
let ExeDomain = SSEPackedSingle in {
defm VSCATTERDPSZ : avx512_scatter<0xA2, "vscatterdps", VK16WM, VR512, vz32mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VSCATTERQPSZ : avx512_scatter<0xA3, "vscatterqps", VK8WM, VR256X, vz64mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
}
defm VPSCATTERDQZ : avx512_scatter<0xA0, "vpscatterdq", VK8WM, VR512, vy64xmem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VPSCATTERDDZ : avx512_scatter<0xA0, "vpscatterdd", VK16WM, VR512, vz32mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VPSCATTERQQZ : avx512_scatter<0xA1, "vpscatterqq", VK8WM, VR512, vz64mem>,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VPSCATTERQDZ : avx512_scatter<0xA1, "vpscatterqd", VK8WM, VR256X, vz64mem>,
EVEX_V512, EVEX_CD8<32, CD8VT1>;
// prefetch
multiclass avx512_gather_scatter_prefetch<bits<8> opc, Format F, string OpcodeStr,
RegisterClass KRC, X86MemOperand memop> {
let Predicates = [HasPFI], hasSideEffects = 1 in
def m : AVX5128I<opc, F, (outs), (ins KRC:$mask, memop:$src),
!strconcat(OpcodeStr, " \t{$src {${mask}}|{${mask}}, $src}"),
[]>, EVEX, EVEX_K;
}
defm VGATHERPF0DPS: avx512_gather_scatter_prefetch<0xC6, MRM1m, "vgatherpf0dps",
VK16WM, vz32mem>, EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VGATHERPF0QPS: avx512_gather_scatter_prefetch<0xC7, MRM1m, "vgatherpf0qps",
VK8WM, vz64mem>, EVEX_V512, EVEX_CD8<64, CD8VT1>;
defm VGATHERPF0DPD: avx512_gather_scatter_prefetch<0xC6, MRM1m, "vgatherpf0dpd",
VK8WM, vy32mem>, EVEX_V512, VEX_W, EVEX_CD8<32, CD8VT1>;
defm VGATHERPF0QPD: avx512_gather_scatter_prefetch<0xC7, MRM1m, "vgatherpf0qpd",
VK8WM, vz64mem>, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VGATHERPF1DPS: avx512_gather_scatter_prefetch<0xC6, MRM2m, "vgatherpf1dps",
VK16WM, vz32mem>, EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VGATHERPF1QPS: avx512_gather_scatter_prefetch<0xC7, MRM2m, "vgatherpf1qps",
VK8WM, vz64mem>, EVEX_V512, EVEX_CD8<64, CD8VT1>;
defm VGATHERPF1DPD: avx512_gather_scatter_prefetch<0xC6, MRM2m, "vgatherpf1dpd",
VK8WM, vy32mem>, EVEX_V512, VEX_W, EVEX_CD8<32, CD8VT1>;
defm VGATHERPF1QPD: avx512_gather_scatter_prefetch<0xC7, MRM2m, "vgatherpf1qpd",
VK8WM, vz64mem>, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VSCATTERPF0DPS: avx512_gather_scatter_prefetch<0xC6, MRM5m, "vscatterpf0dps",
VK16WM, vz32mem>, EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VSCATTERPF0QPS: avx512_gather_scatter_prefetch<0xC7, MRM5m, "vscatterpf0qps",
VK8WM, vz64mem>, EVEX_V512, EVEX_CD8<64, CD8VT1>;
defm VSCATTERPF0DPD: avx512_gather_scatter_prefetch<0xC6, MRM5m, "vscatterpf0dpd",
VK8WM, vy32mem>, EVEX_V512, VEX_W, EVEX_CD8<32, CD8VT1>;
