xref: /freebsd/contrib/llvm-project/llvm/lib/Target/AArch64/SVEInstrFormats.td (revision 271171e0d97b88ba2a7c3bf750c9672b484c1c13)
1//=-- SVEInstrFormats.td -  AArch64 SVE Instruction classes -*- tablegen -*--=//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8//
9// AArch64 Scalable Vector Extension (SVE) Instruction Class Definitions.
10//
11//===----------------------------------------------------------------------===//
12
13def SDT_AArch64Setcc : SDTypeProfile<1, 4, [
14  SDTCisVec<0>, SDTCisVec<1>, SDTCisVec<2>, SDTCisVec<3>,
15  SDTCVecEltisVT<0, i1>, SDTCVecEltisVT<1, i1>, SDTCisSameAs<2, 3>,
16  SDTCisVT<4, OtherVT>
17]>;
18
19def AArch64setcc_z : SDNode<"AArch64ISD::SETCC_MERGE_ZERO", SDT_AArch64Setcc>;
20
21def SVEPatternOperand : AsmOperandClass {
22  let Name = "SVEPattern";
23  let ParserMethod = "tryParseSVEPattern";
24  let PredicateMethod = "isSVEPattern";
25  let RenderMethod = "addImmOperands";
26  let DiagnosticType = "InvalidSVEPattern";
27}
28
29def sve_pred_enum : Operand<i32>, TImmLeaf<i32, [{
30  return (((uint32_t)Imm) < 32);
31  }]> {
32
33  let PrintMethod = "printSVEPattern";
34  let ParserMatchClass = SVEPatternOperand;
35}
36
37def SVEPrefetchOperand : AsmOperandClass {
38  let Name = "SVEPrefetch";
39  let ParserMethod = "tryParsePrefetch<true>";
40  let PredicateMethod = "isPrefetch";
41  let RenderMethod = "addPrefetchOperands";
42}
43
44def sve_prfop : Operand<i32>, TImmLeaf<i32, [{
45    return (((uint32_t)Imm) <= 15);
46  }]> {
47  let PrintMethod = "printPrefetchOp<true>";
48  let ParserMatchClass = SVEPrefetchOperand;
49}
50
51class SVELogicalImmOperand<int Width> : AsmOperandClass {
52  let Name = "SVELogicalImm" # Width;
53  let DiagnosticType = "LogicalSecondSource";
54  let PredicateMethod = "isLogicalImm<int" # Width # "_t>";
55  let RenderMethod = "addLogicalImmOperands<int" # Width # "_t>";
56}
57
58def sve_logical_imm8 : Operand<i64> {
59  let ParserMatchClass = SVELogicalImmOperand<8>;
60  let PrintMethod = "printLogicalImm<int8_t>";
61
62  let MCOperandPredicate = [{
63    if (!MCOp.isImm())
64      return false;
65    int64_t Val = AArch64_AM::decodeLogicalImmediate(MCOp.getImm(), 64);
66    return AArch64_AM::isSVEMaskOfIdenticalElements<int8_t>(Val);
67  }];
68}
69
70def sve_logical_imm16 : Operand<i64> {
71  let ParserMatchClass = SVELogicalImmOperand<16>;
72  let PrintMethod = "printLogicalImm<int16_t>";
73
74  let MCOperandPredicate = [{
75    if (!MCOp.isImm())
76      return false;
77    int64_t Val = AArch64_AM::decodeLogicalImmediate(MCOp.getImm(), 64);
78    return AArch64_AM::isSVEMaskOfIdenticalElements<int16_t>(Val);
79  }];
80}
81
82def sve_logical_imm32 : Operand<i64> {
83  let ParserMatchClass = SVELogicalImmOperand<32>;
84  let PrintMethod = "printLogicalImm<int32_t>";
85
86  let MCOperandPredicate = [{
87    if (!MCOp.isImm())
88      return false;
89    int64_t Val = AArch64_AM::decodeLogicalImmediate(MCOp.getImm(), 64);
90    return AArch64_AM::isSVEMaskOfIdenticalElements<int32_t>(Val);
91  }];
92}
93
94class SVEPreferredLogicalImmOperand<int Width> : AsmOperandClass {
95  let Name = "SVEPreferredLogicalImm" # Width;
96  let PredicateMethod = "isSVEPreferredLogicalImm<int" # Width # "_t>";
97  let RenderMethod = "addLogicalImmOperands<int" # Width # "_t>";
98}
99
100def sve_preferred_logical_imm16 : Operand<i64> {
101  let ParserMatchClass = SVEPreferredLogicalImmOperand<16>;
102  let PrintMethod = "printSVELogicalImm<int16_t>";
103
104  let MCOperandPredicate = [{
105    if (!MCOp.isImm())
106      return false;
107    int64_t Val = AArch64_AM::decodeLogicalImmediate(MCOp.getImm(), 64);
108    return AArch64_AM::isSVEMaskOfIdenticalElements<int16_t>(Val) &&
109           AArch64_AM::isSVEMoveMaskPreferredLogicalImmediate(Val);
110  }];
111}
112
113def sve_preferred_logical_imm32 : Operand<i64> {
114  let ParserMatchClass =  SVEPreferredLogicalImmOperand<32>;
115  let PrintMethod = "printSVELogicalImm<int32_t>";
116
117  let MCOperandPredicate = [{
118    if (!MCOp.isImm())
119      return false;
120    int64_t Val = AArch64_AM::decodeLogicalImmediate(MCOp.getImm(), 64);
121    return AArch64_AM::isSVEMaskOfIdenticalElements<int32_t>(Val) &&
122           AArch64_AM::isSVEMoveMaskPreferredLogicalImmediate(Val);
123  }];
124}
125
126def sve_preferred_logical_imm64 : Operand<i64> {
127  let ParserMatchClass = SVEPreferredLogicalImmOperand<64>;
128  let PrintMethod = "printSVELogicalImm<int64_t>";
129
130  let MCOperandPredicate = [{
131    if (!MCOp.isImm())
132      return false;
133    int64_t Val = AArch64_AM::decodeLogicalImmediate(MCOp.getImm(), 64);
134    return AArch64_AM::isSVEMaskOfIdenticalElements<int64_t>(Val) &&
135           AArch64_AM::isSVEMoveMaskPreferredLogicalImmediate(Val);
136  }];
137}
138
139class SVELogicalImmNotOperand<int Width> : AsmOperandClass {
140  let Name = "SVELogicalImm" # Width # "Not";
141  let DiagnosticType = "LogicalSecondSource";
142  let PredicateMethod = "isLogicalImm<int" # Width # "_t>";
143  let RenderMethod = "addLogicalImmNotOperands<int" # Width # "_t>";
144}
145
146def sve_logical_imm8_not : Operand<i64> {
147  let ParserMatchClass = SVELogicalImmNotOperand<8>;
148}
149
150def sve_logical_imm16_not : Operand<i64> {
151  let ParserMatchClass = SVELogicalImmNotOperand<16>;
152}
153
154def sve_logical_imm32_not : Operand<i64> {
155  let ParserMatchClass = SVELogicalImmNotOperand<32>;
156}
157
158class SVEShiftedImmOperand<int ElementWidth, string Infix, string Predicate>
159    : AsmOperandClass {
160  let Name = "SVE" # Infix # "Imm" # ElementWidth;
161  let DiagnosticType = "Invalid" # Name;
162  let RenderMethod = "addImmWithOptionalShiftOperands<8>";
163  let ParserMethod = "tryParseImmWithOptionalShift";
164  let PredicateMethod = Predicate;
165}
166
167def SVECpyImmOperand8  : SVEShiftedImmOperand<8,  "Cpy", "isSVECpyImm<int8_t>">;
