//===- 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 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 MipsFMS : SDNode<"MipsISD::FMS", SDTFPTernaryOp>; 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 immZExt1Ptr : ImmLeaf<iPTR, [{return isUInt<1>(Imm);}]>; def immZExt2Ptr : ImmLeaf<iPTR, [{return isUInt<2>(Imm);}]>; def immZExt3Ptr : ImmLeaf<iPTR, [{return isUInt<3>(Imm);}]>; def immZExt4Ptr : ImmLeaf<iPTR, [{return isUInt<4>(Imm);}]>; // Operands 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:$e0))>; def vsplati64_imm_eq_1 : PatLeaf<(bitconvert (v4i32 (build_vector))), [{ APInt Imm; SDNode *BV = N->getOperand(0).getNode(); EVT EltTy = N->getValueType(0).getVectorElementType(); return selectVSplat(BV, Imm, EltTy.getSizeInBits()) && Imm.getBitWidth() == EltTy.getSizeInBits() && Imm == 1; }]>; def vsplati64 : PatFrag<(ops node:$e0), (v2i64 (build_vector node:$e0, node:$e0))>; def vsplati64_splat_d : PatFrag<(ops node:$e0), (v2i64 (bitconvert (v4i32 (and (v4i32 (build_vector node:$e0, node:$e0, node:$e0, node:$e0)), vsplati64_imm_eq_1))))>; def vsplatf32 : PatFrag<(ops node:$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_splat_d 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_uimm3 : SplatComplexPattern<vsplat_uimm3, vAny, 1, "selectVSplatMaskL", [build_vector, bitconvert]>; def vsplat_maskl_bits_uimm4 : SplatComplexPattern<vsplat_uimm4, vAny, 1, "selectVSplatMaskL", [build_vector, bitconvert]>; def vsplat_maskl_bits_uimm5 : SplatComplexPattern<vsplat_uimm5, vAny, 1, "selectVSplatMaskL", [build_vector, bitconvert]>; def vsplat_maskl_bits_uimm6 : SplatComplexPattern<vsplat_uimm6, 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_uimm3 : SplatComplexPattern<vsplat_uimm3, vAny, 1, "selectVSplatMaskR", [build_vector, bitconvert]>; def vsplat_maskr_bits_uimm4 : SplatComplexPattern<vsplat_uimm4, vAny, 1, "selectVSplatMaskR", [build_vector, bitconvert]>; def vsplat_maskr_bits_uimm5 : SplatComplexPattern<vsplat_uimm5, vAny, 1, "selectVSplatMaskR", [build_vector, bitconvert]>; def vsplat_maskr_bits_uimm6 : SplatComplexPattern<vsplat_uimm6, 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 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:$wt))>; def muladd : PatFrag<(ops node:$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))>; // 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 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; } class MSA_BIT_X_DESC_BASE<string instr_asm, SDPatternOperator OpNode, Operand ImmOp, ImmLeaf Imm, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$wd); dag InOperandList = (ins ROWS:$ws, ImmOp:$m); string AsmString = !strconcat(instr_asm, "\t$wd, $ws, $m"); list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWS:$ws, Imm:$m))]; InstrItinClass Itinerary = itin; } class MSA_BIT_BINSXI_DESC_BASE<string instr_asm, ValueType Ty, SplatComplexPattern