defm VSCATTERPF0QPD: avx512_gather_scatter_prefetch<0xC7, MRM5m, "vscatterpf0qpd",
VK8WM, vz64mem>, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
defm VSCATTERPF1DPS: avx512_gather_scatter_prefetch<0xC6, MRM6m, "vscatterpf1dps",
VK16WM, vz32mem>, EVEX_V512, EVEX_CD8<32, CD8VT1>;
defm VSCATTERPF1QPS: avx512_gather_scatter_prefetch<0xC7, MRM6m, "vscatterpf1qps",
VK8WM, vz64mem>, EVEX_V512, EVEX_CD8<64, CD8VT1>;
defm VSCATTERPF1DPD: avx512_gather_scatter_prefetch<0xC6, MRM6m, "vscatterpf1dpd",
VK8WM, vy32mem>, EVEX_V512, VEX_W, EVEX_CD8<32, CD8VT1>;
defm VSCATTERPF1QPD: avx512_gather_scatter_prefetch<0xC7, MRM6m, "vscatterpf1qpd",
VK8WM, vz64mem>, EVEX_V512, VEX_W, EVEX_CD8<64, CD8VT1>;
//===----------------------------------------------------------------------===//
// VSHUFPS - VSHUFPD Operations
multiclass avx512_shufp<RegisterClass RC, X86MemOperand x86memop,
ValueType vt, string OpcodeStr, PatFrag mem_frag,
Domain d> {
def rmi : AVX512PIi8<0xC6, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, x86memop:$src2, i8imm:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[(set RC:$dst, (vt (X86Shufp RC:$src1, (mem_frag addr:$src2),
(i8 imm:$src3))))], d, IIC_SSE_SHUFP>,
EVEX_4V, Sched<[WriteShuffleLd, ReadAfterLd]>;
def rri : AVX512PIi8<0xC6, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, RC:$src2, i8imm:$src3),
!strconcat(OpcodeStr,
" \t{$src3, $src2, $src1, $dst|$dst, $src1, $src2, $src3}"),
[(set RC:$dst, (vt (X86Shufp RC:$src1, RC:$src2,
(i8 imm:$src3))))], d, IIC_SSE_SHUFP>,
EVEX_4V, Sched<[WriteShuffle]>;
}
defm VSHUFPSZ : avx512_shufp<VR512, f512mem, v16f32, "vshufps", memopv16f32,
SSEPackedSingle>, PS, EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VSHUFPDZ : avx512_shufp<VR512, f512mem, v8f64, "vshufpd", memopv8f64,
SSEPackedDouble>, PD, VEX_W, EVEX_V512, EVEX_CD8<64, CD8VF>;
def : Pat<(v16i32 (X86Shufp VR512:$src1, VR512:$src2, (i8 imm:$imm))),
(VSHUFPSZrri VR512:$src1, VR512:$src2, imm:$imm)>;
def : Pat<(v16i32 (X86Shufp VR512:$src1,
(memopv16i32 addr:$src2), (i8 imm:$imm))),
(VSHUFPSZrmi VR512:$src1, addr:$src2, imm:$imm)>;
def : Pat<(v8i64 (X86Shufp VR512:$src1, VR512:$src2, (i8 imm:$imm))),
(VSHUFPDZrri VR512:$src1, VR512:$src2, imm:$imm)>;
def : Pat<(v8i64 (X86Shufp VR512:$src1,
(memopv8i64 addr:$src2), (i8 imm:$imm))),
(VSHUFPDZrmi VR512:$src1, addr:$src2, imm:$imm)>;
multiclass avx512_valign<X86VectorVTInfo _> {
defm rri : AVX512_maskable<0x03, MRMSrcReg, _, (outs _.RC:$dst),
(ins _.RC:$src1, _.RC:$src2, i8imm:$src3),
"valign"##_.Suffix,
"$src3, $src2, $src1", "$src1, $src2, $src3",
(_.VT (X86VAlign _.RC:$src2, _.RC:$src1,
(i8 imm:$src3)))>,
AVX512AIi8Base, EVEX_4V;
// Also match valign of packed floats.
