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llvm-6502/lib/Target/Mips/MipsMSAInstrInfo.td
Daniel Sanders dfce63b1ba [mips] Correct and improve special-case shuffle instructions. 
Summary:
The documentation writes vectors highest-index first whereas LLVM-IR writes
them lowest-index first. As a result, instructions defined in terms of
left_half() and right_half() had the halves reversed.

In addition to correcting them, they have been improved to allow shuffles
that use the same operand twice or in reverse order. For example, ilvev
used to accept masks of the form:
  <0, n, 2, n+2, 4, n+4, ...>
but now accepts:
  <0, 0, 2, 2, 4, 4, ...>
  <n, n, n+2, n+2, n+4, n+4, ...>
  <0, n, 2, n+2, 4, n+4, ...>
  <n, 0, n+2, 2, n+4, 4, ...>

One further improvement is that splati.[bhwd] is now the preferred instruction
for splat-like operations. The other special shuffles are no longer used
for splats. This lead to the discovery that <0, 0, ...> would not cause
splati.[hwd] to be selected and this has also been fixed.

This fixes the enc-3des test from the test-suite on Mips64r6 with MSA.

Reviewers: vkalintiris

Reviewed By: vkalintiris

Subscribers: llvm-commits

Differential Revision: http://reviews.llvm.org/D9660

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@237689 91177308-0d34-0410-b5e6-96231b3b80d8
2015-05-19 12:24:52 +00:00

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//===- MipsMSAInstrInfo.td - MSA ASE instructions -*- tablegen ------------*-=//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file describes Mips MSA ASE instructions.
//
//===----------------------------------------------------------------------===//
def SDT_MipsVecCond : SDTypeProfile<1, 1, [SDTCisInt<0>, SDTCisVec<1>]>;
def SDT_VSetCC : SDTypeProfile<1, 3, [SDTCisInt<0>,
SDTCisInt<1>,
SDTCisSameAs<1, 2>,
SDTCisVT<3, OtherVT>]>;
def SDT_VFSetCC : SDTypeProfile<1, 3, [SDTCisInt<0>,
SDTCisFP<1>,
SDTCisSameAs<1, 2>,
SDTCisVT<3, OtherVT>]>;
def SDT_VSHF : SDTypeProfile<1, 3, [SDTCisInt<0>, SDTCisVec<0>,
SDTCisInt<1>, SDTCisVec<1>,
SDTCisSameAs<0, 2>, SDTCisSameAs<2, 3>]>;
def SDT_SHF : SDTypeProfile<1, 2, [SDTCisInt<0>, SDTCisVec<0>,
SDTCisVT<1, i32>, SDTCisSameAs<0, 2>]>;
def SDT_ILV : SDTypeProfile<1, 2, [SDTCisInt<0>, SDTCisVec<0>,
SDTCisSameAs<0, 1>, SDTCisSameAs<1, 2>]>;
def SDT_INSVE : SDTypeProfile<1, 4, [SDTCisVec<0>, SDTCisSameAs<0, 1>,
SDTCisVT<2, i32>, SDTCisSameAs<0, 3>,
SDTCisVT<4, i32>]>;
def MipsVAllNonZero : SDNode<"MipsISD::VALL_NONZERO", SDT_MipsVecCond>;
def MipsVAnyNonZero : SDNode<"MipsISD::VANY_NONZERO", SDT_MipsVecCond>;
def MipsVAllZero : SDNode<"MipsISD::VALL_ZERO", SDT_MipsVecCond>;
def MipsVAnyZero : SDNode<"MipsISD::VANY_ZERO", SDT_MipsVecCond>;
def MipsVSMax : SDNode<"MipsISD::VSMAX", SDTIntBinOp,
[SDNPCommutative, SDNPAssociative]>;
def MipsVSMin : SDNode<"MipsISD::VSMIN", SDTIntBinOp,
[SDNPCommutative, SDNPAssociative]>;
def MipsVUMax : SDNode<"MipsISD::VUMAX", SDTIntBinOp,
[SDNPCommutative, SDNPAssociative]>;
def MipsVUMin : SDNode<"MipsISD::VUMIN", SDTIntBinOp,
[SDNPCommutative, SDNPAssociative]>;
def MipsVNOR : SDNode<"MipsISD::VNOR", SDTIntBinOp,
[SDNPCommutative, SDNPAssociative]>;
def MipsVSHF : SDNode<"MipsISD::VSHF", SDT_VSHF>;
def MipsSHF : SDNode<"MipsISD::SHF", SDT_SHF>;
def MipsILVEV : SDNode<"MipsISD::ILVEV", SDT_ILV>;
def MipsILVOD : SDNode<"MipsISD::ILVOD", SDT_ILV>;
def MipsILVL : SDNode<"MipsISD::ILVL", SDT_ILV>;
def MipsILVR : SDNode<"MipsISD::ILVR", SDT_ILV>;
def MipsPCKEV : SDNode<"MipsISD::PCKEV", SDT_ILV>;
def MipsPCKOD : SDNode<"MipsISD::PCKOD", SDT_ILV>;
def MipsINSVE : SDNode<"MipsISD::INSVE", SDT_INSVE>;
def vsetcc : SDNode<"ISD::SETCC", SDT_VSetCC>;
def vfsetcc : SDNode<"ISD::SETCC", SDT_VFSetCC>;
def MipsVExtractSExt : SDNode<"MipsISD::VEXTRACT_SEXT_ELT",
SDTypeProfile<1, 3, [SDTCisPtrTy<2>]>, []>;
def MipsVExtractZExt : SDNode<"MipsISD::VEXTRACT_ZEXT_ELT",
SDTypeProfile<1, 3, [SDTCisPtrTy<2>]>, []>;
def immZExt4Ptr : ImmLeaf<iPTR, [{return isUInt<4>(Imm);}]>;
def immZExt6Ptr : ImmLeaf<iPTR, [{return isUInt<6>(Imm);}]>;
// Operands
// The immediate of an LSA instruction needs special handling
// as the encoded value should be subtracted by one.
def uimm2LSAAsmOperand : AsmOperandClass {
let Name = "LSAImm";
let ParserMethod = "parseLSAImm";
let RenderMethod = "addImmOperands";
}
def LSAImm : Operand<i32> {
let PrintMethod = "printUnsignedImm";
let EncoderMethod = "getLSAImmEncoding";
let DecoderMethod = "DecodeLSAImm";
let ParserMatchClass = uimm2LSAAsmOperand;
}
def uimm4 : Operand<i32> {
let PrintMethod = "printUnsignedImm8";
}
def uimm4_ptr : Operand<iPTR> {
let PrintMethod = "printUnsignedImm8";
}
def uimm6_ptr : Operand<iPTR> {
let PrintMethod = "printUnsignedImm8";
}
def uimm8 : Operand<i32> {
let PrintMethod = "printUnsignedImm8";
}
def simm5 : Operand<i32>;
def vsplat_uimm1 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_uimm2 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_uimm3 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_uimm4 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_uimm5 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_uimm6 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_uimm8 : Operand<vAny> {
let PrintMethod = "printUnsignedImm8";
}
def vsplat_simm5 : Operand<vAny>;
def vsplat_simm10 : Operand<vAny>;
def immZExt2Lsa : ImmLeaf<i32, [{return isUInt<2>(Imm - 1);}]>;
// Pattern fragments
def vextract_sext_i8 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractSExt node:$vec, node:$idx, i8)>;
def vextract_sext_i16 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractSExt node:$vec, node:$idx, i16)>;
def vextract_sext_i32 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractSExt node:$vec, node:$idx, i32)>;
def vextract_sext_i64 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractSExt node:$vec, node:$idx, i64)>;
def vextract_zext_i8 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractZExt node:$vec, node:$idx, i8)>;
def vextract_zext_i16 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractZExt node:$vec, node:$idx, i16)>;
def vextract_zext_i32 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractZExt node:$vec, node:$idx, i32)>;
def vextract_zext_i64 : PatFrag<(ops node:$vec, node:$idx),
(MipsVExtractZExt node:$vec, node:$idx, i64)>;
def vinsert_v16i8 : PatFrag<(ops node:$vec, node:$val, node:$idx),
(v16i8 (vector_insert node:$vec, node:$val, node:$idx))>;
def vinsert_v8i16 : PatFrag<(ops node:$vec, node:$val, node:$idx),
(v8i16 (vector_insert node:$vec, node:$val, node:$idx))>;
def vinsert_v4i32 : PatFrag<(ops node:$vec, node:$val, node:$idx),
(v4i32 (vector_insert node:$vec, node:$val, node:$idx))>;
def vinsert_v2i64 : PatFrag<(ops node:$vec, node:$val, node:$idx),
(v2i64 (vector_insert node:$vec, node:$val, node:$idx))>;
def insve_v16i8 : PatFrag<(ops node:$v1, node:$i1, node:$v2, node:$i2),
(v16i8 (MipsINSVE node:$v1, node:$i1, node:$v2, node:$i2))>;
def insve_v8i16 : PatFrag<(ops node:$v1, node:$i1, node:$v2, node:$i2),
(v8i16 (MipsINSVE node:$v1, node:$i1, node:$v2, node:$i2))>;
def insve_v4i32 : PatFrag<(ops node:$v1, node:$i1, node:$v2, node:$i2),
(v4i32 (MipsINSVE node:$v1, node:$i1, node:$v2, node:$i2))>;
def insve_v2i64 : PatFrag<(ops node:$v1, node:$i1, node:$v2, node:$i2),
(v2i64 (MipsINSVE node:$v1, node:$i1, node:$v2, node:$i2))>;
class vfsetcc_type<ValueType ResTy, ValueType OpTy, CondCode CC> :
PatFrag<(ops node:$lhs, node:$rhs),
(ResTy (vfsetcc (OpTy node:$lhs), (OpTy node:$rhs), CC))>;
// ISD::SETFALSE cannot occur
def vfsetoeq_v4f32 : vfsetcc_type<v4i32, v4f32, SETOEQ>;
def vfsetoeq_v2f64 : vfsetcc_type<v2i64, v2f64, SETOEQ>;
def vfsetoge_v4f32 : vfsetcc_type<v4i32, v4f32, SETOGE>;
def vfsetoge_v2f64 : vfsetcc_type<v2i64, v2f64, SETOGE>;
def vfsetogt_v4f32 : vfsetcc_type<v4i32, v4f32, SETOGT>;
def vfsetogt_v2f64 : vfsetcc_type<v2i64, v2f64, SETOGT>;
def vfsetole_v4f32 : vfsetcc_type<v4i32, v4f32, SETOLE>;
def vfsetole_v2f64 : vfsetcc_type<v2i64, v2f64, SETOLE>;
def vfsetolt_v4f32 : vfsetcc_type<v4i32, v4f32, SETOLT>;
def vfsetolt_v2f64 : vfsetcc_type<v2i64, v2f64, SETOLT>;
def vfsetone_v4f32 : vfsetcc_type<v4i32, v4f32, SETONE>;
def vfsetone_v2f64 : vfsetcc_type<v2i64, v2f64, SETONE>;
def vfsetord_v4f32 : vfsetcc_type<v4i32, v4f32, SETO>;
def vfsetord_v2f64 : vfsetcc_type<v2i64, v2f64, SETO>;
def vfsetun_v4f32 : vfsetcc_type<v4i32, v4f32, SETUO>;
def vfsetun_v2f64 : vfsetcc_type<v2i64, v2f64, SETUO>;
def vfsetueq_v4f32 : vfsetcc_type<v4i32, v4f32, SETUEQ>;
def vfsetueq_v2f64 : vfsetcc_type<v2i64, v2f64, SETUEQ>;
def vfsetuge_v4f32 : vfsetcc_type<v4i32, v4f32, SETUGE>;
def vfsetuge_v2f64 : vfsetcc_type<v2i64, v2f64, SETUGE>;
def vfsetugt_v4f32 : vfsetcc_type<v4i32, v4f32, SETUGT>;
def vfsetugt_v2f64 : vfsetcc_type<v2i64, v2f64, SETUGT>;
def vfsetule_v4f32 : vfsetcc_type<v4i32, v4f32, SETULE>;
def vfsetule_v2f64 : vfsetcc_type<v2i64, v2f64, SETULE>;
def vfsetult_v4f32 : vfsetcc_type<v4i32, v4f32, SETULT>;
def vfsetult_v2f64 : vfsetcc_type<v2i64, v2f64, SETULT>;
def vfsetune_v4f32 : vfsetcc_type<v4i32, v4f32, SETUNE>;
def vfsetune_v2f64 : vfsetcc_type<v2i64, v2f64, SETUNE>;
// ISD::SETTRUE cannot occur
// ISD::SETFALSE2 cannot occur
// ISD::SETTRUE2 cannot occur
class vsetcc_type<ValueType ResTy, CondCode CC> :
PatFrag<(ops node:$lhs, node:$rhs),
(ResTy (vsetcc node:$lhs, node:$rhs, CC))>;
def vseteq_v16i8 : vsetcc_type<v16i8, SETEQ>;
def vseteq_v8i16 : vsetcc_type<v8i16, SETEQ>;
def vseteq_v4i32 : vsetcc_type<v4i32, SETEQ>;
def vseteq_v2i64 : vsetcc_type<v2i64, SETEQ>;
def vsetle_v16i8 : vsetcc_type<v16i8, SETLE>;
def vsetle_v8i16 : vsetcc_type<v8i16, SETLE>;
def vsetle_v4i32 : vsetcc_type<v4i32, SETLE>;
def vsetle_v2i64 : vsetcc_type<v2i64, SETLE>;
def vsetlt_v16i8 : vsetcc_type<v16i8, SETLT>;
def vsetlt_v8i16 : vsetcc_type<v8i16, SETLT>;
def vsetlt_v4i32 : vsetcc_type<v4i32, SETLT>;
def vsetlt_v2i64 : vsetcc_type<v2i64, SETLT>;
def vsetule_v16i8 : vsetcc_type<v16i8, SETULE>;
def vsetule_v8i16 : vsetcc_type<v8i16, SETULE>;
def vsetule_v4i32 : vsetcc_type<v4i32, SETULE>;
def vsetule_v2i64 : vsetcc_type<v2i64, SETULE>;
def vsetult_v16i8 : vsetcc_type<v16i8, SETULT>;
def vsetult_v8i16 : vsetcc_type<v8i16, SETULT>;
def vsetult_v4i32 : vsetcc_type<v4i32, SETULT>;
def vsetult_v2i64 : vsetcc_type<v2i64, SETULT>;
def vsplati8 : PatFrag<(ops node:$e0),
(v16i8 (build_vector node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0))>;
def vsplati16 : PatFrag<(ops node:$e0),
(v8i16 (build_vector node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0,
node:$e0, node:$e0))>;
def vsplati32 : PatFrag<(ops node:$e0),
(v4i32 (build_vector node:$e0, node:$e0,
node:$e0, node:$e0))>;
def vsplati64 : PatFrag<(ops node:$e0),
(v2i64 (build_vector node:$e0, node:$e0))>;
def vsplatf32 : PatFrag<(ops node:$e0),
(v4f32 (build_vector node:$e0, node:$e0,
node:$e0, node:$e0))>;
def vsplatf64 : PatFrag<(ops node:$e0),
(v2f64 (build_vector node:$e0, node:$e0))>;
def vsplati8_elt : PatFrag<(ops node:$v, node:$i),
(MipsVSHF (vsplati8 node:$i), node:$v, node:$v)>;
def vsplati16_elt : PatFrag<(ops node:$v, node:$i),
(MipsVSHF (vsplati16 node:$i), node:$v, node:$v)>;
def vsplati32_elt : PatFrag<(ops node:$v, node:$i),
(MipsVSHF (vsplati32 node:$i), node:$v, node:$v)>;
def vsplati64_elt : PatFrag<(ops node:$v, node:$i),
(MipsVSHF (vsplati64 node:$i), node:$v, node:$v)>;
class SplatPatLeaf<Operand opclass, dag frag, code pred = [{}],
SDNodeXForm xform = NOOP_SDNodeXForm>
: PatLeaf<frag, pred, xform> {
Operand OpClass = opclass;
}
class SplatComplexPattern<Operand opclass, ValueType ty, int numops, string fn,
list<SDNode> roots = [],
list<SDNodeProperty> props = []> :
ComplexPattern<ty, numops, fn, roots, props> {
Operand OpClass = opclass;
}
def vsplati8_uimm3 : SplatComplexPattern<vsplat_uimm3, v16i8, 1,
"selectVSplatUimm3",
[build_vector, bitconvert]>;
def vsplati8_uimm4 : SplatComplexPattern<vsplat_uimm4, v16i8, 1,
"selectVSplatUimm4",
[build_vector, bitconvert]>;
def vsplati8_uimm5 : SplatComplexPattern<vsplat_uimm5, v16i8, 1,
"selectVSplatUimm5",
[build_vector, bitconvert]>;
def vsplati8_uimm8 : SplatComplexPattern<vsplat_uimm8, v16i8, 1,
"selectVSplatUimm8",
[build_vector, bitconvert]>;
def vsplati8_simm5 : SplatComplexPattern<vsplat_simm5, v16i8, 1,
"selectVSplatSimm5",
[build_vector, bitconvert]>;
def vsplati16_uimm3 : SplatComplexPattern<vsplat_uimm3, v8i16, 1,
"selectVSplatUimm3",
[build_vector, bitconvert]>;
def vsplati16_uimm4 : SplatComplexPattern<vsplat_uimm4, v8i16, 1,
"selectVSplatUimm4",
[build_vector, bitconvert]>;
def vsplati16_uimm5 : SplatComplexPattern<vsplat_uimm5, v8i16, 1,
"selectVSplatUimm5",
[build_vector, bitconvert]>;
def vsplati16_simm5 : SplatComplexPattern<vsplat_simm5, v8i16, 1,
"selectVSplatSimm5",
[build_vector, bitconvert]>;
def vsplati32_uimm2 : SplatComplexPattern<vsplat_uimm2, v4i32, 1,
"selectVSplatUimm2",
[build_vector, bitconvert]>;
def vsplati32_uimm5 : SplatComplexPattern<vsplat_uimm5, v4i32, 1,
"selectVSplatUimm5",
[build_vector, bitconvert]>;
def vsplati32_simm5 : SplatComplexPattern<vsplat_simm5, v4i32, 1,
"selectVSplatSimm5",
[build_vector, bitconvert]>;
def vsplati64_uimm1 : SplatComplexPattern<vsplat_uimm1, v2i64, 1,
"selectVSplatUimm1",
[build_vector, bitconvert]>;
def vsplati64_uimm5 : SplatComplexPattern<vsplat_uimm5, v2i64, 1,
"selectVSplatUimm5",
[build_vector, bitconvert]>;
def vsplati64_uimm6 : SplatComplexPattern<vsplat_uimm6, v2i64, 1,
"selectVSplatUimm6",
[build_vector, bitconvert]>;
def vsplati64_simm5 : SplatComplexPattern<vsplat_simm5, v2i64, 1,
"selectVSplatSimm5",
[build_vector, bitconvert]>;
// Any build_vector that is a constant splat with a value that is an exact
// power of 2
def vsplat_uimm_pow2 : ComplexPattern<vAny, 1, "selectVSplatUimmPow2",
[build_vector, bitconvert]>;
// Any build_vector that is a constant splat with a value that is the bitwise
// inverse of an exact power of 2
def vsplat_uimm_inv_pow2 : ComplexPattern<vAny, 1, "selectVSplatUimmInvPow2",
[build_vector, bitconvert]>;
// Any build_vector that is a constant splat with only a consecutive sequence
// of left-most bits set.
def vsplat_maskl_bits : SplatComplexPattern<vsplat_uimm8, vAny, 1,
"selectVSplatMaskL",
[build_vector, bitconvert]>;
// Any build_vector that is a constant splat with only a consecutive sequence
// of right-most bits set.
def vsplat_maskr_bits : SplatComplexPattern<vsplat_uimm8, vAny, 1,
"selectVSplatMaskR",
[build_vector, bitconvert]>;
// Any build_vector that is a constant splat with a value that equals 1
// FIXME: These should be a ComplexPattern but we can't use them because the
// ISel generator requires the uses to have a name, but providing a name
// causes other errors ("used in pattern but not operand list")
def vsplat_imm_eq_1 : PatLeaf<(build_vector), [{
APInt Imm;
EVT EltTy = N->getValueType(0).getVectorElementType();
return selectVSplat(N, Imm, EltTy.getSizeInBits()) &&
Imm.getBitWidth() == EltTy.getSizeInBits() && Imm == 1;
}]>;
def vsplati64_imm_eq_1 : PatLeaf<(bitconvert (v4i32 (build_vector))), [{
APInt Imm;
SDNode *BV = N->getOperand(0).getNode();
EVT EltTy = N->getValueType(0).getVectorElementType();
return selectVSplat(BV, Imm, EltTy.getSizeInBits()) &&
Imm.getBitWidth() == EltTy.getSizeInBits() && Imm == 1;
}]>;
def vbclr_b : PatFrag<(ops node:$ws, node:$wt),
(and node:$ws, (xor (shl vsplat_imm_eq_1, node:$wt),
immAllOnesV))>;
def vbclr_h : PatFrag<(ops node:$ws, node:$wt),
(and node:$ws, (xor (shl vsplat_imm_eq_1, node:$wt),
immAllOnesV))>;
def vbclr_w : PatFrag<(ops node:$ws, node:$wt),
(and node:$ws, (xor (shl vsplat_imm_eq_1, node:$wt),
immAllOnesV))>;
def vbclr_d : PatFrag<(ops node:$ws, node:$wt),
(and node:$ws, (xor (shl (v2i64 vsplati64_imm_eq_1),
node:$wt),
(bitconvert (v4i32 immAllOnesV))))>;
def vbneg_b : PatFrag<(ops node:$ws, node:$wt),
(xor node:$ws, (shl vsplat_imm_eq_1, node:$wt))>;
def vbneg_h : PatFrag<(ops node:$ws, node:$wt),
(xor node:$ws, (shl vsplat_imm_eq_1, node:$wt))>;
def vbneg_w : PatFrag<(ops node:$ws, node:$wt),
(xor node:$ws, (shl vsplat_imm_eq_1, node:$wt))>;
def vbneg_d : PatFrag<(ops node:$ws, node:$wt),
(xor node:$ws, (shl (v2i64 vsplati64_imm_eq_1),
node:$wt))>;
def vbset_b : PatFrag<(ops node:$ws, node:$wt),
(or node:$ws, (shl vsplat_imm_eq_1, node:$wt))>;
def vbset_h : PatFrag<(ops node:$ws, node:$wt),
(or node:$ws, (shl vsplat_imm_eq_1, node:$wt))>;
def vbset_w : PatFrag<(ops node:$ws, node:$wt),
(or node:$ws, (shl vsplat_imm_eq_1, node:$wt))>;
def vbset_d : PatFrag<(ops node:$ws, node:$wt),
(or node:$ws, (shl (v2i64 vsplati64_imm_eq_1),
node:$wt))>;
def fms : PatFrag<(ops node:$wd, node:$ws, node:$wt),
(fsub node:$wd, (fmul node:$ws, node:$wt))>;
def muladd : PatFrag<(ops node:$wd, node:$ws, node:$wt),
(add node:$wd, (mul node:$ws, node:$wt))>;
def mulsub : PatFrag<(ops node:$wd, node:$ws, node:$wt),
(sub node:$wd, (mul node:$ws, node:$wt))>;
def mul_fexp2 : PatFrag<(ops node:$ws, node:$wt),
(fmul node:$ws, (fexp2 node:$wt))>;
// Immediates
def immSExt5 : ImmLeaf<i32, [{return isInt<5>(Imm);}]>;
def immSExt10: ImmLeaf<i32, [{return isInt<10>(Imm);}]>;
// Instruction encoding.