168def SVECpyImmOperand16 : SVEShiftedImmOperand<16, "Cpy", "isSVECpyImm<int16_t>">;
169def SVECpyImmOperand32 : SVEShiftedImmOperand<32, "Cpy", "isSVECpyImm<int32_t>">;
170def SVECpyImmOperand64 : SVEShiftedImmOperand<64, "Cpy", "isSVECpyImm<int64_t>">;
171
172def SVEAddSubImmOperand8  : SVEShiftedImmOperand<8,  "AddSub", "isSVEAddSubImm<int8_t>">;
173def SVEAddSubImmOperand16 : SVEShiftedImmOperand<16, "AddSub", "isSVEAddSubImm<int16_t>">;
174def SVEAddSubImmOperand32 : SVEShiftedImmOperand<32, "AddSub", "isSVEAddSubImm<int32_t>">;
175def SVEAddSubImmOperand64 : SVEShiftedImmOperand<64, "AddSub", "isSVEAddSubImm<int64_t>">;
176
177class imm8_opt_lsl<int ElementWidth, string printType,
178                   AsmOperandClass OpndClass>
179    : Operand<i32> {
180  let EncoderMethod = "getImm8OptLsl";
181  let DecoderMethod = "DecodeImm8OptLsl<" # ElementWidth # ">";
182  let PrintMethod = "printImm8OptLsl<" # printType # ">";
183  let ParserMatchClass = OpndClass;
184  let MIOperandInfo = (ops i32imm, i32imm);
185}
186
187def cpy_imm8_opt_lsl_i8  : imm8_opt_lsl<8,  "int8_t",  SVECpyImmOperand8>;
188def cpy_imm8_opt_lsl_i16 : imm8_opt_lsl<16, "int16_t", SVECpyImmOperand16>;
189def cpy_imm8_opt_lsl_i32 : imm8_opt_lsl<32, "int32_t", SVECpyImmOperand32>;
190def cpy_imm8_opt_lsl_i64 : imm8_opt_lsl<64, "int64_t", SVECpyImmOperand64>;
191
192def addsub_imm8_opt_lsl_i8  : imm8_opt_lsl<8,  "uint8_t",  SVEAddSubImmOperand8>;
193def addsub_imm8_opt_lsl_i16 : imm8_opt_lsl<16, "uint16_t", SVEAddSubImmOperand16>;
194def addsub_imm8_opt_lsl_i32 : imm8_opt_lsl<32, "uint32_t", SVEAddSubImmOperand32>;
195def addsub_imm8_opt_lsl_i64 : imm8_opt_lsl<64, "uint64_t", SVEAddSubImmOperand64>;
196
197def SVEAddSubImm8Pat  : ComplexPattern<i32, 2, "SelectSVEAddSubImm<MVT::i8>", []>;
198def SVEAddSubImm16Pat : ComplexPattern<i32, 2, "SelectSVEAddSubImm<MVT::i16>", []>;
199def SVEAddSubImm32Pat : ComplexPattern<i32, 2, "SelectSVEAddSubImm<MVT::i32>", []>;
200def SVEAddSubImm64Pat : ComplexPattern<i64, 2, "SelectSVEAddSubImm<MVT::i64>", []>;
201
202def SVELogicalImm8Pat  : ComplexPattern<i32, 1, "SelectSVELogicalImm<MVT::i8>", []>;
203def SVELogicalImm16Pat : ComplexPattern<i32, 1, "SelectSVELogicalImm<MVT::i16>", []>;
204def SVELogicalImm32Pat : ComplexPattern<i32, 1, "SelectSVELogicalImm<MVT::i32>", []>;
205def SVELogicalImm64Pat : ComplexPattern<i64, 1, "SelectSVELogicalImm<MVT::i64>", []>;
206
207def SVELogicalImm8NotPat  : ComplexPattern<i32, 1, "SelectSVELogicalImm<MVT::i8, true>", []>;
208def SVELogicalImm16NotPat : ComplexPattern<i32, 1, "SelectSVELogicalImm<MVT::i16, true>", []>;
209def SVELogicalImm32NotPat : ComplexPattern<i32, 1, "SelectSVELogicalImm<MVT::i32, true>", []>;
210def SVELogicalImm64NotPat : ComplexPattern<i64, 1, "SelectSVELogicalImm<MVT::i64, true>", []>;
211
212def SVE8BitLslImm32 : ComplexPattern<i32, 2, "SelectSVE8BitLslImm", [imm]>;
213def SVE8BitLslImm64 : ComplexPattern<i64, 2, "SelectSVE8BitLslImm", [imm]>;
214class SVE8BitLslImm<ValueType ty> {
215  ComplexPattern Pat = !cond(
216    !eq(ty, i32): SVE8BitLslImm32,
217    !eq(ty, i64): SVE8BitLslImm64);
218}
219
220def SVEArithUImm8Pat  : ComplexPattern<i32, 1, "SelectSVEArithImm<MVT::i8>", []>;
221def SVEArithUImm16Pat  : ComplexPattern<i32, 1, "SelectSVEArithImm<MVT::i16>", []>;
222def SVEArithUImm32Pat  : ComplexPattern<i32, 1, "SelectSVEArithImm<MVT::i32>", []>;
223def SVEArithUImm64Pat  : ComplexPattern<i64, 1, "SelectSVEArithImm<MVT::i64>", []>;
224
225def SVEArithSImmPat32 : ComplexPattern<i32, 1, "SelectSVESignedArithImm", []>;
226def SVEArithSImmPat64 : ComplexPattern<i64, 1, "SelectSVESignedArithImm", []>;
227
228def SVEShiftImmL8  : ComplexPattern<i32, 1, "SelectSVEShiftImm<0, 7>",  []>;
229def SVEShiftImmL16 : ComplexPattern<i32, 1, "SelectSVEShiftImm<0, 15>", []>;
230def SVEShiftImmL32 : ComplexPattern<i32, 1, "SelectSVEShiftImm<0, 31>", []>;
231def SVEShiftImmL64 : ComplexPattern<i64, 1, "SelectSVEShiftImm<0, 63>", []>;
232def SVEShiftImmR8  : ComplexPattern<i32, 1, "SelectSVEShiftImm<1, 8,  true>", []>;
233def SVEShiftImmR16 : ComplexPattern<i32, 1, "SelectSVEShiftImm<1, 16, true>", []>;
234def SVEShiftImmR32 : ComplexPattern<i32, 1, "SelectSVEShiftImm<1, 32, true>", []>;
235def SVEShiftImmR64 : ComplexPattern<i64, 1, "SelectSVEShiftImm<1, 64, true>", []>;
236
237def SVEAllActive : ComplexPattern<untyped, 0, "SelectAllActivePredicate", []>;
238
239class SVEExactFPImm<string Suffix, string ValA, string ValB> : AsmOperandClass {
240  let Name = "SVEExactFPImmOperand" # Suffix;
241  let DiagnosticType = "Invalid" # Name;
242  let ParserMethod = "tryParseFPImm<false>";
243  let PredicateMethod = "isExactFPImm<" # ValA # ", " # ValB # ">";
244  let RenderMethod = "addExactFPImmOperands<" # ValA # ", " # ValB # ">";
245}
246
247class SVEExactFPImmOperand<string Suffix, string ValA, string ValB> : Operand<i32> {
248  let PrintMethod = "printExactFPImm<" # ValA # ", " # ValB # ">";
249  let ParserMatchClass = SVEExactFPImm<Suffix, ValA, ValB>;
250}
251
252def sve_fpimm_half_one
253    : SVEExactFPImmOperand<"HalfOne", "AArch64ExactFPImm::half",
254                           "AArch64ExactFPImm::one">;
255def sve_fpimm_half_two
256    : SVEExactFPImmOperand<"HalfTwo", "AArch64ExactFPImm::half",
257                           "AArch64ExactFPImm::two">;
258def sve_fpimm_zero_one
259    : SVEExactFPImmOperand<"ZeroOne", "AArch64ExactFPImm::zero",
260                           "AArch64ExactFPImm::one">;
261
262def sve_incdec_imm : Operand<i32>, TImmLeaf<i32, [{
263  return (((uint32_t)Imm) > 0) && (((uint32_t)Imm) < 17);
264}]> {
265  let ParserMatchClass = Imm1_16Operand;
266  let EncoderMethod = "getSVEIncDecImm";
267  let DecoderMethod = "DecodeSVEIncDecImm";
268}
269
270// This allows i32 immediate extraction from i64 based arithmetic.