Mask, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$wd); dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, Mask.OpClass:$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 = $wd_in"; } class MSA_BIT_BINSLI_DESC_BASE<string instr_asm, ValueType Ty, SplatComplexPattern ImmOp, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> : MSA_BIT_BINSXI_DESC_BASE<instr_asm, Ty, ImmOp, ROWD, ROWS, itin>; class MSA_BIT_BINSRI_DESC_BASE<string instr_asm, ValueType Ty, SplatComplexPattern ImmOp, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> : MSA_BIT_BINSXI_DESC_BASE<instr_asm, Ty, ImmOp, ROWD, ROWS, itin>; class MSA_BIT_SPLAT_DESC_BASE<string instr_asm, SDPatternOperator OpNode, SplatComplexPattern SplatImm, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$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, Operand ImmOp, ImmLeaf Imm, RegisterOperand ROD, RegisterOperand ROWS, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROD:$rd); dag InOperandList = (ins ROWS:$ws, ImmOp:$n); string AsmString = !strconcat(instr_asm, "\t$rd, $ws[$n]"); list<dag> Pattern = [(set ROD:$rd, (OpNode (VecTy ROWS:$ws), Imm:$n))]; InstrItinClass Itinerary = itin; } class MSA_ELM_SLD_DESC_BASE<string instr_asm, SDPatternOperator OpNode, RegisterOperand ROWD, RegisterOperand ROWS, Operand ImmOp, ImmLeaf Imm, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$wd); dag InOperandList = (ins ROWD:$wd_in, ROWS:$ws, ImmOp:$n); string AsmString = !strconcat(instr_asm, "\t$wd, $ws[$n]"); list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in, ROWS:$ws, Imm:$n))]; string Constraints = "$wd = $wd_in"; InstrItinClass Itinerary = itin; } class MSA_COPY_PSEUDO_BASE<SDPatternOperator OpNode, ValueType VecTy, Operand ImmOp, ImmLeaf Imm, RegisterClass RCD, RegisterClass RCWS> : MSAPseudo<(outs RCD:$wd), (ins RCWS:$ws, ImmOp:$n), [(set RCD:$wd, (OpNode (VecTy RCWS:$ws), Imm:$n))]> { bit usesCustomInserter = 1; } class MSA_I5_DESC_BASE<string instr_asm, SDPatternOperator OpNode, SplatComplexPattern SplatImm, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$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, $offset"); list<dag> Pattern = []; InstrItinClass Itinerary = NoItinerary; bit isBranch = 1; bit isTerminator = 1; bit hasDelaySlot = 1; list<Register> Defs = [AT]; } class MSA_INSERT_DESC_BASE<string instr_asm, SDPatternOperator OpNode, Operand ImmOp, ImmLeaf Imm, RegisterOperand ROWD, RegisterOperand ROS, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$wd); dag InOperandList = (ins ROWD:$wd_in, ROS:$rs, ImmOp:$n); string AsmString = !strconcat(instr_asm, "\t$wd[$n], $rs"); list<dag> Pattern = [(set ROWD:$wd, (OpNode ROWD:$wd_in, ROS:$rs, Imm:$n))]; InstrItinClass Itinerary = itin; string Constraints = "$wd = $wd_in"; } class MSA_INSERT_PSEUDO_BASE<SDPatternOperator OpNode, ValueType Ty, Operand ImmOp, ImmLeaf Imm, RegisterOperand