class ADD_A_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b010000>;
class ADD_A_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b010000>;
class ADD_A_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b010000>;
class ADD_A_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b010000>;
class ADDS_A_B_ENC : MSA_3R_FMT<0b001, 0b00, 0b010000>;
class ADDS_A_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b010000>;
class ADDS_A_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b010000>;
class ADDS_A_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b010000>;
class ADDS_S_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b010000>;
class ADDS_S_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b010000>;
class ADDS_S_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b010000>;
class ADDS_S_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b010000>;
class ADDS_U_B_ENC : MSA_3R_FMT<0b011, 0b00, 0b010000>;
class ADDS_U_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b010000>;
class ADDS_U_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b010000>;
class ADDS_U_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b010000>;
class ADDV_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b001110>;
class ADDV_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b001110>;
class ADDV_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b001110>;
class ADDV_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b001110>;
class ADDVI_B_ENC : MSA_I5_FMT<0b000, 0b00, 0b000110>;
class ADDVI_H_ENC : MSA_I5_FMT<0b000, 0b01, 0b000110>;
class ADDVI_W_ENC : MSA_I5_FMT<0b000, 0b10, 0b000110>;
class ADDVI_D_ENC : MSA_I5_FMT<0b000, 0b11, 0b000110>;
class AND_V_ENC : MSA_VEC_FMT<0b00000, 0b011110>;
class ANDI_B_ENC : MSA_I8_FMT<0b00, 0b000000>;
class ASUB_S_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b010001>;
class ASUB_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b010001>;
class ASUB_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b010001>;
class ASUB_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b010001>;
class ASUB_U_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b010001>;
class ASUB_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b010001>;
class ASUB_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b010001>;
class ASUB_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b010001>;
class AVE_S_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b010000>;
class AVE_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b010000>;
class AVE_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b010000>;
class AVE_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b010000>;
class AVE_U_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b010000>;
class AVE_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b010000>;
class AVE_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b010000>;
class AVE_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b010000>;
class AVER_S_B_ENC : MSA_3R_FMT<0b110, 0b00, 0b010000>;
class AVER_S_H_ENC : MSA_3R_FMT<0b110, 0b01, 0b010000>;
class AVER_S_W_ENC : MSA_3R_FMT<0b110, 0b10, 0b010000>;
class AVER_S_D_ENC : MSA_3R_FMT<0b110, 0b11, 0b010000>;
class AVER_U_B_ENC : MSA_3R_FMT<0b111, 0b00, 0b010000>;
class AVER_U_H_ENC : MSA_3R_FMT<0b111, 0b01, 0b010000>;
class AVER_U_W_ENC : MSA_3R_FMT<0b111, 0b10, 0b010000>;
class AVER_U_D_ENC : MSA_3R_FMT<0b111, 0b11, 0b010000>;
class BCLR_B_ENC : MSA_3R_FMT<0b011, 0b00, 0b001101>;
class BCLR_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b001101>;
class BCLR_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b001101>;
class BCLR_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b001101>;
class BCLRI_B_ENC : MSA_BIT_B_FMT<0b011, 0b001001>;
class BCLRI_H_ENC : MSA_BIT_H_FMT<0b011, 0b001001>;
class BCLRI_W_ENC : MSA_BIT_W_FMT<0b011, 0b001001>;
class BCLRI_D_ENC : MSA_BIT_D_FMT<0b011, 0b001001>;
class BINSL_B_ENC : MSA_3R_FMT<0b110, 0b00, 0b001101>;
class BINSL_H_ENC : MSA_3R_FMT<0b110, 0b01, 0b001101>;
class BINSL_W_ENC : MSA_3R_FMT<0b110, 0b10, 0b001101>;
class BINSL_D_ENC : MSA_3R_FMT<0b110, 0b11, 0b001101>;
class BINSLI_B_ENC : MSA_BIT_B_FMT<0b110, 0b001001>;
class BINSLI_H_ENC : MSA_BIT_H_FMT<0b110, 0b001001>;
class BINSLI_W_ENC : MSA_BIT_W_FMT<0b110, 0b001001>;
class BINSLI_D_ENC : MSA_BIT_D_FMT<0b110, 0b001001>;
class BINSR_B_ENC : MSA_3R_FMT<0b111, 0b00, 0b001101>;
class BINSR_H_ENC : MSA_3R_FMT<0b111, 0b01, 0b001101>;
class BINSR_W_ENC : MSA_3R_FMT<0b111, 0b10, 0b001101>;
class BINSR_D_ENC : MSA_3R_FMT<0b111, 0b11, 0b001101>;
class BINSRI_B_ENC : MSA_BIT_B_FMT<0b111, 0b001001>;
class BINSRI_H_ENC : MSA_BIT_H_FMT<0b111, 0b001001>;
class BINSRI_W_ENC : MSA_BIT_W_FMT<0b111, 0b001001>;
class BINSRI_D_ENC : MSA_BIT_D_FMT<0b111, 0b001001>;
class BMNZ_V_ENC : MSA_VEC_FMT<0b00100, 0b011110>;
class BMNZI_B_ENC : MSA_I8_FMT<0b00, 0b000001>;
class BMZ_V_ENC : MSA_VEC_FMT<0b00101, 0b011110>;
class BMZI_B_ENC : MSA_I8_FMT<0b01, 0b000001>;
class BNEG_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b001101>;
class BNEG_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b001101>;
class BNEG_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b001101>;
class BNEG_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b001101>;
class BNEGI_B_ENC : MSA_BIT_B_FMT<0b101, 0b001001>;
class BNEGI_H_ENC : MSA_BIT_H_FMT<0b101, 0b001001>;
class BNEGI_W_ENC : MSA_BIT_W_FMT<0b101, 0b001001>;
class BNEGI_D_ENC : MSA_BIT_D_FMT<0b101, 0b001001>;
class BNZ_B_ENC : MSA_CBRANCH_FMT<0b111, 0b00>;
class BNZ_H_ENC : MSA_CBRANCH_FMT<0b111, 0b01>;
class BNZ_W_ENC : MSA_CBRANCH_FMT<0b111, 0b10>;
class BNZ_D_ENC : MSA_CBRANCH_FMT<0b111, 0b11>;
class BNZ_V_ENC : MSA_CBRANCH_V_FMT<0b01111>;
class BSEL_V_ENC : MSA_VEC_FMT<0b00110, 0b011110>;
class BSELI_B_ENC : MSA_I8_FMT<0b10, 0b000001>;
class BSET_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b001101>;
class BSET_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b001101>;
class BSET_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b001101>;
class BSET_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b001101>;
class BSETI_B_ENC : MSA_BIT_B_FMT<0b100, 0b001001>;
class BSETI_H_ENC : MSA_BIT_H_FMT<0b100, 0b001001>;
class BSETI_W_ENC : MSA_BIT_W_FMT<0b100, 0b001001>;
class BSETI_D_ENC : MSA_BIT_D_FMT<0b100, 0b001001>;
class BZ_B_ENC : MSA_CBRANCH_FMT<0b110, 0b00>;
class BZ_H_ENC : MSA_CBRANCH_FMT<0b110, 0b01>;
class BZ_W_ENC : MSA_CBRANCH_FMT<0b110, 0b10>;
class BZ_D_ENC : MSA_CBRANCH_FMT<0b110, 0b11>;
class BZ_V_ENC : MSA_CBRANCH_V_FMT<0b01011>;
class CEQ_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b001111>;
class CEQ_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b001111>;
class CEQ_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b001111>;
class CEQ_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b001111>;
class CEQI_B_ENC : MSA_I5_FMT<0b000, 0b00, 0b000111>;
class CEQI_H_ENC : MSA_I5_FMT<0b000, 0b01, 0b000111>;
class CEQI_W_ENC : MSA_I5_FMT<0b000, 0b10, 0b000111>;
class CEQI_D_ENC : MSA_I5_FMT<0b000, 0b11, 0b000111>;
class CFCMSA_ENC : MSA_ELM_CFCMSA_FMT<0b0001111110, 0b011001>;
class CLE_S_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b001111>;
class CLE_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b001111>;
class CLE_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b001111>;
class CLE_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b001111>;
class CLE_U_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b001111>;
class CLE_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b001111>;
class CLE_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b001111>;
class CLE_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b001111>;
class CLEI_S_B_ENC : MSA_I5_FMT<0b100, 0b00, 0b000111>;
class CLEI_S_H_ENC : MSA_I5_FMT<0b100, 0b01, 0b000111>;
class CLEI_S_W_ENC : MSA_I5_FMT<0b100, 0b10, 0b000111>;
class CLEI_S_D_ENC : MSA_I5_FMT<0b100, 0b11, 0b000111>;
class CLEI_U_B_ENC : MSA_I5_FMT<0b101, 0b00, 0b000111>;
class CLEI_U_H_ENC : MSA_I5_FMT<0b101, 0b01, 0b000111>;
class CLEI_U_W_ENC : MSA_I5_FMT<0b101, 0b10, 0b000111>;
class CLEI_U_D_ENC : MSA_I5_FMT<0b101, 0b11, 0b000111>;
class CLT_S_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b001111>;
class CLT_S_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b001111>;
class CLT_S_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b001111>;
class CLT_S_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b001111>;
class CLT_U_B_ENC : MSA_3R_FMT<0b011, 0b00, 0b001111>;
class CLT_U_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b001111>;
class CLT_U_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b001111>;
class CLT_U_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b001111>;
class CLTI_S_B_ENC : MSA_I5_FMT<0b010, 0b00, 0b000111>;
class CLTI_S_H_ENC : MSA_I5_FMT<0b010, 0b01, 0b000111>;
class CLTI_S_W_ENC : MSA_I5_FMT<0b010, 0b10, 0b000111>;
class CLTI_S_D_ENC : MSA_I5_FMT<0b010, 0b11, 0b000111>;
class CLTI_U_B_ENC : MSA_I5_FMT<0b011, 0b00, 0b000111>;
class CLTI_U_H_ENC : MSA_I5_FMT<0b011, 0b01, 0b000111>;
class CLTI_U_W_ENC : MSA_I5_FMT<0b011, 0b10, 0b000111>;
class CLTI_U_D_ENC : MSA_I5_FMT<0b011, 0b11, 0b000111>;
class COPY_S_B_ENC : MSA_ELM_COPY_B_FMT<0b0010, 0b011001>;
class COPY_S_H_ENC : MSA_ELM_COPY_H_FMT<0b0010, 0b011001>;
class COPY_S_W_ENC : MSA_ELM_COPY_W_FMT<0b0010, 0b011001>;
class COPY_S_D_ENC : MSA_ELM_COPY_D_FMT<0b0010, 0b011001>;
class COPY_U_B_ENC : MSA_ELM_COPY_B_FMT<0b0011, 0b011001>;
class COPY_U_H_ENC : MSA_ELM_COPY_H_FMT<0b0011, 0b011001>;
class COPY_U_W_ENC : MSA_ELM_COPY_W_FMT<0b0011, 0b011001>;
class COPY_U_D_ENC : MSA_ELM_COPY_D_FMT<0b0011, 0b011001>;
class CTCMSA_ENC : MSA_ELM_CTCMSA_FMT<0b0000111110, 0b011001>;
class DIV_S_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b010010>;
class DIV_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b010010>;
class DIV_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b010010>;
class DIV_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b010010>;
class DIV_U_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b010010>;
class DIV_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b010010>;
class DIV_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b010010>;
class DIV_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b010010>;
class DOTP_S_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b010011>;
class DOTP_S_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b010011>;
class DOTP_S_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b010011>;
class DOTP_U_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b010011>;
class DOTP_U_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b010011>;
class DOTP_U_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b010011>;
class DPADD_S_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b010011>;
class DPADD_S_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b010011>;
class DPADD_S_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b010011>;
class DPADD_U_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b010011>;
class DPADD_U_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b010011>;
class DPADD_U_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b010011>;
class DPSUB_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b010011>;
class DPSUB_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b010011>;
class DPSUB_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b010011>;
class DPSUB_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b010011>;
class DPSUB_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b010011>;
class DPSUB_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b010011>;
class FADD_W_ENC : MSA_3RF_FMT<0b0000, 0b0, 0b011011>;
class FADD_D_ENC : MSA_3RF_FMT<0b0000, 0b1, 0b011011>;
class FCAF_W_ENC : MSA_3RF_FMT<0b0000, 0b0, 0b011010>;
class FCAF_D_ENC : MSA_3RF_FMT<0b0000, 0b1, 0b011010>;
class FCEQ_W_ENC : MSA_3RF_FMT<0b0010, 0b0, 0b011010>;
class FCEQ_D_ENC : MSA_3RF_FMT<0b0010, 0b1, 0b011010>;
class FCLASS_W_ENC : MSA_2RF_FMT<0b110010000, 0b0, 0b011110>;
class FCLASS_D_ENC : MSA_2RF_FMT<0b110010000, 0b1, 0b011110>;
class FCLE_W_ENC : MSA_3RF_FMT<0b0110, 0b0, 0b011010>;
class FCLE_D_ENC : MSA_3RF_FMT<0b0110, 0b1, 0b011010>;
class FCLT_W_ENC : MSA_3RF_FMT<0b0100, 0b0, 0b011010>;
class FCLT_D_ENC : MSA_3RF_FMT<0b0100, 0b1, 0b011010>;
class FCNE_W_ENC : MSA_3RF_FMT<0b0011, 0b0, 0b011100>;
class FCNE_D_ENC : MSA_3RF_FMT<0b0011, 0b1, 0b011100>;
class FCOR_W_ENC : MSA_3RF_FMT<0b0001, 0b0, 0b011100>;
class FCOR_D_ENC : MSA_3RF_FMT<0b0001, 0b1, 0b011100>;
class FCUEQ_W_ENC : MSA_3RF_FMT<0b0011, 0b0, 0b011010>;
class FCUEQ_D_ENC : MSA_3RF_FMT<0b0011, 0b1, 0b011010>;
class FCULE_W_ENC : MSA_3RF_FMT<0b0111, 0b0, 0b011010>;
class FCULE_D_ENC : MSA_3RF_FMT<0b0111, 0b1, 0b011010>;
class FCULT_W_ENC : MSA_3RF_FMT<0b0101, 0b0, 0b011010>;
class FCULT_D_ENC : MSA_3RF_FMT<0b0101, 0b1, 0b011010>;
class FCUN_W_ENC : MSA_3RF_FMT<0b0001, 0b0, 0b011010>;
class FCUN_D_ENC : MSA_3RF_FMT<0b0001, 0b1, 0b011010>;
class FCUNE_W_ENC : MSA_3RF_FMT<0b0010, 0b0, 0b011100>;
class FCUNE_D_ENC : MSA_3RF_FMT<0b0010, 0b1, 0b011100>;
class FDIV_W_ENC : MSA_3RF_FMT<0b0011, 0b0, 0b011011>;
class FDIV_D_ENC : MSA_3RF_FMT<0b0011, 0b1, 0b011011>;
class FEXDO_H_ENC : MSA_3RF_FMT<0b1000, 0b0, 0b011011>;
class FEXDO_W_ENC : MSA_3RF_FMT<0b1000, 0b1, 0b011011>;
class FEXP2_W_ENC : MSA_3RF_FMT<0b0111, 0b0, 0b011011>;
class FEXP2_D_ENC : MSA_3RF_FMT<0b0111, 0b1, 0b011011>;
class FEXUPL_W_ENC : MSA_2RF_FMT<0b110011000, 0b0, 0b011110>;
class FEXUPL_D_ENC : MSA_2RF_FMT<0b110011000, 0b1, 0b011110>;
class FEXUPR_W_ENC : MSA_2RF_FMT<0b110011001, 0b0, 0b011110>;
class FEXUPR_D_ENC : MSA_2RF_FMT<0b110011001, 0b1, 0b011110>;
class FFINT_S_W_ENC : MSA_2RF_FMT<0b110011110, 0b0, 0b011110>;
class FFINT_S_D_ENC : MSA_2RF_FMT<0b110011110, 0b1, 0b011110>;
class FFINT_U_W_ENC : MSA_2RF_FMT<0b110011111, 0b0, 0b011110>;
class FFINT_U_D_ENC : MSA_2RF_FMT<0b110011111, 0b1, 0b011110>;
class FFQL_W_ENC : MSA_2RF_FMT<0b110011010, 0b0, 0b011110>;
class FFQL_D_ENC : MSA_2RF_FMT<0b110011010, 0b1, 0b011110>;
class FFQR_W_ENC : MSA_2RF_FMT<0b110011011, 0b0, 0b011110>;
class FFQR_D_ENC : MSA_2RF_FMT<0b110011011, 0b1, 0b011110>;
class FILL_B_ENC : MSA_2R_FILL_FMT<0b11000000, 0b00, 0b011110>;
class FILL_H_ENC : MSA_2R_FILL_FMT<0b11000000, 0b01, 0b011110>;
class FILL_W_ENC : MSA_2R_FILL_FMT<0b11000000, 0b10, 0b011110>;
class FILL_D_ENC : MSA_2R_FILL_D_FMT<0b11000000, 0b11, 0b011110>;
class FLOG2_W_ENC : MSA_2RF_FMT<0b110010111, 0b0, 0b011110>;
class FLOG2_D_ENC : MSA_2RF_FMT<0b110010111, 0b1, 0b011110>;
class FMADD_W_ENC : MSA_3RF_FMT<0b0100, 0b0, 0b011011>;
class FMADD_D_ENC : MSA_3RF_FMT<0b0100, 0b1, 0b011011>;
class FMAX_W_ENC : MSA_3RF_FMT<0b1110, 0b0, 0b011011>;
class FMAX_D_ENC : MSA_3RF_FMT<0b1110, 0b1, 0b011011>;
class FMAX_A_W_ENC : MSA_3RF_FMT<0b1111, 0b0, 0b011011>;
class FMAX_A_D_ENC : MSA_3RF_FMT<0b1111, 0b1, 0b011011>;
class FMIN_W_ENC : MSA_3RF_FMT<0b1100, 0b0, 0b011011>;
class FMIN_D_ENC : MSA_3RF_FMT<0b1100, 0b1, 0b011011>;
class FMIN_A_W_ENC : MSA_3RF_FMT<0b1101, 0b0, 0b011011>;
class FMIN_A_D_ENC : MSA_3RF_FMT<0b1101, 0b1, 0b011011>;
class FMSUB_W_ENC : MSA_3RF_FMT<0b0101, 0b0, 0b011011>;
class FMSUB_D_ENC : MSA_3RF_FMT<0b0101, 0b1, 0b011011>;
class FMUL_W_ENC : MSA_3RF_FMT<0b0010, 0b0, 0b011011>;
class FMUL_D_ENC : MSA_3RF_FMT<0b0010, 0b1, 0b011011>;
class FRINT_W_ENC : MSA_2RF_FMT<0b110010110, 0b0, 0b011110>;
class FRINT_D_ENC : MSA_2RF_FMT<0b110010110, 0b1, 0b011110>;
class FRCP_W_ENC : MSA_2RF_FMT<0b110010101, 0b0, 0b011110>;
class FRCP_D_ENC : MSA_2RF_FMT<0b110010101, 0b1, 0b011110>;
class FRSQRT_W_ENC : MSA_2RF_FMT<0b110010100, 0b0, 0b011110>;
class FRSQRT_D_ENC : MSA_2RF_FMT<0b110010100, 0b1, 0b011110>;
class FSAF_W_ENC : MSA_3RF_FMT<0b1000, 0b0, 0b011010>;
class FSAF_D_ENC : MSA_3RF_FMT<0b1000, 0b1, 0b011010>;
class FSEQ_W_ENC : MSA_3RF_FMT<0b1010, 0b0, 0b011010>;
class FSEQ_D_ENC : MSA_3RF_FMT<0b1010, 0b1, 0b011010>;
class FSLE_W_ENC : MSA_3RF_FMT<0b1110, 0b0, 0b011010>;
class FSLE_D_ENC : MSA_3RF_FMT<0b1110, 0b1, 0b011010>;
class FSLT_W_ENC : MSA_3RF_FMT<0b1100, 0b0, 0b011010>;
class FSLT_D_ENC : MSA_3RF_FMT<0b1100, 0b1, 0b011010>;
class FSNE_W_ENC : MSA_3RF_FMT<0b1011, 0b0, 0b011100>;
class FSNE_D_ENC : MSA_3RF_FMT<0b1011, 0b1, 0b011100>;
class FSOR_W_ENC : MSA_3RF_FMT<0b1001, 0b0, 0b011100>;
class FSOR_D_ENC : MSA_3RF_FMT<0b1001, 0b1, 0b011100>;
class FSQRT_W_ENC : MSA_2RF_FMT<0b110010011, 0b0, 0b011110>;
class FSQRT_D_ENC : MSA_2RF_FMT<0b110010011, 0b1, 0b011110>;
class FSUB_W_ENC : MSA_3RF_FMT<0b0001, 0b0, 0b011011>;
class FSUB_D_ENC : MSA_3RF_FMT<0b0001, 0b1, 0b011011>;
class FSUEQ_W_ENC : MSA_3RF_FMT<0b1011, 0b0, 0b011010>;
class FSUEQ_D_ENC : MSA_3RF_FMT<0b1011, 0b1, 0b011010>;
class FSULE_W_ENC : MSA_3RF_FMT<0b1111, 0b0, 0b011010>;
class FSULE_D_ENC : MSA_3RF_FMT<0b1111, 0b1, 0b011010>;
class FSULT_W_ENC : MSA_3RF_FMT<0b1101, 0b0, 0b011010>;
class FSULT_D_ENC : MSA_3RF_FMT<0b1101, 0b1, 0b011010>;
class FSUN_W_ENC : MSA_3RF_FMT<0b1001, 0b0, 0b011010>;
class FSUN_D_ENC : MSA_3RF_FMT<0b1001, 0b1, 0b011010>;
class FSUNE_W_ENC : MSA_3RF_FMT<0b1010, 0b0, 0b011100>;
class FSUNE_D_ENC : MSA_3RF_FMT<0b1010, 0b1, 0b011100>;
class FTINT_S_W_ENC : MSA_2RF_FMT<0b110011100, 0b0, 0b011110>;
class FTINT_S_D_ENC : MSA_2RF_FMT<0b110011100, 0b1, 0b011110>;
class FTINT_U_W_ENC : MSA_2RF_FMT<0b110011101, 0b0, 0b011110>;
class FTINT_U_D_ENC : MSA_2RF_FMT<0b110011101, 0b1, 0b011110>;
class FTQ_H_ENC : MSA_3RF_FMT<0b1010, 0b0, 0b011011>;
class FTQ_W_ENC : MSA_3RF_FMT<0b1010, 0b1, 0b011011>;
class FTRUNC_S_W_ENC : MSA_2RF_FMT<0b110010001, 0b0, 0b011110>;
class FTRUNC_S_D_ENC : MSA_2RF_FMT<0b110010001, 0b1, 0b011110>;
class FTRUNC_U_W_ENC : MSA_2RF_FMT<0b110010010, 0b0, 0b011110>;
class FTRUNC_U_D_ENC : MSA_2RF_FMT<0b110010010, 0b1, 0b011110>;
class HADD_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b010101>;
class HADD_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b010101>;
class HADD_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b010101>;
class HADD_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b010101>;
class HADD_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b010101>;
class HADD_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b010101>;
class HSUB_S_H_ENC : MSA_3R_FMT<0b110, 0b01, 0b010101>;
class HSUB_S_W_ENC : MSA_3R_FMT<0b110, 0b10, 0b010101>;
class HSUB_S_D_ENC : MSA_3R_FMT<0b110, 0b11, 0b010101>;
class HSUB_U_H_ENC : MSA_3R_FMT<0b111, 0b01, 0b010101>;
class HSUB_U_W_ENC : MSA_3R_FMT<0b111, 0b10, 0b010101>;
class HSUB_U_D_ENC : MSA_3R_FMT<0b111, 0b11, 0b010101>;
class ILVEV_B_ENC : MSA_3R_FMT<0b110, 0b00, 0b010100>;
class ILVEV_H_ENC : MSA_3R_FMT<0b110, 0b01, 0b010100>;
class ILVEV_W_ENC : MSA_3R_FMT<0b110, 0b10, 0b010100>;
class ILVEV_D_ENC : MSA_3R_FMT<0b110, 0b11, 0b010100>;
class ILVL_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b010100>;
class ILVL_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b010100>;
class ILVL_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b010100>;
class ILVL_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b010100>;
class ILVOD_B_ENC : MSA_3R_FMT<0b111, 0b00, 0b010100>;
class ILVOD_H_ENC : MSA_3R_FMT<0b111, 0b01, 0b010100>;
class ILVOD_W_ENC : MSA_3R_FMT<0b111, 0b10, 0b010100>;
class ILVOD_D_ENC : MSA_3R_FMT<0b111, 0b11, 0b010100>;
class ILVR_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b010100>;
class ILVR_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b010100>;
class ILVR_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b010100>;
class ILVR_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b010100>;
class INSERT_B_ENC : MSA_ELM_INSERT_B_FMT<0b0100, 0b011001>;
class INSERT_H_ENC : MSA_ELM_INSERT_H_FMT<0b0100, 0b011001>;
class INSERT_W_ENC : MSA_ELM_INSERT_W_FMT<0b0100, 0b011001>;
class INSERT_D_ENC : MSA_ELM_INSERT_D_FMT<0b0100, 0b011001>;
class INSVE_B_ENC : MSA_ELM_B_FMT<0b0101, 0b011001>;
class INSVE_H_ENC : MSA_ELM_H_FMT<0b0101, 0b011001>;
class INSVE_W_ENC : MSA_ELM_W_FMT<0b0101, 0b011001>;
class INSVE_D_ENC : MSA_ELM_D_FMT<0b0101, 0b011001>;
class LD_B_ENC : MSA_MI10_FMT<0b00, 0b1000>;
class LD_H_ENC : MSA_MI10_FMT<0b01, 0b1000>;
class LD_W_ENC : MSA_MI10_FMT<0b10, 0b1000>;
class LD_D_ENC : MSA_MI10_FMT<0b11, 0b1000>;
class LDI_B_ENC : MSA_I10_FMT<0b110, 0b00, 0b000111>;
class LDI_H_ENC : MSA_I10_FMT<0b110, 0b01, 0b000111>;
class LDI_W_ENC : MSA_I10_FMT<0b110, 0b10, 0b000111>;
class LDI_D_ENC : MSA_I10_FMT<0b110, 0b11, 0b000111>;
class LSA_ENC : SPECIAL_LSA_FMT<0b000101>;
class DLSA_ENC : SPECIAL_DLSA_FMT<0b010101>;
class MADD_Q_H_ENC : MSA_3RF_FMT<0b0101, 0b0, 0b011100>;
class MADD_Q_W_ENC : MSA_3RF_FMT<0b0101, 0b1, 0b011100>;
class MADDR_Q_H_ENC : MSA_3RF_FMT<0b1101, 0b0, 0b011100>;
class MADDR_Q_W_ENC : MSA_3RF_FMT<0b1101, 0b1, 0b011100>;
class MADDV_B_ENC : MSA_3R_FMT<0b001, 0b00, 0b010010>;
class MADDV_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b010010>;
class MADDV_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b010010>;
class MADDV_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b010010>;
class MAX_A_B_ENC : MSA_3R_FMT<0b110, 0b00, 0b001110>;
class MAX_A_H_ENC : MSA_3R_FMT<0b110, 0b01, 0b001110>;
class MAX_A_W_ENC : MSA_3R_FMT<0b110, 0b10, 0b001110>;
class MAX_A_D_ENC : MSA_3R_FMT<0b110, 0b11, 0b001110>;
class MAX_S_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b001110>;
class MAX_S_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b001110>;
class MAX_S_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b001110>;
class MAX_S_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b001110>;
class MAX_U_B_ENC : MSA_3R_FMT<0b011, 0b00, 0b001110>;
class MAX_U_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b001110>;
class MAX_U_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b001110>;
class MAX_U_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b001110>;
class MAXI_S_B_ENC : MSA_I5_FMT<0b010, 0b00, 0b000110>;
class MAXI_S_H_ENC : MSA_I5_FMT<0b010, 0b01, 0b000110>;
class MAXI_S_W_ENC : MSA_I5_FMT<0b010, 0b10, 0b000110>;
class MAXI_S_D_ENC : MSA_I5_FMT<0b010, 0b11, 0b000110>;
class MAXI_U_B_ENC : MSA_I5_FMT<0b011, 0b00, 0b000110>;
class MAXI_U_H_ENC : MSA_I5_FMT<0b011, 0b01, 0b000110>;
class MAXI_U_W_ENC : MSA_I5_FMT<0b011, 0b10, 0b000110>;
class MAXI_U_D_ENC : MSA_I5_FMT<0b011, 0b11, 0b000110>;
class MIN_A_B_ENC : MSA_3R_FMT<0b111, 0b00, 0b001110>;
class MIN_A_H_ENC : MSA_3R_FMT<0b111, 0b01, 0b001110>;
class MIN_A_W_ENC : MSA_3R_FMT<0b111, 0b10, 0b001110>;
class MIN_A_D_ENC : MSA_3R_FMT<0b111, 0b11, 0b001110>;
class MIN_S_B_ENC : MSA_3R_FMT<0b100, 0b00, 0b001110>;
class MIN_S_H_ENC : MSA_3R_FMT<0b100, 0b01, 0b001110>;
class MIN_S_W_ENC : MSA_3R_FMT<0b100, 0b10, 0b001110>;
class MIN_S_D_ENC : MSA_3R_FMT<0b100, 0b11, 0b001110>;
class MIN_U_B_ENC : MSA_3R_FMT<0b101, 0b00, 0b001110>;
class MIN_U_H_ENC : MSA_3R_FMT<0b101, 0b01, 0b001110>;
class MIN_U_W_ENC : MSA_3R_FMT<0b101, 0b10, 0b001110>;
class MIN_U_D_ENC : MSA_3R_FMT<0b101, 0b11, 0b001110>;
class MINI_S_B_ENC : MSA_I5_FMT<0b100, 0b00, 0b000110>;
class MINI_S_H_ENC : MSA_I5_FMT<0b100, 0b01, 0b000110>;
class MINI_S_W_ENC : MSA_I5_FMT<0b100, 0b10, 0b000110>;
class MINI_S_D_ENC : MSA_I5_FMT<0b100, 0b11, 0b000110>;
class MINI_U_B_ENC : MSA_I5_FMT<0b101, 0b00, 0b000110>;
class MINI_U_H_ENC : MSA_I5_FMT<0b101, 0b01, 0b000110>;
class MINI_U_W_ENC : MSA_I5_FMT<0b101, 0b10, 0b000110>;
class MINI_U_D_ENC : MSA_I5_FMT<0b101, 0b11, 0b000110>;
class MOD_S_B_ENC : MSA_3R_FMT<0b110, 0b00, 0b010010>;
class MOD_S_H_ENC : MSA_3R_FMT<0b110, 0b01, 0b010010>;
class MOD_S_W_ENC : MSA_3R_FMT<0b110, 0b10, 0b010010>;
class MOD_S_D_ENC : MSA_3R_FMT<0b110, 0b11, 0b010010>;
class MOD_U_B_ENC : MSA_3R_FMT<0b111, 0b00, 0b010010>;
class MOD_U_H_ENC : MSA_3R_FMT<0b111, 0b01, 0b010010>;
class MOD_U_W_ENC : MSA_3R_FMT<0b111, 0b10, 0b010010>;
class MOD_U_D_ENC : MSA_3R_FMT<0b111, 0b11, 0b010010>;
class MOVE_V_ENC : MSA_ELM_FMT<0b0010111110, 0b011001>;
class MSUB_Q_H_ENC : MSA_3RF_FMT<0b0110, 0b0, 0b011100>;
class MSUB_Q_W_ENC : MSA_3RF_FMT<0b0110, 0b1, 0b011100>;
class MSUBR_Q_H_ENC : MSA_3RF_FMT<0b1110, 0b0, 0b011100>;
class MSUBR_Q_W_ENC : MSA_3RF_FMT<0b1110, 0b1, 0b011100>;
class MSUBV_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b010010>;
class MSUBV_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b010010>;
class MSUBV_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b010010>;
class MSUBV_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b010010>;
class MUL_Q_H_ENC : MSA_3RF_FMT<0b0100, 0b0, 0b011100>;
class MUL_Q_W_ENC : MSA_3RF_FMT<0b0100, 0b1, 0b011100>;
class MULR_Q_H_ENC : MSA_3RF_FMT<0b1100, 0b0, 0b011100>;
class MULR_Q_W_ENC : MSA_3RF_FMT<0b1100, 0b1, 0b011100>;
class MULV_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b010010>;
class MULV_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b010010>;
class MULV_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b010010>;
class MULV_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b010010>;
class NLOC_B_ENC : MSA_2R_FMT<0b11000010, 0b00, 0b011110>;
class NLOC_H_ENC : MSA_2R_FMT<0b11000010, 0b01, 0b011110>;
class NLOC_W_ENC : MSA_2R_FMT<0b11000010, 0b10, 0b011110>;
class NLOC_D_ENC : MSA_2R_FMT<0b11000010, 0b11, 0b011110>;
class NLZC_B_ENC : MSA_2R_FMT<0b11000011, 0b00, 0b011110>;
class NLZC_H_ENC : MSA_2R_FMT<0b11000011, 0b01, 0b011110>;
class NLZC_W_ENC : MSA_2R_FMT<0b11000011, 0b10, 0b011110>;
class NLZC_D_ENC : MSA_2R_FMT<0b11000011, 0b11, 0b011110>;
class NOR_V_ENC : MSA_VEC_FMT<0b00010, 0b011110>;
class NORI_B_ENC : MSA_I8_FMT<0b10, 0b000000>;
class OR_V_ENC : MSA_VEC_FMT<0b00001, 0b011110>;
class ORI_B_ENC : MSA_I8_FMT<0b01, 0b000000>;
class PCKEV_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b010100>;
class PCKEV_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b010100>;
class PCKEV_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b010100>;
class PCKEV_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b010100>;
class PCKOD_B_ENC : MSA_3R_FMT<0b011, 0b00, 0b010100>;
class PCKOD_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b010100>;
class PCKOD_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b010100>;
class PCKOD_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b010100>;
class PCNT_B_ENC : MSA_2R_FMT<0b11000001, 0b00, 0b011110>;
class PCNT_H_ENC : MSA_2R_FMT<0b11000001, 0b01, 0b011110>;
class PCNT_W_ENC : MSA_2R_FMT<0b11000001, 0b10, 0b011110>;