def : Pat<(_.FloatVT (X86VAlign _.RC:$src1, _.RC:$src2, (i8 imm:$imm))),
(!cast<Instruction>(NAME##rri) _.RC:$src2, _.RC:$src1, imm:$imm)>;
let mayLoad = 1 in
def rmi : AVX512AIi8<0x03, MRMSrcMem, (outs _.RC:$dst),
(ins _.RC:$src1, _.MemOp:$src2, i8imm:$src3),
!strconcat("valign"##_.Suffix,
" \t{$src3, $src2, $src1, $dst|"
"$dst, $src1, $src2, $src3}"),
[]>, EVEX_4V;
}
defm VALIGND : avx512_valign<v16i32_info>, EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VALIGNQ : avx512_valign<v8i64_info>, VEX_W, EVEX_V512, EVEX_CD8<64, CD8VF>;
// Helper fragments to match sext vXi1 to vXiY.
def v16i1sextv16i32 : PatLeaf<(v16i32 (X86vsrai VR512:$src, (i8 31)))>;
def v8i1sextv8i64 : PatLeaf<(v8i64 (X86vsrai VR512:$src, (i8 63)))>;
multiclass avx512_vpabs<bits<8> opc, string OpcodeStr, ValueType OpVT,
RegisterClass KRC, RegisterClass RC,
X86MemOperand x86memop, X86MemOperand x86scalar_mop,
string BrdcstStr> {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst), (ins RC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX;
def rrk : AVX5128I<opc, MRMSrcReg, (outs RC:$dst), (ins KRC:$mask, RC:$src),
!strconcat(OpcodeStr, " \t{$src, $dst {${mask}}|$dst {${mask}}, $src}"),
[]>, EVEX, EVEX_K;
def rrkz : AVX5128I<opc, MRMSrcReg, (outs RC:$dst), (ins KRC:$mask, RC:$src),
!strconcat(OpcodeStr,
" \t{$src, $dst {${mask}} {z}|$dst {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
let mayLoad = 1 in {
def rm : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst),
(ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, $dst|$dst, $src}"),
[]>, EVEX;
def rmk : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst),
(ins KRC:$mask, x86memop:$src),
!strconcat(OpcodeStr,
" \t{$src, $dst {${mask}}|$dst {${mask}}, $src}"),
[]>, EVEX, EVEX_K;
def rmkz : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst),
(ins KRC:$mask, x86memop:$src),
!strconcat(OpcodeStr,
" \t{$src, $dst {${mask}} {z}|$dst {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
def rmb : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst),
(ins x86scalar_mop:$src),
!strconcat(OpcodeStr, " \t{${src}", BrdcstStr,
", $dst|$dst, ${src}", BrdcstStr, "}"),
[]>, EVEX, EVEX_B;
def rmbk : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst),
(ins KRC:$mask, x86scalar_mop:$src),
!strconcat(OpcodeStr, " \t{${src}", BrdcstStr,
", $dst {${mask}}|$dst {${mask}}, ${src}", BrdcstStr, "}"),
[]>, EVEX, EVEX_B, EVEX_K;
def rmbkz : AVX5128I<opc, MRMSrcMem, (outs VR512:$dst),
(ins KRC:$mask, x86scalar_mop:$src),
!strconcat(OpcodeStr, " \t{${src}", BrdcstStr,
", $dst {${mask}} {z}|$dst {${mask}} {z}, ${src}",
BrdcstStr, "}"),
[]>, EVEX, EVEX_B, EVEX_KZ;
}
}
defm VPABSDZ : avx512_vpabs<0x1E, "vpabsd", v16i32, VK16WM, VR512,
i512mem, i32mem, "{1to16}">, EVEX_V512,
EVEX_CD8<32, CD8VF>;
defm VPABSQZ : avx512_vpabs<0x1F, "vpabsq", v8i64, VK8WM, VR512,