ROWD, RegisterOperand ROFS> : MSAPseudo<(outs ROWD:$wd), (ins ROWD:$wd_in, ImmOp:$n, ROFS:$fs), [(set ROWD:$wd, (OpNode (Ty ROWD:$wd_in), ROFS:$fs, Imm:$n))]> { bit usesCustomInserter = 1; string Constraints = "$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 = $wd_in"; } class MSA_INSVE_DESC_BASE<string instr_asm, SDPatternOperator OpNode, Operand ImmOp, ImmLeaf Imm, RegisterOperand ROWD, RegisterOperand ROWS = ROWD, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs ROWD:$wd); dag InOperandList = (ins ROWD:$wd_in, ImmOp:$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, Imm:$n, ROWS:$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, vsplat_maskl_bits_uimm3, MSA128BOpnd>; class BINSLI_H_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.h", v8i16, vsplat_maskl_bits_uimm4, MSA128HOpnd>; class BINSLI_W_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.w", v4i32, vsplat_maskl_bits_uimm5, MSA128WOpnd>; class BINSLI_D_DESC : MSA_BIT_BINSLI_DESC_BASE<"binsli.d", v2i64, vsplat_maskl_bits_uimm6, 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, vsplat_maskr_bits_uimm3, MSA128BOpnd>; class BINSRI_H_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.h", v8i16, vsplat_maskr_bits_uimm4, MSA128HOpnd>; class BINSRI_W_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.w", v4i32, vsplat_maskr_bits_uimm5, MSA128WOpnd>; class BINSRI_D_DESC : MSA_BIT_BINSRI_DESC_BASE<"binsri.d", v2i64, vsplat_maskr_bits_uimm6, 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; bit isMoveReg = 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, uimm4_ptr, immZExt4Ptr, GPR32Opnd, MSA128BOpnd>; class COPY_S_H_DESC : MSA_COPY_DESC_BASE<"copy_s.h", vextract_sext_i16, v8i16, uimm3_ptr, immZExt3Ptr, GPR32Opnd, MSA128HOpnd>; class COPY_S_W_DESC : MSA_COPY_DESC_BASE<"copy_s.w", vextract_sext_i32, v4i32, uimm2_ptr, immZExt2Ptr, GPR32Opnd, MSA128WOpnd>; class COPY_S_D_DESC : MSA_COPY_DESC_BASE<"copy_s.d", vextract_sext_i64, v2i64, uimm1_ptr, immZExt1Ptr, GPR64Opnd, MSA128DOpnd>; class COPY_U_B_DESC : MSA_COPY_DESC_BASE<"copy_u.b", vextract_zext_i8, v16i8, uimm4_ptr, immZExt4Ptr, GPR32Opnd, MSA128BOpnd>; class COPY_U_H_DESC : MSA_COPY_DESC_BASE<"copy_u.h", vextract_zext_i16, v8i16, uimm3_ptr, immZExt3Ptr, GPR32Opnd, MSA128HOpnd>; class COPY_U_W_DESC : MSA_COPY_DESC_BASE<"copy_u.w", vextract_zext_i32, v4i32, uimm2_ptr, immZExt2Ptr, GPR32Opnd, MSA128WOpnd>; class COPY_FW_PSEUDO_DESC : MSA_COPY_PSEUDO_BASE<vector_extract, v4f32, uimm2_ptr, immZExt2Ptr, FGR32, MSA128W>; class COPY_FD_PSEUDO_DESC : MSA_COPY_PSEUDO_BASE<vector_extract, v2f64, uimm1_ptr, immZExt1Ptr, 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; bit isMoveReg = 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", MipsFMS, MSA128WOpnd>; class FMSUB_D_DESC : MSA_3RF_4RF_DESC_BASE<"fmsub.d", MipsFMS, 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, uimm4, immZExt4Ptr, MSA128BOpnd, GPR32Opnd>; class