class PCNT_D_ENC : MSA_2R_FMT<0b11000001, 0b11, 0b011110>;
class SAT_S_B_ENC : MSA_BIT_B_FMT<0b000, 0b001010>;
class SAT_S_H_ENC : MSA_BIT_H_FMT<0b000, 0b001010>;
class SAT_S_W_ENC : MSA_BIT_W_FMT<0b000, 0b001010>;
class SAT_S_D_ENC : MSA_BIT_D_FMT<0b000, 0b001010>;
class SAT_U_B_ENC : MSA_BIT_B_FMT<0b001, 0b001010>;
class SAT_U_H_ENC : MSA_BIT_H_FMT<0b001, 0b001010>;
class SAT_U_W_ENC : MSA_BIT_W_FMT<0b001, 0b001010>;
class SAT_U_D_ENC : MSA_BIT_D_FMT<0b001, 0b001010>;
class SHF_B_ENC : MSA_I8_FMT<0b00, 0b000010>;
class SHF_H_ENC : MSA_I8_FMT<0b01, 0b000010>;
class SHF_W_ENC : MSA_I8_FMT<0b10, 0b000010>;
class SLD_B_ENC : MSA_3R_INDEX_FMT<0b000, 0b00, 0b010100>;
class SLD_H_ENC : MSA_3R_INDEX_FMT<0b000, 0b01, 0b010100>;
class SLD_W_ENC : MSA_3R_INDEX_FMT<0b000, 0b10, 0b010100>;
class SLD_D_ENC : MSA_3R_INDEX_FMT<0b000, 0b11, 0b010100>;
class SLDI_B_ENC : MSA_ELM_B_FMT<0b0000, 0b011001>;
class SLDI_H_ENC : MSA_ELM_H_FMT<0b0000, 0b011001>;
class SLDI_W_ENC : MSA_ELM_W_FMT<0b0000, 0b011001>;
class SLDI_D_ENC : MSA_ELM_D_FMT<0b0000, 0b011001>;
class SLL_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b001101>;
class SLL_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b001101>;
class SLL_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b001101>;
class SLL_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b001101>;
class SLLI_B_ENC : MSA_BIT_B_FMT<0b000, 0b001001>;
class SLLI_H_ENC : MSA_BIT_H_FMT<0b000, 0b001001>;
class SLLI_W_ENC : MSA_BIT_W_FMT<0b000, 0b001001>;
class SLLI_D_ENC : MSA_BIT_D_FMT<0b000, 0b001001>;
class SPLAT_B_ENC : MSA_3R_INDEX_FMT<0b001, 0b00, 0b010100>;
class SPLAT_H_ENC : MSA_3R_INDEX_FMT<0b001, 0b01, 0b010100>;
class SPLAT_W_ENC : MSA_3R_INDEX_FMT<0b001, 0b10, 0b010100>;
class SPLAT_D_ENC : MSA_3R_INDEX_FMT<0b001, 0b11, 0b010100>;
class SPLATI_B_ENC : MSA_ELM_B_FMT<0b0001, 0b011001>;
class SPLATI_H_ENC : MSA_ELM_H_FMT<0b0001, 0b011001>;
class SPLATI_W_ENC : MSA_ELM_W_FMT<0b0001, 0b011001>;
class SPLATI_D_ENC : MSA_ELM_D_FMT<0b0001, 0b011001>;
class SRA_B_ENC : MSA_3R_FMT<0b001, 0b00, 0b001101>;
class SRA_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b001101>;
class SRA_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b001101>;
class SRA_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b001101>;
class SRAI_B_ENC : MSA_BIT_B_FMT<0b001, 0b001001>;
class SRAI_H_ENC : MSA_BIT_H_FMT<0b001, 0b001001>;
class SRAI_W_ENC : MSA_BIT_W_FMT<0b001, 0b001001>;
class SRAI_D_ENC : MSA_BIT_D_FMT<0b001, 0b001001>;
class SRAR_B_ENC : MSA_3R_FMT<0b001, 0b00, 0b010101>;
class SRAR_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b010101>;
class SRAR_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b010101>;
class SRAR_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b010101>;
class SRARI_B_ENC : MSA_BIT_B_FMT<0b010, 0b001010>;
class SRARI_H_ENC : MSA_BIT_H_FMT<0b010, 0b001010>;
class SRARI_W_ENC : MSA_BIT_W_FMT<0b010, 0b001010>;
class SRARI_D_ENC : MSA_BIT_D_FMT<0b010, 0b001010>;
class SRL_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b001101>;
class SRL_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b001101>;
class SRL_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b001101>;
class SRL_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b001101>;
class SRLI_B_ENC : MSA_BIT_B_FMT<0b010, 0b001001>;
class SRLI_H_ENC : MSA_BIT_H_FMT<0b010, 0b001001>;
class SRLI_W_ENC : MSA_BIT_W_FMT<0b010, 0b001001>;
class SRLI_D_ENC : MSA_BIT_D_FMT<0b010, 0b001001>;
class SRLR_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b010101>;
class SRLR_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b010101>;
class SRLR_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b010101>;
class SRLR_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b010101>;
class SRLRI_B_ENC : MSA_BIT_B_FMT<0b011, 0b001010>;
class SRLRI_H_ENC : MSA_BIT_H_FMT<0b011, 0b001010>;
class SRLRI_W_ENC : MSA_BIT_W_FMT<0b011, 0b001010>;
class SRLRI_D_ENC : MSA_BIT_D_FMT<0b011, 0b001010>;
class ST_B_ENC : MSA_MI10_FMT<0b00, 0b1001>;
class ST_H_ENC : MSA_MI10_FMT<0b01, 0b1001>;
class ST_W_ENC : MSA_MI10_FMT<0b10, 0b1001>;
class ST_D_ENC : MSA_MI10_FMT<0b11, 0b1001>;
class SUBS_S_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b010001>;
class SUBS_S_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b010001>;
class SUBS_S_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b010001>;
class SUBS_S_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b010001>;
class SUBS_U_B_ENC : MSA_3R_FMT<0b001, 0b00, 0b010001>;
class SUBS_U_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b010001>;
class SUBS_U_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b010001>;
class SUBS_U_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b010001>;
class SUBSUS_U_B_ENC : MSA_3R_FMT<0b010, 0b00, 0b010001>;
class SUBSUS_U_H_ENC : MSA_3R_FMT<0b010, 0b01, 0b010001>;
class SUBSUS_U_W_ENC : MSA_3R_FMT<0b010, 0b10, 0b010001>;
class SUBSUS_U_D_ENC : MSA_3R_FMT<0b010, 0b11, 0b010001>;
class SUBSUU_S_B_ENC : MSA_3R_FMT<0b011, 0b00, 0b010001>;
class SUBSUU_S_H_ENC : MSA_3R_FMT<0b011, 0b01, 0b010001>;
class SUBSUU_S_W_ENC : MSA_3R_FMT<0b011, 0b10, 0b010001>;
class SUBSUU_S_D_ENC : MSA_3R_FMT<0b011, 0b11, 0b010001>;
class SUBV_B_ENC : MSA_3R_FMT<0b001, 0b00, 0b001110>;
class SUBV_H_ENC : MSA_3R_FMT<0b001, 0b01, 0b001110>;
class SUBV_W_ENC : MSA_3R_FMT<0b001, 0b10, 0b001110>;
class SUBV_D_ENC : MSA_3R_FMT<0b001, 0b11, 0b001110>;
class SUBVI_B_ENC : MSA_I5_FMT<0b001, 0b00, 0b000110>;
class SUBVI_H_ENC : MSA_I5_FMT<0b001, 0b01, 0b000110>;
class SUBVI_W_ENC : MSA_I5_FMT<0b001, 0b10, 0b000110>;
class SUBVI_D_ENC : MSA_I5_FMT<0b001, 0b11, 0b000110>;
class VSHF_B_ENC : MSA_3R_FMT<0b000, 0b00, 0b010101>;
class VSHF_H_ENC : MSA_3R_FMT<0b000, 0b01, 0b010101>;
class VSHF_W_ENC : MSA_3R_FMT<0b000, 0b10, 0b010101>;
class VSHF_D_ENC : MSA_3R_FMT<0b000, 0b11, 0b010101>;
class XOR_V_ENC : MSA_VEC_FMT<0b00011, 0b011110>;
class XORI_B_ENC : MSA_I8_FMT<0b11, 0b000000>;
// Instruction desc.
class MSA_BIT_B_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ComplexPattern Imm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, vsplat_uimm3:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, Imm:$m))];
InstrItinClass Itinerary = itin;
}
class MSA_BIT_H_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ComplexPattern Imm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, vsplat_uimm4:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, Imm:$m))];
InstrItinClass Itinerary = itin;
}
class MSA_BIT_W_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ComplexPattern Imm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, vsplat_uimm5:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, Imm:$m))];
InstrItinClass Itinerary = itin;
}
class MSA_BIT_D_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ComplexPattern Imm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, vsplat_uimm6:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, Imm:$m))];
InstrItinClass Itinerary = itin;
}
// This class is deprecated and will be removed soon.
class MSA_BIT_B_X_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, uimm3:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, immZExt3:$m))];
InstrItinClass Itinerary = itin;
}
// This class is deprecated and will be removed soon.
class MSA_BIT_H_X_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, uimm4:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, immZExt4:$m))];
InstrItinClass Itinerary = itin;
}
// This class is deprecated and will be removed soon.
class MSA_BIT_W_X_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, uimm5:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, immZExt5:$m))];
InstrItinClass Itinerary = itin;
}
// This class is deprecated and will be removed soon.
class MSA_BIT_D_X_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, uimm6:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, immZExt6:$m))];
InstrItinClass Itinerary = itin;
}
class MSA_BIT_BINSXI_DESC_BASE<string instr_asm, ValueType Ty,
ComplexPattern Mask, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, vsplat_uimm8:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
// Note that binsxi and vselect treat the condition operand the opposite
// way to each other.
// (vselect cond, if_set, if_clear)
// (BSEL_V cond, if_clear, if_set)
list<dag> Pattern = [(set ROWD:$wd, (vselect (Ty Mask:$m), (Ty ROWD:$ws),
ROWS:$wd_in))];
InstrItinClass Itinerary = itin;
string Constraints = "$wd = $wd_in";
}
class MSA_BIT_BINSLI_DESC_BASE<string instr_asm, ValueType Ty,
RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> :
MSA_BIT_BINSXI_DESC_BASE<instr_asm, Ty, vsplat_maskl_bits, ROWD, ROWS, itin>;
class MSA_BIT_BINSRI_DESC_BASE<string instr_asm, ValueType Ty,
RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> :
MSA_BIT_BINSXI_DESC_BASE<instr_asm, Ty, vsplat_maskr_bits, ROWD, ROWS, itin>;
class MSA_BIT_SPLAT_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
SplatComplexPattern SplatImm,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, SplatImm.OpClass:$m);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, SplatImm:$m))];
InstrItinClass Itinerary = itin;
}
class MSA_COPY_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ValueType VecTy, RegisterOperand ROD,
RegisterOperand ROWS,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROD:$rd);
dag InOperandList = (ins ROWS:$ws, uimm4_ptr:$n);
string AsmString = !strconcat(instr_asm, "\t$rd, $ws[$n]");
list<dag> Pattern = [(set ROD:$rd, (OpNode (VecTy ROWS:$ws), immZExt4Ptr:$n))];
InstrItinClass Itinerary = itin;
}
class MSA_ELM_SLD_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, uimm4:$n);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws[$n]");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in, ROWS:$ws,
immZExt4:$n))];
string Constraints = "$wd = $wd_in";
InstrItinClass Itinerary = itin;
}
class MSA_COPY_PSEUDO_BASE<SDPatternOperator OpNode, ValueType VecTy,
RegisterClass RCD, RegisterClass RCWS> :
MSAPseudo<(outs RCD:$wd), (ins RCWS:$ws, uimm4_ptr:$n),
[(set RCD:$wd, (OpNode (VecTy RCWS:$ws), immZExt4Ptr:$n))]> {
bit usesCustomInserter = 1;
}
class MSA_I5_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
SplatComplexPattern SplatImm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, SplatImm.OpClass:$imm);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $imm");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, SplatImm:$imm))];
InstrItinClass Itinerary = itin;
}
class MSA_I8_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
SplatComplexPattern SplatImm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, SplatImm.OpClass:$u8);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $u8");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, SplatImm:$u8))];
InstrItinClass Itinerary = itin;
}
class MSA_I8_SHF_DESC_BASE<string instr_asm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, uimm8:$u8);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $u8");
list<dag> Pattern = [(set ROWD:$wd, (MipsSHF immZExt8:$u8, ROWS:$ws))];
InstrItinClass Itinerary = itin;
}
class MSA_I10_LDI_DESC_BASE<string instr_asm, RegisterOperand ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins vsplat_simm10:$s10);
string AsmString = !strconcat(instr_asm, "\t$wd, $s10");
// LDI is matched using custom matching code in MipsSEISelDAGToDAG.cpp
list<dag> Pattern = [];
bit hasSideEffects = 0;
InstrItinClass Itinerary = itin;
}
class MSA_2R_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws))];
InstrItinClass Itinerary = itin;
}
class MSA_2R_FILL_DESC_BASE<string instr_asm, ValueType VT,
SDPatternOperator OpNode, RegisterOperand ROWD,
RegisterOperand ROS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROS:$rs);
string AsmString = !strconcat(instr_asm, "\t$wd, $rs");
list<dag> Pattern = [(set ROWD:$wd, (VT (OpNode ROS:$rs)))];
InstrItinClass Itinerary = itin;
}
class MSA_2R_FILL_PSEUDO_BASE<ValueType VT, SDPatternOperator OpNode,
RegisterClass RCWD, RegisterClass RCWS = RCWD> :
MSAPseudo<(outs RCWD:$wd), (ins RCWS:$fs),
[(set RCWD:$wd, (OpNode RCWS:$fs))]> {
let usesCustomInserter = 1;
}
class MSA_2RF_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws))];
InstrItinClass Itinerary = itin;
}
class MSA_3R_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, ROWT:$wt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $wt");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, ROWT:$wt))];
InstrItinClass Itinerary = itin;
}
class MSA_3R_BINSX_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, ROWT:$wt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $wt");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in, ROWS:$ws,
ROWT:$wt))];
string Constraints = "$wd = $wd_in";
InstrItinClass Itinerary = itin;
}
class MSA_3R_SPLAT_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, GPR32Opnd:$rt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws[$rt]");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, GPR32Opnd:$rt))];
InstrItinClass Itinerary = itin;
}
class MSA_3R_VSHF_DESC_BASE<string instr_asm, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, ROWT:$wt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $wt");
list<dag> Pattern = [(set ROWD:$wd, (MipsVSHF ROWD:$wd_in, ROWS:$ws,
ROWT:$wt))];
string Constraints = "$wd = $wd_in";
InstrItinClass Itinerary = itin;
}
class MSA_3R_SLD_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, GPR32Opnd:$rt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws[$rt]");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in, ROWS:$ws,
GPR32Opnd:$rt))];
InstrItinClass Itinerary = itin;
string Constraints = "$wd = $wd_in";
}
class MSA_3R_4R_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, ROWT:$wt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $wt");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in, ROWS:$ws,
ROWT:$wt))];
InstrItinClass Itinerary = itin;
string Constraints = "$wd = $wd_in";
}
class MSA_3RF_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> :
MSA_3R_DESC_BASE<instr_asm, OpNode, ROWD, ROWS, ROWT, itin>;
class MSA_3RF_4RF_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> :
MSA_3R_4R_DESC_BASE<instr_asm, OpNode, ROWD, ROWS, ROWT, itin>;
class MSA_CBRANCH_DESC_BASE<string instr_asm, RegisterOperand ROWD> {
dag OutOperandList = (outs);
dag InOperandList = (ins ROWD:$wt, brtarget:$offset);
string AsmString = !strconcat(instr_asm, "\t$wt, $offset");
list<dag> Pattern = [];
InstrItinClass Itinerary = IIBranch;
bit isBranch = 1;
bit isTerminator = 1;
bit hasDelaySlot = 1;
list<Register> Defs = [AT];
}
class MSA_INSERT_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROS,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, ROS:$rs, uimm6_ptr:$n);
string AsmString = !strconcat(instr_asm, "\t$wd[$n], $rs");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in,
ROS:$rs,
immZExt6Ptr:$n))];
InstrItinClass Itinerary = itin;
string Constraints = "$wd = $wd_in";
}
class MSA_INSERT_PSEUDO_BASE<SDPatternOperator OpNode, ValueType Ty,
RegisterOperand ROWD, RegisterOperand ROFS> :
MSAPseudo<(outs ROWD:$wd), (ins ROWD:$wd_in, uimm6_ptr:$n, ROFS:$fs),
[(set ROWD:$wd, (OpNode (Ty ROWD:$wd_in), ROFS:$fs,
immZExt6Ptr:$n))]> {
bit usesCustomInserter = 1;
string Constraints = "$wd = $wd_in";
}
class MSA_INSERT_VIDX_PSEUDO_BASE<SDPatternOperator OpNode, ValueType Ty,
RegisterOperand ROWD, RegisterOperand ROFS,
RegisterOperand ROIdx> :
MSAPseudo<(outs ROWD:$wd), (ins ROWD:$wd_in, ROIdx:$n, ROFS:$fs),
[(set ROWD:$wd, (OpNode (Ty ROWD:$wd_in), ROFS:$fs,
ROIdx:$n))]> {
bit usesCustomInserter = 1;
string Constraints = "$wd = $wd_in";
}
class MSA_INSVE_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWD:$wd_in, uimm6:$n, ROWS:$ws, uimmz:$n2);
string AsmString = !strconcat(instr_asm, "\t$wd[$n], $ws[$n2]");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in,
immZExt6:$n,
ROWS:$ws,
immz:$n2))];
InstrItinClass Itinerary = itin;
string Constraints = "$wd = $wd_in";
}
class MSA_VEC_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
RegisterOperand ROWD, RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, ROWT:$wt);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $wt");
list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, ROWT:$wt))];
InstrItinClass Itinerary = itin;
}
class MSA_ELM_SPLAT_DESC_BASE<string instr_asm, SplatComplexPattern SplatImm,
RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins ROWS:$ws, SplatImm.OpClass:$n);
string AsmString = !strconcat(instr_asm, "\t$wd, $ws[$n]");
list<dag> Pattern = [(set ROWD:$wd, (MipsVSHF SplatImm:$n, ROWS:$ws,
ROWS:$ws))];
InstrItinClass Itinerary = itin;
}
class MSA_VEC_PSEUDO_BASE<SDPatternOperator OpNode, RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
RegisterOperand ROWT = ROWD> :
MSAPseudo<(outs ROWD:$wd), (ins ROWS:$ws, ROWT:$wt),
[(set ROWD:$wd, (OpNode ROWS:$ws, ROWT:$wt))]>;
class ADD_A_B_DESC : MSA_3R_DESC_BASE<"add_a.b", int_mips_add_a_b, MSA128BOpnd>,
IsCommutable;
class ADD_A_H_DESC : MSA_3R_DESC_BASE<"add_a.h", int_mips_add_a_h, MSA128HOpnd>,
IsCommutable;
class ADD_A_W_DESC : MSA_3R_DESC_BASE<"add_a.w", int_mips_add_a_w, MSA128WOpnd>,
IsCommutable;
class ADD_A_D_DESC : MSA_3R_DESC_BASE<"add_a.d", int_mips_add_a_d, MSA128DOpnd>,
IsCommutable;
class ADDS_A_B_DESC : MSA_3R_DESC_BASE<"adds_a.b", int_mips_adds_a_b,
MSA128BOpnd>, IsCommutable;
class ADDS_A_H_DESC : MSA_3R_DESC_BASE<"adds_a.h", int_mips_adds_a_h,
MSA128HOpnd>, IsCommutable;
class ADDS_A_W_DESC : MSA_3R_DESC_BASE<"adds_a.w", int_mips_adds_a_w,
MSA128WOpnd>, IsCommutable;
class ADDS_A_D_DESC : MSA_3R_DESC_BASE<"adds_a.d", int_mips_adds_a_d,
MSA128DOpnd>, IsCommutable;
class ADDS_S_B_DESC : MSA_3R_DESC_BASE<"adds_s.b", int_mips_adds_s_b,
MSA128BOpnd>, IsCommutable;
class ADDS_S_H_DESC : MSA_3R_DESC_BASE<"adds_s.h", int_mips_adds_s_h,
MSA128HOpnd>, IsCommutable;
class ADDS_S_W_DESC : MSA_3R_DESC_BASE<"adds_s.w", int_mips_adds_s_w,
MSA128WOpnd>, IsCommutable;
class ADDS_S_D_DESC : MSA_3R_DESC_BASE<"adds_s.d", int_mips_adds_s_d,
MSA128DOpnd>, IsCommutable;
class ADDS_U_B_DESC : MSA_3R_DESC_BASE<"adds_u.b", int_mips_adds_u_b,
MSA128BOpnd>, IsCommutable;
class ADDS_U_H_DESC : MSA_3R_DESC_BASE<"adds_u.h", int_mips_adds_u_h,
MSA128HOpnd>, IsCommutable;
class ADDS_U_W_DESC : MSA_3R_DESC_BASE<"adds_u.w", int_mips_adds_u_w,
MSA128WOpnd>, IsCommutable;
class ADDS_U_D_DESC : MSA_3R_DESC_BASE<"adds_u.d", int_mips_adds_u_d,
MSA128DOpnd>, IsCommutable;
class ADDV_B_DESC : MSA_3R_DESC_BASE<"addv.b", add, MSA128BOpnd>, IsCommutable;
class ADDV_H_DESC : MSA_3R_DESC_BASE<"addv.h", add, MSA128HOpnd>, IsCommutable;
class ADDV_W_DESC : MSA_3R_DESC_BASE<"addv.w", add, MSA128WOpnd>, IsCommutable;
class ADDV_D_DESC : MSA_3R_DESC_BASE<"addv.d", add, MSA128DOpnd>, IsCommutable;
class ADDVI_B_DESC : MSA_I5_DESC_BASE<"addvi.b", add, vsplati8_uimm5,
MSA128BOpnd>;
class ADDVI_H_DESC : MSA_I5_DESC_BASE<"addvi.h", add, vsplati16_uimm5,
MSA128HOpnd>;
class ADDVI_W_DESC : MSA_I5_DESC_BASE<"addvi.w", add, vsplati32_uimm5,
MSA128WOpnd>;
class ADDVI_D_DESC : MSA_I5_DESC_BASE<"addvi.d", add, vsplati64_uimm5,
MSA128DOpnd>;
class AND_V_DESC : MSA_VEC_DESC_BASE<"and.v", and, MSA128BOpnd>;
class AND_V_H_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<and, MSA128HOpnd>;
class AND_V_W_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<and, MSA128WOpnd>;
class AND_V_D_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<and, MSA128DOpnd>;
class ANDI_B_DESC : MSA_I8_DESC_BASE<"andi.b", and, vsplati8_uimm8,
MSA128BOpnd>;
class ASUB_S_B_DESC : MSA_3R_DESC_BASE<"asub_s.b", int_mips_asub_s_b,
MSA128BOpnd>;
class ASUB_S_H_DESC : MSA_3R_DESC_BASE<"asub_s.h", int_mips_asub_s_h,
MSA128HOpnd>;
class ASUB_S_W_DESC : MSA_3R_DESC_BASE<"asub_s.w", int_mips_asub_s_w,
MSA128WOpnd>;
class ASUB_S_D_DESC : MSA_3R_DESC_BASE<"asub_s.d", int_mips_asub_s_d,
MSA128DOpnd>;
class ASUB_U_B_DESC : MSA_3R_DESC_BASE<"asub_u.b", int_mips_asub_u_b,
MSA128BOpnd>;
class ASUB_U_H_DESC : MSA_3R_DESC_BASE<"asub_u.h", int_mips_asub_u_h,
MSA128HOpnd>;
class ASUB_U_W_DESC : MSA_3R_DESC_BASE<"asub_u.w", int_mips_asub_u_w,
MSA128WOpnd>;
class ASUB_U_D_DESC : MSA_3R_DESC_BASE<"asub_u.d", int_mips_asub_u_d,
MSA128DOpnd>;
class AVE_S_B_DESC : MSA_3R_DESC_BASE<"ave_s.b", int_mips_ave_s_b, MSA128BOpnd>,
IsCommutable;
class AVE_S_H_DESC : MSA_3R_DESC_BASE<"ave_s.h", int_mips_ave_s_h, MSA128HOpnd>,
IsCommutable;
class AVE_S_W_DESC : MSA_3R_DESC_BASE<"ave_s.w", int_mips_ave_s_w, MSA128WOpnd>,
IsCommutable;
class AVE_S_D_DESC : MSA_3R_DESC_BASE<"ave_s.d", int_mips_ave_s_d, MSA128DOpnd>,
IsCommutable;
class AVE_U_B_DESC : MSA_3R_DESC_BASE<"ave_u.b", int_mips_ave_u_b, MSA128BOpnd>,
IsCommutable;
class AVE_U_H_DESC : MSA_3R_DESC_BASE<"ave_u.h", int_mips_ave_u_h, MSA128HOpnd>,
IsCommutable;
class AVE_U_W_DESC : MSA_3R_DESC_BASE<"ave_u.w", int_mips_ave_u_w, MSA128WOpnd>,
IsCommutable;
class AVE_U_D_DESC : MSA_3R_DESC_BASE<"ave_u.d", int_mips_ave_u_d, MSA128DOpnd>,
IsCommutable;
class AVER_S_B_DESC : MSA_3R_DESC_BASE<"aver_s.b", int_mips_aver_s_b,
MSA128BOpnd>, IsCommutable;
class AVER_S_H_DESC : MSA_3R_DESC_BASE<"aver_s.h", int_mips_aver_s_h,
MSA128HOpnd>, IsCommutable;
class AVER_S_W_DESC : MSA_3R_DESC_BASE<"aver_s.w", int_mips_aver_s_w,
MSA128WOpnd>, IsCommutable;
class AVER_S_D_DESC : MSA_3R_DESC_BASE<"aver_s.d", int_mips_aver_s_d,
MSA128DOpnd>, IsCommutable;
class AVER_U_B_DESC : MSA_3R_DESC_BASE<"aver_u.b", int_mips_aver_u_b,
MSA128BOpnd>, IsCommutable;
class AVER_U_H_DESC : MSA_3R_DESC_BASE<"aver_u.h", int_mips_aver_u_h,
MSA128HOpnd>, IsCommutable;
class AVER_U_W_DESC : MSA_3R_DESC_BASE<"aver_u.w", int_mips_aver_u_w,
MSA128WOpnd>, IsCommutable;
class AVER_U_D_DESC : MSA_3R_DESC_BASE<"aver_u.d", int_mips_aver_u_d,
MSA128DOpnd>, IsCommutable;
class BCLR_B_DESC : MSA_3R_DESC_BASE<"bclr.b", vbclr_b, MSA128BOpnd>;
class BCLR_H_DESC : MSA_3R_DESC_BASE<"bclr.h", vbclr_h, MSA128HOpnd>;
class BCLR_W_DESC : MSA_3R_DESC_BASE<"bclr.w", vbclr_w, MSA128WOpnd>;
class BCLR_D_DESC : MSA_3R_DESC_BASE<"bclr.d", vbclr_d, MSA128DOpnd>;
class BCLRI_B_DESC : MSA_BIT_B_DESC_BASE<"bclri.b", and, vsplat_uimm_inv_pow2,
MSA128BOpnd>;
class BCLRI_H_DESC : MSA_BIT_H_DESC_BASE<"bclri.h", and, vsplat_uimm_inv_pow2,
MSA128HOpnd>;
class BCLRI_W_DESC : MSA_BIT_W_DESC_BASE<"bclri.w", and, vsplat_uimm_inv_pow2,
MSA128WOpnd>;
class BCLRI_D_DESC : MSA_BIT_D_DESC_BASE<"bclri.d", and, vsplat_uimm_inv_pow2,
MSA128DOpnd>;
class BINSL_B_DESC : MSA_3R_BINSX_DESC_BASE<"binsl.b", int_mips_binsl_b,
MSA128BOpnd>;
class BINSL_H_DESC : MSA_3R_BINSX_DESC_BASE<"binsl.h", int_mips_binsl_h,
MSA128HOpnd>;
class BINSL_W_DESC : MSA_3R_BINSX_DESC_BASE<"binsl.w", int_mips_binsl_w,
MSA128WOpnd>;
class BINSL_D_DESC : MSA_3R_BINSX_DESC_BASE<"binsl.d", int_mips_binsl_d,
MSA128DOpnd>;
class BINSLI_B_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.b", v16i8, MSA128BOpnd>;
class BINSLI_H_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.h", v8i16, MSA128HOpnd>;
class BINSLI_W_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.w", v4i32, MSA128WOpnd>;
class BINSLI_D_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.d", v2i64, MSA128DOpnd>;
class BINSR_B_DESC : MSA_3R_BINSX_DESC_BASE<"binsr.b", int_mips_binsr_b,
MSA128BOpnd>;
class BINSR_H_DESC : MSA_3R_BINSX_DESC_BASE<"binsr.h", int_mips_binsr_h,
MSA128HOpnd>;
class BINSR_W_DESC : MSA_3R_BINSX_DESC_BASE<"binsr.w", int_mips_binsr_w,
MSA128WOpnd>;
class BINSR_D_DESC : MSA_3R_BINSX_DESC_BASE<"binsr.d", int_mips_binsr_d,
MSA128DOpnd>;
class BINSRI_B_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.b", v16i8, MSA128BOpnd>;
class BINSRI_H_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.h", v8i16, MSA128HOpnd>;
class BINSRI_W_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.w", v4i32, MSA128WOpnd>;
class BINSRI_D_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.d", v2i64, MSA128DOpnd>;
class BMNZ_V_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$wd_in, MSA128BOpnd:$ws,
MSA128BOpnd:$wt);
string AsmString = "bmnz.v\t$wd, $ws, $wt";
list<dag> Pattern = [(set MSA128BOpnd:$wd, (vselect MSA128BOpnd:$wt,
MSA128BOpnd:$ws,
MSA128BOpnd:$wd_in))];
InstrItinClass Itinerary = NoItinerary;
string Constraints = "$wd = $wd_in";
}
class BMNZI_B_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$wd_in, MSA128BOpnd:$ws,
vsplat_uimm8:$u8);
string AsmString = "bmnzi.b\t$wd, $ws, $u8";
list<dag> Pattern = [(set MSA128BOpnd:$wd, (vselect vsplati8_uimm8:$u8,
MSA128BOpnd:$ws,
MSA128BOpnd:$wd_in))];
InstrItinClass Itinerary = NoItinerary;
string Constraints = "$wd = $wd_in";
}
class BMZ_V_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$wd_in, MSA128BOpnd:$ws,
MSA128BOpnd:$wt);
string AsmString = "bmz.v\t$wd, $ws, $wt";
list<dag> Pattern = [(set MSA128BOpnd:$wd, (vselect MSA128BOpnd:$wt,
MSA128BOpnd:$wd_in,
MSA128BOpnd:$ws))];
InstrItinClass Itinerary = NoItinerary;
string Constraints = "$wd = $wd_in";
}
class BMZI_B_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$wd_in, MSA128BOpnd:$ws,
vsplat_uimm8:$u8);
string AsmString = "bmzi.b\t$wd, $ws, $u8";
list<dag> Pattern = [(set MSA128BOpnd:$wd, (vselect vsplati8_uimm8:$u8,
MSA128BOpnd:$wd_in,
MSA128BOpnd:$ws))];
InstrItinClass Itinerary = NoItinerary;
string Constraints = "$wd = $wd_in";
}
class BNEG_B_DESC : MSA_3R_DESC_BASE<"bneg.b", vbneg_b, MSA128BOpnd>;
class BNEG_H_DESC : MSA_3R_DESC_BASE<"bneg.h", vbneg_h, MSA128HOpnd>;
class BNEG_W_DESC : MSA_3R_DESC_BASE<"bneg.w", vbneg_w, MSA128WOpnd>;
class BNEG_D_DESC : MSA_3R_DESC_BASE<"bneg.d", vbneg_d, MSA128DOpnd>;
class BNEGI_B_DESC : MSA_BIT_B_DESC_BASE<"bnegi.b", xor, vsplat_uimm_pow2,
MSA128BOpnd>;
class BNEGI_H_DESC : MSA_BIT_H_DESC_BASE<"bnegi.h", xor, vsplat_uimm_pow2,
MSA128HOpnd>;
class BNEGI_W_DESC : MSA_BIT_W_DESC_BASE<"bnegi.w", xor, vsplat_uimm_pow2,
MSA128WOpnd>;
class BNEGI_D_DESC : MSA_BIT_D_DESC_BASE<"bnegi.d", xor, vsplat_uimm_pow2,
MSA128DOpnd>;
class BNZ_B_DESC : MSA_CBRANCH_DESC_BASE<"bnz.b", MSA128BOpnd>;
class BNZ_H_DESC : MSA_CBRANCH_DESC_BASE<"bnz.h", MSA128HOpnd>;
class BNZ_W_DESC : MSA_CBRANCH_DESC_BASE<"bnz.w", MSA128WOpnd>;
class BNZ_D_DESC : MSA_CBRANCH_DESC_BASE<"bnz.d", MSA128DOpnd>;
class BNZ_V_DESC : MSA_CBRANCH_DESC_BASE<"bnz.v", MSA128BOpnd>;
class BSEL_V_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$wd_in, MSA128BOpnd:$ws,
MSA128BOpnd:$wt);
string AsmString = "bsel.v\t$wd, $ws, $wt";
// Note that vselect and BSEL_V treat the condition operand the opposite way
// from each other.