271def sve_cnt_mul_imm_i32 : ComplexPattern<i32, 1, "SelectCntImm<1, 16, 1, false>">;
272def sve_cnt_mul_imm_i64 : ComplexPattern<i64, 1, "SelectCntImm<1, 16, 1, false>">;
273def sve_cnt_shl_imm     : ComplexPattern<i64, 1, "SelectCntImm<1, 16, 1, true>">;
274
275def sve_ext_imm_0_31  : ComplexPattern<i64, 1, "SelectEXTImm<31, 8>">;
276def sve_ext_imm_0_63  : ComplexPattern<i64, 1, "SelectEXTImm<63, 4>">;
277def sve_ext_imm_0_127 : ComplexPattern<i64, 1, "SelectEXTImm<127, 2>">;
278def sve_ext_imm_0_255 : ComplexPattern<i64, 1, "SelectEXTImm<255, 1>">;
279
280def int_aarch64_sve_cntp_oneuse : PatFrag<(ops node:$pred, node:$src2),
281                                          (int_aarch64_sve_cntp node:$pred, node:$src2), [{
282  return N->hasOneUse();
283}]>;
284
285def step_vector_oneuse : PatFrag<(ops node:$idx),
286                                 (step_vector node:$idx), [{
287  return N->hasOneUse();
288}]>;
289
290
291//===----------------------------------------------------------------------===//
292// SVE PTrue - These are used extensively throughout the pattern matching so
293//             it's important we define them first.
294//===----------------------------------------------------------------------===//
295
296class sve_int_ptrue<bits<2> sz8_64, bits<3> opc, string asm, PPRRegOp pprty,
297                    ValueType vt, SDPatternOperator op>
298: I<(outs pprty:$Pd), (ins sve_pred_enum:$pattern),
299  asm, "\t$Pd, $pattern",
300  "",
301  [(set (vt pprty:$Pd), (op sve_pred_enum:$pattern))]>, Sched<[]> {
302  bits<4> Pd;
303  bits<5> pattern;
304  let Inst{31-24} = 0b00100101;
305  let Inst{23-22} = sz8_64;
306  let Inst{21-19} = 0b011;
307  let Inst{18-17} = opc{2-1};
308  let Inst{16}    = opc{0};
309  let Inst{15-10} = 0b111000;
310  let Inst{9-5}   = pattern;
311  let Inst{4}     = 0b0;
312  let Inst{3-0}   = Pd;
313
314  let Defs = !if(!eq (opc{0}, 1), [NZCV], []);
315  let ElementSize = pprty.ElementSize;
316  let isReMaterializable = 1;
317}
318
319multiclass sve_int_ptrue<bits<3> opc, string asm, SDPatternOperator op> {
320  def _B : sve_int_ptrue<0b00, opc, asm, PPR8, nxv16i1, op>;
321  def _H : sve_int_ptrue<0b01, opc, asm, PPR16, nxv8i1, op>;
322  def _S : sve_int_ptrue<0b10, opc, asm, PPR32, nxv4i1, op>;
323  def _D : sve_int_ptrue<0b11, opc, asm, PPR64, nxv2i1, op>;
324
325  def : InstAlias<asm # "\t$Pd",
326                  (!cast<Instruction>(NAME # _B) PPR8:$Pd, 0b11111), 1>;
327  def : InstAlias<asm # "\t$Pd",
328                  (!cast<Instruction>(NAME # _H) PPR16:$Pd, 0b11111), 1>;
329  def : InstAlias<asm # "\t$Pd",
330                  (!cast<Instruction>(NAME # _S) PPR32:$Pd, 0b11111), 1>;
331  def : InstAlias<asm # "\t$Pd",
332                  (!cast<Instruction>(NAME # _D) PPR64:$Pd, 0b11111), 1>;
333}
334
335def SDT_AArch64PTrue : SDTypeProfile<1, 1, [SDTCisVec<0>, SDTCisVT<1, i32>]>;
336def AArch64ptrue : SDNode<"AArch64ISD::PTRUE", SDT_AArch64PTrue>;
337
338let Predicates = [HasSVEorStreamingSVE] in {
339  defm PTRUE  : sve_int_ptrue<0b000, "ptrue", AArch64ptrue>;
340  defm PTRUES : sve_int_ptrue<0b001, "ptrues", null_frag>;
341}
342
343//===----------------------------------------------------------------------===//
344// SVE pattern match helpers.
345//===----------------------------------------------------------------------===//
346
347class SVE_1_Op_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
348                   Instruction inst>
349: Pat<(vtd (op vt1:$Op1)),
350      (inst $Op1)>;
351
352class SVE_1_Op_Passthru_Pat<ValueType vtd, SDPatternOperator op, ValueType pg,
353                            ValueType vts, Instruction inst>
354: Pat<(vtd (op pg:$Op1, vts:$Op2, vtd:$Op3)),
355      (inst $Op3, $Op1, $Op2)>;
356
357
358multiclass SVE_1_Op_PassthruUndef_Pat<ValueType vtd, SDPatternOperator op, ValueType pg,
359                                 ValueType vts, Instruction inst> {
360  def : Pat<(vtd (op pg:$Op1, vts:$Op2, (vtd undef))),
361            (inst (IMPLICIT_DEF), $Op1, $Op2)>;
362  def : Pat<(vtd (op (pg (SVEAllActive:$Op1)), vts:$Op2, vtd:$Op3)),
363            (inst $Op3, $Op1, $Op2)>;
364}
365
366// Used to match FP_ROUND_MERGE_PASSTHRU, which has an additional flag for the
367// type of rounding. This is matched by timm0_1 in pattern below and ignored.
368class SVE_1_Op_Passthru_Round_Pat<ValueType vtd, SDPatternOperator op, ValueType pg,
369                                  ValueType vts, Instruction inst>
370: Pat<(vtd (op pg:$Op1, vts:$Op2, (i64 timm0_1), vtd:$Op3)),
371      (inst $Op3, $Op1, $Op2)>;
372
373multiclass SVE_1_Op_PassthruUndef_Round_Pat<ValueType vtd, SDPatternOperator op, ValueType pg,
374                                  ValueType vts, Instruction inst>{
375  def : Pat<(vtd (op pg:$Op1, vts:$Op2, (i64 timm0_1), (vtd undef))),
376            (inst (IMPLICIT_DEF), $Op1, $Op2)>;
377  def : Pat<(vtd (op (pg (SVEAllActive:$Op1)), vts:$Op2, (i64 timm0_1), vtd:$Op3)),
378            (inst $Op3, $Op1, $Op2)>;
379}
380
381class SVE_1_Op_Imm_OptLsl_Reverse_Pat<ValueType vt, SDPatternOperator op, ZPRRegOp zprty,
382                                      ValueType it, ComplexPattern cpx, Instruction inst>
383  : Pat<(vt (op (vt (AArch64dup (it (cpx i32:$imm, i32:$shift)))), (vt zprty:$Op1))),
384        (inst $Op1, i32:$imm, i32:$shift)>;
385
386class SVE_1_Op_Imm_OptLsl_Pat<ValueType vt, SDPatternOperator op, ZPRRegOp zprty,
387                              ValueType it, ComplexPattern cpx, Instruction inst>
388  : Pat<(vt (op (vt zprty:$Op1), (vt (AArch64dup (it (cpx i32:$imm, i32:$shift)))))),
389        (inst $Op1, i32:$imm, i32:$shift)>;
390
391class SVE_1_Op_Imm_Arith_All_Active<ValueType vt, ValueType pt, SDPatternOperator op,
392                                  ZPRRegOp zprty, ValueType it, ComplexPattern cpx, Instruction inst>
393  : Pat<(vt (op (pt (SVEAllActive)), (vt zprty:$Op1), (vt (AArch64dup (it (cpx i32:$imm)))))),
394        (inst $Op1, i32:$imm)>;
395
396class SVE_1_Op_Imm_Log_Pat<ValueType vt, SDPatternOperator op, ZPRRegOp zprty,
397                           ValueType it, ComplexPattern cpx, Instruction inst>
398  : Pat<(vt (op (vt zprty:$Op1), (vt (AArch64dup (it (cpx i64:$imm)))))),