INSERT_H_DESC : MSA_INSERT_DESC_BASE<"insert.h", vinsert_v8i16, uimm3, immZExt3Ptr, MSA128HOpnd, GPR32Opnd>; class INSERT_W_DESC : MSA_INSERT_DESC_BASE<"insert.w", vinsert_v4i32, uimm2, immZExt2Ptr, MSA128WOpnd, GPR32Opnd>; class INSERT_D_DESC : MSA_INSERT_DESC_BASE<"insert.d", vinsert_v2i64, uimm1, immZExt1Ptr, 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, uimm2, immZExt2Ptr, MSA128WOpnd, FGR32Opnd>; class INSERT_FD_PSEUDO_DESC : MSA_INSERT_PSEUDO_BASE<vector_insert, v2f64, uimm1, immZExt1Ptr, 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, uimm4, immZExt4, MSA128BOpnd>; class INSVE_H_DESC : MSA_INSVE_DESC_BASE<"insve.h", insve_v8i16, uimm3, immZExt3, MSA128HOpnd>; class INSVE_W_DESC : MSA_INSVE_DESC_BASE<"insve.w", insve_v4i32, uimm2, immZExt2, MSA128WOpnd>; class INSVE_D_DESC : MSA_INSVE_DESC_BASE<"insve.d", insve_v2i64, uimm1, immZExt1, MSA128DOpnd>; class LD_DESC_BASE<string instr_asm, SDPatternOperator OpNode, ValueType TyNode, RegisterOperand ROWD, Operand MemOpnd, 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:$addr)))]; InstrItinClass Itinerary = itin; string DecoderMethod = "DecodeMSA128Mem"; } class LD_B_DESC : LD_DESC_BASE<"ld.b", load, v16i8, MSA128BOpnd, mem_simm10>; class LD_H_DESC : LD_DESC_BASE<"ld.h", load, v8i16, MSA128HOpnd, mem_simm10_lsl1, addrimm10lsl1>; class LD_W_DESC : LD_DESC_BASE<"ld.w", load, v4i32, MSA128WOpnd, mem_simm10_lsl2, addrimm10lsl2>; class LD_D_DESC : LD_DESC_BASE<"ld.d", load, v2i64, MSA128DOpnd, mem_simm10_lsl3, addrimm10lsl3>; class LDI_B_DESC : MSA_I10_LDI_DESC_BASE<"ldi.b", MSA128BOpnd>; class LDI_H_DESC : MSA_I10_LDI_DESC_BASE<"ldi.h", MSA128HOpnd>; class LDI_W_DESC : MSA_I10_LDI_DESC_BASE<"ldi.w", MSA128WOpnd>; class LDI_D_DESC : MSA_I10_LDI_DESC_BASE<"ldi.d", MSA128DOpnd>; class LSA_DESC_BASE<string instr_asm, RegisterOperand RORD, InstrItinClass itin = NoItinerary> { dag OutOperandList = (outs RORD:$rd); dag InOperandList = (ins RORD:$rs, RORD:$rt, uimm2_plus1:$sa); string AsmString = !strconcat(instr_asm, "\t$rd, $rs, $rt, $sa"); list<dag> Pattern = [(set RORD:$rd, (add RORD:$rt, (shl RORD:$rs, immZExt2Lsa:$sa)))]; InstrItinClass Itinerary = itin; } class LSA_DESC : LSA_DESC_BASE<"lsa", GPR32Opnd, II_LSA>; class DLSA_DESC : LSA_DESC_BASE<"dlsa", GPR64Opnd, II_DLSA>; 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", smax, MSA128BOpnd>; class MAX_S_H_DESC : MSA_3R_DESC_BASE<"max_s.h", smax, MSA128HOpnd>; class MAX_S_W_DESC : MSA_3R_DESC_BASE<"max_s.w", smax, MSA128WOpnd>; class MAX_S_D_DESC : MSA_3R_DESC_BASE<"max_s.d", smax, MSA128DOpnd>; class MAX_U_B_DESC : MSA_3R_DESC_BASE<"max_u.b", umax, MSA128BOpnd>; class MAX_U_H_DESC : MSA_3R_DESC_BASE<"max_u.h", umax, MSA128HOpnd>; class MAX_U_W_DESC : MSA_3R_DESC_BASE<"max_u.w", umax, MSA128WOpnd>; class MAX_U_D_DESC : MSA_3R_DESC_BASE<"max_u.d", umax, MSA128DOpnd>; class MAXI_S_B_DESC : MSA_I5_DESC_BASE<"maxi_s.b", smax, vsplati8_simm5, MSA128BOpnd>; class MAXI_S_H_DESC : MSA_I5_DESC_BASE<"maxi_s.h", smax, vsplati16_simm5, MSA128HOpnd>; class MAXI_S_W_DESC : MSA_I5_DESC_BASE<"maxi_s.w", smax, vsplati32_simm5, MSA128WOpnd>; class MAXI_S_D_DESC : MSA_I5_DESC_BASE<"maxi_s.d", smax, vsplati64_simm5, MSA128DOpnd>; class MAXI_U_B_DESC : MSA_I5_DESC_BASE<"maxi_u.b", umax, vsplati8_uimm5, MSA128BOpnd>; class MAXI_U_H_DESC : MSA_I5_DESC_BASE<"maxi_u.h", umax, vsplati16_uimm5, MSA128HOpnd>; class MAXI_U_W_DESC : MSA_I5_DESC_BASE<"maxi_u.w", umax, vsplati32_uimm5, MSA128WOpnd>; class MAXI_U_D_DESC : MSA_I5_DESC_BASE<"maxi_u.d", umax, 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", smin, MSA128BOpnd>; class MIN_S_H_DESC : MSA_3R_DESC_BASE<"min_s.h", smin, MSA128HOpnd>; class MIN_S_W_DESC : MSA_3R_DESC_BASE<"min_s.w", smin, MSA128WOpnd>; class MIN_S_D_DESC : MSA_3R_DESC_BASE<"min_s.d", smin, MSA128DOpnd>; class MIN_U_B_DESC : MSA_3R_DESC_BASE<"min_u.b", umin, MSA128BOpnd>; class MIN_U_H_DESC : MSA_3R_DESC_BASE<"min_u.h", umin, MSA128HOpnd>; class MIN_U_W_DESC : MSA_3R_DESC_BASE<"min_u.w", umin, MSA128WOpnd>; class MIN_U_D_DESC : MSA_3R_DESC_BASE<"min_u.d", umin, MSA128DOpnd>; class MINI_S_B_DESC : MSA_I5_DESC_BASE<"mini_s.b", smin, vsplati8_simm5, MSA128BOpnd>; class MINI_S_H_DESC : MSA_I5_DESC_BASE<"mini_s.h", smin, vsplati16_simm5, MSA128HOpnd>; class MINI_S_W_DESC : MSA_I5_DESC_BASE<"mini_s.w", smin, vsplati32_simm5, MSA128WOpnd>; class MINI_S_D_DESC : MSA_I5_DESC_BASE<"mini_s.d", smin, vsplati64_simm5, MSA128DOpnd>; class MINI_U_B_DESC : MSA_I5_DESC_BASE<"mini_u.b", umin, vsplati8_uimm5, MSA128BOpnd>; class MINI_U_H_DESC : MSA_I5_DESC_BASE<"mini_u.h", umin, vsplati16_uimm5, MSA128HOpnd>; class MINI_U_W_DESC : MSA_I5_DESC_BASE<"mini_u.w", umin, vsplati32_uimm5, MSA128WOpnd>; class MINI_U_D_DESC : MSA_I5_DESC_BASE<"mini_u.d", umin, 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; bit isMoveReg = 1; } 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_X_DESC_BASE<"sat_s.b", int_mips_sat_s_b, uimm3, immZExt3, MSA128BOpnd>; class SAT_S_H_DESC : MSA_BIT_X_DESC_BASE<"sat_s.h", int_mips_sat_s_h, uimm4, immZExt4, MSA128HOpnd>; class SAT_S_W_DESC : MSA_BIT_X_DESC_BASE<"sat_s.w", int_mips_sat_s_w, uimm5, immZExt5, MSA128WOpnd>; class SAT_S_D_DESC : MSA_BIT_X_DESC_BASE<"sat_s.d", int_mips_sat_s_d, uimm6, immZExt6, MSA128DOpnd>; class SAT_U_B_DESC : MSA_BIT_X_DESC_BASE<"sat_u.b", int_mips_sat_u_b, uimm3, immZExt3, MSA128BOpnd>; class SAT_U_H_DESC : MSA_BIT_X_DESC_BASE<"sat_u.h", int_mips_sat_u_h, uimm4, immZExt4, MSA128HOpnd>; class SAT_U_W_DESC : MSA_BIT_X_DESC_BASE<"sat_u.w", int_mips_sat_u_w, uimm5, immZExt5, MSA128WOpnd>; class SAT_U_D_DESC : MSA_BIT_X_DESC_BASE<"sat_u.d", int_mips_sat_u_d, uimm6, immZExt6, 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, MSA128BOpnd, uimm4, immZExt4>; class