// (vselect cond, if_set, if_clear)
// (BSEL_V cond, if_clear, if_set)
list<dag> Pattern = [(set MSA128BOpnd:$wd,
(vselect MSA128BOpnd:$wd_in, MSA128BOpnd:$wt,
MSA128BOpnd:$ws))];
InstrItinClass Itinerary = NoItinerary;
string Constraints = "$wd = $wd_in";
}
class BSELI_B_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$wd_in, MSA128BOpnd:$ws,
vsplat_uimm8:$u8);
string AsmString = "bseli.b\t$wd, $ws, $u8";
// Note that vselect and BSEL_V treat the condition operand the opposite way
// from each other.
// (vselect cond, if_set, if_clear)
// (BSEL_V cond, if_clear, if_set)
list<dag> Pattern = [(set MSA128BOpnd:$wd, (vselect MSA128BOpnd:$wd_in,
vsplati8_uimm8:$u8,
MSA128BOpnd:$ws))];
InstrItinClass Itinerary = NoItinerary;
string Constraints = "$wd = $wd_in";
}
class BSET_B_DESC : MSA_3R_DESC_BASE<"bset.b", vbset_b, MSA128BOpnd>;
class BSET_H_DESC : MSA_3R_DESC_BASE<"bset.h", vbset_h, MSA128HOpnd>;
class BSET_W_DESC : MSA_3R_DESC_BASE<"bset.w", vbset_w, MSA128WOpnd>;
class BSET_D_DESC : MSA_3R_DESC_BASE<"bset.d", vbset_d, MSA128DOpnd>;
class BSETI_B_DESC : MSA_BIT_B_DESC_BASE<"bseti.b", or, vsplat_uimm_pow2,
MSA128BOpnd>;
class BSETI_H_DESC : MSA_BIT_H_DESC_BASE<"bseti.h", or, vsplat_uimm_pow2,
MSA128HOpnd>;
class BSETI_W_DESC : MSA_BIT_W_DESC_BASE<"bseti.w", or, vsplat_uimm_pow2,
MSA128WOpnd>;
class BSETI_D_DESC : MSA_BIT_D_DESC_BASE<"bseti.d", or, vsplat_uimm_pow2,
MSA128DOpnd>;
class BZ_B_DESC : MSA_CBRANCH_DESC_BASE<"bz.b", MSA128BOpnd>;
class BZ_H_DESC : MSA_CBRANCH_DESC_BASE<"bz.h", MSA128HOpnd>;
class BZ_W_DESC : MSA_CBRANCH_DESC_BASE<"bz.w", MSA128WOpnd>;
class BZ_D_DESC : MSA_CBRANCH_DESC_BASE<"bz.d", MSA128DOpnd>;
class BZ_V_DESC : MSA_CBRANCH_DESC_BASE<"bz.v", MSA128BOpnd>;
class CEQ_B_DESC : MSA_3R_DESC_BASE<"ceq.b", vseteq_v16i8, MSA128BOpnd>,
IsCommutable;
class CEQ_H_DESC : MSA_3R_DESC_BASE<"ceq.h", vseteq_v8i16, MSA128HOpnd>,
IsCommutable;
class CEQ_W_DESC : MSA_3R_DESC_BASE<"ceq.w", vseteq_v4i32, MSA128WOpnd>,
IsCommutable;
class CEQ_D_DESC : MSA_3R_DESC_BASE<"ceq.d", vseteq_v2i64, MSA128DOpnd>,
IsCommutable;
class CEQI_B_DESC : MSA_I5_DESC_BASE<"ceqi.b", vseteq_v16i8, vsplati8_simm5,
MSA128BOpnd>;
class CEQI_H_DESC : MSA_I5_DESC_BASE<"ceqi.h", vseteq_v8i16, vsplati16_simm5,
MSA128HOpnd>;
class CEQI_W_DESC : MSA_I5_DESC_BASE<"ceqi.w", vseteq_v4i32, vsplati32_simm5,
MSA128WOpnd>;
class CEQI_D_DESC : MSA_I5_DESC_BASE<"ceqi.d", vseteq_v2i64, vsplati64_simm5,
MSA128DOpnd>;
class CFCMSA_DESC {
dag OutOperandList = (outs GPR32Opnd:$rd);
dag InOperandList = (ins MSA128CROpnd:$cs);
string AsmString = "cfcmsa\t$rd, $cs";
InstrItinClass Itinerary = NoItinerary;
bit hasSideEffects = 1;
}
class CLE_S_B_DESC : MSA_3R_DESC_BASE<"cle_s.b", vsetle_v16i8, MSA128BOpnd>;
class CLE_S_H_DESC : MSA_3R_DESC_BASE<"cle_s.h", vsetle_v8i16, MSA128HOpnd>;
class CLE_S_W_DESC : MSA_3R_DESC_BASE<"cle_s.w", vsetle_v4i32, MSA128WOpnd>;
class CLE_S_D_DESC : MSA_3R_DESC_BASE<"cle_s.d", vsetle_v2i64, MSA128DOpnd>;
class CLE_U_B_DESC : MSA_3R_DESC_BASE<"cle_u.b", vsetule_v16i8, MSA128BOpnd>;
class CLE_U_H_DESC : MSA_3R_DESC_BASE<"cle_u.h", vsetule_v8i16, MSA128HOpnd>;
class CLE_U_W_DESC : MSA_3R_DESC_BASE<"cle_u.w", vsetule_v4i32, MSA128WOpnd>;
class CLE_U_D_DESC : MSA_3R_DESC_BASE<"cle_u.d", vsetule_v2i64, MSA128DOpnd>;
class CLEI_S_B_DESC : MSA_I5_DESC_BASE<"clei_s.b", vsetle_v16i8,
vsplati8_simm5, MSA128BOpnd>;
class CLEI_S_H_DESC : MSA_I5_DESC_BASE<"clei_s.h", vsetle_v8i16,
vsplati16_simm5, MSA128HOpnd>;
class CLEI_S_W_DESC : MSA_I5_DESC_BASE<"clei_s.w", vsetle_v4i32,
vsplati32_simm5, MSA128WOpnd>;
class CLEI_S_D_DESC : MSA_I5_DESC_BASE<"clei_s.d", vsetle_v2i64,
vsplati64_simm5, MSA128DOpnd>;
class CLEI_U_B_DESC : MSA_I5_DESC_BASE<"clei_u.b", vsetule_v16i8,
vsplati8_uimm5, MSA128BOpnd>;
class CLEI_U_H_DESC : MSA_I5_DESC_BASE<"clei_u.h", vsetule_v8i16,
vsplati16_uimm5, MSA128HOpnd>;
class CLEI_U_W_DESC : MSA_I5_DESC_BASE<"clei_u.w", vsetule_v4i32,
vsplati32_uimm5, MSA128WOpnd>;
class CLEI_U_D_DESC : MSA_I5_DESC_BASE<"clei_u.d", vsetule_v2i64,
vsplati64_uimm5, MSA128DOpnd>;
class CLT_S_B_DESC : MSA_3R_DESC_BASE<"clt_s.b", vsetlt_v16i8, MSA128BOpnd>;
class CLT_S_H_DESC : MSA_3R_DESC_BASE<"clt_s.h", vsetlt_v8i16, MSA128HOpnd>;
class CLT_S_W_DESC : MSA_3R_DESC_BASE<"clt_s.w", vsetlt_v4i32, MSA128WOpnd>;
class CLT_S_D_DESC : MSA_3R_DESC_BASE<"clt_s.d", vsetlt_v2i64, MSA128DOpnd>;
class CLT_U_B_DESC : MSA_3R_DESC_BASE<"clt_u.b", vsetult_v16i8, MSA128BOpnd>;
class CLT_U_H_DESC : MSA_3R_DESC_BASE<"clt_u.h", vsetult_v8i16, MSA128HOpnd>;
class CLT_U_W_DESC : MSA_3R_DESC_BASE<"clt_u.w", vsetult_v4i32, MSA128WOpnd>;
class CLT_U_D_DESC : MSA_3R_DESC_BASE<"clt_u.d", vsetult_v2i64, MSA128DOpnd>;
class CLTI_S_B_DESC : MSA_I5_DESC_BASE<"clti_s.b", vsetlt_v16i8,
vsplati8_simm5, MSA128BOpnd>;
class CLTI_S_H_DESC : MSA_I5_DESC_BASE<"clti_s.h", vsetlt_v8i16,
vsplati16_simm5, MSA128HOpnd>;
class CLTI_S_W_DESC : MSA_I5_DESC_BASE<"clti_s.w", vsetlt_v4i32,
vsplati32_simm5, MSA128WOpnd>;
class CLTI_S_D_DESC : MSA_I5_DESC_BASE<"clti_s.d", vsetlt_v2i64,
vsplati64_simm5, MSA128DOpnd>;
class CLTI_U_B_DESC : MSA_I5_DESC_BASE<"clti_u.b", vsetult_v16i8,
vsplati8_uimm5, MSA128BOpnd>;
class CLTI_U_H_DESC : MSA_I5_DESC_BASE<"clti_u.h", vsetult_v8i16,
vsplati16_uimm5, MSA128HOpnd>;
class CLTI_U_W_DESC : MSA_I5_DESC_BASE<"clti_u.w", vsetult_v4i32,
vsplati32_uimm5, MSA128WOpnd>;
class CLTI_U_D_DESC : MSA_I5_DESC_BASE<"clti_u.d", vsetult_v2i64,
vsplati64_uimm5, MSA128DOpnd>;
class COPY_S_B_DESC : MSA_COPY_DESC_BASE<"copy_s.b", vextract_sext_i8, v16i8,
GPR32Opnd, MSA128BOpnd>;
class COPY_S_H_DESC : MSA_COPY_DESC_BASE<"copy_s.h", vextract_sext_i16, v8i16,
GPR32Opnd, MSA128HOpnd>;
class COPY_S_W_DESC : MSA_COPY_DESC_BASE<"copy_s.w", vextract_sext_i32, v4i32,
GPR32Opnd, MSA128WOpnd>;
class COPY_S_D_DESC : MSA_COPY_DESC_BASE<"copy_s.d", vextract_sext_i64, v2i64,
GPR64Opnd, MSA128DOpnd>;
class COPY_U_B_DESC : MSA_COPY_DESC_BASE<"copy_u.b", vextract_zext_i8, v16i8,
GPR32Opnd, MSA128BOpnd>;
class COPY_U_H_DESC : MSA_COPY_DESC_BASE<"copy_u.h", vextract_zext_i16, v8i16,
GPR32Opnd, MSA128HOpnd>;
class COPY_U_W_DESC : MSA_COPY_DESC_BASE<"copy_u.w", vextract_zext_i32, v4i32,
GPR32Opnd, MSA128WOpnd>;
class COPY_U_D_DESC : MSA_COPY_DESC_BASE<"copy_u.d", vextract_zext_i64, v2i64,
GPR64Opnd, MSA128DOpnd>;
class COPY_FW_PSEUDO_DESC : MSA_COPY_PSEUDO_BASE<vector_extract, v4f32, FGR32,
MSA128W>;
class COPY_FD_PSEUDO_DESC : MSA_COPY_PSEUDO_BASE<vector_extract, v2f64, FGR64,
MSA128D>;
class CTCMSA_DESC {
dag OutOperandList = (outs);
dag InOperandList = (ins MSA128CROpnd:$cd, GPR32Opnd:$rs);
string AsmString = "ctcmsa\t$cd, $rs";
InstrItinClass Itinerary = NoItinerary;
bit hasSideEffects = 1;
}
class DIV_S_B_DESC : MSA_3R_DESC_BASE<"div_s.b", sdiv, MSA128BOpnd>;
class DIV_S_H_DESC : MSA_3R_DESC_BASE<"div_s.h", sdiv, MSA128HOpnd>;
class DIV_S_W_DESC : MSA_3R_DESC_BASE<"div_s.w", sdiv, MSA128WOpnd>;
class DIV_S_D_DESC : MSA_3R_DESC_BASE<"div_s.d", sdiv, MSA128DOpnd>;
class DIV_U_B_DESC : MSA_3R_DESC_BASE<"div_u.b", udiv, MSA128BOpnd>;
class DIV_U_H_DESC : MSA_3R_DESC_BASE<"div_u.h", udiv, MSA128HOpnd>;
class DIV_U_W_DESC : MSA_3R_DESC_BASE<"div_u.w", udiv, MSA128WOpnd>;
class DIV_U_D_DESC : MSA_3R_DESC_BASE<"div_u.d", udiv, MSA128DOpnd>;
class DOTP_S_H_DESC : MSA_3R_DESC_BASE<"dotp_s.h", int_mips_dotp_s_h,
MSA128HOpnd, MSA128BOpnd, MSA128BOpnd>,
IsCommutable;
class DOTP_S_W_DESC : MSA_3R_DESC_BASE<"dotp_s.w", int_mips_dotp_s_w,
MSA128WOpnd, MSA128HOpnd, MSA128HOpnd>,
IsCommutable;
class DOTP_S_D_DESC : MSA_3R_DESC_BASE<"dotp_s.d", int_mips_dotp_s_d,
MSA128DOpnd, MSA128WOpnd, MSA128WOpnd>,
IsCommutable;
class DOTP_U_H_DESC : MSA_3R_DESC_BASE<"dotp_u.h", int_mips_dotp_u_h,
MSA128HOpnd, MSA128BOpnd, MSA128BOpnd>,
IsCommutable;
class DOTP_U_W_DESC : MSA_3R_DESC_BASE<"dotp_u.w", int_mips_dotp_u_w,
MSA128WOpnd, MSA128HOpnd, MSA128HOpnd>,
IsCommutable;
class DOTP_U_D_DESC : MSA_3R_DESC_BASE<"dotp_u.d", int_mips_dotp_u_d,
MSA128DOpnd, MSA128WOpnd, MSA128WOpnd>,
IsCommutable;
class DPADD_S_H_DESC : MSA_3R_4R_DESC_BASE<"dpadd_s.h", int_mips_dpadd_s_h,
MSA128HOpnd, MSA128BOpnd,
MSA128BOpnd>, IsCommutable;
class DPADD_S_W_DESC : MSA_3R_4R_DESC_BASE<"dpadd_s.w", int_mips_dpadd_s_w,
MSA128WOpnd, MSA128HOpnd,
MSA128HOpnd>, IsCommutable;
class DPADD_S_D_DESC : MSA_3R_4R_DESC_BASE<"dpadd_s.d", int_mips_dpadd_s_d,
MSA128DOpnd, MSA128WOpnd,
MSA128WOpnd>, IsCommutable;
class DPADD_U_H_DESC : MSA_3R_4R_DESC_BASE<"dpadd_u.h", int_mips_dpadd_u_h,
MSA128HOpnd, MSA128BOpnd,
MSA128BOpnd>, IsCommutable;
class DPADD_U_W_DESC : MSA_3R_4R_DESC_BASE<"dpadd_u.w", int_mips_dpadd_u_w,
MSA128WOpnd, MSA128HOpnd,
MSA128HOpnd>, IsCommutable;
class DPADD_U_D_DESC : MSA_3R_4R_DESC_BASE<"dpadd_u.d", int_mips_dpadd_u_d,
MSA128DOpnd, MSA128WOpnd,
MSA128WOpnd>, IsCommutable;
class DPSUB_S_H_DESC : MSA_3R_4R_DESC_BASE<"dpsub_s.h", int_mips_dpsub_s_h,
MSA128HOpnd, MSA128BOpnd,
MSA128BOpnd>;
class DPSUB_S_W_DESC : MSA_3R_4R_DESC_BASE<"dpsub_s.w", int_mips_dpsub_s_w,
MSA128WOpnd, MSA128HOpnd,
MSA128HOpnd>;
class DPSUB_S_D_DESC : MSA_3R_4R_DESC_BASE<"dpsub_s.d", int_mips_dpsub_s_d,
MSA128DOpnd, MSA128WOpnd,
MSA128WOpnd>;
class DPSUB_U_H_DESC : MSA_3R_4R_DESC_BASE<"dpsub_u.h", int_mips_dpsub_u_h,
MSA128HOpnd, MSA128BOpnd,
MSA128BOpnd>;
class DPSUB_U_W_DESC : MSA_3R_4R_DESC_BASE<"dpsub_u.w", int_mips_dpsub_u_w,
MSA128WOpnd, MSA128HOpnd,
MSA128HOpnd>;
class DPSUB_U_D_DESC : MSA_3R_4R_DESC_BASE<"dpsub_u.d", int_mips_dpsub_u_d,
MSA128DOpnd, MSA128WOpnd,
MSA128WOpnd>;
class FADD_W_DESC : MSA_3RF_DESC_BASE<"fadd.w", fadd, MSA128WOpnd>,
IsCommutable;
class FADD_D_DESC : MSA_3RF_DESC_BASE<"fadd.d", fadd, MSA128DOpnd>,
IsCommutable;
class FCAF_W_DESC : MSA_3RF_DESC_BASE<"fcaf.w", int_mips_fcaf_w, MSA128WOpnd>,
IsCommutable;
class FCAF_D_DESC : MSA_3RF_DESC_BASE<"fcaf.d", int_mips_fcaf_d, MSA128DOpnd>,
IsCommutable;
class FCEQ_W_DESC : MSA_3RF_DESC_BASE<"fceq.w", vfsetoeq_v4f32, MSA128WOpnd>,
IsCommutable;
class FCEQ_D_DESC : MSA_3RF_DESC_BASE<"fceq.d", vfsetoeq_v2f64, MSA128DOpnd>,
IsCommutable;
class FCLASS_W_DESC : MSA_2RF_DESC_BASE<"fclass.w", int_mips_fclass_w,
MSA128WOpnd>;
class FCLASS_D_DESC : MSA_2RF_DESC_BASE<"fclass.d", int_mips_fclass_d,
MSA128DOpnd>;
class FCLE_W_DESC : MSA_3RF_DESC_BASE<"fcle.w", vfsetole_v4f32, MSA128WOpnd>;
class FCLE_D_DESC : MSA_3RF_DESC_BASE<"fcle.d", vfsetole_v2f64, MSA128DOpnd>;
class FCLT_W_DESC : MSA_3RF_DESC_BASE<"fclt.w", vfsetolt_v4f32, MSA128WOpnd>;
class FCLT_D_DESC : MSA_3RF_DESC_BASE<"fclt.d", vfsetolt_v2f64, MSA128DOpnd>;
class FCNE_W_DESC : MSA_3RF_DESC_BASE<"fcne.w", vfsetone_v4f32, MSA128WOpnd>,
IsCommutable;
class FCNE_D_DESC : MSA_3RF_DESC_BASE<"fcne.d", vfsetone_v2f64, MSA128DOpnd>,
IsCommutable;
class FCOR_W_DESC : MSA_3RF_DESC_BASE<"fcor.w", vfsetord_v4f32, MSA128WOpnd>,
IsCommutable;
class FCOR_D_DESC : MSA_3RF_DESC_BASE<"fcor.d", vfsetord_v2f64, MSA128DOpnd>,
IsCommutable;
class FCUEQ_W_DESC : MSA_3RF_DESC_BASE<"fcueq.w", vfsetueq_v4f32, MSA128WOpnd>,
IsCommutable;
class FCUEQ_D_DESC : MSA_3RF_DESC_BASE<"fcueq.d", vfsetueq_v2f64, MSA128DOpnd>,
IsCommutable;
class FCULE_W_DESC : MSA_3RF_DESC_BASE<"fcule.w", vfsetule_v4f32, MSA128WOpnd>,
IsCommutable;
class FCULE_D_DESC : MSA_3RF_DESC_BASE<"fcule.d", vfsetule_v2f64, MSA128DOpnd>,
IsCommutable;
class FCULT_W_DESC : MSA_3RF_DESC_BASE<"fcult.w", vfsetult_v4f32, MSA128WOpnd>,
IsCommutable;
class FCULT_D_DESC : MSA_3RF_DESC_BASE<"fcult.d", vfsetult_v2f64, MSA128DOpnd>,
IsCommutable;
class FCUN_W_DESC : MSA_3RF_DESC_BASE<"fcun.w", vfsetun_v4f32, MSA128WOpnd>,
IsCommutable;
class FCUN_D_DESC : MSA_3RF_DESC_BASE<"fcun.d", vfsetun_v2f64, MSA128DOpnd>,
IsCommutable;
class FCUNE_W_DESC : MSA_3RF_DESC_BASE<"fcune.w", vfsetune_v4f32, MSA128WOpnd>,
IsCommutable;
class FCUNE_D_DESC : MSA_3RF_DESC_BASE<"fcune.d", vfsetune_v2f64, MSA128DOpnd>,
IsCommutable;
class FDIV_W_DESC : MSA_3RF_DESC_BASE<"fdiv.w", fdiv, MSA128WOpnd>;
class FDIV_D_DESC : MSA_3RF_DESC_BASE<"fdiv.d", fdiv, MSA128DOpnd>;
class FEXDO_H_DESC : MSA_3RF_DESC_BASE<"fexdo.h", int_mips_fexdo_h,
MSA128HOpnd, MSA128WOpnd, MSA128WOpnd>;
class FEXDO_W_DESC : MSA_3RF_DESC_BASE<"fexdo.w", int_mips_fexdo_w,
MSA128WOpnd, MSA128DOpnd, MSA128DOpnd>;
// The fexp2.df instruction multiplies the first operand by 2 to the power of
// the second operand. We therefore need a pseudo-insn in order to invent the
// 1.0 when we only need to match ISD::FEXP2.