399        (inst $Op1, i64:$imm)>;
400
401class SVE_2_Op_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
402                   ValueType vt2, Instruction inst>
403: Pat<(vtd (op vt1:$Op1, vt2:$Op2)),
404      (inst $Op1, $Op2)>;
405
406class SVE_2_Op_Pred_All_Active<ValueType vtd, SDPatternOperator op,
407                               ValueType pt, ValueType vt1, ValueType vt2,
408                               Instruction inst>
409: Pat<(vtd (op (pt (SVEAllActive)), vt1:$Op1, vt2:$Op2)),
410      (inst $Op1, $Op2)>;
411
412class SVE_2_Op_Pred_All_Active_Pt<ValueType vtd, SDPatternOperator op,
413                                  ValueType pt, ValueType vt1, ValueType vt2,
414                                  Instruction inst>
415: Pat<(vtd (op (pt (SVEAllActive:$Op1)), vt1:$Op2, vt2:$Op3)),
416      (inst $Op1, $Op2, $Op3)>;
417
418class SVE_3_Op_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
419                   ValueType vt2, ValueType vt3, Instruction inst>
420: Pat<(vtd (op vt1:$Op1, vt2:$Op2, vt3:$Op3)),
421      (inst $Op1, $Op2, $Op3)>;
422
423multiclass SVE_3_Op_Undef_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
424                              ValueType vt2, ValueType vt3, Instruction inst> {
425  def : Pat<(vtd (op (vt1 undef), vt2:$Op1, vt3:$Op2)),
426            (inst (IMPLICIT_DEF), $Op1, $Op2)>;
427  def : Pat<(vtd (op vt1:$Op1, (vt2 (SVEAllActive:$Op2)), vt3:$Op3)),
428            (inst $Op1, $Op2, $Op3)>;
429}
430
431class SVE_4_Op_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
432                   ValueType vt2, ValueType vt3, ValueType vt4,
433                   Instruction inst>
434: Pat<(vtd (op vt1:$Op1, vt2:$Op2, vt3:$Op3, vt4:$Op4)),
435      (inst $Op1, $Op2, $Op3, $Op4)>;
436
437class SVE_2_Op_Imm_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
438                       ValueType vt2, Operand ImmTy, Instruction inst>
439: Pat<(vtd (op vt1:$Op1, (vt2 ImmTy:$Op2))),
440      (inst $Op1, ImmTy:$Op2)>;
441
442class SVE_3_Op_Imm_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
443                       ValueType vt2, ValueType vt3, Operand ImmTy,
444                       Instruction inst>
445: Pat<(vtd (op vt1:$Op1, vt2:$Op2, (vt3 ImmTy:$Op3))),
446      (inst $Op1, $Op2, ImmTy:$Op3)>;
447
448class SVE_4_Op_Imm_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
449                       ValueType vt2, ValueType vt3, ValueType vt4,
450                       Operand ImmTy, Instruction inst>
451: Pat<(vtd (op vt1:$Op1, vt2:$Op2, vt3:$Op3, (vt4 ImmTy:$Op4))),
452      (inst $Op1, $Op2, $Op3, ImmTy:$Op4)>;
453
454def SVEDup0 : ComplexPattern<vAny, 0, "SelectDupZero", []>;
455def SVEDup0Undef : ComplexPattern<vAny, 0, "SelectDupZeroOrUndef", []>;
456
457let AddedComplexity = 1 in {
458class SVE_3_Op_Pat_SelZero<ValueType vtd, SDPatternOperator op, ValueType vt1,
459                   ValueType vt2, ValueType vt3, Instruction inst>
460: Pat<(vtd (vtd (op vt1:$Op1, (vselect vt1:$Op1, vt2:$Op2, (SVEDup0)), vt3:$Op3))),
461      (inst $Op1, $Op2, $Op3)>;
462
463class SVE_3_Op_Pat_Shift_Imm_SelZero<ValueType vtd, SDPatternOperator op,
464                                     ValueType vt1, ValueType vt2,
465                                     Operand vt3, Instruction inst>
466: Pat<(vtd (op vt1:$Op1, (vselect vt1:$Op1, vt2:$Op2, (SVEDup0)), (i32 (vt3:$Op3)))),
467      (inst $Op1, $Op2, vt3:$Op3)>;
468}
469
470//
471// Common but less generic patterns.
472//
473
474class SVE_1_Op_AllActive_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
475                             Instruction inst, Instruction ptrue>
476: Pat<(vtd (op vt1:$Op1)),
477      (inst (IMPLICIT_DEF), (ptrue 31), $Op1)>;
478
479class SVE_2_Op_AllActive_Pat<ValueType vtd, SDPatternOperator op, ValueType vt1,
480                             ValueType vt2, Instruction inst, Instruction ptrue>
481: Pat<(vtd (op vt1:$Op1, vt2:$Op2)),
482      (inst (ptrue 31), $Op1, $Op2)>;
483
484class SVE_InReg_Extend<ValueType vt, SDPatternOperator op, ValueType pt,
485                       ValueType inreg_vt, Instruction inst>
486: Pat<(vt (op pt:$Pg, vt:$Src, inreg_vt, vt:$PassThru)),
487      (inst $PassThru, $Pg, $Src)>;
488
489multiclass SVE_InReg_Extend_PassthruUndef<ValueType vt, SDPatternOperator op, ValueType pt,
490                                          ValueType inreg_vt, Instruction inst> {
491  def : Pat<(vt (op pt:$Pg, vt:$Src, inreg_vt, (vt undef))),
492            (inst (IMPLICIT_DEF), $Pg, $Src)>;
493  def : Pat<(vt (op (pt (SVEAllActive:$Pg)), vt:$Src, inreg_vt, vt:$PassThru)),
494            (inst $PassThru, $Pg, $Src)>;
495}
496
497class SVE_Shift_DupImm_Pred_Pat<ValueType vt, SDPatternOperator op,
498                                ValueType pt, ValueType it,
499                                ComplexPattern cast, Instruction inst>
500: Pat<(vt (op pt:$Pg, vt:$Rn, (vt (AArch64dup (it (cast i32:$imm)))))),
501      (inst $Pg, $Rn, i32:$imm)>;
502
503class SVE_Shift_DupImm_All_Active_Pat<ValueType vt, SDPatternOperator op,
504                                      ValueType pt, ValueType it,
505                                      ComplexPattern cast, Instruction inst>
506: Pat<(vt (op (pt (SVEAllActive)), vt:$Rn, (vt (AArch64dup (it (cast i32:$imm)))))),
507      (inst $Rn, i32:$imm)>;
508
509class SVE_2_Op_Fp_Imm_Pat<ValueType vt, SDPatternOperator op,
510                          ValueType pt, ValueType it,
511                          FPImmLeaf immL, int imm,
512                          Instruction inst>
513: Pat<(vt (op (pt PPR_3b:$Pg), (vt ZPR:$Zs1), (vt (AArch64dup (it immL))))),
514      (inst $Pg, $Zs1, imm)>;
515
516class SVE_2_Op_Fp_Imm_Pat_Zero<ValueType vt, SDPatternOperator op,
517                              ValueType pt, ValueType it,
518                              FPImmLeaf immL, int imm,
519                              Instruction inst>
520: Pat<(vt (op pt:$Pg, (vselect pt:$Pg, vt:$Zs1, (SVEDup0)),
521                      (vt (AArch64dup (it immL))))),
522      (inst $Pg, $Zs1, imm)>;
523
524//
525// Pseudo -> Instruction mappings
526//
527def getSVEPseudoMap : InstrMapping {
528  let FilterClass = "SVEPseudo2Instr";