SLDI_H_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.h", int_mips_sldi_h, MSA128HOpnd, MSA128HOpnd, uimm3, immZExt3>; class SLDI_W_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.w", int_mips_sldi_w, MSA128WOpnd, MSA128WOpnd, uimm2, immZExt2>; class SLDI_D_DESC : MSA_ELM_SLD_DESC_BASE<"sldi.d", int_mips_sldi_d, MSA128DOpnd, MSA128DOpnd, uimm1, immZExt1>; 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_X_DESC_BASE<"srari.b", int_mips_srari_b, uimm3, immZExt3, MSA128BOpnd>; class SRARI_H_DESC : MSA_BIT_X_DESC_BASE<"srari.h", int_mips_srari_h, uimm4, immZExt4, MSA128HOpnd>; class SRARI_W_DESC : MSA_BIT_X_DESC_BASE<"srari.w", int_mips_srari_w, uimm5, immZExt5, MSA128WOpnd>; class SRARI_D_DESC : MSA_BIT_X_DESC_BASE<"srari.d", int_mips_srari_d, uimm6, immZExt6, 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_X_DESC_BASE<"srlri.b", int_mips_srlri_b, uimm3, immZExt3, MSA128BOpnd>; class SRLRI_H_DESC : MSA_BIT_X_DESC_BASE<"srlri.h", int_mips_srlri_h, uimm4, immZExt4, MSA128HOpnd>; class SRLRI_W_DESC : MSA_BIT_X_DESC_BASE<"srlri.w", int_mips_srlri_w, uimm5, immZExt5, MSA128WOpnd>; class SRLRI_D_DESC : MSA_BIT_X_DESC_BASE<"srlri.d", int_mips_srlri_d, uimm6, immZExt6, MSA128DOpnd>; class ST_DESC_BASE<string instr_asm, SDPatternOperator OpNode, ValueType TyNode, RegisterOperand ROWD, Operand MemOpnd, 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, mem_simm10>; class ST_H_DESC : ST_DESC_BASE<"st.h", store, v8i16, MSA128HOpnd, mem_simm10_lsl1, addrimm10lsl1>; class ST_W_DESC : ST_DESC_BASE<"st.w", store, v4i32, MSA128WOpnd, mem_simm10_lsl2, addrimm10lsl2>; class ST_D_DESC : ST_DESC_BASE<"st.d", store, v2i64, MSA128DOpnd, mem_simm10_lsl3, addrimm10lsl3>; 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, ASE_MSA64; 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, ASE_MSA64; 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, ASE_MSA64; 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 : MipsPat<(fsub MSA128WOpnd:$wd, (fmul MSA128WOpnd:$ws, MSA128WOpnd:$wt)), (FMSUB_W MSA128WOpnd:$wd, MSA128WOpnd:$ws, MSA128WOpnd:$wt)>, ISA_MIPS1, ASE_MSA, FPOP_FUSION_FAST; def : MipsPat<(fsub MSA128DOpnd:$wd, (fmul MSA128DOpnd:$ws, MSA128DOpnd:$wt)), (FMSUB_D MSA128DOpnd:$wd, MSA128DOpnd:$ws, MSA128DOpnd:$wt)>, ISA_MIPS1, ASE_MSA, FPOP_FUSION_FAST; def : MipsPat<(fadd MSA128WOpnd:$wd, (fmul MSA128WOpnd:$ws, MSA128WOpnd:$wt)), (FMADD_W MSA128WOpnd:$wd, MSA128WOpnd:$ws, MSA128WOpnd:$wt)>, ISA_MIPS1, ASE_MSA, FPOP_FUSION_FAST; def : MipsPat<(fadd MSA128DOpnd:$wd, (fmul MSA128DOpnd:$ws, MSA128DOpnd:$wt)), (FMADD_D MSA128DOpnd:$wd, MSA128DOpnd:$ws, MSA128DOpnd:$wt)>, ISA_MIPS1, ASE_MSA, FPOP_FUSION_FAST; 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, ASE_MSA64; // 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, ASE_MSA64; 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 addrimm10lsl1:$addr)), (LD_H addrimm10lsl1:$addr)>; def : MSAPat<(v4f32 (load addrimm10lsl2:$addr)), (LD_W addrimm10lsl2:$addr)>; def : MSAPat<(v2f64 (load addrimm10lsl3:$addr)), (LD_D addrimm10lsl3:$addr)>; def ST_FH : MSAPat<(store (v8f16 MSA128H:$ws), addrimm10lsl1:$addr), (ST_H MSA128H:$ws, addrimm10lsl1:$addr)>; def ST_FW : MSAPat<(store (v4f32 MSA128W:$ws), addrimm10lsl2:$addr), (ST_W MSA128W:$ws, addrimm10lsl2:$addr)>; def ST_FD : MSAPat<(store (v2f64 MSA128D:$ws), addrimm10lsl3:$addr), (ST_D MSA128D:$ws, addrimm10lsl3:$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>; // Pseudoes used to implement transparent fp16 support. let ASEPredicate = [HasMSA] in { def ST_F16 : MipsPseudo<(outs), (ins MSA128F16:$ws, mem_simm10:$addr), [(store (f16 MSA128F16:$ws), (addrimm10:$addr))]> { let usesCustomInserter = 1; } def LD_F16 : MipsPseudo<(outs MSA128F16:$ws), (ins mem_simm10:$addr), [(set MSA128F16:$ws, (f16 (load addrimm10:$addr)))]> { let usesCustomInserter = 1; } def MSA_FP_EXTEND_W_PSEUDO : MipsPseudo<(outs FGR32Opnd:$fd), (ins MSA128F16:$ws), [(set FGR32Opnd:$fd, (f32 (fpextend MSA128F16:$ws)))]> { let usesCustomInserter = 1; } def MSA_FP_ROUND_W_PSEUDO : MipsPseudo<(outs MSA128F16:$wd), (ins FGR32Opnd:$fs), [(set MSA128F16:$wd, (f16 (fpround FGR32Opnd:$fs)))]> { let usesCustomInserter = 1; } def MSA_FP_EXTEND_D_PSEUDO : MipsPseudo<(outs FGR64Opnd:$fd), (ins MSA128F16:$ws), [(set FGR64Opnd:$fd, (f64 (fpextend MSA128F16:$ws)))]> { let usesCustomInserter = 1; } def MSA_FP_ROUND_D_PSEUDO : MipsPseudo<(outs MSA128F16:$wd), (ins FGR64Opnd:$fs), [(set MSA128F16:$wd, (f16 (fpround FGR64Opnd:$fs)))]> { let usesCustomInserter = 1; } def : MipsPat<(MipsTruncIntFP MSA128F16:$ws), (TRUNC_W_D64 (MSA_FP_EXTEND_D_PSEUDO MSA128F16:$ws))>, ISA_MIPS1, ASE_MSA; def : MipsPat<(MipsFPCmp MSA128F16:$ws, MSA128F16:$wt, imm:$cond), (FCMP_S32 (MSA_FP_EXTEND_W_PSEUDO MSA128F16:$ws), (MSA_FP_EXTEND_W_PSEUDO MSA128F16:$wt), imm:$cond)>, ISA_MIPS1_NOT_32R6_64R6, ASE_MSA; } def vsplati64_imm_eq_63 : 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 == 63; }]>; def immi32Cst7 : ImmLeaf<i32, [{return isUInt<32>(Imm) && Imm == 7;}]>; def immi32Cst15 : ImmLeaf<i32, [{return isUInt<32>(Imm) && Imm == 15;}]>; def immi32Cst31 : ImmLeaf<i32, [{return isUInt<32>(Imm) && Imm == 31;}]>; def vsplati8imm7 : PatFrag<(ops node:$wt), (and node:$wt, (vsplati8 immi32Cst7))>; def vsplati16imm15 : PatFrag<(ops node:$wt), (and node:$wt, (vsplati16 immi32Cst15))>; def vsplati32imm31 : PatFrag<(ops node:$wt), (and node:$wt, (vsplati32 immi32Cst31))>; def vsplati64imm63 : PatFrag<(ops node:$wt), (and node:$wt, vsplati64_imm_eq_63)>; class MSAShiftPat<SDNode Node, ValueType VT, MSAInst Insn, dag Vec> : MSAPat<(VT (Node VT:$ws, (VT (and VT:$wt, Vec)))), (VT (Insn VT:$ws, VT:$wt))>; class MSABitPat<SDNode Node, ValueType VT, MSAInst Insn, PatFrag Frag> : MSAPat<(VT (Node VT:$ws, (shl vsplat_imm_eq_1, (Frag VT:$wt)))), (VT (Insn VT:$ws, VT:$wt))>; multiclass