i512mem, i64mem, "{1to8}">, EVEX_V512, VEX_W,
EVEX_CD8<64, CD8VF>;
def : Pat<(xor
(bc_v16i32 (v16i1sextv16i32)),
(bc_v16i32 (add (v16i32 VR512:$src), (v16i1sextv16i32)))),
(VPABSDZrr VR512:$src)>;
def : Pat<(xor
(bc_v8i64 (v8i1sextv8i64)),
(bc_v8i64 (add (v8i64 VR512:$src), (v8i1sextv8i64)))),
(VPABSQZrr VR512:$src)>;
def : Pat<(v16i32 (int_x86_avx512_mask_pabs_d_512 (v16i32 VR512:$src),
(v16i32 immAllZerosV), (i16 -1))),
(VPABSDZrr VR512:$src)>;
def : Pat<(v8i64 (int_x86_avx512_mask_pabs_q_512 (v8i64 VR512:$src),
(bc_v8i64 (v16i32 immAllZerosV)), (i8 -1))),
(VPABSQZrr VR512:$src)>;
multiclass avx512_conflict<bits<8> opc, string OpcodeStr,
RegisterClass RC, RegisterClass KRC,
X86MemOperand x86memop,
X86MemOperand x86scalar_mop, string BrdcstStr> {
def rr : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src),
!strconcat(OpcodeStr, " \t{$src, ${dst} |${dst}, $src}"),
[]>, EVEX;
def rm : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins x86memop:$src),
!strconcat(OpcodeStr, " \t{$src, ${dst}|${dst}, $src}"),
[]>, EVEX;
def rmb : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins x86scalar_mop:$src),
!strconcat(OpcodeStr, " \t{${src}", BrdcstStr,
", ${dst}|${dst}, ${src}", BrdcstStr, "}"),
[]>, EVEX, EVEX_B;
def rrkz : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins KRC:$mask, RC:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
def rmkz : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, x86memop:$src),
!strconcat(OpcodeStr,
" \t{$src, ${dst} {${mask}} {z}|${dst} {${mask}} {z}, $src}"),
[]>, EVEX, EVEX_KZ;
def rmbkz : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins KRC:$mask, x86scalar_mop:$src),
!strconcat(OpcodeStr, " \t{${src}", BrdcstStr,
", ${dst} {${mask}} {z}|${dst} {${mask}} {z}, ${src}",
BrdcstStr, "}"),
[]>, EVEX, EVEX_KZ, EVEX_B;
let Constraints = "$src1 = $dst" in {
def rrk : AVX5128I<opc, MRMSrcReg, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, RC:$src2),
!strconcat(OpcodeStr,
" \t{$src2, ${dst} {${mask}}|${dst} {${mask}}, $src2}"),
[]>, EVEX, EVEX_K;
def rmk : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, x86memop:$src2),
!strconcat(OpcodeStr,
" \t{$src2, ${dst} {${mask}}|${dst} {${mask}}, $src2}"),
[]>, EVEX, EVEX_K;
def rmbk : AVX5128I<opc, MRMSrcMem, (outs RC:$dst),
(ins RC:$src1, KRC:$mask, x86scalar_mop:$src2),
!strconcat(OpcodeStr, " \t{${src2}", BrdcstStr,
", ${dst} {${mask}}|${dst} {${mask}}, ${src2}", BrdcstStr, "}"),
[]>, EVEX, EVEX_K, EVEX_B;
}
}
let Predicates = [HasCDI] in {
defm VPCONFLICTD : avx512_conflict<0xC4, "vpconflictd", VR512, VK16WM,
i512mem, i32mem, "{1to16}">,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPCONFLICTQ : avx512_conflict<0xC4, "vpconflictq", VR512, VK8WM,
i512mem, i64mem, "{1to8}">,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
}
def : Pat<(int_x86_avx512_mask_conflict_d_512 VR512:$src2, VR512:$src1,