529  let RowFields = ["PseudoName"];
530  let ColFields = ["IsInstr"];
531  let KeyCol = ["0"];
532  let ValueCols = [["1"]];
533}
534
535class SVEPseudo2Instr<string name, bit instr> {
536  string PseudoName = name;
537  bit IsInstr = instr;
538}
539
540// Lookup e.g. DIV -> DIVR
541def getSVERevInstr : InstrMapping {
542  let FilterClass = "SVEInstr2Rev";
543  let RowFields = ["InstrName"];
544  let ColFields = ["isReverseInstr"];
545  let KeyCol = ["0"];
546  let ValueCols = [["1"]];
547}
548
549// Lookup e.g. DIVR -> DIV
550def getSVENonRevInstr : InstrMapping {
551  let FilterClass = "SVEInstr2Rev";
552  let RowFields = ["InstrName"];
553  let ColFields = ["isReverseInstr"];
554  let KeyCol = ["1"];
555  let ValueCols = [["0"]];
556}
557
558class SVEInstr2Rev<string name1, string name2, bit name1IsReverseInstr> {
559  string InstrName = !if(name1IsReverseInstr, name1, name2);
560  bit isReverseInstr = name1IsReverseInstr;
561}
562
563//
564// Pseudos for destructive operands
565//
566let hasNoSchedulingInfo = 1 in {
567  class PredTwoOpPseudo<string name, ZPRRegOp zprty,
568                        FalseLanesEnum flags = FalseLanesNone>
569  : SVEPseudo2Instr<name, 0>,
570    Pseudo<(outs zprty:$Zd), (ins PPR3bAny:$Pg, zprty:$Zs1, zprty:$Zs2), []> {
571    let FalseLanes = flags;
572  }
573
574  class PredTwoOpImmPseudo<string name, ZPRRegOp zprty, Operand immty,
575                           FalseLanesEnum flags = FalseLanesNone>
576  : SVEPseudo2Instr<name, 0>,
577    Pseudo<(outs zprty:$Zd), (ins PPR3bAny:$Pg, zprty:$Zs1, immty:$imm), []> {
578    let FalseLanes = flags;
579  }
580
581  class PredThreeOpPseudo<string name, ZPRRegOp zprty,
582                          FalseLanesEnum flags = FalseLanesNone>
583  : SVEPseudo2Instr<name, 0>,
584    Pseudo<(outs zprty:$Zd), (ins PPR3bAny:$Pg, zprty:$Zs1, zprty:$Zs2, zprty:$Zs3), []> {
585    let FalseLanes = flags;
586  }
587}
588
589//
590// Pseudos for passthru operands
591//
592let hasNoSchedulingInfo = 1 in {
593  class PredOneOpPassthruPseudo<string name, ZPRRegOp zprty>
594  : SVEPseudo2Instr<name, 0>,
595    Pseudo<(outs zprty:$Zd), (ins zprty:$Passthru, PPR3bAny:$Pg, zprty:$Zs), []>;
596}
597
598//===----------------------------------------------------------------------===//
599// SVE Predicate Misc Group
600//===----------------------------------------------------------------------===//
601
602class sve_int_pfalse<bits<6> opc, string asm>
603: I<(outs PPR8:$Pd), (ins),
604  asm, "\t$Pd",
605  "",
606  []>, Sched<[]> {
607  bits<4> Pd;
608  let Inst{31-24} = 0b00100101;
609  let Inst{23-22} = opc{5-4};
610  let Inst{21-19} = 0b011;
611  let Inst{18-16} = opc{3-1};
612  let Inst{15-10} = 0b111001;
613  let Inst{9}     = opc{0};
614  let Inst{8-4}   = 0b00000;
615  let Inst{3-0}   = Pd;
616
617  let isReMaterializable = 1;
618}
619
620multiclass sve_int_pfalse<bits<6> opc, string asm> {
621  def NAME : sve_int_pfalse<opc, asm>;
622
623  def : Pat<(nxv16i1 (splat_vector (i32 0))), (!cast<Instruction>(NAME))>;
624  def : Pat<(nxv8i1 (splat_vector (i32 0))), (!cast<Instruction>(NAME))>;
625  def : Pat<(nxv4i1 (splat_vector (i32 0))), (!cast<Instruction>(NAME))>;
626  def : Pat<(nxv2i1 (splat_vector (i32 0))), (!cast<Instruction>(NAME))>;
627}
628
629class sve_int_ptest<bits<6> opc, string asm>
630: I<(outs), (ins PPRAny:$Pg, PPR8:$Pn),
631  asm, "\t$Pg, $Pn",
632  "",
633  []>, Sched<[]> {
634  bits<4> Pg;
635  bits<4> Pn;
636  let Inst{31-24} = 0b00100101;
637  let Inst{23-22} = opc{5-4};
638  let Inst{21-19} = 0b010;
639  let Inst{18-16} = opc{3-1};
640  let Inst{15-14} = 0b11;
641  let Inst{13-10} = Pg;
642  let Inst{9}     = opc{0};
643  let Inst{8-5}   = Pn;
644  let Inst{4-0}   = 0b00000;
645
646  let Defs = [NZCV];
647  let isCompare = 1;
648}
649
650class sve_int_pfirst_next<bits<2> sz8_64, bits<5> opc, string asm,
651                          PPRRegOp pprty>
652: I<(outs pprty:$Pdn), (ins PPRAny:$Pg, pprty:$_Pdn),
653  asm, "\t$Pdn, $Pg, $_Pdn",
654  "",
655  []>, Sched<[]> {
656  bits<4> Pdn;
657  bits<4> Pg;
658  let Inst{31-24} = 0b00100101;
659  let Inst{23-22} = sz8_64;
660  let Inst{21-19} = 0b011;
661  let Inst{18-16} = opc{4-2};
662  let Inst{15-11} = 0b11000;
663  let Inst{10-9}  = opc{1-0};
664  let Inst{8-5}   = Pg;
665  let Inst{4}     = 0;
666  let Inst{3-0}   = Pdn;
667
668  let Constraints = "$Pdn = $_Pdn";
669  let Defs = [NZCV];
670  let isPTestLike = 1;
671  let ElementSize = pprty.ElementSize;
672}
673
674multiclass sve_int_pfirst<bits<5> opc, string asm, SDPatternOperator op> {
675  def _B : sve_int_pfirst_next<0b01, opc, asm, PPR8>;
676
677  def : SVE_2_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, !cast<Instruction>(NAME # _B)>;
678}
679
680multiclass sve_int_pnext<bits<5> opc, string asm, SDPatternOperator op> {
681  def _B : sve_int_pfirst_next<0b00, opc, asm, PPR8>;
682  def _H : sve_int_pfirst_next<0b01, opc, asm, PPR16>;
683  def _S : sve_int_pfirst_next<0b10, opc, asm, PPR32>;
684  def _D : sve_int_pfirst_next<0b11, opc, asm, PPR64>;
685
686  def : SVE_2_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, !cast<Instruction>(NAME # _B)>;
687  def : SVE_2_Op_Pat<nxv8i1, op, nxv8i1, nxv8i1, !cast<Instruction>(NAME # _H)>;
688  def : SVE_2_Op_Pat<nxv4i1, op, nxv4i1, nxv4i1, !cast<Instruction>(NAME # _S)>;
689  def : SVE_2_Op_Pat<nxv2i1, op, nxv2i1, nxv2i1, !cast<Instruction>(NAME # _D)>;
690}
691
692//===----------------------------------------------------------------------===//
693// SVE Predicate Count Group
694//===----------------------------------------------------------------------===//
695
696class sve_int_count_r<bits<2> sz8_64, bits<5> opc, string asm,
697                      RegisterOperand dty, PPRRegOp pprty, RegisterOperand sty>
698: I<(outs dty:$Rdn), (ins pprty:$Pg, sty:$_Rdn),
699  asm, "\t$Rdn, $Pg",
700  "",
701  []>, Sched<[]> {
702  bits<5> Rdn;
703  bits<4> Pg;
704  let Inst{31-24} = 0b00100101;
705  let Inst{23-22} = sz8_64;
706  let Inst{21-19} = 0b101;
707  let Inst{18-16} = opc{4-2};
708  let Inst{15-11} = 0b10001;
709  let Inst{10-9}  = opc{1-0};
710  let Inst{8-5}   = Pg;
711  let Inst{4-0}   = Rdn;
712
713  // Signed 32bit forms require their GPR operand printed.