MSAShiftPats<SDNode Node, string Insn> { def : MSAShiftPat<Node, v16i8, !cast<MSAInst>(Insn#_B), (vsplati8 immi32Cst7)>; def : MSAShiftPat<Node, v8i16, !cast<MSAInst>(Insn#_H), (vsplati16 immi32Cst15)>; def : MSAShiftPat<Node, v4i32, !cast<MSAInst>(Insn#_W), (vsplati32 immi32Cst31)>; def : MSAPat<(v2i64 (Node v2i64:$ws, (v2i64 (and v2i64:$wt, vsplati64_imm_eq_63)))), (v2i64 (!cast<MSAInst>(Insn#_D) v2i64:$ws, v2i64:$wt))>; } multiclass MSABitPats<SDNode Node, string Insn> { def : MSABitPat<Node, v16i8, !cast<MSAInst>(Insn#_B), vsplati8imm7>; def : MSABitPat<Node, v8i16, !cast<MSAInst>(Insn#_H), vsplati16imm15>; def : MSABitPat<Node, v4i32, !cast<MSAInst>(Insn#_W), vsplati32imm31>; def : MSAPat<(Node v2i64:$ws, (shl (v2i64 vsplati64_imm_eq_1), (vsplati64imm63 v2i64:$wt))), (v2i64 (!cast<MSAInst>(Insn#_D) v2i64:$ws, v2i64:$wt))>; } defm : MSAShiftPats<shl, "SLL">; defm : MSAShiftPats<srl, "SRL">; defm : MSAShiftPats<sra, "SRA">; defm : MSABitPats<xor, "BNEG">; defm : MSABitPats<or, "BSET">; def : MSAPat<(and v16i8:$ws, (xor (shl vsplat_imm_eq_1, (vsplati8imm7 v16i8:$wt)), immAllOnesV)), (v16i8 (BCLR_B v16i8:$ws, v16i8:$wt))>; def : MSAPat<(and v8i16:$ws, (xor (shl vsplat_imm_eq_1, (vsplati16imm15 v8i16:$wt)), immAllOnesV)), (v8i16 (BCLR_H v8i16:$ws, v8i16:$wt))>; def : MSAPat<(and v4i32:$ws, (xor (shl vsplat_imm_eq_1, (vsplati32imm31 v4i32:$wt)), immAllOnesV)), (v4i32 (BCLR_W v4i32:$ws, v4i32:$wt))>; def : MSAPat<(and v2i64:$ws, (xor (shl (v2i64 vsplati64_imm_eq_1), (vsplati64imm63 v2i64:$wt)), (bitconvert (v4i32 immAllOnesV)))), (v2i64 (BCLR_D v2i64:$ws, v2i64:$wt))>; // Vector extraction with fixed index. // // Extracting 32-bit values on MSA32 should always use COPY_S_W rather than // COPY_U_W, even for the zero-extended case. This is because our forward // compatibility strategy is to consider registers to be infinitely // sign-extended so that a MIPS64 can execute MIPS32 code without getting // different register values. def : MSAPat<(vextract_zext_i32 (v4i32 MSA128W:$ws), immZExt2Ptr:$idx), (COPY_S_W MSA128W:$ws, immZExt2:$idx)>, ASE_MSA_NOT_MSA64; def : MSAPat<(vextract_zext_i32 (v4f32 MSA128W:$ws), immZExt2Ptr:$idx), (COPY_S_W MSA128W:$ws, immZExt2:$idx)>, ASE_MSA_NOT_MSA64; // Extracting 64-bit values on MSA64 should always use COPY_S_D rather than // COPY_U_D, even for the zero-extended case. This is because our forward // compatibility strategy is to consider registers to be infinitely // sign-extended so that a hypothetical MIPS128 would be able to execute MIPS64 // code without getting different register values. def : MSAPat<(vextract_zext_i64 (v2i64 MSA128D:$ws), immZExt1Ptr:$idx), (COPY_S_D MSA128D:$ws, immZExt1:$idx)>, ASE_MSA64; def : MSAPat<(vextract_zext_i64 (v2f64 MSA128D:$ws), immZExt1Ptr:$idx), (COPY_S_D MSA128D:$ws, immZExt1:$idx)>, ASE_MSA64; // 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))>;