GR16:$mask),
(VPCONFLICTDrrk VR512:$src1,
(v16i1 (COPY_TO_REGCLASS GR16:$mask, VK16WM)), VR512:$src2)>;
def : Pat<(int_x86_avx512_mask_conflict_q_512 VR512:$src2, VR512:$src1,
GR8:$mask),
(VPCONFLICTQrrk VR512:$src1,
(v8i1 (COPY_TO_REGCLASS GR8:$mask, VK8WM)), VR512:$src2)>;
let Predicates = [HasCDI] in {
defm VPLZCNTD : avx512_conflict<0x44, "vplzcntd", VR512, VK16WM,
i512mem, i32mem, "{1to16}">,
EVEX_V512, EVEX_CD8<32, CD8VF>;
defm VPLZCNTQ : avx512_conflict<0x44, "vplzcntq", VR512, VK8WM,
i512mem, i64mem, "{1to8}">,
EVEX_V512, VEX_W, EVEX_CD8<64, CD8VF>;
}
def : Pat<(int_x86_avx512_mask_lzcnt_d_512 VR512:$src2, VR512:$src1,
GR16:$mask),
(VPLZCNTDrrk VR512:$src1,
(v16i1 (COPY_TO_REGCLASS GR16:$mask, VK16WM)), VR512:$src2)>;
def : Pat<(int_x86_avx512_mask_lzcnt_q_512 VR512:$src2, VR512:$src1,
GR8:$mask),
(VPLZCNTQrrk VR512:$src1,
(v8i1 (COPY_TO_REGCLASS GR8:$mask, VK8WM)), VR512:$src2)>;
def : Pat<(v16i32 (ctlz (memopv16i32 addr:$src))),
(VPLZCNTDrm addr:$src)>;
def : Pat<(v16i32 (ctlz (v16i32 VR512:$src))),
(VPLZCNTDrr VR512:$src)>;
def : Pat<(v8i64 (ctlz (memopv8i64 addr:$src))),
(VPLZCNTQrm addr:$src)>;
def : Pat<(v8i64 (ctlz (v8i64 VR512:$src))),
(VPLZCNTQrr VR512:$src)>;
def : Pat<(store (i1 -1), addr:$dst), (MOV8mi addr:$dst, (i8 1))>;
def : Pat<(store (i1 1), addr:$dst), (MOV8mi addr:$dst, (i8 1))>;
def : Pat<(store (i1 0), addr:$dst), (MOV8mi addr:$dst, (i8 0))>;
def : Pat<(store VK1:$src, addr:$dst),
(KMOVWmk addr:$dst, (COPY_TO_REGCLASS VK1:$src, VK16))>;
def truncstorei1 : PatFrag<(ops node:$val, node:$ptr),
(truncstore node:$val, node:$ptr), [{
return cast<StoreSDNode>(N)->getMemoryVT() == MVT::i1;
}]>;
def : Pat<(truncstorei1 GR8:$src, addr:$dst),
(MOV8mr addr:$dst, GR8:$src)>;
multiclass cvt_by_vec_width<bits<8> opc, X86VectorVTInfo Vec, string OpcodeStr > {
def rr : AVX512XS8I<opc, MRMDestReg, (outs Vec.RC:$dst), (ins Vec.KRC:$src),
!strconcat(OpcodeStr##Vec.Suffix, " \t{$src, $dst|$dst, $src}"),
[(set Vec.RC:$dst, (Vec.VT (X86vsext Vec.KRC:$src)))]>, EVEX;
}
multiclass cvt_mask_by_elt_width<bits<8> opc, AVX512VLVectorVTInfo VTInfo,
string OpcodeStr, Predicate prd> {
let Predicates = [prd] in
defm Z : cvt_by_vec_width<opc, VTInfo.info512, OpcodeStr>, EVEX_V512;
let Predicates = [prd, HasVLX] in {
defm Z256 : cvt_by_vec_width<opc, VTInfo.info256, OpcodeStr>, EVEX_V256;
defm Z128 : cvt_by_vec_width<opc, VTInfo.info128, OpcodeStr>, EVEX_V128;
}
}
multiclass avx512_convert_mask_to_vector<string OpcodeStr> {
defm NAME##B : cvt_mask_by_elt_width<0x28, avx512vl_i8_info, OpcodeStr,
HasBWI>;
defm NAME##W : cvt_mask_by_elt_width<0x28, avx512vl_i16_info, OpcodeStr,
HasBWI>, VEX_W;
defm NAME##D : cvt_mask_by_elt_width<0x38, avx512vl_i32_info, OpcodeStr,
HasDQI>;
defm NAME##Q : cvt_mask_by_elt_width<0x38, avx512vl_i64_info, OpcodeStr,
HasDQI>, VEX_W;
}
defm VPMOVM2 : avx512_convert_mask_to_vector<"vpmovm2">;
|