714  let AsmString = !if(!eq(opc{4,2-0}, 0b0000),
715                      !strconcat(asm, "\t$Rdn, $Pg, $_Rdn"),
716                      !strconcat(asm, "\t$Rdn, $Pg"));
717  let Constraints = "$Rdn = $_Rdn";
718}
719
720multiclass sve_int_count_r_s32<bits<5> opc, string asm,
721                               SDPatternOperator op> {
722  def _B : sve_int_count_r<0b00, opc, asm, GPR64z, PPR8, GPR64as32>;
723  def _H : sve_int_count_r<0b01, opc, asm, GPR64z, PPR16, GPR64as32>;
724  def _S : sve_int_count_r<0b10, opc, asm, GPR64z, PPR32, GPR64as32>;
725  def _D : sve_int_count_r<0b11, opc, asm, GPR64z, PPR64, GPR64as32>;
726
727  def : Pat<(i32 (op GPR32:$Rn, (nxv16i1 PPRAny:$Pg))),
728            (EXTRACT_SUBREG (!cast<Instruction>(NAME # _B) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32)), sub_32)>;
729  def : Pat<(i64 (sext (i32 (op GPR32:$Rn, (nxv16i1 PPRAny:$Pg))))),
730            (!cast<Instruction>(NAME # _B) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32))>;
731
732  def : Pat<(i32 (op GPR32:$Rn, (nxv8i1 PPRAny:$Pg))),
733            (EXTRACT_SUBREG (!cast<Instruction>(NAME # _H) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32)), sub_32)>;
734  def : Pat<(i64 (sext (i32 (op GPR32:$Rn, (nxv8i1 PPRAny:$Pg))))),
735            (!cast<Instruction>(NAME # _H) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32))>;
736
737  def : Pat<(i32 (op GPR32:$Rn, (nxv4i1 PPRAny:$Pg))),
738            (EXTRACT_SUBREG (!cast<Instruction>(NAME # _S) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32)), sub_32)>;
739  def : Pat<(i64 (sext (i32 (op GPR32:$Rn, (nxv4i1 PPRAny:$Pg))))),
740            (!cast<Instruction>(NAME # _S) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32))>;
741
742  def : Pat<(i32 (op GPR32:$Rn, (nxv2i1 PPRAny:$Pg))),
743            (EXTRACT_SUBREG (!cast<Instruction>(NAME # _D) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32)), sub_32)>;
744  def : Pat<(i64 (sext (i32 (op GPR32:$Rn, (nxv2i1 PPRAny:$Pg))))),
745            (!cast<Instruction>(NAME # _D) PPRAny:$Pg, (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32))>;
746}
747
748multiclass sve_int_count_r_u32<bits<5> opc, string asm,
749                               SDPatternOperator op> {
750  def _B : sve_int_count_r<0b00, opc, asm, GPR32z, PPR8, GPR32z>;
751  def _H : sve_int_count_r<0b01, opc, asm, GPR32z, PPR16, GPR32z>;
752  def _S : sve_int_count_r<0b10, opc, asm, GPR32z, PPR32, GPR32z>;
753  def _D : sve_int_count_r<0b11, opc, asm, GPR32z, PPR64, GPR32z>;
754
755  def : Pat<(i32 (op GPR32:$Rn, (nxv16i1 PPRAny:$Pg))),
756            (!cast<Instruction>(NAME # _B) PPRAny:$Pg, $Rn)>;
757  def : Pat<(i32 (op GPR32:$Rn, (nxv8i1 PPRAny:$Pg))),
758            (!cast<Instruction>(NAME # _H) PPRAny:$Pg, $Rn)>;
759  def : Pat<(i32 (op GPR32:$Rn, (nxv4i1 PPRAny:$Pg))),
760            (!cast<Instruction>(NAME # _S) PPRAny:$Pg, $Rn)>;
761  def : Pat<(i32 (op GPR32:$Rn, (nxv2i1 PPRAny:$Pg))),
762            (!cast<Instruction>(NAME # _D) PPRAny:$Pg, $Rn)>;
763}
764
765multiclass sve_int_count_r_x64<bits<5> opc, string asm,
766                               SDPatternOperator op,
767                               SDPatternOperator combine_op = null_frag> {
768  def _B : sve_int_count_r<0b00, opc, asm, GPR64z, PPR8, GPR64z>;
769  def _H : sve_int_count_r<0b01, opc, asm, GPR64z, PPR16, GPR64z>;
770  def _S : sve_int_count_r<0b10, opc, asm, GPR64z, PPR32, GPR64z>;
771  def _D : sve_int_count_r<0b11, opc, asm, GPR64z, PPR64, GPR64z>;
772
773  def : Pat<(i64 (op GPR64:$Rn, (nxv16i1 PPRAny:$Pg))),
774            (!cast<Instruction>(NAME # _B) PPRAny:$Pg, $Rn)>;
775  def : Pat<(i64 (op GPR64:$Rn, (nxv8i1 PPRAny:$Pg))),
776            (!cast<Instruction>(NAME # _H) PPRAny:$Pg, $Rn)>;
777  def : Pat<(i64 (op GPR64:$Rn, (nxv4i1 PPRAny:$Pg))),
778            (!cast<Instruction>(NAME # _S) PPRAny:$Pg, $Rn)>;
779  def : Pat<(i64 (op GPR64:$Rn, (nxv2i1 PPRAny:$Pg))),
780            (!cast<Instruction>(NAME # _D) PPRAny:$Pg, $Rn)>;
781
782  // combine_op(x, cntp(all_active, p)) ==> inst p, x
783  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv16i1 (SVEAllActive)), (nxv16i1 PPRAny:$pred)))),
784            (!cast<Instruction>(NAME # _B) PPRAny:$pred, $Rn)>;
785  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv8i1 (SVEAllActive)), (nxv8i1 PPRAny:$pred)))),
786            (!cast<Instruction>(NAME # _H) PPRAny:$pred, $Rn)>;
787  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv4i1 (SVEAllActive)), (nxv4i1 PPRAny:$pred)))),
788            (!cast<Instruction>(NAME # _S) PPRAny:$pred, $Rn)>;
789  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv2i1 (SVEAllActive)), (nxv2i1 PPRAny:$pred)))),
790            (!cast<Instruction>(NAME # _D) PPRAny:$pred, $Rn)>;
791
792  // combine_op(x, cntp(p, p)) ==> inst p, x
793  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv16i1 PPRAny:$pred), (nxv16i1 PPRAny:$pred)))),
794            (!cast<Instruction>(NAME # _B) PPRAny:$pred, $Rn)>;
795  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv8i1 PPRAny:$pred), (nxv8i1 PPRAny:$pred)))),
796            (!cast<Instruction>(NAME # _H) PPRAny:$pred, $Rn)>;
797  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv4i1 PPRAny:$pred), (nxv4i1 PPRAny:$pred)))),
798            (!cast<Instruction>(NAME # _S) PPRAny:$pred, $Rn)>;
799  def : Pat<(i64 (combine_op GPR64:$Rn, (int_aarch64_sve_cntp_oneuse (nxv2i1 PPRAny:$pred), (nxv2i1 PPRAny:$pred)))),
800            (!cast<Instruction>(NAME # _D) PPRAny:$pred, $Rn)>;
801}
802
803class sve_int_count_v<bits<2> sz8_64, bits<5> opc, string asm,
804                      ZPRRegOp zprty, PPRRegOp pprty>
805: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, pprty:$Pm),
806  asm, "\t$Zdn, $Pm",
807  "",
808  []>, Sched<[]> {
809  bits<4> Pm;
810  bits<5> Zdn;
811  let Inst{31-24} = 0b00100101;
812  let Inst{23-22} = sz8_64;
813  let Inst{21-19} = 0b101;
814  let Inst{18-16} = opc{4-2};
815  let Inst{15-11} = 0b10000;
816  let Inst{10-9}  = opc{1-0};
817  let Inst{8-5}   = Pm;
818  let Inst{4-0}   = Zdn;
819
820  let Constraints = "$Zdn = $_Zdn";
821  let DestructiveInstType = DestructiveOther;
822  let ElementSize = ElementSizeNone;
823}
824