class FEXP2_W_DESC : MSA_3RF_DESC_BASE<"fexp2.w", mul_fexp2, MSA128WOpnd>;
class FEXP2_D_DESC : MSA_3RF_DESC_BASE<"fexp2.d", mul_fexp2, MSA128DOpnd>;
let usesCustomInserter = 1 in {
class FEXP2_W_1_PSEUDO_DESC :
MSAPseudo<(outs MSA128W:$wd), (ins MSA128W:$ws),
[(set MSA128W:$wd, (fexp2 MSA128W:$ws))]>;
class FEXP2_D_1_PSEUDO_DESC :
MSAPseudo<(outs MSA128D:$wd), (ins MSA128D:$ws),
[(set MSA128D:$wd, (fexp2 MSA128D:$ws))]>;
}
class FEXUPL_W_DESC : MSA_2RF_DESC_BASE<"fexupl.w", int_mips_fexupl_w,
MSA128WOpnd, MSA128HOpnd>;
class FEXUPL_D_DESC : MSA_2RF_DESC_BASE<"fexupl.d", int_mips_fexupl_d,
MSA128DOpnd, MSA128WOpnd>;
class FEXUPR_W_DESC : MSA_2RF_DESC_BASE<"fexupr.w", int_mips_fexupr_w,
MSA128WOpnd, MSA128HOpnd>;
class FEXUPR_D_DESC : MSA_2RF_DESC_BASE<"fexupr.d", int_mips_fexupr_d,
MSA128DOpnd, MSA128WOpnd>;
class FFINT_S_W_DESC : MSA_2RF_DESC_BASE<"ffint_s.w", sint_to_fp, MSA128WOpnd>;
class FFINT_S_D_DESC : MSA_2RF_DESC_BASE<"ffint_s.d", sint_to_fp, MSA128DOpnd>;
class FFINT_U_W_DESC : MSA_2RF_DESC_BASE<"ffint_u.w", uint_to_fp, MSA128WOpnd>;
class FFINT_U_D_DESC : MSA_2RF_DESC_BASE<"ffint_u.d", uint_to_fp, MSA128DOpnd>;
class FFQL_W_DESC : MSA_2RF_DESC_BASE<"ffql.w", int_mips_ffql_w,
MSA128WOpnd, MSA128HOpnd>;
class FFQL_D_DESC : MSA_2RF_DESC_BASE<"ffql.d", int_mips_ffql_d,
MSA128DOpnd, MSA128WOpnd>;
class FFQR_W_DESC : MSA_2RF_DESC_BASE<"ffqr.w", int_mips_ffqr_w,
MSA128WOpnd, MSA128HOpnd>;
class FFQR_D_DESC : MSA_2RF_DESC_BASE<"ffqr.d", int_mips_ffqr_d,
MSA128DOpnd, MSA128WOpnd>;
class FILL_B_DESC : MSA_2R_FILL_DESC_BASE<"fill.b", v16i8, vsplati8,
MSA128BOpnd, GPR32Opnd>;
class FILL_H_DESC : MSA_2R_FILL_DESC_BASE<"fill.h", v8i16, vsplati16,
MSA128HOpnd, GPR32Opnd>;
class FILL_W_DESC : MSA_2R_FILL_DESC_BASE<"fill.w", v4i32, vsplati32,
MSA128WOpnd, GPR32Opnd>;
class FILL_D_DESC : MSA_2R_FILL_DESC_BASE<"fill.d", v2i64, vsplati64,
MSA128DOpnd, GPR64Opnd>;
class FILL_FW_PSEUDO_DESC : MSA_2R_FILL_PSEUDO_BASE<v4f32, vsplatf32, MSA128W,
FGR32>;
class FILL_FD_PSEUDO_DESC : MSA_2R_FILL_PSEUDO_BASE<v2f64, vsplatf64, MSA128D,
FGR64>;
class FLOG2_W_DESC : MSA_2RF_DESC_BASE<"flog2.w", flog2, MSA128WOpnd>;
class FLOG2_D_DESC : MSA_2RF_DESC_BASE<"flog2.d", flog2, MSA128DOpnd>;
class FMADD_W_DESC : MSA_3RF_4RF_DESC_BASE<"fmadd.w", fma, MSA128WOpnd>;
class FMADD_D_DESC : MSA_3RF_4RF_DESC_BASE<"fmadd.d", fma, MSA128DOpnd>;
class FMAX_W_DESC : MSA_3RF_DESC_BASE<"fmax.w", int_mips_fmax_w, MSA128WOpnd>;
class FMAX_D_DESC : MSA_3RF_DESC_BASE<"fmax.d", int_mips_fmax_d, MSA128DOpnd>;
class FMAX_A_W_DESC : MSA_3RF_DESC_BASE<"fmax_a.w", int_mips_fmax_a_w,
MSA128WOpnd>;
class FMAX_A_D_DESC : MSA_3RF_DESC_BASE<"fmax_a.d", int_mips_fmax_a_d,
MSA128DOpnd>;
class FMIN_W_DESC : MSA_3RF_DESC_BASE<"fmin.w", int_mips_fmin_w, MSA128WOpnd>;
class FMIN_D_DESC : MSA_3RF_DESC_BASE<"fmin.d", int_mips_fmin_d, MSA128DOpnd>;
class FMIN_A_W_DESC : MSA_3RF_DESC_BASE<"fmin_a.w", int_mips_fmin_a_w,
MSA128WOpnd>;
class FMIN_A_D_DESC : MSA_3RF_DESC_BASE<"fmin_a.d", int_mips_fmin_a_d,
MSA128DOpnd>;
class FMSUB_W_DESC : MSA_3RF_4RF_DESC_BASE<"fmsub.w", fms, MSA128WOpnd>;
class FMSUB_D_DESC : MSA_3RF_4RF_DESC_BASE<"fmsub.d", fms, MSA128DOpnd>;
class FMUL_W_DESC : MSA_3RF_DESC_BASE<"fmul.w", fmul, MSA128WOpnd>;
class FMUL_D_DESC : MSA_3RF_DESC_BASE<"fmul.d", fmul, MSA128DOpnd>;
class FRINT_W_DESC : MSA_2RF_DESC_BASE<"frint.w", frint, MSA128WOpnd>;
class FRINT_D_DESC : MSA_2RF_DESC_BASE<"frint.d", frint, MSA128DOpnd>;
class FRCP_W_DESC : MSA_2RF_DESC_BASE<"frcp.w", int_mips_frcp_w, MSA128WOpnd>;
class FRCP_D_DESC : MSA_2RF_DESC_BASE<"frcp.d", int_mips_frcp_d, MSA128DOpnd>;
class FRSQRT_W_DESC : MSA_2RF_DESC_BASE<"frsqrt.w", int_mips_frsqrt_w,
MSA128WOpnd>;
class FRSQRT_D_DESC : MSA_2RF_DESC_BASE<"frsqrt.d", int_mips_frsqrt_d,
MSA128DOpnd>;
class FSAF_W_DESC : MSA_3RF_DESC_BASE<"fsaf.w", int_mips_fsaf_w, MSA128WOpnd>;
class FSAF_D_DESC : MSA_3RF_DESC_BASE<"fsaf.d", int_mips_fsaf_d, MSA128DOpnd>;
class FSEQ_W_DESC : MSA_3RF_DESC_BASE<"fseq.w", int_mips_fseq_w, MSA128WOpnd>;
class FSEQ_D_DESC : MSA_3RF_DESC_BASE<"fseq.d", int_mips_fseq_d, MSA128DOpnd>;
class FSLE_W_DESC : MSA_3RF_DESC_BASE<"fsle.w", int_mips_fsle_w, MSA128WOpnd>;
class FSLE_D_DESC : MSA_3RF_DESC_BASE<"fsle.d", int_mips_fsle_d, MSA128DOpnd>;
class FSLT_W_DESC : MSA_3RF_DESC_BASE<"fslt.w", int_mips_fslt_w, MSA128WOpnd>;
class FSLT_D_DESC : MSA_3RF_DESC_BASE<"fslt.d", int_mips_fslt_d, MSA128DOpnd>;
class FSNE_W_DESC : MSA_3RF_DESC_BASE<"fsne.w", int_mips_fsne_w, MSA128WOpnd>;
class FSNE_D_DESC : MSA_3RF_DESC_BASE<"fsne.d", int_mips_fsne_d, MSA128DOpnd>;
class FSOR_W_DESC : MSA_3RF_DESC_BASE<"fsor.w", int_mips_fsor_w, MSA128WOpnd>;
class FSOR_D_DESC : MSA_3RF_DESC_BASE<"fsor.d", int_mips_fsor_d, MSA128DOpnd>;
class FSQRT_W_DESC : MSA_2RF_DESC_BASE<"fsqrt.w", fsqrt, MSA128WOpnd>;
class FSQRT_D_DESC : MSA_2RF_DESC_BASE<"fsqrt.d", fsqrt, MSA128DOpnd>;
class FSUB_W_DESC : MSA_3RF_DESC_BASE<"fsub.w", fsub, MSA128WOpnd>;
class FSUB_D_DESC : MSA_3RF_DESC_BASE<"fsub.d", fsub, MSA128DOpnd>;
class FSUEQ_W_DESC : MSA_3RF_DESC_BASE<"fsueq.w", int_mips_fsueq_w,
MSA128WOpnd>;
class FSUEQ_D_DESC : MSA_3RF_DESC_BASE<"fsueq.d", int_mips_fsueq_d,
MSA128DOpnd>;
class FSULE_W_DESC : MSA_3RF_DESC_BASE<"fsule.w", int_mips_fsule_w,
MSA128WOpnd>;
class FSULE_D_DESC : MSA_3RF_DESC_BASE<"fsule.d", int_mips_fsule_d,
MSA128DOpnd>;
class FSULT_W_DESC : MSA_3RF_DESC_BASE<"fsult.w", int_mips_fsult_w,
MSA128WOpnd>;
class FSULT_D_DESC : MSA_3RF_DESC_BASE<"fsult.d", int_mips_fsult_d,
MSA128DOpnd>;
class FSUN_W_DESC : MSA_3RF_DESC_BASE<"fsun.w", int_mips_fsun_w,
MSA128WOpnd>;
class FSUN_D_DESC : MSA_3RF_DESC_BASE<"fsun.d", int_mips_fsun_d,
MSA128DOpnd>;
class FSUNE_W_DESC : MSA_3RF_DESC_BASE<"fsune.w", int_mips_fsune_w,
MSA128WOpnd>;
class FSUNE_D_DESC : MSA_3RF_DESC_BASE<"fsune.d", int_mips_fsune_d,
MSA128DOpnd>;
class FTINT_S_W_DESC : MSA_2RF_DESC_BASE<"ftint_s.w", int_mips_ftint_s_w,
MSA128WOpnd>;
class FTINT_S_D_DESC : MSA_2RF_DESC_BASE<"ftint_s.d", int_mips_ftint_s_d,
MSA128DOpnd>;
class FTINT_U_W_DESC : MSA_2RF_DESC_BASE<"ftint_u.w", int_mips_ftint_u_w,
MSA128WOpnd>;
class FTINT_U_D_DESC : MSA_2RF_DESC_BASE<"ftint_u.d", int_mips_ftint_u_d,
MSA128DOpnd>;
class FTQ_H_DESC : MSA_3RF_DESC_BASE<"ftq.h", int_mips_ftq_h,
MSA128HOpnd, MSA128WOpnd, MSA128WOpnd>;
class FTQ_W_DESC : MSA_3RF_DESC_BASE<"ftq.w", int_mips_ftq_w,
MSA128WOpnd, MSA128DOpnd, MSA128DOpnd>;
class FTRUNC_S_W_DESC : MSA_2RF_DESC_BASE<"ftrunc_s.w", fp_to_sint,
MSA128WOpnd>;
class FTRUNC_S_D_DESC : MSA_2RF_DESC_BASE<"ftrunc_s.d", fp_to_sint,
MSA128DOpnd>;
class FTRUNC_U_W_DESC : MSA_2RF_DESC_BASE<"ftrunc_u.w", fp_to_uint,
MSA128WOpnd>;
class FTRUNC_U_D_DESC : MSA_2RF_DESC_BASE<"ftrunc_u.d", fp_to_uint,
MSA128DOpnd>;
class HADD_S_H_DESC : MSA_3R_DESC_BASE<"hadd_s.h", int_mips_hadd_s_h,
MSA128HOpnd, MSA128BOpnd, MSA128BOpnd>;
class HADD_S_W_DESC : MSA_3R_DESC_BASE<"hadd_s.w", int_mips_hadd_s_w,
MSA128WOpnd, MSA128HOpnd, MSA128HOpnd>;
class HADD_S_D_DESC : MSA_3R_DESC_BASE<"hadd_s.d", int_mips_hadd_s_d,
MSA128DOpnd, MSA128WOpnd, MSA128WOpnd>;
class HADD_U_H_DESC : MSA_3R_DESC_BASE<"hadd_u.h", int_mips_hadd_u_h,
MSA128HOpnd, MSA128BOpnd, MSA128BOpnd>;
class HADD_U_W_DESC : MSA_3R_DESC_BASE<"hadd_u.w", int_mips_hadd_u_w,
MSA128WOpnd, MSA128HOpnd, MSA128HOpnd>;
class HADD_U_D_DESC : MSA_3R_DESC_BASE<"hadd_u.d", int_mips_hadd_u_d,
MSA128DOpnd, MSA128WOpnd, MSA128WOpnd>;
class HSUB_S_H_DESC : MSA_3R_DESC_BASE<"hsub_s.h", int_mips_hsub_s_h,
MSA128HOpnd, MSA128BOpnd, MSA128BOpnd>;
class HSUB_S_W_DESC : MSA_3R_DESC_BASE<"hsub_s.w", int_mips_hsub_s_w,
MSA128WOpnd, MSA128HOpnd, MSA128HOpnd>;
class HSUB_S_D_DESC : MSA_3R_DESC_BASE<"hsub_s.d", int_mips_hsub_s_d,
MSA128DOpnd, MSA128WOpnd, MSA128WOpnd>;
class HSUB_U_H_DESC : MSA_3R_DESC_BASE<"hsub_u.h", int_mips_hsub_u_h,
MSA128HOpnd, MSA128BOpnd, MSA128BOpnd>;
class HSUB_U_W_DESC : MSA_3R_DESC_BASE<"hsub_u.w", int_mips_hsub_u_w,
MSA128WOpnd, MSA128HOpnd, MSA128HOpnd>;
class HSUB_U_D_DESC : MSA_3R_DESC_BASE<"hsub_u.d", int_mips_hsub_u_d,
MSA128DOpnd, MSA128WOpnd, MSA128WOpnd>;
class ILVEV_B_DESC : MSA_3R_DESC_BASE<"ilvev.b", MipsILVEV, MSA128BOpnd>;
class ILVEV_H_DESC : MSA_3R_DESC_BASE<"ilvev.h", MipsILVEV, MSA128HOpnd>;
class ILVEV_W_DESC : MSA_3R_DESC_BASE<"ilvev.w", MipsILVEV, MSA128WOpnd>;
class ILVEV_D_DESC : MSA_3R_DESC_BASE<"ilvev.d", MipsILVEV, MSA128DOpnd>;
class ILVL_B_DESC : MSA_3R_DESC_BASE<"ilvl.b", MipsILVL, MSA128BOpnd>;
class ILVL_H_DESC : MSA_3R_DESC_BASE<"ilvl.h", MipsILVL, MSA128HOpnd>;
class ILVL_W_DESC : MSA_3R_DESC_BASE<"ilvl.w", MipsILVL, MSA128WOpnd>;
class ILVL_D_DESC : MSA_3R_DESC_BASE<"ilvl.d", MipsILVL, MSA128DOpnd>;
class ILVOD_B_DESC : MSA_3R_DESC_BASE<"ilvod.b", MipsILVOD, MSA128BOpnd>;
class ILVOD_H_DESC : MSA_3R_DESC_BASE<"ilvod.h", MipsILVOD, MSA128HOpnd>;
class ILVOD_W_DESC : MSA_3R_DESC_BASE<"ilvod.w", MipsILVOD, MSA128WOpnd>;
class ILVOD_D_DESC : MSA_3R_DESC_BASE<"ilvod.d", MipsILVOD, MSA128DOpnd>;
class ILVR_B_DESC : MSA_3R_DESC_BASE<"ilvr.b", MipsILVR, MSA128BOpnd>;
class ILVR_H_DESC : MSA_3R_DESC_BASE<"ilvr.h", MipsILVR, MSA128HOpnd>;
class ILVR_W_DESC : MSA_3R_DESC_BASE<"ilvr.w", MipsILVR, MSA128WOpnd>;
class ILVR_D_DESC : MSA_3R_DESC_BASE<"ilvr.d", MipsILVR, MSA128DOpnd>;
class INSERT_B_DESC : MSA_INSERT_DESC_BASE<"insert.b", vinsert_v16i8,
MSA128BOpnd, GPR32Opnd>;
class INSERT_H_DESC : MSA_INSERT_DESC_BASE<"insert.h", vinsert_v8i16,
MSA128HOpnd, GPR32Opnd>;
class INSERT_W_DESC : MSA_INSERT_DESC_BASE<"insert.w", vinsert_v4i32,
MSA128WOpnd, GPR32Opnd>;
class INSERT_D_DESC : MSA_INSERT_DESC_BASE<"insert.d", vinsert_v2i64,
MSA128DOpnd, GPR64Opnd>;
class INSERT_B_VIDX_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v16i8, MSA128BOpnd, GPR32Opnd, GPR32Opnd>;
class INSERT_H_VIDX_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v8i16, MSA128HOpnd, GPR32Opnd, GPR32Opnd>;
class INSERT_W_VIDX_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v4i32, MSA128WOpnd, GPR32Opnd, GPR32Opnd>;
class INSERT_D_VIDX_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v2i64, MSA128DOpnd, GPR64Opnd, GPR32Opnd>;
class INSERT_FW_PSEUDO_DESC : MSA_INSERT_PSEUDO_BASE<vector_insert, v4f32,
MSA128WOpnd, FGR32Opnd>;
class INSERT_FD_PSEUDO_DESC : MSA_INSERT_PSEUDO_BASE<vector_insert, v2f64,
MSA128DOpnd, FGR64Opnd>;
class INSERT_FW_VIDX_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v4f32, MSA128WOpnd, FGR32Opnd, GPR32Opnd>;
class INSERT_FD_VIDX_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v2f64, MSA128DOpnd, FGR64Opnd, GPR32Opnd>;
class INSERT_B_VIDX64_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v16i8, MSA128BOpnd, GPR32Opnd, GPR64Opnd>;
class INSERT_H_VIDX64_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v8i16, MSA128HOpnd, GPR32Opnd, GPR64Opnd>;
class INSERT_W_VIDX64_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v4i32, MSA128WOpnd, GPR32Opnd, GPR64Opnd>;
class INSERT_D_VIDX64_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v2i64, MSA128DOpnd, GPR64Opnd, GPR64Opnd>;
class INSERT_FW_VIDX64_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v4f32, MSA128WOpnd, FGR32Opnd, GPR64Opnd>;
class INSERT_FD_VIDX64_PSEUDO_DESC :
MSA_INSERT_VIDX_PSEUDO_BASE<vector_insert, v2f64, MSA128DOpnd, FGR64Opnd, GPR64Opnd>;
class INSVE_B_DESC : MSA_INSVE_DESC_BASE<"insve.b", insve_v16i8,
MSA128BOpnd>;
class INSVE_H_DESC : MSA_INSVE_DESC_BASE<"insve.h", insve_v8i16,
MSA128HOpnd>;
class INSVE_W_DESC : MSA_INSVE_DESC_BASE<"insve.w", insve_v4i32,
MSA128WOpnd>;
class INSVE_D_DESC : MSA_INSVE_DESC_BASE<"insve.d", insve_v2i64,
MSA128DOpnd>;
class LD_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ValueType TyNode, RegisterOperand ROWD,
Operand MemOpnd = mem_msa, ComplexPattern Addr = addrimm10,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs ROWD:$wd);
dag InOperandList = (ins MemOpnd:$addr);
string AsmString = !strconcat(instr_asm, "\t$wd, $addr");
list<dag> Pattern = [(set ROWD:$wd, (TyNode (OpNode Addr:$addr)))];
InstrItinClass Itinerary = itin;
string DecoderMethod = "DecodeMSA128Mem";
}
class LD_B_DESC : LD_DESC_BASE<"ld.b", load, v16i8, MSA128BOpnd>;
class LD_H_DESC : LD_DESC_BASE<"ld.h", load, v8i16, MSA128HOpnd>;
class LD_W_DESC : LD_DESC_BASE<"ld.w", load, v4i32, MSA128WOpnd>;
class LD_D_DESC : LD_DESC_BASE<"ld.d", load, v2i64, MSA128DOpnd>;
class LDI_B_DESC : MSA_I10_LDI_DESC_BASE<"ldi.b", MSA128BOpnd>;
class LDI_H_DESC : MSA_I10_LDI_DESC_BASE<"ldi.h", MSA128HOpnd>;
class LDI_W_DESC : MSA_I10_LDI_DESC_BASE<"ldi.w", MSA128WOpnd>;
class LDI_D_DESC : MSA_I10_LDI_DESC_BASE<"ldi.d", MSA128DOpnd>;
class LSA_DESC_BASE<string instr_asm, RegisterOperand RORD,
RegisterOperand RORS = RORD, RegisterOperand RORT = RORD,
InstrItinClass itin = NoItinerary > {
dag OutOperandList = (outs RORD:$rd);
dag InOperandList = (ins RORS:$rs, RORT:$rt, LSAImm:$sa);
string AsmString = !strconcat(instr_asm, "\t$rd, $rs, $rt, $sa");
list<dag> Pattern = [(set RORD:$rd, (add RORT:$rt,
(shl RORS:$rs,
immZExt2Lsa:$sa)))];
InstrItinClass Itinerary = itin;
}
class LSA_DESC : LSA_DESC_BASE<"lsa", GPR32Opnd>;
class DLSA_DESC : LSA_DESC_BASE<"dlsa", GPR64Opnd>;
class MADD_Q_H_DESC : MSA_3RF_4RF_DESC_BASE<"madd_q.h", int_mips_madd_q_h,
MSA128HOpnd>;
class MADD_Q_W_DESC : MSA_3RF_4RF_DESC_BASE<"madd_q.w", int_mips_madd_q_w,
MSA128WOpnd>;
class MADDR_Q_H_DESC : MSA_3RF_4RF_DESC_BASE<"maddr_q.h", int_mips_maddr_q_h,
MSA128HOpnd>;
class MADDR_Q_W_DESC : MSA_3RF_4RF_DESC_BASE<"maddr_q.w", int_mips_maddr_q_w,
MSA128WOpnd>;
class MADDV_B_DESC : MSA_3R_4R_DESC_BASE<"maddv.b", muladd, MSA128BOpnd>;
class MADDV_H_DESC : MSA_3R_4R_DESC_BASE<"maddv.h", muladd, MSA128HOpnd>;
class MADDV_W_DESC : MSA_3R_4R_DESC_BASE<"maddv.w", muladd, MSA128WOpnd>;
class MADDV_D_DESC : MSA_3R_4R_DESC_BASE<"maddv.d", muladd, MSA128DOpnd>;
class MAX_A_B_DESC : MSA_3R_DESC_BASE<"max_a.b", int_mips_max_a_b, MSA128BOpnd>;
class MAX_A_H_DESC : MSA_3R_DESC_BASE<"max_a.h", int_mips_max_a_h, MSA128HOpnd>;
class MAX_A_W_DESC : MSA_3R_DESC_BASE<"max_a.w", int_mips_max_a_w, MSA128WOpnd>;
class MAX_A_D_DESC : MSA_3R_DESC_BASE<"max_a.d", int_mips_max_a_d, MSA128DOpnd>;
class MAX_S_B_DESC : MSA_3R_DESC_BASE<"max_s.b", MipsVSMax, MSA128BOpnd>;
class MAX_S_H_DESC : MSA_3R_DESC_BASE<"max_s.h", MipsVSMax, MSA128HOpnd>;
class MAX_S_W_DESC : MSA_3R_DESC_BASE<"max_s.w", MipsVSMax, MSA128WOpnd>;
class MAX_S_D_DESC : MSA_3R_DESC_BASE<"max_s.d", MipsVSMax, MSA128DOpnd>;
class MAX_U_B_DESC : MSA_3R_DESC_BASE<"max_u.b", MipsVUMax, MSA128BOpnd>;
class MAX_U_H_DESC : MSA_3R_DESC_BASE<"max_u.h", MipsVUMax, MSA128HOpnd>;
class MAX_U_W_DESC : MSA_3R_DESC_BASE<"max_u.w", MipsVUMax, MSA128WOpnd>;
class MAX_U_D_DESC : MSA_3R_DESC_BASE<"max_u.d", MipsVUMax, MSA128DOpnd>;
class MAXI_S_B_DESC : MSA_I5_DESC_BASE<"maxi_s.b", MipsVSMax, vsplati8_simm5,
MSA128BOpnd>;
class MAXI_S_H_DESC : MSA_I5_DESC_BASE<"maxi_s.h", MipsVSMax, vsplati16_simm5,
MSA128HOpnd>;
class MAXI_S_W_DESC : MSA_I5_DESC_BASE<"maxi_s.w", MipsVSMax, vsplati32_simm5,
MSA128WOpnd>;
class MAXI_S_D_DESC : MSA_I5_DESC_BASE<"maxi_s.d", MipsVSMax, vsplati64_simm5,
MSA128DOpnd>;
class MAXI_U_B_DESC : MSA_I5_DESC_BASE<"maxi_u.b", MipsVUMax, vsplati8_uimm5,
MSA128BOpnd>;
class MAXI_U_H_DESC : MSA_I5_DESC_BASE<"maxi_u.h", MipsVUMax, vsplati16_uimm5,
MSA128HOpnd>;
class MAXI_U_W_DESC : MSA_I5_DESC_BASE<"maxi_u.w", MipsVUMax, vsplati32_uimm5,
MSA128WOpnd>;
class MAXI_U_D_DESC : MSA_I5_DESC_BASE<"maxi_u.d", MipsVUMax, vsplati64_uimm5,
MSA128DOpnd>;
class MIN_A_B_DESC : MSA_3R_DESC_BASE<"min_a.b", int_mips_min_a_b, MSA128BOpnd>;
class MIN_A_H_DESC : MSA_3R_DESC_BASE<"min_a.h", int_mips_min_a_h, MSA128HOpnd>;
class MIN_A_W_DESC : MSA_3R_DESC_BASE<"min_a.w", int_mips_min_a_w, MSA128WOpnd>;
class MIN_A_D_DESC : MSA_3R_DESC_BASE<"min_a.d", int_mips_min_a_d, MSA128DOpnd>;
class MIN_S_B_DESC : MSA_3R_DESC_BASE<"min_s.b", MipsVSMin, MSA128BOpnd>;
class MIN_S_H_DESC : MSA_3R_DESC_BASE<"min_s.h", MipsVSMin, MSA128HOpnd>;
class MIN_S_W_DESC : MSA_3R_DESC_BASE<"min_s.w", MipsVSMin, MSA128WOpnd>;
class MIN_S_D_DESC : MSA_3R_DESC_BASE<"min_s.d", MipsVSMin, MSA128DOpnd>;
class MIN_U_B_DESC : MSA_3R_DESC_BASE<"min_u.b", MipsVUMin, MSA128BOpnd>;
class MIN_U_H_DESC : MSA_3R_DESC_BASE<"min_u.h", MipsVUMin, MSA128HOpnd>;
class MIN_U_W_DESC : MSA_3R_DESC_BASE<"min_u.w", MipsVUMin, MSA128WOpnd>;
class MIN_U_D_DESC : MSA_3R_DESC_BASE<"min_u.d", MipsVUMin, MSA128DOpnd>;
class MINI_S_B_DESC : MSA_I5_DESC_BASE<"mini_s.b", MipsVSMin, vsplati8_simm5,
MSA128BOpnd>;
class MINI_S_H_DESC : MSA_I5_DESC_BASE<"mini_s.h", MipsVSMin, vsplati16_simm5,
MSA128HOpnd>;
class MINI_S_W_DESC : MSA_I5_DESC_BASE<"mini_s.w", MipsVSMin, vsplati32_simm5,
MSA128WOpnd>;
class MINI_S_D_DESC : MSA_I5_DESC_BASE<"mini_s.d", MipsVSMin, vsplati64_simm5,
MSA128DOpnd>;
class MINI_U_B_DESC : MSA_I5_DESC_BASE<"mini_u.b", MipsVUMin, vsplati8_uimm5,
MSA128BOpnd>;
class MINI_U_H_DESC : MSA_I5_DESC_BASE<"mini_u.h", MipsVUMin, vsplati16_uimm5,
MSA128HOpnd>;
class MINI_U_W_DESC : MSA_I5_DESC_BASE<"mini_u.w", MipsVUMin, vsplati32_uimm5,
MSA128WOpnd>;
class MINI_U_D_DESC : MSA_I5_DESC_BASE<"mini_u.d", MipsVUMin, vsplati64_uimm5,
MSA128DOpnd>;
class MOD_S_B_DESC : MSA_3R_DESC_BASE<"mod_s.b", srem, MSA128BOpnd>;
class MOD_S_H_DESC : MSA_3R_DESC_BASE<"mod_s.h", srem, MSA128HOpnd>;
class MOD_S_W_DESC : MSA_3R_DESC_BASE<"mod_s.w", srem, MSA128WOpnd>;
class MOD_S_D_DESC : MSA_3R_DESC_BASE<"mod_s.d", srem, MSA128DOpnd>;