825multiclass sve_int_count_v<bits<5> opc, string asm,
826                           SDPatternOperator op = null_frag> {
827  def _H : sve_int_count_v<0b01, opc, asm, ZPR16, PPR16>;
828  def _S : sve_int_count_v<0b10, opc, asm, ZPR32, PPR32>;
829  def _D : sve_int_count_v<0b11, opc, asm, ZPR64, PPR64>;
830
831  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16,  nxv8i1, !cast<Instruction>(NAME # _H)>;
832  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32,  nxv4i1, !cast<Instruction>(NAME # _S)>;
833  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64,  nxv2i1, !cast<Instruction>(NAME # _D)>;
834
835  def : InstAlias<asm # "\t$Zdn, $Pm",
836                 (!cast<Instruction>(NAME # "_H") ZPR16:$Zdn, PPRAny:$Pm), 0>;
837  def : InstAlias<asm # "\t$Zdn, $Pm",
838                 (!cast<Instruction>(NAME # "_S") ZPR32:$Zdn, PPRAny:$Pm), 0>;
839  def : InstAlias<asm # "\t$Zdn, $Pm",
840                  (!cast<Instruction>(NAME # "_D") ZPR64:$Zdn, PPRAny:$Pm), 0>;
841}
842
843class sve_int_pcount_pred<bits<2> sz8_64, bits<4> opc, string asm,
844                          PPRRegOp pprty>
845: I<(outs GPR64:$Rd), (ins PPRAny:$Pg, pprty:$Pn),
846  asm, "\t$Rd, $Pg, $Pn",
847  "",
848  []>, Sched<[]> {
849  bits<4> Pg;
850  bits<4> Pn;
851  bits<5> Rd;
852  let Inst{31-24} = 0b00100101;
853  let Inst{23-22} = sz8_64;
854  let Inst{21-19} = 0b100;
855  let Inst{18-16} = opc{3-1};
856  let Inst{15-14} = 0b10;
857  let Inst{13-10} = Pg;
858  let Inst{9}     = opc{0};
859  let Inst{8-5}   = Pn;
860  let Inst{4-0}   = Rd;
861}
862
863multiclass sve_int_pcount_pred<bits<4> opc, string asm,
864                               SDPatternOperator int_op> {
865  def _B : sve_int_pcount_pred<0b00, opc, asm, PPR8>;
866  def _H : sve_int_pcount_pred<0b01, opc, asm, PPR16>;
867  def _S : sve_int_pcount_pred<0b10, opc, asm, PPR32>;
868  def _D : sve_int_pcount_pred<0b11, opc, asm, PPR64>;
869
870  def : SVE_2_Op_Pat<i64, int_op, nxv16i1, nxv16i1, !cast<Instruction>(NAME # _B)>;
871  def : SVE_2_Op_Pat<i64, int_op, nxv8i1,  nxv8i1,  !cast<Instruction>(NAME # _H)>;
872  def : SVE_2_Op_Pat<i64, int_op, nxv4i1,  nxv4i1,  !cast<Instruction>(NAME # _S)>;
873  def : SVE_2_Op_Pat<i64, int_op, nxv2i1,  nxv2i1,  !cast<Instruction>(NAME # _D)>;
874}
875
876//===----------------------------------------------------------------------===//
877// SVE Element Count Group
878//===----------------------------------------------------------------------===//
879
880class sve_int_count<bits<3> opc, string asm>
881: I<(outs GPR64:$Rd), (ins sve_pred_enum:$pattern, sve_incdec_imm:$imm4),
882  asm, "\t$Rd, $pattern, mul $imm4",
883  "",
884  []>, Sched<[]> {
885  bits<5> Rd;
886  bits<4> imm4;
887  bits<5> pattern;
888  let Inst{31-24} = 0b00000100;
889  let Inst{23-22} = opc{2-1};
890  let Inst{21-20} = 0b10;
891  let Inst{19-16} = imm4;
892  let Inst{15-11} = 0b11100;
893  let Inst{10}    = opc{0};
894  let Inst{9-5}   = pattern;
895  let Inst{4-0}   = Rd;
896}
897
898multiclass sve_int_count<bits<3> opc, string asm, SDPatternOperator op> {
899  def NAME : sve_int_count<opc, asm>;
900
901  def : InstAlias<asm # "\t$Rd, $pattern",
902                  (!cast<Instruction>(NAME) GPR64:$Rd, sve_pred_enum:$pattern, 1), 1>;
903  def : InstAlias<asm # "\t$Rd",
904                  (!cast<Instruction>(NAME) GPR64:$Rd, 0b11111, 1), 2>;
905
906  def : Pat<(i64 (mul (op sve_pred_enum:$pattern), (sve_cnt_mul_imm_i64 i32:$imm))),
907            (!cast<Instruction>(NAME) sve_pred_enum:$pattern, sve_incdec_imm:$imm)>;
908
909  def : Pat<(i64 (shl (op sve_pred_enum:$pattern), (sve_cnt_shl_imm i32:$imm))),
910            (!cast<Instruction>(NAME) sve_pred_enum:$pattern, sve_incdec_imm:$imm)>;
911
912  def : Pat<(i64 (op sve_pred_enum:$pattern)),
913            (!cast<Instruction>(NAME) sve_pred_enum:$pattern, 1)>;
914}
915
916class sve_int_countvlv<bits<5> opc, string asm, ZPRRegOp zprty>
917: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, sve_pred_enum:$pattern, sve_incdec_imm:$imm4),
918  asm, "\t$Zdn, $pattern, mul $imm4",
919  "",
920  []>, Sched<[]> {
921  bits<5> Zdn;
922  bits<5> pattern;
923  bits<4> imm4;
924  let Inst{31-24} = 0b00000100;
925  let Inst{23-22} = opc{4-3};
926  let Inst{21}    = 0b1;
927  let Inst{20}    = opc{2};
928  let Inst{19-16} = imm4;
929  let Inst{15-12} = 0b1100;
930  let Inst{11-10} = opc{1-0};
931  let Inst{9-5}   = pattern;
932  let Inst{4-0}   = Zdn;
933
934  let Constraints = "$Zdn = $_Zdn";
935  let DestructiveInstType = DestructiveOther;
936  let ElementSize = ElementSizeNone;
937}
938
939multiclass sve_int_countvlv<bits<5> opc, string asm, ZPRRegOp zprty,
940                            SDPatternOperator op = null_frag,
941                            ValueType vt = OtherVT> {
942  def NAME : sve_int_countvlv<opc, asm, zprty>;
943
944  def : InstAlias<asm # "\t$Zdn, $pattern",
945                  (!cast<Instruction>(NAME) zprty:$Zdn, sve_pred_enum:$pattern, 1), 1>;
946  def : InstAlias<asm # "\t$Zdn",
947                  (!cast<Instruction>(NAME) zprty:$Zdn, 0b11111, 1), 2>;
948
949  def : Pat<(vt (op (vt zprty:$Zn), (sve_pred_enum:$pattern), (sve_incdec_imm:$imm4))),
950            (!cast<Instruction>(NAME) $Zn, sve_pred_enum:$pattern, sve_incdec_imm:$imm4)>;
951}
952
953class sve_int_pred_pattern_a<bits<3> opc, string asm>
954: I<(outs GPR64:$Rdn), (ins GPR64:$_Rdn, sve_pred_enum:$pattern, sve_incdec_imm:$imm4),
955  asm, "\t$Rdn, $pattern, mul $imm4",
956  "",
957  []>, Sched<[]> {
958  bits<5> Rdn;
959  bits<5> pattern;
960  bits<4> imm4;
961  let Inst{31-24} = 0b00000100;
962  let Inst{23-22} = opc{2-1};
963  let Inst{21-20} = 0b11;
964  let Inst{19-16} = imm4;
965  let Inst{15-11} = 0b11100;
966  let Inst{10}    = opc{0};
967  let Inst{9-5}   = pattern;
968  let Inst{4-0}   = Rdn;
969
970  let Constraints = "$Rdn = $_Rdn";
971}
972
973multiclass sve_int_pred_pattern_a<bits<3> opc, string asm,
974                                  SDPatternOperator op,
975                                  SDPatternOperator opcnt> {
976  let Predicates = [HasSVEorStreamingSVE] in {
977    def NAME : sve_int_pred_pattern_a<opc, asm>;
978
979    def : InstAlias<asm # "\t$Rdn, $pattern",