class MOD_U_B_DESC : MSA_3R_DESC_BASE<"mod_u.b", urem, MSA128BOpnd>;
class MOD_U_H_DESC : MSA_3R_DESC_BASE<"mod_u.h", urem, MSA128HOpnd>;
class MOD_U_W_DESC : MSA_3R_DESC_BASE<"mod_u.w", urem, MSA128WOpnd>;
class MOD_U_D_DESC : MSA_3R_DESC_BASE<"mod_u.d", urem, MSA128DOpnd>;
class MOVE_V_DESC {
dag OutOperandList = (outs MSA128BOpnd:$wd);
dag InOperandList = (ins MSA128BOpnd:$ws);
string AsmString = "move.v\t$wd, $ws";
list<dag> Pattern = [];
InstrItinClass Itinerary = NoItinerary;
}
class MSUB_Q_H_DESC : MSA_3RF_4RF_DESC_BASE<"msub_q.h", int_mips_msub_q_h,
MSA128HOpnd>;
class MSUB_Q_W_DESC : MSA_3RF_4RF_DESC_BASE<"msub_q.w", int_mips_msub_q_w,
MSA128WOpnd>;
class MSUBR_Q_H_DESC : MSA_3RF_4RF_DESC_BASE<"msubr_q.h", int_mips_msubr_q_h,
MSA128HOpnd>;
class MSUBR_Q_W_DESC : MSA_3RF_4RF_DESC_BASE<"msubr_q.w", int_mips_msubr_q_w,
MSA128WOpnd>;
class MSUBV_B_DESC : MSA_3R_4R_DESC_BASE<"msubv.b", mulsub, MSA128BOpnd>;
class MSUBV_H_DESC : MSA_3R_4R_DESC_BASE<"msubv.h", mulsub, MSA128HOpnd>;
class MSUBV_W_DESC : MSA_3R_4R_DESC_BASE<"msubv.w", mulsub, MSA128WOpnd>;
class MSUBV_D_DESC : MSA_3R_4R_DESC_BASE<"msubv.d", mulsub, MSA128DOpnd>;
class MUL_Q_H_DESC : MSA_3RF_DESC_BASE<"mul_q.h", int_mips_mul_q_h,
MSA128HOpnd>;
class MUL_Q_W_DESC : MSA_3RF_DESC_BASE<"mul_q.w", int_mips_mul_q_w,
MSA128WOpnd>;
class MULR_Q_H_DESC : MSA_3RF_DESC_BASE<"mulr_q.h", int_mips_mulr_q_h,
MSA128HOpnd>;
class MULR_Q_W_DESC : MSA_3RF_DESC_BASE<"mulr_q.w", int_mips_mulr_q_w,
MSA128WOpnd>;
class MULV_B_DESC : MSA_3R_DESC_BASE<"mulv.b", mul, MSA128BOpnd>;
class MULV_H_DESC : MSA_3R_DESC_BASE<"mulv.h", mul, MSA128HOpnd>;
class MULV_W_DESC : MSA_3R_DESC_BASE<"mulv.w", mul, MSA128WOpnd>;
class MULV_D_DESC : MSA_3R_DESC_BASE<"mulv.d", mul, MSA128DOpnd>;
class NLOC_B_DESC : MSA_2R_DESC_BASE<"nloc.b", int_mips_nloc_b, MSA128BOpnd>;
class NLOC_H_DESC : MSA_2R_DESC_BASE<"nloc.h", int_mips_nloc_h, MSA128HOpnd>;
class NLOC_W_DESC : MSA_2R_DESC_BASE<"nloc.w", int_mips_nloc_w, MSA128WOpnd>;
class NLOC_D_DESC : MSA_2R_DESC_BASE<"nloc.d", int_mips_nloc_d, MSA128DOpnd>;
class NLZC_B_DESC : MSA_2R_DESC_BASE<"nlzc.b", ctlz, MSA128BOpnd>;
class NLZC_H_DESC : MSA_2R_DESC_BASE<"nlzc.h", ctlz, MSA128HOpnd>;
class NLZC_W_DESC : MSA_2R_DESC_BASE<"nlzc.w", ctlz, MSA128WOpnd>;
class NLZC_D_DESC : MSA_2R_DESC_BASE<"nlzc.d", ctlz, MSA128DOpnd>;
class NOR_V_DESC : MSA_VEC_DESC_BASE<"nor.v", MipsVNOR, MSA128BOpnd>;
class NOR_V_H_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<MipsVNOR, MSA128HOpnd>;
class NOR_V_W_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<MipsVNOR, MSA128WOpnd>;
class NOR_V_D_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<MipsVNOR, MSA128DOpnd>;
class NORI_B_DESC : MSA_I8_DESC_BASE<"nori.b", MipsVNOR, vsplati8_uimm8,
MSA128BOpnd>;
class OR_V_DESC : MSA_VEC_DESC_BASE<"or.v", or, MSA128BOpnd>;
class OR_V_H_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<or, MSA128HOpnd>;
class OR_V_W_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<or, MSA128WOpnd>;
class OR_V_D_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<or, MSA128DOpnd>;
class ORI_B_DESC : MSA_I8_DESC_BASE<"ori.b", or, vsplati8_uimm8, MSA128BOpnd>;
class PCKEV_B_DESC : MSA_3R_DESC_BASE<"pckev.b", MipsPCKEV, MSA128BOpnd>;
class PCKEV_H_DESC : MSA_3R_DESC_BASE<"pckev.h", MipsPCKEV, MSA128HOpnd>;
class PCKEV_W_DESC : MSA_3R_DESC_BASE<"pckev.w", MipsPCKEV, MSA128WOpnd>;
class PCKEV_D_DESC : MSA_3R_DESC_BASE<"pckev.d", MipsPCKEV, MSA128DOpnd>;
class PCKOD_B_DESC : MSA_3R_DESC_BASE<"pckod.b", MipsPCKOD, MSA128BOpnd>;
class PCKOD_H_DESC : MSA_3R_DESC_BASE<"pckod.h", MipsPCKOD, MSA128HOpnd>;
class PCKOD_W_DESC : MSA_3R_DESC_BASE<"pckod.w", MipsPCKOD, MSA128WOpnd>;
class PCKOD_D_DESC : MSA_3R_DESC_BASE<"pckod.d", MipsPCKOD, MSA128DOpnd>;
class PCNT_B_DESC : MSA_2R_DESC_BASE<"pcnt.b", ctpop, MSA128BOpnd>;
class PCNT_H_DESC : MSA_2R_DESC_BASE<"pcnt.h", ctpop, MSA128HOpnd>;
class PCNT_W_DESC : MSA_2R_DESC_BASE<"pcnt.w", ctpop, MSA128WOpnd>;
class PCNT_D_DESC : MSA_2R_DESC_BASE<"pcnt.d", ctpop, MSA128DOpnd>;
class SAT_S_B_DESC : MSA_BIT_B_X_DESC_BASE<"sat_s.b", int_mips_sat_s_b,
MSA128BOpnd>;
class SAT_S_H_DESC : MSA_BIT_H_X_DESC_BASE<"sat_s.h", int_mips_sat_s_h,
MSA128HOpnd>;
class SAT_S_W_DESC : MSA_BIT_W_X_DESC_BASE<"sat_s.w", int_mips_sat_s_w,
MSA128WOpnd>;
class SAT_S_D_DESC : MSA_BIT_D_X_DESC_BASE<"sat_s.d", int_mips_sat_s_d,
MSA128DOpnd>;
class SAT_U_B_DESC : MSA_BIT_B_X_DESC_BASE<"sat_u.b", int_mips_sat_u_b,
MSA128BOpnd>;
class SAT_U_H_DESC : MSA_BIT_H_X_DESC_BASE<"sat_u.h", int_mips_sat_u_h,
MSA128HOpnd>;
class SAT_U_W_DESC : MSA_BIT_W_X_DESC_BASE<"sat_u.w", int_mips_sat_u_w,
MSA128WOpnd>;
class SAT_U_D_DESC : MSA_BIT_D_X_DESC_BASE<"sat_u.d", int_mips_sat_u_d,
MSA128DOpnd>;
class SHF_B_DESC : MSA_I8_SHF_DESC_BASE<"shf.b", MSA128BOpnd>;
class SHF_H_DESC : MSA_I8_SHF_DESC_BASE<"shf.h", MSA128HOpnd>;
class SHF_W_DESC : MSA_I8_SHF_DESC_BASE<"shf.w", MSA128WOpnd>;
class SLD_B_DESC : MSA_3R_SLD_DESC_BASE<"sld.b", int_mips_sld_b, MSA128BOpnd>;
class SLD_H_DESC : MSA_3R_SLD_DESC_BASE<"sld.h", int_mips_sld_h, MSA128HOpnd>;
class SLD_W_DESC : MSA_3R_SLD_DESC_BASE<"sld.w", int_mips_sld_w, MSA128WOpnd>;
class SLD_D_DESC : MSA_3R_SLD_DESC_BASE<"sld.d", int_mips_sld_d, MSA128DOpnd>;
class SLDI_B_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.b", int_mips_sldi_b,
MSA128BOpnd>;
class SLDI_H_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.h", int_mips_sldi_h,
MSA128HOpnd>;
class SLDI_W_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.w", int_mips_sldi_w,
MSA128WOpnd>;
class SLDI_D_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.d", int_mips_sldi_d,
MSA128DOpnd>;
class SLL_B_DESC : MSA_3R_DESC_BASE<"sll.b", shl, MSA128BOpnd>;
class SLL_H_DESC : MSA_3R_DESC_BASE<"sll.h", shl, MSA128HOpnd>;
class SLL_W_DESC : MSA_3R_DESC_BASE<"sll.w", shl, MSA128WOpnd>;
class SLL_D_DESC : MSA_3R_DESC_BASE<"sll.d", shl, MSA128DOpnd>;
class SLLI_B_DESC : MSA_BIT_SPLAT_DESC_BASE<"slli.b", shl, vsplati8_uimm3,
MSA128BOpnd>;
class SLLI_H_DESC : MSA_BIT_SPLAT_DESC_BASE<"slli.h", shl, vsplati16_uimm4,
MSA128HOpnd>;
class SLLI_W_DESC : MSA_BIT_SPLAT_DESC_BASE<"slli.w", shl, vsplati32_uimm5,
MSA128WOpnd>;
class SLLI_D_DESC : MSA_BIT_SPLAT_DESC_BASE<"slli.d", shl, vsplati64_uimm6,
MSA128DOpnd>;
class SPLAT_B_DESC : MSA_3R_SPLAT_DESC_BASE<"splat.b", vsplati8_elt,
MSA128BOpnd>;
class SPLAT_H_DESC : MSA_3R_SPLAT_DESC_BASE<"splat.h", vsplati16_elt,
MSA128HOpnd>;
class SPLAT_W_DESC : MSA_3R_SPLAT_DESC_BASE<"splat.w", vsplati32_elt,
MSA128WOpnd>;
class SPLAT_D_DESC : MSA_3R_SPLAT_DESC_BASE<"splat.d", vsplati64_elt,
MSA128DOpnd>;
class SPLATI_B_DESC : MSA_ELM_SPLAT_DESC_BASE<"splati.b", vsplati8_uimm4,
MSA128BOpnd>;
class SPLATI_H_DESC : MSA_ELM_SPLAT_DESC_BASE<"splati.h", vsplati16_uimm3,
MSA128HOpnd>;
class SPLATI_W_DESC : MSA_ELM_SPLAT_DESC_BASE<"splati.w", vsplati32_uimm2,
MSA128WOpnd>;
class SPLATI_D_DESC : MSA_ELM_SPLAT_DESC_BASE<"splati.d", vsplati64_uimm1,
MSA128DOpnd>;
class SRA_B_DESC : MSA_3R_DESC_BASE<"sra.b", sra, MSA128BOpnd>;
class SRA_H_DESC : MSA_3R_DESC_BASE<"sra.h", sra, MSA128HOpnd>;
class SRA_W_DESC : MSA_3R_DESC_BASE<"sra.w", sra, MSA128WOpnd>;
class SRA_D_DESC : MSA_3R_DESC_BASE<"sra.d", sra, MSA128DOpnd>;
class SRAI_B_DESC : MSA_BIT_SPLAT_DESC_BASE<"srai.b", sra, vsplati8_uimm3,
MSA128BOpnd>;
class SRAI_H_DESC : MSA_BIT_SPLAT_DESC_BASE<"srai.h", sra, vsplati16_uimm4,
MSA128HOpnd>;
class SRAI_W_DESC : MSA_BIT_SPLAT_DESC_BASE<"srai.w", sra, vsplati32_uimm5,
MSA128WOpnd>;
class SRAI_D_DESC : MSA_BIT_SPLAT_DESC_BASE<"srai.d", sra, vsplati64_uimm6,
MSA128DOpnd>;
class SRAR_B_DESC : MSA_3R_DESC_BASE<"srar.b", int_mips_srar_b, MSA128BOpnd>;
class SRAR_H_DESC : MSA_3R_DESC_BASE<"srar.h", int_mips_srar_h, MSA128HOpnd>;
class SRAR_W_DESC : MSA_3R_DESC_BASE<"srar.w", int_mips_srar_w, MSA128WOpnd>;
class SRAR_D_DESC : MSA_3R_DESC_BASE<"srar.d", int_mips_srar_d, MSA128DOpnd>;
class SRARI_B_DESC : MSA_BIT_B_X_DESC_BASE<"srari.b", int_mips_srari_b,
MSA128BOpnd>;
class SRARI_H_DESC : MSA_BIT_H_X_DESC_BASE<"srari.h", int_mips_srari_h,
MSA128HOpnd>;
class SRARI_W_DESC : MSA_BIT_W_X_DESC_BASE<"srari.w", int_mips_srari_w,
MSA128WOpnd>;
class SRARI_D_DESC : MSA_BIT_D_X_DESC_BASE<"srari.d", int_mips_srari_d,
MSA128DOpnd>;
class SRL_B_DESC : MSA_3R_DESC_BASE<"srl.b", srl, MSA128BOpnd>;
class SRL_H_DESC : MSA_3R_DESC_BASE<"srl.h", srl, MSA128HOpnd>;
class SRL_W_DESC : MSA_3R_DESC_BASE<"srl.w", srl, MSA128WOpnd>;
class SRL_D_DESC : MSA_3R_DESC_BASE<"srl.d", srl, MSA128DOpnd>;
class SRLI_B_DESC : MSA_BIT_SPLAT_DESC_BASE<"srli.b", srl, vsplati8_uimm3,
MSA128BOpnd>;
class SRLI_H_DESC : MSA_BIT_SPLAT_DESC_BASE<"srli.h", srl, vsplati16_uimm4,
MSA128HOpnd>;
class SRLI_W_DESC : MSA_BIT_SPLAT_DESC_BASE<"srli.w", srl, vsplati32_uimm5,
MSA128WOpnd>;
class SRLI_D_DESC : MSA_BIT_SPLAT_DESC_BASE<"srli.d", srl, vsplati64_uimm6,
MSA128DOpnd>;
class SRLR_B_DESC : MSA_3R_DESC_BASE<"srlr.b", int_mips_srlr_b, MSA128BOpnd>;
class SRLR_H_DESC : MSA_3R_DESC_BASE<"srlr.h", int_mips_srlr_h, MSA128HOpnd>;
class SRLR_W_DESC : MSA_3R_DESC_BASE<"srlr.w", int_mips_srlr_w, MSA128WOpnd>;
class SRLR_D_DESC : MSA_3R_DESC_BASE<"srlr.d", int_mips_srlr_d, MSA128DOpnd>;
class SRLRI_B_DESC : MSA_BIT_B_X_DESC_BASE<"srlri.b", int_mips_srlri_b,
MSA128BOpnd>;
class SRLRI_H_DESC : MSA_BIT_H_X_DESC_BASE<"srlri.h", int_mips_srlri_h,
MSA128HOpnd>;
class SRLRI_W_DESC : MSA_BIT_W_X_DESC_BASE<"srlri.w", int_mips_srlri_w,
MSA128WOpnd>;
class SRLRI_D_DESC : MSA_BIT_D_X_DESC_BASE<"srlri.d", int_mips_srlri_d,
MSA128DOpnd>;
class ST_DESC_BASE<string instr_asm, SDPatternOperator OpNode,
ValueType TyNode, RegisterOperand ROWD,
Operand MemOpnd = mem_msa, ComplexPattern Addr = addrimm10,
InstrItinClass itin = NoItinerary> {
dag OutOperandList = (outs);
dag InOperandList = (ins ROWD:$wd, MemOpnd:$addr);
string AsmString = !strconcat(instr_asm, "\t$wd, $addr");
list<dag> Pattern = [(OpNode (TyNode ROWD:$wd), Addr:$addr)];
InstrItinClass Itinerary = itin;
string DecoderMethod = "DecodeMSA128Mem";
}
class ST_B_DESC : ST_DESC_BASE<"st.b", store, v16i8, MSA128BOpnd>;
class ST_H_DESC : ST_DESC_BASE<"st.h", store, v8i16, MSA128HOpnd>;
class ST_W_DESC : ST_DESC_BASE<"st.w", store, v4i32, MSA128WOpnd>;
class ST_D_DESC : ST_DESC_BASE<"st.d", store, v2i64, MSA128DOpnd>;
class SUBS_S_B_DESC : MSA_3R_DESC_BASE<"subs_s.b", int_mips_subs_s_b,
MSA128BOpnd>;
class SUBS_S_H_DESC : MSA_3R_DESC_BASE<"subs_s.h", int_mips_subs_s_h,
MSA128HOpnd>;
class SUBS_S_W_DESC : MSA_3R_DESC_BASE<"subs_s.w", int_mips_subs_s_w,
MSA128WOpnd>;
class SUBS_S_D_DESC : MSA_3R_DESC_BASE<"subs_s.d", int_mips_subs_s_d,
MSA128DOpnd>;
class SUBS_U_B_DESC : MSA_3R_DESC_BASE<"subs_u.b", int_mips_subs_u_b,
MSA128BOpnd>;
class SUBS_U_H_DESC : MSA_3R_DESC_BASE<"subs_u.h", int_mips_subs_u_h,
MSA128HOpnd>;
class SUBS_U_W_DESC : MSA_3R_DESC_BASE<"subs_u.w", int_mips_subs_u_w,
MSA128WOpnd>;
class SUBS_U_D_DESC : MSA_3R_DESC_BASE<"subs_u.d", int_mips_subs_u_d,
MSA128DOpnd>;
class SUBSUS_U_B_DESC : MSA_3R_DESC_BASE<"subsus_u.b", int_mips_subsus_u_b,
MSA128BOpnd>;
class SUBSUS_U_H_DESC : MSA_3R_DESC_BASE<"subsus_u.h", int_mips_subsus_u_h,
MSA128HOpnd>;
class SUBSUS_U_W_DESC : MSA_3R_DESC_BASE<"subsus_u.w", int_mips_subsus_u_w,
MSA128WOpnd>;
class SUBSUS_U_D_DESC : MSA_3R_DESC_BASE<"subsus_u.d", int_mips_subsus_u_d,
MSA128DOpnd>;
class SUBSUU_S_B_DESC : MSA_3R_DESC_BASE<"subsuu_s.b", int_mips_subsuu_s_b,
MSA128BOpnd>;
class SUBSUU_S_H_DESC : MSA_3R_DESC_BASE<"subsuu_s.h", int_mips_subsuu_s_h,
MSA128HOpnd>;
class SUBSUU_S_W_DESC : MSA_3R_DESC_BASE<"subsuu_s.w", int_mips_subsuu_s_w,
MSA128WOpnd>;
class SUBSUU_S_D_DESC : MSA_3R_DESC_BASE<"subsuu_s.d", int_mips_subsuu_s_d,
MSA128DOpnd>;
class SUBV_B_DESC : MSA_3R_DESC_BASE<"subv.b", sub, MSA128BOpnd>;
class SUBV_H_DESC : MSA_3R_DESC_BASE<"subv.h", sub, MSA128HOpnd>;
class SUBV_W_DESC : MSA_3R_DESC_BASE<"subv.w", sub, MSA128WOpnd>;
class SUBV_D_DESC : MSA_3R_DESC_BASE<"subv.d", sub, MSA128DOpnd>;
class SUBVI_B_DESC : MSA_I5_DESC_BASE<"subvi.b", sub, vsplati8_uimm5,
MSA128BOpnd>;
class SUBVI_H_DESC : MSA_I5_DESC_BASE<"subvi.h", sub, vsplati16_uimm5,
MSA128HOpnd>;
class SUBVI_W_DESC : MSA_I5_DESC_BASE<"subvi.w", sub, vsplati32_uimm5,
MSA128WOpnd>;
class SUBVI_D_DESC : MSA_I5_DESC_BASE<"subvi.d", sub, vsplati64_uimm5,
MSA128DOpnd>;
class VSHF_B_DESC : MSA_3R_VSHF_DESC_BASE<"vshf.b", MSA128BOpnd>;
class VSHF_H_DESC : MSA_3R_VSHF_DESC_BASE<"vshf.h", MSA128HOpnd>;
class VSHF_W_DESC : MSA_3R_VSHF_DESC_BASE<"vshf.w", MSA128WOpnd>;
class VSHF_D_DESC : MSA_3R_VSHF_DESC_BASE<"vshf.d", MSA128DOpnd>;
class XOR_V_DESC : MSA_VEC_DESC_BASE<"xor.v", xor, MSA128BOpnd>;
class XOR_V_H_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<xor, MSA128HOpnd>;
class XOR_V_W_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<xor, MSA128WOpnd>;
class XOR_V_D_PSEUDO_DESC : MSA_VEC_PSEUDO_BASE<xor, MSA128DOpnd>;
class XORI_B_DESC : MSA_I8_DESC_BASE<"xori.b", xor, vsplati8_uimm8,
MSA128BOpnd>;
// Instruction defs.
def ADD_A_B : ADD_A_B_ENC, ADD_A_B_DESC;
def ADD_A_H : ADD_A_H_ENC, ADD_A_H_DESC;
def ADD_A_W : ADD_A_W_ENC, ADD_A_W_DESC;
def ADD_A_D : ADD_A_D_ENC, ADD_A_D_DESC;
def ADDS_A_B : ADDS_A_B_ENC, ADDS_A_B_DESC;
def ADDS_A_H : ADDS_A_H_ENC, ADDS_A_H_DESC;
def ADDS_A_W : ADDS_A_W_ENC, ADDS_A_W_DESC;
def ADDS_A_D : ADDS_A_D_ENC, ADDS_A_D_DESC;
def ADDS_S_B : ADDS_S_B_ENC, ADDS_S_B_DESC;
def ADDS_S_H : ADDS_S_H_ENC, ADDS_S_H_DESC;
def ADDS_S_W : ADDS_S_W_ENC, ADDS_S_W_DESC;
def ADDS_S_D : ADDS_S_D_ENC, ADDS_S_D_DESC;
def ADDS_U_B : ADDS_U_B_ENC, ADDS_U_B_DESC;
def ADDS_U_H : ADDS_U_H_ENC, ADDS_U_H_DESC;
def ADDS_U_W : ADDS_U_W_ENC, ADDS_U_W_DESC;
def ADDS_U_D : ADDS_U_D_ENC, ADDS_U_D_DESC;
def ADDV_B : ADDV_B_ENC, ADDV_B_DESC;
def ADDV_H : ADDV_H_ENC, ADDV_H_DESC;
def ADDV_W : ADDV_W_ENC, ADDV_W_DESC;
def ADDV_D : ADDV_D_ENC, ADDV_D_DESC;
def ADDVI_B : ADDVI_B_ENC, ADDVI_B_DESC;
def ADDVI_H : ADDVI_H_ENC, ADDVI_H_DESC;
def ADDVI_W : ADDVI_W_ENC, ADDVI_W_DESC;
def ADDVI_D : ADDVI_D_ENC, ADDVI_D_DESC;
def AND_V : AND_V_ENC, AND_V_DESC;
def AND_V_H_PSEUDO : AND_V_H_PSEUDO_DESC,
PseudoInstExpansion<(AND_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def AND_V_W_PSEUDO : AND_V_W_PSEUDO_DESC,
PseudoInstExpansion<(AND_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def AND_V_D_PSEUDO : AND_V_D_PSEUDO_DESC,
PseudoInstExpansion<(AND_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def ANDI_B : ANDI_B_ENC, ANDI_B_DESC;
def ASUB_S_B : ASUB_S_B_ENC, ASUB_S_B_DESC;
def ASUB_S_H : ASUB_S_H_ENC, ASUB_S_H_DESC;
def ASUB_S_W : ASUB_S_W_ENC, ASUB_S_W_DESC;
def ASUB_S_D : ASUB_S_D_ENC, ASUB_S_D_DESC;
def ASUB_U_B : ASUB_U_B_ENC, ASUB_U_B_DESC;
def ASUB_U_H : ASUB_U_H_ENC, ASUB_U_H_DESC;
def ASUB_U_W : ASUB_U_W_ENC, ASUB_U_W_DESC;
def ASUB_U_D : ASUB_U_D_ENC, ASUB_U_D_DESC;
def AVE_S_B : AVE_S_B_ENC, AVE_S_B_DESC;
def AVE_S_H : AVE_S_H_ENC, AVE_S_H_DESC;
def AVE_S_W : AVE_S_W_ENC, AVE_S_W_DESC;
def AVE_S_D : AVE_S_D_ENC, AVE_S_D_DESC;
def AVE_U_B : AVE_U_B_ENC, AVE_U_B_DESC;
def AVE_U_H : AVE_U_H_ENC, AVE_U_H_DESC;
def AVE_U_W : AVE_U_W_ENC, AVE_U_W_DESC;
def AVE_U_D : AVE_U_D_ENC, AVE_U_D_DESC;
def AVER_S_B : AVER_S_B_ENC, AVER_S_B_DESC;
def AVER_S_H : AVER_S_H_ENC, AVER_S_H_DESC;
def AVER_S_W : AVER_S_W_ENC, AVER_S_W_DESC;
def AVER_S_D : AVER_S_D_ENC, AVER_S_D_DESC;
def AVER_U_B : AVER_U_B_ENC, AVER_U_B_DESC;
def AVER_U_H : AVER_U_H_ENC, AVER_U_H_DESC;
def AVER_U_W : AVER_U_W_ENC, AVER_U_W_DESC;
def AVER_U_D : AVER_U_D_ENC, AVER_U_D_DESC;
def BCLR_B : BCLR_B_ENC, BCLR_B_DESC;
def BCLR_H : BCLR_H_ENC, BCLR_H_DESC;
def BCLR_W : BCLR_W_ENC, BCLR_W_DESC;
def BCLR_D : BCLR_D_ENC, BCLR_D_DESC;
def BCLRI_B : BCLRI_B_ENC, BCLRI_B_DESC;
def BCLRI_H : BCLRI_H_ENC, BCLRI_H_DESC;
def BCLRI_W : BCLRI_W_ENC, BCLRI_W_DESC;
def BCLRI_D : BCLRI_D_ENC, BCLRI_D_DESC;
def BINSL_B : BINSL_B_ENC, BINSL_B_DESC;
def BINSL_H : BINSL_H_ENC, BINSL_H_DESC;
def BINSL_W : BINSL_W_ENC, BINSL_W_DESC;
def BINSL_D : BINSL_D_ENC, BINSL_D_DESC;
def BINSLI_B : BINSLI_B_ENC, BINSLI_B_DESC;
def BINSLI_H : BINSLI_H_ENC, BINSLI_H_DESC;
def BINSLI_W : BINSLI_W_ENC, BINSLI_W_DESC;
def BINSLI_D : BINSLI_D_ENC, BINSLI_D_DESC;
def BINSR_B : BINSR_B_ENC, BINSR_B_DESC;
def BINSR_H : BINSR_H_ENC, BINSR_H_DESC;
def BINSR_W : BINSR_W_ENC, BINSR_W_DESC;
def BINSR_D : BINSR_D_ENC, BINSR_D_DESC;
def BINSRI_B : BINSRI_B_ENC, BINSRI_B_DESC;
def BINSRI_H : BINSRI_H_ENC, BINSRI_H_DESC;
def BINSRI_W : BINSRI_W_ENC, BINSRI_W_DESC;
def BINSRI_D : BINSRI_D_ENC, BINSRI_D_DESC;
def BMNZ_V : BMNZ_V_ENC, BMNZ_V_DESC;
def BMNZI_B : BMNZI_B_ENC, BMNZI_B_DESC;
def BMZ_V : BMZ_V_ENC, BMZ_V_DESC;
def BMZI_B : BMZI_B_ENC, BMZI_B_DESC;
def BNEG_B : BNEG_B_ENC, BNEG_B_DESC;
def BNEG_H : BNEG_H_ENC, BNEG_H_DESC;
def BNEG_W : BNEG_W_ENC, BNEG_W_DESC;
def BNEG_D : BNEG_D_ENC, BNEG_D_DESC;
def BNEGI_B : BNEGI_B_ENC, BNEGI_B_DESC;
def BNEGI_H : BNEGI_H_ENC, BNEGI_H_DESC;
def BNEGI_W : BNEGI_W_ENC, BNEGI_W_DESC;
def BNEGI_D : BNEGI_D_ENC, BNEGI_D_DESC;
def BNZ_B : BNZ_B_ENC, BNZ_B_DESC;
def BNZ_H : BNZ_H_ENC, BNZ_H_DESC;
def BNZ_W : BNZ_W_ENC, BNZ_W_DESC;
def BNZ_D : BNZ_D_ENC, BNZ_D_DESC;
def BNZ_V : BNZ_V_ENC, BNZ_V_DESC;
def BSEL_V : BSEL_V_ENC, BSEL_V_DESC;
class MSA_BSEL_PSEUDO_BASE<RegisterOperand RO, ValueType Ty> :
MSAPseudo<(outs RO:$wd), (ins RO:$wd_in, RO:$ws, RO:$wt),
[(set RO:$wd, (Ty (vselect RO:$wd_in, RO:$wt, RO:$ws)))]>,
// Note that vselect and BSEL_V treat the condition operand the opposite way
// from each other.
// (vselect cond, if_set, if_clear)
// (BSEL_V cond, if_clear, if_set)
PseudoInstExpansion<(BSEL_V MSA128BOpnd:$wd, MSA128BOpnd:$wd_in,
MSA128BOpnd:$ws, MSA128BOpnd:$wt)> {
let Constraints = "$wd_in = $wd";
}
def BSEL_H_PSEUDO : MSA_BSEL_PSEUDO_BASE<MSA128HOpnd, v8i16>;
def BSEL_W_PSEUDO : MSA_BSEL_PSEUDO_BASE<MSA128WOpnd, v4i32>;
def BSEL_D_PSEUDO : MSA_BSEL_PSEUDO_BASE<MSA128DOpnd, v2i64>;
def BSEL_FW_PSEUDO : MSA_BSEL_PSEUDO_BASE<MSA128WOpnd, v4f32>;
def BSEL_FD_PSEUDO : MSA_BSEL_PSEUDO_BASE<MSA128DOpnd, v2f64>;
def BSELI_B : BSELI_B_ENC, BSELI_B_DESC;
def BSET_B : BSET_B_ENC, BSET_B_DESC;
def BSET_H : BSET_H_ENC, BSET_H_DESC;
def BSET_W : BSET_W_ENC, BSET_W_DESC;
def BSET_D : BSET_D_ENC, BSET_D_DESC;
def BSETI_B : BSETI_B_ENC, BSETI_B_DESC;
def BSETI_H : BSETI_H_ENC, BSETI_H_DESC;
def BSETI_W : BSETI_W_ENC, BSETI_W_DESC;
def BSETI_D : BSETI_D_ENC, BSETI_D_DESC;
def BZ_B : BZ_B_ENC, BZ_B_DESC;
def BZ_H : BZ_H_ENC, BZ_H_DESC;
def BZ_W : BZ_W_ENC, BZ_W_DESC;
def BZ_D : BZ_D_ENC, BZ_D_DESC;
def BZ_V : BZ_V_ENC, BZ_V_DESC;
def CEQ_B : CEQ_B_ENC, CEQ_B_DESC;
def CEQ_H : CEQ_H_ENC, CEQ_H_DESC;
def CEQ_W : CEQ_W_ENC, CEQ_W_DESC;
def CEQ_D : CEQ_D_ENC, CEQ_D_DESC;
def CEQI_B : CEQI_B_ENC, CEQI_B_DESC;
def CEQI_H : CEQI_H_ENC, CEQI_H_DESC;
def CEQI_W : CEQI_W_ENC, CEQI_W_DESC;
def CEQI_D : CEQI_D_ENC, CEQI_D_DESC;
def CFCMSA : CFCMSA_ENC, CFCMSA_DESC;
def CLE_S_B : CLE_S_B_ENC, CLE_S_B_DESC;
def CLE_S_H : CLE_S_H_ENC, CLE_S_H_DESC;
def CLE_S_W : CLE_S_W_ENC, CLE_S_W_DESC;
def CLE_S_D : CLE_S_D_ENC, CLE_S_D_DESC;
def CLE_U_B : CLE_U_B_ENC, CLE_U_B_DESC;
def CLE_U_H : CLE_U_H_ENC, CLE_U_H_DESC;
def CLE_U_W : CLE_U_W_ENC, CLE_U_W_DESC;
def CLE_U_D : CLE_U_D_ENC, CLE_U_D_DESC;
def CLEI_S_B : CLEI_S_B_ENC, CLEI_S_B_DESC;
def CLEI_S_H : CLEI_S_H_ENC, CLEI_S_H_DESC;
def CLEI_S_W : CLEI_S_W_ENC, CLEI_S_W_DESC;
def CLEI_S_D : CLEI_S_D_ENC, CLEI_S_D_DESC;
def CLEI_U_B : CLEI_U_B_ENC, CLEI_U_B_DESC;
def CLEI_U_H : CLEI_U_H_ENC, CLEI_U_H_DESC;
def CLEI_U_W : CLEI_U_W_ENC, CLEI_U_W_DESC;
def CLEI_U_D : CLEI_U_D_ENC, CLEI_U_D_DESC;
def CLT_S_B : CLT_S_B_ENC, CLT_S_B_DESC;
def CLT_S_H : CLT_S_H_ENC, CLT_S_H_DESC;
def CLT_S_W : CLT_S_W_ENC, CLT_S_W_DESC;
def CLT_S_D : CLT_S_D_ENC, CLT_S_D_DESC;
def CLT_U_B : CLT_U_B_ENC, CLT_U_B_DESC;
def CLT_U_H : CLT_U_H_ENC, CLT_U_H_DESC;
def CLT_U_W : CLT_U_W_ENC, CLT_U_W_DESC;
def CLT_U_D : CLT_U_D_ENC, CLT_U_D_DESC;
def CLTI_S_B : CLTI_S_B_ENC, CLTI_S_B_DESC;
def CLTI_S_H : CLTI_S_H_ENC, CLTI_S_H_DESC;
def CLTI_S_W : CLTI_S_W_ENC, CLTI_S_W_DESC;
def CLTI_S_D : CLTI_S_D_ENC, CLTI_S_D_DESC;
def CLTI_U_B : CLTI_U_B_ENC, CLTI_U_B_DESC;
def CLTI_U_H : CLTI_U_H_ENC, CLTI_U_H_DESC;
def CLTI_U_W : CLTI_U_W_ENC, CLTI_U_W_DESC;
def CLTI_U_D : CLTI_U_D_ENC, CLTI_U_D_DESC;
def COPY_S_B : COPY_S_B_ENC, COPY_S_B_DESC;
def COPY_S_H : COPY_S_H_ENC, COPY_S_H_DESC;
def COPY_S_W : COPY_S_W_ENC, COPY_S_W_DESC;
def COPY_S_D : COPY_S_D_ENC, COPY_S_D_DESC;
def COPY_U_B : COPY_U_B_ENC, COPY_U_B_DESC;
def COPY_U_H : COPY_U_H_ENC, COPY_U_H_DESC;
def COPY_U_W : COPY_U_W_ENC, COPY_U_W_DESC;
def COPY_U_D : COPY_U_D_ENC, COPY_U_D_DESC;
def COPY_FW_PSEUDO : COPY_FW_PSEUDO_DESC;
def COPY_FD_PSEUDO : COPY_FD_PSEUDO_DESC;
def CTCMSA : CTCMSA_ENC, CTCMSA_DESC;
def DIV_S_B : DIV_S_B_ENC, DIV_S_B_DESC;
def DIV_S_H : DIV_S_H_ENC, DIV_S_H_DESC;
def DIV_S_W : DIV_S_W_ENC, DIV_S_W_DESC;
def DIV_S_D : DIV_S_D_ENC, DIV_S_D_DESC;
def DIV_U_B : DIV_U_B_ENC, DIV_U_B_DESC;
def DIV_U_H : DIV_U_H_ENC, DIV_U_H_DESC;
def DIV_U_W : DIV_U_W_ENC, DIV_U_W_DESC;
def DIV_U_D : DIV_U_D_ENC, DIV_U_D_DESC;
def DOTP_S_H : DOTP_S_H_ENC, DOTP_S_H_DESC;
def DOTP_S_W : DOTP_S_W_ENC, DOTP_S_W_DESC;
def DOTP_S_D : DOTP_S_D_ENC, DOTP_S_D_DESC;
def DOTP_U_H : DOTP_U_H_ENC, DOTP_U_H_DESC;
def DOTP_U_W : DOTP_U_W_ENC, DOTP_U_W_DESC;
def DOTP_U_D : DOTP_U_D_ENC, DOTP_U_D_DESC;
def DPADD_S_H : DPADD_S_H_ENC, DPADD_S_H_DESC;
def DPADD_S_W : DPADD_S_W_ENC, DPADD_S_W_DESC;
def DPADD_S_D : DPADD_S_D_ENC, DPADD_S_D_DESC;
def DPADD_U_H : DPADD_U_H_ENC, DPADD_U_H_DESC;
def DPADD_U_W : DPADD_U_W_ENC, DPADD_U_W_DESC;
def DPADD_U_D : DPADD_U_D_ENC, DPADD_U_D_DESC;
def DPSUB_S_H : DPSUB_S_H_ENC, DPSUB_S_H_DESC;
def DPSUB_S_W : DPSUB_S_W_ENC, DPSUB_S_W_DESC;
def DPSUB_S_D : DPSUB_S_D_ENC, DPSUB_S_D_DESC;
def DPSUB_U_H : DPSUB_U_H_ENC, DPSUB_U_H_DESC;
def DPSUB_U_W : DPSUB_U_W_ENC, DPSUB_U_W_DESC;
def DPSUB_U_D : DPSUB_U_D_ENC, DPSUB_U_D_DESC;
def FADD_W : FADD_W_ENC, FADD_W_DESC;
def FADD_D : FADD_D_ENC, FADD_D_DESC;
def FCAF_W : FCAF_W_ENC, FCAF_W_DESC;
def FCAF_D : FCAF_D_ENC, FCAF_D_DESC;
def FCEQ_W : FCEQ_W_ENC, FCEQ_W_DESC;
def FCEQ_D : FCEQ_D_ENC, FCEQ_D_DESC;
def FCLE_W : FCLE_W_ENC, FCLE_W_DESC;
def FCLE_D : FCLE_D_ENC, FCLE_D_DESC;
def FCLT_W : FCLT_W_ENC, FCLT_W_DESC;
def FCLT_D : FCLT_D_ENC, FCLT_D_DESC;
def FCLASS_W : FCLASS_W_ENC, FCLASS_W_DESC;
def FCLASS_D : FCLASS_D_ENC, FCLASS_D_DESC;
def FCNE_W : FCNE_W_ENC, FCNE_W_DESC;
def FCNE_D : FCNE_D_ENC, FCNE_D_DESC;
def FCOR_W : FCOR_W_ENC, FCOR_W_DESC;
def FCOR_D : FCOR_D_ENC, FCOR_D_DESC;
def FCUEQ_W : FCUEQ_W_ENC, FCUEQ_W_DESC;
def FCUEQ_D : FCUEQ_D_ENC, FCUEQ_D_DESC;
def FCULE_W : FCULE_W_ENC, FCULE_W_DESC;
def FCULE_D : FCULE_D_ENC, FCULE_D_DESC;
def FCULT_W : FCULT_W_ENC, FCULT_W_DESC;
def FCULT_D : FCULT_D_ENC, FCULT_D_DESC;
def FCUN_W : FCUN_W_ENC, FCUN_W_DESC;
def FCUN_D : FCUN_D_ENC, FCUN_D_DESC;
def FCUNE_W : FCUNE_W_ENC, FCUNE_W_DESC;
def FCUNE_D : FCUNE_D_ENC, FCUNE_D_DESC;
def FDIV_W : FDIV_W_ENC, FDIV_W_DESC;
def FDIV_D : FDIV_D_ENC, FDIV_D_DESC;
def FEXDO_H : FEXDO_H_ENC, FEXDO_H_DESC;
def FEXDO_W : FEXDO_W_ENC, FEXDO_W_DESC;
def FEXP2_W : FEXP2_W_ENC, FEXP2_W_DESC;
def FEXP2_D : FEXP2_D_ENC, FEXP2_D_DESC;
def FEXP2_W_1_PSEUDO : FEXP2_W_1_PSEUDO_DESC;
def FEXP2_D_1_PSEUDO : FEXP2_D_1_PSEUDO_DESC;
def FEXUPL_W : FEXUPL_W_ENC, FEXUPL_W_DESC;
def FEXUPL_D : FEXUPL_D_ENC, FEXUPL_D_DESC;
def FEXUPR_W : FEXUPR_W_ENC, FEXUPR_W_DESC;
def FEXUPR_D : FEXUPR_D_ENC, FEXUPR_D_DESC;
def FFINT_S_W : FFINT_S_W_ENC, FFINT_S_W_DESC;
def FFINT_S_D : FFINT_S_D_ENC, FFINT_S_D_DESC;
def FFINT_U_W : FFINT_U_W_ENC, FFINT_U_W_DESC;
def FFINT_U_D : FFINT_U_D_ENC, FFINT_U_D_DESC;
def FFQL_W : FFQL_W_ENC, FFQL_W_DESC;
def FFQL_D : FFQL_D_ENC, FFQL_D_DESC;
def FFQR_W : FFQR_W_ENC, FFQR_W_DESC;
def FFQR_D : FFQR_D_ENC, FFQR_D_DESC;
def FILL_B : FILL_B_ENC, FILL_B_DESC;
def FILL_H : FILL_H_ENC, FILL_H_DESC;
def FILL_W : FILL_W_ENC, FILL_W_DESC;
def FILL_D : FILL_D_ENC, FILL_D_DESC;
def FILL_FW_PSEUDO : FILL_FW_PSEUDO_DESC;
def FILL_FD_PSEUDO : FILL_FD_PSEUDO_DESC;
def FLOG2_W : FLOG2_W_ENC, FLOG2_W_DESC;
def FLOG2_D : FLOG2_D_ENC, FLOG2_D_DESC;
def FMADD_W : FMADD_W_ENC, FMADD_W_DESC;
def FMADD_D : FMADD_D_ENC, FMADD_D_DESC;
def FMAX_W : FMAX_W_ENC, FMAX_W_DESC;
def FMAX_D : FMAX_D_ENC, FMAX_D_DESC;
def FMAX_A_W : FMAX_A_W_ENC, FMAX_A_W_DESC;
def FMAX_A_D : FMAX_A_D_ENC, FMAX_A_D_DESC;
def FMIN_W : FMIN_W_ENC, FMIN_W_DESC;
def FMIN_D : FMIN_D_ENC, FMIN_D_DESC;
def FMIN_A_W : FMIN_A_W_ENC, FMIN_A_W_DESC;
def FMIN_A_D : FMIN_A_D_ENC, FMIN_A_D_DESC;
def FMSUB_W : FMSUB_W_ENC, FMSUB_W_DESC;
def FMSUB_D : FMSUB_D_ENC, FMSUB_D_DESC;
def FMUL_W : FMUL_W_ENC, FMUL_W_DESC;
def FMUL_D : FMUL_D_ENC, FMUL_D_DESC;
def FRINT_W : FRINT_W_ENC, FRINT_W_DESC;
def FRINT_D : FRINT_D_ENC, FRINT_D_DESC;
def FRCP_W : FRCP_W_ENC, FRCP_W_DESC;
def FRCP_D : FRCP_D_ENC, FRCP_D_DESC;
def FRSQRT_W : FRSQRT_W_ENC, FRSQRT_W_DESC;
def FRSQRT_D : FRSQRT_D_ENC, FRSQRT_D_DESC;
def FSAF_W : FSAF_W_ENC, FSAF_W_DESC;
def FSAF_D : FSAF_D_ENC, FSAF_D_DESC;
def FSEQ_W : FSEQ_W_ENC, FSEQ_W_DESC;
def FSEQ_D : FSEQ_D_ENC, FSEQ_D_DESC;
def FSLE_W : FSLE_W_ENC, FSLE_W_DESC;
def FSLE_D : FSLE_D_ENC, FSLE_D_DESC;
def FSLT_W : FSLT_W_ENC, FSLT_W_DESC;
def FSLT_D : FSLT_D_ENC, FSLT_D_DESC;
def FSNE_W : FSNE_W_ENC, FSNE_W_DESC;
def FSNE_D : FSNE_D_ENC, FSNE_D_DESC;
def FSOR_W : FSOR_W_ENC, FSOR_W_DESC;
def FSOR_D : FSOR_D_ENC, FSOR_D_DESC;
def FSQRT_W : FSQRT_W_ENC, FSQRT_W_DESC;
def FSQRT_D : FSQRT_D_ENC, FSQRT_D_DESC;
def FSUB_W : FSUB_W_ENC, FSUB_W_DESC;
def FSUB_D : FSUB_D_ENC, FSUB_D_DESC;
def FSUEQ_W : FSUEQ_W_ENC, FSUEQ_W_DESC;
def FSUEQ_D : FSUEQ_D_ENC, FSUEQ_D_DESC;
def FSULE_W : FSULE_W_ENC, FSULE_W_DESC;
def FSULE_D : FSULE_D_ENC, FSULE_D_DESC;
def FSULT_W : FSULT_W_ENC, FSULT_W_DESC;
def FSULT_D : FSULT_D_ENC, FSULT_D_DESC;
def FSUN_W : FSUN_W_ENC, FSUN_W_DESC;
def FSUN_D : FSUN_D_ENC, FSUN_D_DESC;
def FSUNE_W : FSUNE_W_ENC, FSUNE_W_DESC;
def FSUNE_D : FSUNE_D_ENC, FSUNE_D_DESC;
def FTINT_S_W : FTINT_S_W_ENC, FTINT_S_W_DESC;
def FTINT_S_D : FTINT_S_D_ENC, FTINT_S_D_DESC;
def FTINT_U_W : FTINT_U_W_ENC, FTINT_U_W_DESC;
def FTINT_U_D : FTINT_U_D_ENC, FTINT_U_D_DESC;
def FTQ_H : FTQ_H_ENC, FTQ_H_DESC;
def FTQ_W : FTQ_W_ENC, FTQ_W_DESC;
def FTRUNC_S_W : FTRUNC_S_W_ENC, FTRUNC_S_W_DESC;
def FTRUNC_S_D : FTRUNC_S_D_ENC, FTRUNC_S_D_DESC;
def FTRUNC_U_W : FTRUNC_U_W_ENC, FTRUNC_U_W_DESC;
def FTRUNC_U_D : FTRUNC_U_D_ENC, FTRUNC_U_D_DESC;
def HADD_S_H : HADD_S_H_ENC, HADD_S_H_DESC;
def HADD_S_W : HADD_S_W_ENC, HADD_S_W_DESC;
def HADD_S_D : HADD_S_D_ENC, HADD_S_D_DESC;
def HADD_U_H : HADD_U_H_ENC, HADD_U_H_DESC;
def HADD_U_W : HADD_U_W_ENC, HADD_U_W_DESC;
def HADD_U_D : HADD_U_D_ENC, HADD_U_D_DESC;
def HSUB_S_H : HSUB_S_H_ENC, HSUB_S_H_DESC;
def HSUB_S_W : HSUB_S_W_ENC, HSUB_S_W_DESC;
def HSUB_S_D : HSUB_S_D_ENC, HSUB_S_D_DESC;
def HSUB_U_H : HSUB_U_H_ENC, HSUB_U_H_DESC;
def HSUB_U_W : HSUB_U_W_ENC, HSUB_U_W_DESC;
def HSUB_U_D : HSUB_U_D_ENC, HSUB_U_D_DESC;
def ILVEV_B : ILVEV_B_ENC, ILVEV_B_DESC;
def ILVEV_H : ILVEV_H_ENC, ILVEV_H_DESC;
def ILVEV_W : ILVEV_W_ENC, ILVEV_W_DESC;
def ILVEV_D : ILVEV_D_ENC, ILVEV_D_DESC;
def ILVL_B : ILVL_B_ENC, ILVL_B_DESC;
def ILVL_H : ILVL_H_ENC, ILVL_H_DESC;
def ILVL_W : ILVL_W_ENC, ILVL_W_DESC;
def ILVL_D : ILVL_D_ENC, ILVL_D_DESC;
def ILVOD_B : ILVOD_B_ENC, ILVOD_B_DESC;
def ILVOD_H : ILVOD_H_ENC, ILVOD_H_DESC;
def ILVOD_W : ILVOD_W_ENC, ILVOD_W_DESC;
def ILVOD_D : ILVOD_D_ENC, ILVOD_D_DESC;
def ILVR_B : ILVR_B_ENC, ILVR_B_DESC;
def ILVR_H : ILVR_H_ENC, ILVR_H_DESC;
def ILVR_W : ILVR_W_ENC, ILVR_W_DESC;
def ILVR_D : ILVR_D_ENC, ILVR_D_DESC;
def INSERT_B : INSERT_B_ENC, INSERT_B_DESC;
def INSERT_H : INSERT_H_ENC, INSERT_H_DESC;
def INSERT_W : INSERT_W_ENC, INSERT_W_DESC;
def INSERT_D : INSERT_D_ENC, INSERT_D_DESC;
// INSERT_FW_PSEUDO defined after INSVE_W
// INSERT_FD_PSEUDO defined after INSVE_D
// There is a fourth operand that is not present in the encoding. Use a
// custom decoder to get a chance to add it.
let DecoderMethod = "DecodeINSVE_DF" in {
def INSVE_B : INSVE_B_ENC, INSVE_B_DESC;
def INSVE_H : INSVE_H_ENC, INSVE_H_DESC;
def INSVE_W : INSVE_W_ENC, INSVE_W_DESC;
def INSVE_D : INSVE_D_ENC, INSVE_D_DESC;
}
def INSERT_FW_PSEUDO : INSERT_FW_PSEUDO_DESC;
def INSERT_FD_PSEUDO : INSERT_FD_PSEUDO_DESC;
def INSERT_B_VIDX_PSEUDO : INSERT_B_VIDX_PSEUDO_DESC;
def INSERT_H_VIDX_PSEUDO : INSERT_H_VIDX_PSEUDO_DESC;
def INSERT_W_VIDX_PSEUDO : INSERT_W_VIDX_PSEUDO_DESC;
def INSERT_D_VIDX_PSEUDO : INSERT_D_VIDX_PSEUDO_DESC;
def INSERT_FW_VIDX_PSEUDO : INSERT_FW_VIDX_PSEUDO_DESC;
def INSERT_FD_VIDX_PSEUDO : INSERT_FD_VIDX_PSEUDO_DESC;
def INSERT_B_VIDX64_PSEUDO : INSERT_B_VIDX64_PSEUDO_DESC;
def INSERT_H_VIDX64_PSEUDO : INSERT_H_VIDX64_PSEUDO_DESC;
def INSERT_W_VIDX64_PSEUDO : INSERT_W_VIDX64_PSEUDO_DESC;
def INSERT_D_VIDX64_PSEUDO : INSERT_D_VIDX64_PSEUDO_DESC;
def INSERT_FW_VIDX64_PSEUDO : INSERT_FW_VIDX64_PSEUDO_DESC;
def INSERT_FD_VIDX64_PSEUDO : INSERT_FD_VIDX64_PSEUDO_DESC;
def LD_B: LD_B_ENC, LD_B_DESC;
def LD_H: LD_H_ENC, LD_H_DESC;
def LD_W: LD_W_ENC, LD_W_DESC;
def LD_D: LD_D_ENC, LD_D_DESC;
def LDI_B : LDI_B_ENC, LDI_B_DESC;
def LDI_H : LDI_H_ENC, LDI_H_DESC;
def LDI_W : LDI_W_ENC, LDI_W_DESC;
def LDI_D : LDI_D_ENC, LDI_D_DESC;
def LSA : LSA_ENC, LSA_DESC;
def DLSA : DLSA_ENC, DLSA_DESC;
def MADD_Q_H : MADD_Q_H_ENC, MADD_Q_H_DESC;
def MADD_Q_W : MADD_Q_W_ENC, MADD_Q_W_DESC;
def MADDR_Q_H : MADDR_Q_H_ENC, MADDR_Q_H_DESC;
def MADDR_Q_W : MADDR_Q_W_ENC, MADDR_Q_W_DESC;
def MADDV_B : MADDV_B_ENC, MADDV_B_DESC;
def MADDV_H : MADDV_H_ENC, MADDV_H_DESC;
def MADDV_W : MADDV_W_ENC, MADDV_W_DESC;
def MADDV_D : MADDV_D_ENC, MADDV_D_DESC;
def MAX_A_B : MAX_A_B_ENC, MAX_A_B_DESC;
def MAX_A_H : MAX_A_H_ENC, MAX_A_H_DESC;
def MAX_A_W : MAX_A_W_ENC, MAX_A_W_DESC;
def MAX_A_D : MAX_A_D_ENC, MAX_A_D_DESC;
def MAX_S_B : MAX_S_B_ENC, MAX_S_B_DESC;
def MAX_S_H : MAX_S_H_ENC, MAX_S_H_DESC;
def MAX_S_W : MAX_S_W_ENC, MAX_S_W_DESC;
def MAX_S_D : MAX_S_D_ENC, MAX_S_D_DESC;
def MAX_U_B : MAX_U_B_ENC, MAX_U_B_DESC;
def MAX_U_H : MAX_U_H_ENC, MAX_U_H_DESC;
def MAX_U_W : MAX_U_W_ENC, MAX_U_W_DESC;
def MAX_U_D : MAX_U_D_ENC, MAX_U_D_DESC;
def MAXI_S_B : MAXI_S_B_ENC, MAXI_S_B_DESC;
def MAXI_S_H : MAXI_S_H_ENC, MAXI_S_H_DESC;
def MAXI_S_W : MAXI_S_W_ENC, MAXI_S_W_DESC;
def MAXI_S_D : MAXI_S_D_ENC, MAXI_S_D_DESC;
def MAXI_U_B : MAXI_U_B_ENC, MAXI_U_B_DESC;
def MAXI_U_H : MAXI_U_H_ENC, MAXI_U_H_DESC;
def MAXI_U_W : MAXI_U_W_ENC, MAXI_U_W_DESC;
def MAXI_U_D : MAXI_U_D_ENC, MAXI_U_D_DESC;
def MIN_A_B : MIN_A_B_ENC, MIN_A_B_DESC;
def MIN_A_H : MIN_A_H_ENC, MIN_A_H_DESC;
def MIN_A_W : MIN_A_W_ENC, MIN_A_W_DESC;
def MIN_A_D : MIN_A_D_ENC, MIN_A_D_DESC;
def MIN_S_B : MIN_S_B_ENC, MIN_S_B_DESC;
def MIN_S_H : MIN_S_H_ENC, MIN_S_H_DESC;
def MIN_S_W : MIN_S_W_ENC, MIN_S_W_DESC;
def MIN_S_D : MIN_S_D_ENC, MIN_S_D_DESC;
def MIN_U_B : MIN_U_B_ENC, MIN_U_B_DESC;
def MIN_U_H : MIN_U_H_ENC, MIN_U_H_DESC;
def MIN_U_W : MIN_U_W_ENC, MIN_U_W_DESC;
def MIN_U_D : MIN_U_D_ENC, MIN_U_D_DESC;
def MINI_S_B : MINI_S_B_ENC, MINI_S_B_DESC;
def MINI_S_H : MINI_S_H_ENC, MINI_S_H_DESC;
def MINI_S_W : MINI_S_W_ENC, MINI_S_W_DESC;
def MINI_S_D : MINI_S_D_ENC, MINI_S_D_DESC;
def MINI_U_B : MINI_U_B_ENC, MINI_U_B_DESC;
def MINI_U_H : MINI_U_H_ENC, MINI_U_H_DESC;
def MINI_U_W : MINI_U_W_ENC, MINI_U_W_DESC;
def MINI_U_D : MINI_U_D_ENC, MINI_U_D_DESC;
def MOD_S_B : MOD_S_B_ENC, MOD_S_B_DESC;
def MOD_S_H : MOD_S_H_ENC, MOD_S_H_DESC;
def MOD_S_W : MOD_S_W_ENC, MOD_S_W_DESC;
def MOD_S_D : MOD_S_D_ENC, MOD_S_D_DESC;
def MOD_U_B : MOD_U_B_ENC, MOD_U_B_DESC;
def MOD_U_H : MOD_U_H_ENC, MOD_U_H_DESC;
def MOD_U_W : MOD_U_W_ENC, MOD_U_W_DESC;
def MOD_U_D : MOD_U_D_ENC, MOD_U_D_DESC;
def MOVE_V : MOVE_V_ENC, MOVE_V_DESC;
def MSUB_Q_H : MSUB_Q_H_ENC, MSUB_Q_H_DESC;
def MSUB_Q_W : MSUB_Q_W_ENC, MSUB_Q_W_DESC;
def MSUBR_Q_H : MSUBR_Q_H_ENC, MSUBR_Q_H_DESC;
def MSUBR_Q_W : MSUBR_Q_W_ENC, MSUBR_Q_W_DESC;
def MSUBV_B : MSUBV_B_ENC, MSUBV_B_DESC;
def MSUBV_H : MSUBV_H_ENC, MSUBV_H_DESC;
def MSUBV_W : MSUBV_W_ENC, MSUBV_W_DESC;
def MSUBV_D : MSUBV_D_ENC, MSUBV_D_DESC;
def MUL_Q_H : MUL_Q_H_ENC, MUL_Q_H_DESC;
def MUL_Q_W : MUL_Q_W_ENC, MUL_Q_W_DESC;
def MULR_Q_H : MULR_Q_H_ENC, MULR_Q_H_DESC;
def MULR_Q_W : MULR_Q_W_ENC, MULR_Q_W_DESC;
def MULV_B : MULV_B_ENC, MULV_B_DESC;
def MULV_H : MULV_H_ENC, MULV_H_DESC;
def MULV_W : MULV_W_ENC, MULV_W_DESC;
def MULV_D : MULV_D_ENC, MULV_D_DESC;
def NLOC_B : NLOC_B_ENC, NLOC_B_DESC;
def NLOC_H : NLOC_H_ENC, NLOC_H_DESC;
def NLOC_W : NLOC_W_ENC, NLOC_W_DESC;
def NLOC_D : NLOC_D_ENC, NLOC_D_DESC;
def NLZC_B : NLZC_B_ENC, NLZC_B_DESC;
def NLZC_H : NLZC_H_ENC, NLZC_H_DESC;
def NLZC_W : NLZC_W_ENC, NLZC_W_DESC;
def NLZC_D : NLZC_D_ENC, NLZC_D_DESC;
def NOR_V : NOR_V_ENC, NOR_V_DESC;
def NOR_V_H_PSEUDO : NOR_V_H_PSEUDO_DESC,
PseudoInstExpansion<(NOR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def NOR_V_W_PSEUDO : NOR_V_W_PSEUDO_DESC,
PseudoInstExpansion<(NOR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def NOR_V_D_PSEUDO : NOR_V_D_PSEUDO_DESC,
PseudoInstExpansion<(NOR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def NORI_B : NORI_B_ENC, NORI_B_DESC;
def OR_V : OR_V_ENC, OR_V_DESC;
def OR_V_H_PSEUDO : OR_V_H_PSEUDO_DESC,
PseudoInstExpansion<(OR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def OR_V_W_PSEUDO : OR_V_W_PSEUDO_DESC,
PseudoInstExpansion<(OR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def OR_V_D_PSEUDO : OR_V_D_PSEUDO_DESC,
PseudoInstExpansion<(OR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def ORI_B : ORI_B_ENC, ORI_B_DESC;
def PCKEV_B : PCKEV_B_ENC, PCKEV_B_DESC;
def PCKEV_H : PCKEV_H_ENC, PCKEV_H_DESC;
def PCKEV_W : PCKEV_W_ENC, PCKEV_W_DESC;
def PCKEV_D : PCKEV_D_ENC, PCKEV_D_DESC;
def PCKOD_B : PCKOD_B_ENC, PCKOD_B_DESC;
def PCKOD_H : PCKOD_H_ENC, PCKOD_H_DESC;
def PCKOD_W : PCKOD_W_ENC, PCKOD_W_DESC;
def PCKOD_D : PCKOD_D_ENC, PCKOD_D_DESC;
def PCNT_B : PCNT_B_ENC, PCNT_B_DESC;
def PCNT_H : PCNT_H_ENC, PCNT_H_DESC;
def PCNT_W : PCNT_W_ENC, PCNT_W_DESC;
def PCNT_D : PCNT_D_ENC, PCNT_D_DESC;
def SAT_S_B : SAT_S_B_ENC, SAT_S_B_DESC;
def SAT_S_H : SAT_S_H_ENC, SAT_S_H_DESC;
def SAT_S_W : SAT_S_W_ENC, SAT_S_W_DESC;
def SAT_S_D : SAT_S_D_ENC, SAT_S_D_DESC;
def SAT_U_B : SAT_U_B_ENC, SAT_U_B_DESC;
def SAT_U_H : SAT_U_H_ENC, SAT_U_H_DESC;
def SAT_U_W : SAT_U_W_ENC, SAT_U_W_DESC;
def SAT_U_D : SAT_U_D_ENC, SAT_U_D_DESC;
def SHF_B : SHF_B_ENC, SHF_B_DESC;
def SHF_H : SHF_H_ENC, SHF_H_DESC;
def SHF_W : SHF_W_ENC, SHF_W_DESC;
def SLD_B : SLD_B_ENC, SLD_B_DESC;
def SLD_H : SLD_H_ENC, SLD_H_DESC;
def SLD_W : SLD_W_ENC, SLD_W_DESC;
def SLD_D : SLD_D_ENC, SLD_D_DESC;
def SLDI_B : SLDI_B_ENC, SLDI_B_DESC;
def SLDI_H : SLDI_H_ENC, SLDI_H_DESC;
def SLDI_W : SLDI_W_ENC, SLDI_W_DESC;
def SLDI_D : SLDI_D_ENC, SLDI_D_DESC;
def SLL_B : SLL_B_ENC, SLL_B_DESC;
def SLL_H : SLL_H_ENC, SLL_H_DESC;
def SLL_W : SLL_W_ENC, SLL_W_DESC;
def SLL_D : SLL_D_ENC, SLL_D_DESC;
def SLLI_B : SLLI_B_ENC, SLLI_B_DESC;
def SLLI_H : SLLI_H_ENC, SLLI_H_DESC;
def SLLI_W : SLLI_W_ENC, SLLI_W_DESC;
def SLLI_D : SLLI_D_ENC, SLLI_D_DESC;
def SPLAT_B : SPLAT_B_ENC, SPLAT_B_DESC;
def SPLAT_H : SPLAT_H_ENC, SPLAT_H_DESC;
def SPLAT_W : SPLAT_W_ENC, SPLAT_W_DESC;
def SPLAT_D : SPLAT_D_ENC, SPLAT_D_DESC;
def SPLATI_B : SPLATI_B_ENC, SPLATI_B_DESC;
def SPLATI_H : SPLATI_H_ENC, SPLATI_H_DESC;
def SPLATI_W : SPLATI_W_ENC, SPLATI_W_DESC;
def SPLATI_D : SPLATI_D_ENC, SPLATI_D_DESC;
def SRA_B : SRA_B_ENC, SRA_B_DESC;
def SRA_H : SRA_H_ENC, SRA_H_DESC;
def SRA_W : SRA_W_ENC, SRA_W_DESC;
def SRA_D : SRA_D_ENC, SRA_D_DESC;
def SRAI_B : SRAI_B_ENC, SRAI_B_DESC;
def SRAI_H : SRAI_H_ENC, SRAI_H_DESC;
def SRAI_W : SRAI_W_ENC, SRAI_W_DESC;
def SRAI_D : SRAI_D_ENC, SRAI_D_DESC;
def SRAR_B : SRAR_B_ENC, SRAR_B_DESC;
def SRAR_H : SRAR_H_ENC, SRAR_H_DESC;
def SRAR_W : SRAR_W_ENC, SRAR_W_DESC;
def SRAR_D : SRAR_D_ENC, SRAR_D_DESC;
def SRARI_B : SRARI_B_ENC, SRARI_B_DESC;
def SRARI_H : SRARI_H_ENC, SRARI_H_DESC;
def SRARI_W : SRARI_W_ENC, SRARI_W_DESC;
def SRARI_D : SRARI_D_ENC, SRARI_D_DESC;
def SRL_B : SRL_B_ENC, SRL_B_DESC;
def SRL_H : SRL_H_ENC, SRL_H_DESC;
def SRL_W : SRL_W_ENC, SRL_W_DESC;
def SRL_D : SRL_D_ENC, SRL_D_DESC;
def SRLI_B : SRLI_B_ENC, SRLI_B_DESC;
def SRLI_H : SRLI_H_ENC, SRLI_H_DESC;
def SRLI_W : SRLI_W_ENC, SRLI_W_DESC;
def SRLI_D : SRLI_D_ENC, SRLI_D_DESC;
def SRLR_B : SRLR_B_ENC, SRLR_B_DESC;
def SRLR_H : SRLR_H_ENC, SRLR_H_DESC;
def SRLR_W : SRLR_W_ENC, SRLR_W_DESC;
def SRLR_D : SRLR_D_ENC, SRLR_D_DESC;
def SRLRI_B : SRLRI_B_ENC, SRLRI_B_DESC;
def SRLRI_H : SRLRI_H_ENC, SRLRI_H_DESC;
def SRLRI_W : SRLRI_W_ENC, SRLRI_W_DESC;
def SRLRI_D : SRLRI_D_ENC, SRLRI_D_DESC;
def ST_B: ST_B_ENC, ST_B_DESC;
def ST_H: ST_H_ENC, ST_H_DESC;
def ST_W: ST_W_ENC, ST_W_DESC;
def ST_D: ST_D_ENC, ST_D_DESC;
def SUBS_S_B : SUBS_S_B_ENC, SUBS_S_B_DESC;
def SUBS_S_H : SUBS_S_H_ENC, SUBS_S_H_DESC;
def SUBS_S_W : SUBS_S_W_ENC, SUBS_S_W_DESC;
def SUBS_S_D : SUBS_S_D_ENC, SUBS_S_D_DESC;
def SUBS_U_B : SUBS_U_B_ENC, SUBS_U_B_DESC;
def SUBS_U_H : SUBS_U_H_ENC, SUBS_U_H_DESC;
def SUBS_U_W : SUBS_U_W_ENC, SUBS_U_W_DESC;
def SUBS_U_D : SUBS_U_D_ENC, SUBS_U_D_DESC;
def SUBSUS_U_B : SUBSUS_U_B_ENC, SUBSUS_U_B_DESC;
def SUBSUS_U_H : SUBSUS_U_H_ENC, SUBSUS_U_H_DESC;
def SUBSUS_U_W : SUBSUS_U_W_ENC, SUBSUS_U_W_DESC;
def SUBSUS_U_D : SUBSUS_U_D_ENC, SUBSUS_U_D_DESC;
def SUBSUU_S_B : SUBSUU_S_B_ENC, SUBSUU_S_B_DESC;
def SUBSUU_S_H : SUBSUU_S_H_ENC, SUBSUU_S_H_DESC;
def SUBSUU_S_W : SUBSUU_S_W_ENC, SUBSUU_S_W_DESC;
def SUBSUU_S_D : SUBSUU_S_D_ENC, SUBSUU_S_D_DESC;
def SUBV_B : SUBV_B_ENC, SUBV_B_DESC;
def SUBV_H : SUBV_H_ENC, SUBV_H_DESC;
def SUBV_W : SUBV_W_ENC, SUBV_W_DESC;
def SUBV_D : SUBV_D_ENC, SUBV_D_DESC;
def SUBVI_B : SUBVI_B_ENC, SUBVI_B_DESC;
def SUBVI_H : SUBVI_H_ENC, SUBVI_H_DESC;
def SUBVI_W : SUBVI_W_ENC, SUBVI_W_DESC;
def SUBVI_D : SUBVI_D_ENC, SUBVI_D_DESC;
def VSHF_B : VSHF_B_ENC, VSHF_B_DESC;
def VSHF_H : VSHF_H_ENC, VSHF_H_DESC;
def VSHF_W : VSHF_W_ENC, VSHF_W_DESC;
def VSHF_D : VSHF_D_ENC, VSHF_D_DESC;
def XOR_V : XOR_V_ENC, XOR_V_DESC;
def XOR_V_H_PSEUDO : XOR_V_H_PSEUDO_DESC,
PseudoInstExpansion<(XOR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def XOR_V_W_PSEUDO : XOR_V_W_PSEUDO_DESC,
PseudoInstExpansion<(XOR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def XOR_V_D_PSEUDO : XOR_V_D_PSEUDO_DESC,
PseudoInstExpansion<(XOR_V MSA128BOpnd:$wd,
MSA128BOpnd:$ws,
MSA128BOpnd:$wt)>;
def XORI_B : XORI_B_ENC, XORI_B_DESC;
// Patterns.
class MSAPat<dag pattern, dag result, list<Predicate> pred = [HasMSA]> :
Pat<pattern, result>, Requires<pred>;
def : MSAPat<(extractelt (v4i32 MSA128W:$ws), immZExt4:$idx),
(COPY_S_W MSA128W:$ws, immZExt4:$idx)>;
def : MSAPat<(v8f16 (load addrimm10:$addr)), (LD_H addrimm10:$addr)>;
def : MSAPat<(v4f32 (load addrimm10:$addr)), (LD_W addrimm10:$addr)>;
def : MSAPat<(v2f64 (load addrimm10:$addr)), (LD_D addrimm10:$addr)>;
def ST_FH : MSAPat<(store (v8f16 MSA128H:$ws), addrimm10:$addr),
(ST_H MSA128H:$ws, addrimm10:$addr)>;
def ST_FW : MSAPat<(store (v4f32 MSA128W:$ws), addrimm10:$addr),
(ST_W MSA128W:$ws, addrimm10:$addr)>;
def ST_FD : MSAPat<(store (v2f64 MSA128D:$ws), addrimm10:$addr),
(ST_D MSA128D:$ws, addrimm10:$addr)>;
class MSA_FABS_PSEUDO_DESC_BASE<RegisterOperand ROWD,
RegisterOperand ROWS = ROWD,
InstrItinClass itin = NoItinerary> :
MSAPseudo<(outs ROWD:$wd),
(ins ROWS:$ws),
[(set ROWD:$wd, (fabs ROWS:$ws))]> {
InstrItinClass Itinerary = itin;
}
def FABS_W : MSA_FABS_PSEUDO_DESC_BASE<MSA128WOpnd>,
PseudoInstExpansion<(FMAX_A_W MSA128WOpnd:$wd, MSA128WOpnd:$ws,
MSA128WOpnd:$ws)>;
def FABS_D : MSA_FABS_PSEUDO_DESC_BASE<MSA128DOpnd>,
PseudoInstExpansion<(FMAX_A_D MSA128DOpnd:$wd, MSA128DOpnd:$ws,
MSA128DOpnd:$ws)>;
class MSABitconvertPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC, list<Predicate> preds = [HasMSA]> :
MSAPat<(DstVT (bitconvert SrcVT:$src)),
(COPY_TO_REGCLASS SrcVT:$src, DstRC), preds>;
// These are endian-independent because the element size doesnt change
def : MSABitconvertPat<v8i16, v8f16, MSA128H>;
def : MSABitconvertPat<v4i32, v4f32, MSA128W>;
def : MSABitconvertPat<v2i64, v2f64, MSA128D>;
def : MSABitconvertPat<v8f16, v8i16, MSA128H>;
def : MSABitconvertPat<v4f32, v4i32, MSA128W>;
def : MSABitconvertPat<v2f64, v2i64, MSA128D>;
// Little endian bitcasts are always no-ops
def : MSABitconvertPat<v16i8, v8i16, MSA128B, [HasMSA, IsLE]>;
def : MSABitconvertPat<v16i8, v4i32, MSA128B, [HasMSA, IsLE]>;
def : MSABitconvertPat<v16i8, v2i64, MSA128B, [HasMSA, IsLE]>;
def : MSABitconvertPat<v16i8, v8f16, MSA128B, [HasMSA, IsLE]>;
def : MSABitconvertPat<v16i8, v4f32, MSA128B, [HasMSA, IsLE]>;
def : MSABitconvertPat<v16i8, v2f64, MSA128B, [HasMSA, IsLE]>;
def : MSABitconvertPat<v8i16, v16i8, MSA128H, [HasMSA, IsLE]>;
def : MSABitconvertPat<v8i16, v4i32, MSA128H, [HasMSA, IsLE]>;
def : MSABitconvertPat<v8i16, v2i64, MSA128H, [HasMSA, IsLE]>;
def : MSABitconvertPat<v8i16, v4f32, MSA128H, [HasMSA, IsLE]>;
def : MSABitconvertPat<v8i16, v2f64, MSA128H, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4i32, v16i8, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4i32, v8i16, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4i32, v2i64, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4i32, v8f16, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4i32, v2f64, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2i64, v16i8, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2i64, v8i16, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2i64, v4i32, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2i64, v8f16, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2i64, v4f32, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4f32, v16i8, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4f32, v8i16, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4f32, v2i64, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4f32, v8f16, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v4f32, v2f64, MSA128W, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2f64, v16i8, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2f64, v8i16, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2f64, v4i32, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2f64, v8f16, MSA128D, [HasMSA, IsLE]>;
def : MSABitconvertPat<v2f64, v4f32, MSA128D, [HasMSA, IsLE]>;
// Big endian bitcasts expand to shuffle instructions.
// This is because bitcast is defined to be a store/load sequence and the
// vector store/load instructions are mixed-endian with respect to the vector
// as a whole (little endian with respect to element order, but big endian
// elements).
class MSABitconvertReverseQuartersPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC, MSAInst Insn,
RegisterClass ViaRC> :
MSAPat<(DstVT (bitconvert SrcVT:$src)),
(COPY_TO_REGCLASS (Insn (COPY_TO_REGCLASS SrcVT:$src, ViaRC), 27),
DstRC),
[HasMSA, IsBE]>;
class MSABitconvertReverseHalvesPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC, MSAInst Insn,
RegisterClass ViaRC> :
MSAPat<(DstVT (bitconvert SrcVT:$src)),
(COPY_TO_REGCLASS (Insn (COPY_TO_REGCLASS SrcVT:$src, ViaRC), 177),
DstRC),
[HasMSA, IsBE]>;
class MSABitconvertReverseBInHPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC> :
MSABitconvertReverseHalvesPat<DstVT, SrcVT, DstRC, SHF_B, MSA128B>;
class MSABitconvertReverseBInWPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC> :
MSABitconvertReverseQuartersPat<DstVT, SrcVT, DstRC, SHF_B, MSA128B>;
class MSABitconvertReverseBInDPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC> :
MSAPat<(DstVT (bitconvert SrcVT:$src)),
(COPY_TO_REGCLASS
(SHF_W
(COPY_TO_REGCLASS
(SHF_B (COPY_TO_REGCLASS SrcVT:$src, MSA128B), 27),
MSA128W), 177),
DstRC),
[HasMSA, IsBE]>;
class MSABitconvertReverseHInWPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC> :
MSABitconvertReverseHalvesPat<DstVT, SrcVT, DstRC, SHF_H, MSA128H>;
class MSABitconvertReverseHInDPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC> :
MSABitconvertReverseQuartersPat<DstVT, SrcVT, DstRC, SHF_H, MSA128H>;
class MSABitconvertReverseWInDPat<ValueType DstVT, ValueType SrcVT,
RegisterClass DstRC> :
MSABitconvertReverseHalvesPat<DstVT, SrcVT, DstRC, SHF_W, MSA128W>;
def : MSABitconvertReverseBInHPat<v8i16, v16i8, MSA128H>;
def : MSABitconvertReverseBInHPat<v8f16, v16i8, MSA128H>;
def : MSABitconvertReverseBInWPat<v4i32, v16i8, MSA128W>;
def : MSABitconvertReverseBInWPat<v4f32, v16i8, MSA128W>;
def : MSABitconvertReverseBInDPat<v2i64, v16i8, MSA128D>;
def : MSABitconvertReverseBInDPat<v2f64, v16i8, MSA128D>;
def : MSABitconvertReverseBInHPat<v16i8, v8i16, MSA128B>;
def : MSABitconvertReverseHInWPat<v4i32, v8i16, MSA128W>;
def : MSABitconvertReverseHInWPat<v4f32, v8i16, MSA128W>;
def : MSABitconvertReverseHInDPat<v2i64, v8i16, MSA128D>;
def : MSABitconvertReverseHInDPat<v2f64, v8i16, MSA128D>;
def : MSABitconvertReverseBInHPat<v16i8, v8f16, MSA128B>;
def : MSABitconvertReverseHInWPat<v4i32, v8f16, MSA128W>;
def : MSABitconvertReverseHInWPat<v4f32, v8f16, MSA128W>;
def : MSABitconvertReverseHInDPat<v2i64, v8f16, MSA128D>;
def : MSABitconvertReverseHInDPat<v2f64, v8f16, MSA128D>;
def : MSABitconvertReverseBInWPat<v16i8, v4i32, MSA128B>;
def : MSABitconvertReverseHInWPat<v8i16, v4i32, MSA128H>;
def : MSABitconvertReverseHInWPat<v8f16, v4i32, MSA128H>;
def : MSABitconvertReverseWInDPat<v2i64, v4i32, MSA128D>;
def : MSABitconvertReverseWInDPat<v2f64, v4i32, MSA128D>;
def : MSABitconvertReverseBInWPat<v16i8, v4f32, MSA128B>;
def : MSABitconvertReverseHInWPat<v8i16, v4f32, MSA128H>;
def : MSABitconvertReverseHInWPat<v8f16, v4f32, MSA128H>;
def : MSABitconvertReverseWInDPat<v2i64, v4f32, MSA128D>;
def : MSABitconvertReverseWInDPat<v2f64, v4f32, MSA128D>;
def : MSABitconvertReverseBInDPat<v16i8, v2i64, MSA128B>;
def : MSABitconvertReverseHInDPat<v8i16, v2i64, MSA128H>;
def : MSABitconvertReverseHInDPat<v8f16, v2i64, MSA128H>;
def : MSABitconvertReverseWInDPat<v4i32, v2i64, MSA128W>;
def : MSABitconvertReverseWInDPat<v4f32, v2i64, MSA128W>;
def : MSABitconvertReverseBInDPat<v16i8, v2f64, MSA128B>;
def : MSABitconvertReverseHInDPat<v8i16, v2f64, MSA128H>;
def : MSABitconvertReverseHInDPat<v8f16, v2f64, MSA128H>;
def : MSABitconvertReverseWInDPat<v4i32, v2f64, MSA128W>;
def : MSABitconvertReverseWInDPat<v4f32, v2f64, MSA128W>;
// Pseudos used to implement BNZ.df, and BZ.df
class MSA_CBRANCH_PSEUDO_DESC_BASE<SDPatternOperator OpNode, ValueType TyNode,
RegisterClass RCWS,
InstrItinClass itin = NoItinerary> :
MipsPseudo<(outs GPR32:$dst),
(ins RCWS:$ws),
[(set GPR32:$dst, (OpNode (TyNode RCWS:$ws)))]> {
bit usesCustomInserter = 1;
}
def SNZ_B_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllNonZero, v16i8,
MSA128B, NoItinerary>;
def SNZ_H_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllNonZero, v8i16,
MSA128H, NoItinerary>;
def SNZ_W_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllNonZero, v4i32,
MSA128W, NoItinerary>;
def SNZ_D_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllNonZero, v2i64,
MSA128D, NoItinerary>;
def SNZ_V_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAnyNonZero, v16i8,
MSA128B, NoItinerary>;
def SZ_B_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllZero, v16i8,
MSA128B, NoItinerary>;
def SZ_H_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllZero, v8i16,
MSA128H, NoItinerary>;
def SZ_W_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllZero, v4i32,
MSA128W, NoItinerary>;
def SZ_D_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAllZero, v2i64,
MSA128D, NoItinerary>;
def SZ_V_PSEUDO : MSA_CBRANCH_PSEUDO_DESC_BASE<MipsVAnyZero, v16i8,
MSA128B, NoItinerary>;
// Vector extraction with variable index
def : MSAPat<(i32 (vextract_sext_i8 v16i8:$ws, i32:$idx)),
(SRA (COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG (SPLAT_B v16i8:$ws,
i32:$idx),
sub_lo)),
GPR32), (i32 24))>;
def : MSAPat<(i32 (vextract_sext_i16 v8i16:$ws, i32:$idx)),
(SRA (COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG (SPLAT_H v8i16:$ws,
i32:$idx),
sub_lo)),
GPR32), (i32 16))>;
def : MSAPat<(i32 (vextract_sext_i32 v4i32:$ws, i32:$idx)),
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG (SPLAT_W v4i32:$ws,
i32:$idx),
sub_lo)),
GPR32)>;
def : MSAPat<(i64 (vextract_sext_i64 v2i64:$ws, i32:$idx)),
(COPY_TO_REGCLASS (i64 (EXTRACT_SUBREG (SPLAT_D v2i64:$ws,
i32:$idx),
sub_64)),
GPR64), [HasMSA, IsGP64bit]>;
def : MSAPat<(i32 (vextract_zext_i8 v16i8:$ws, i32:$idx)),
(SRL (COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG (SPLAT_B v16i8:$ws,
i32:$idx),
sub_lo)),
GPR32), (i32 24))>;
def : MSAPat<(i32 (vextract_zext_i16 v8i16:$ws, i32:$idx)),
(SRL (COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG (SPLAT_H v8i16:$ws,
i32:$idx),
sub_lo)),
GPR32), (i32 16))>;
def : MSAPat<(i32 (vextract_zext_i32 v4i32:$ws, i32:$idx)),
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG (SPLAT_W v4i32:$ws,
i32:$idx),
sub_lo)),
GPR32)>;
def : MSAPat<(i64 (vextract_zext_i64 v2i64:$ws, i32:$idx)),
(COPY_TO_REGCLASS (i64 (EXTRACT_SUBREG (SPLAT_D v2i64:$ws,
i32:$idx),
sub_64)),
GPR64), [HasMSA, IsGP64bit]>;
def : MSAPat<(f32 (vector_extract v4f32:$ws, i32:$idx)),
(f32 (EXTRACT_SUBREG (SPLAT_W v4f32:$ws,
i32:$idx),
sub_lo))>;
def : MSAPat<(f64 (vector_extract v2f64:$ws, i32:$idx)),
(f64 (EXTRACT_SUBREG (SPLAT_D v2f64:$ws,
i32:$idx),
sub_64))>;
// Vector extraction with variable index (N64 ABI)
def : MSAPat<
(i32 (vextract_sext_i8 v16i8:$ws, i64:$idx)),
(SRA (COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG
(SPLAT_B v16i8:$ws,
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo)),
GPR32),
(i32 24))>;
def : MSAPat<
(i32 (vextract_sext_i16 v8i16:$ws, i64:$idx)),
(SRA (COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG
(SPLAT_H v8i16:$ws,
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo)),
GPR32),
(i32 16))>;
def : MSAPat<
(i32 (vextract_sext_i32 v4i32:$ws, i64:$idx)),
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG
(SPLAT_W v4i32:$ws,
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo)),
GPR32)>;
def : MSAPat<
(i64 (vextract_sext_i64 v2i64:$ws, i64:$idx)),
(COPY_TO_REGCLASS
(i64 (EXTRACT_SUBREG
(SPLAT_D v2i64:$ws,
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_64)),
GPR64), [HasMSA, IsGP64bit]>;
def : MSAPat<
(i32 (vextract_zext_i8 v16i8:$ws, i64:$idx)),
(SRL (COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG
(SPLAT_B v16i8:$ws,
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo)),
GPR32),
(i32 24))>;
def : MSAPat<
(i32 (vextract_zext_i16 v8i16:$ws, i64:$idx)),
(SRL (COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG
(SPLAT_H v8i16:$ws,
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo)),
GPR32),
(i32 16))>;
def : MSAPat<
(i32 (vextract_zext_i32 v4i32:$ws, i64:$idx)),
(COPY_TO_REGCLASS
(i32 (EXTRACT_SUBREG
(SPLAT_W v4i32:$ws,
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo)),
GPR32)>;
def : MSAPat<
(i64 (vextract_zext_i64 v2i64:$ws, i64:$idx)),
(COPY_TO_REGCLASS
(i64 (EXTRACT_SUBREG
(SPLAT_D v2i64:$ws,
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_64)),
GPR64),
[HasMSA, IsGP64bit]>;
def : MSAPat<
(f32 (vector_extract v4f32:$ws, i64:$idx)),
(f32 (EXTRACT_SUBREG
(SPLAT_W v4f32:$ws,
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_lo))>;
def : MSAPat<
(f64 (vector_extract v2f64:$ws, i64:$idx)),
(f64 (EXTRACT_SUBREG
(SPLAT_D v2f64:$ws,
(COPY_TO_REGCLASS (i32 (EXTRACT_SUBREG i64:$idx, sub_32)), GPR32)),
sub_64))>;
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