980                    (!cast<Instruction>(NAME) GPR64:$Rdn, sve_pred_enum:$pattern, 1), 1>;
981    def : InstAlias<asm # "\t$Rdn",
982                    (!cast<Instruction>(NAME) GPR64:$Rdn, 0b11111, 1), 2>;
983  }
984
985  let Predicates = [HasSVEorStreamingSVE, UseScalarIncVL] in {
986    def : Pat<(i64 (op GPR64:$Rdn, (opcnt sve_pred_enum:$pattern))),
987              (!cast<Instruction>(NAME) GPR64:$Rdn, sve_pred_enum:$pattern, 1)>;
988
989    def : Pat<(i64 (op GPR64:$Rdn, (mul (opcnt sve_pred_enum:$pattern), (sve_cnt_mul_imm_i64 i32:$imm)))),
990              (!cast<Instruction>(NAME) GPR64:$Rdn, sve_pred_enum:$pattern, $imm)>;
991
992    def : Pat<(i64 (op GPR64:$Rdn, (shl (opcnt sve_pred_enum:$pattern), (sve_cnt_shl_imm i32:$imm)))),
993              (!cast<Instruction>(NAME) GPR64:$Rdn, sve_pred_enum:$pattern, $imm)>;
994
995    def : Pat<(i32 (op GPR32:$Rdn, (i32 (trunc (opcnt (sve_pred_enum:$pattern)))))),
996              (i32 (EXTRACT_SUBREG (!cast<Instruction>(NAME) (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
997                                               GPR32:$Rdn, sub_32), sve_pred_enum:$pattern, 1),
998                                    sub_32))>;
999
1000    def : Pat<(i32 (op GPR32:$Rdn, (mul (i32 (trunc (opcnt (sve_pred_enum:$pattern)))), (sve_cnt_mul_imm_i32 i32:$imm)))),
1001              (i32 (EXTRACT_SUBREG (!cast<Instruction>(NAME) (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
1002                                               GPR32:$Rdn, sub_32), sve_pred_enum:$pattern, $imm),
1003                                    sub_32))>;
1004
1005    def : Pat<(i32 (op GPR32:$Rdn, (shl (i32 (trunc (opcnt (sve_pred_enum:$pattern)))), (sve_cnt_shl_imm i32:$imm)))),
1006              (i32 (EXTRACT_SUBREG (!cast<Instruction>(NAME) (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
1007                                               GPR32:$Rdn, sub_32), sve_pred_enum:$pattern, $imm),
1008                                    sub_32))>;
1009  }
1010}
1011
1012class sve_int_pred_pattern_b<bits<5> opc, string asm, RegisterOperand dt,
1013                             RegisterOperand st>
1014: I<(outs dt:$Rdn), (ins st:$_Rdn, sve_pred_enum:$pattern, sve_incdec_imm:$imm4),
1015  asm, "\t$Rdn, $pattern, mul $imm4",
1016  "",
1017  []>, Sched<[]> {
1018  bits<5> Rdn;
1019  bits<5> pattern;
1020  bits<4> imm4;
1021  let Inst{31-24} = 0b00000100;
1022  let Inst{23-22} = opc{4-3};
1023  let Inst{21}    = 0b1;
1024  let Inst{20}    = opc{2};
1025  let Inst{19-16} = imm4;
1026  let Inst{15-12} = 0b1111;
1027  let Inst{11-10} = opc{1-0};
1028  let Inst{9-5}   = pattern;
1029  let Inst{4-0}   = Rdn;
1030
1031  // Signed 32bit forms require their GPR operand printed.
1032  let AsmString = !if(!eq(opc{2,0}, 0b00),
1033                      !strconcat(asm, "\t$Rdn, $_Rdn, $pattern, mul $imm4"),
1034                      !strconcat(asm, "\t$Rdn, $pattern, mul $imm4"));
1035
1036  let Constraints = "$Rdn = $_Rdn";
1037}
1038
1039multiclass sve_int_pred_pattern_b_s32<bits<5> opc, string asm,
1040                                      SDPatternOperator op> {
1041  def NAME : sve_int_pred_pattern_b<opc, asm, GPR64z, GPR64as32>;
1042
1043  def : InstAlias<asm # "\t$Rd, $Rn, $pattern",
1044                  (!cast<Instruction>(NAME) GPR64z:$Rd, GPR64as32:$Rn, sve_pred_enum:$pattern, 1), 1>;
1045  def : InstAlias<asm # "\t$Rd, $Rn",
1046                  (!cast<Instruction>(NAME) GPR64z:$Rd, GPR64as32:$Rn, 0b11111, 1), 2>;
1047
1048  // NOTE: Register allocation doesn't like tied operands of differing register
1049  //       class, hence the extra INSERT_SUBREG complication.
1050
1051  def : Pat<(i32 (op GPR32:$Rn, (sve_pred_enum:$pattern), (sve_incdec_imm:$imm4))),
1052            (EXTRACT_SUBREG (!cast<Instruction>(NAME) (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32), sve_pred_enum:$pattern, sve_incdec_imm:$imm4), sub_32)>;
1053  def : Pat<(i64 (sext (i32 (op GPR32:$Rn, (sve_pred_enum:$pattern), (sve_incdec_imm:$imm4))))),
1054            (!cast<Instruction>(NAME) (INSERT_SUBREG (IMPLICIT_DEF), $Rn, sub_32), sve_pred_enum:$pattern, sve_incdec_imm:$imm4)>;
1055}
1056
1057multiclass sve_int_pred_pattern_b_u32<bits<5> opc, string asm,
1058                                      SDPatternOperator op> {
1059  def NAME : sve_int_pred_pattern_b<opc, asm, GPR32z, GPR32z>;
1060
1061  def : InstAlias<asm # "\t$Rdn, $pattern",
1062                  (!cast<Instruction>(NAME) GPR32z:$Rdn, sve_pred_enum:$pattern, 1), 1>;
1063  def : InstAlias<asm # "\t$Rdn",
1064                  (!cast<Instruction>(NAME) GPR32z:$Rdn, 0b11111, 1), 2>;
1065
1066  def : Pat<(i32 (op GPR32:$Rn, (sve_pred_enum:$pattern), (sve_incdec_imm:$imm4))),
1067            (!cast<Instruction>(NAME) $Rn, sve_pred_enum:$pattern, sve_incdec_imm:$imm4)>;
1068}
1069
1070multiclass sve_int_pred_pattern_b_x64<bits<5> opc, string asm,
1071                                      SDPatternOperator op> {
1072  def NAME : sve_int_pred_pattern_b<opc, asm, GPR64z, GPR64z>;
1073
1074  def : InstAlias<asm # "\t$Rdn, $pattern",
1075                  (!cast<Instruction>(NAME) GPR64z:$Rdn, sve_pred_enum:$pattern, 1), 1>;
1076  def : InstAlias<asm # "\t$Rdn",
1077                  (!cast<Instruction>(NAME) GPR64z:$Rdn, 0b11111, 1), 2>;
1078
1079  def : Pat<(i64 (op GPR64:$Rn, (sve_pred_enum:$pattern), (sve_incdec_imm:$imm4))),
1080            (!cast<Instruction>(NAME) $Rn, sve_pred_enum:$pattern, sve_incdec_imm:$imm4)>;
1081}
1082
1083
1084//===----------------------------------------------------------------------===//
1085// SVE Permute - Cross Lane Group
1086//===----------------------------------------------------------------------===//
1087
1088class sve_int_perm_dup_r<bits<2> sz8_64, string asm, ZPRRegOp zprty,
1089                         ValueType vt, RegisterClass srcRegType,
1090                         SDPatternOperator op>
1091: I<(outs zprty:$Zd), (ins srcRegType:$Rn),
1092  asm, "\t$Zd, $Rn",
1093  "",
1094  [(set (vt zprty:$Zd), (op srcRegType:$Rn))]>, Sched<[]> {
1095  bits<5> Rn;
1096  bits<5> Zd;
1097  let Inst{31-24} = 0b00000101;
1098  let Inst{23-22} = sz8_64;
1099  let Inst{21-10} = 0b100000001110;
1100  let Inst{9-5}   = Rn;
1101  let Inst{4-0}   = Zd;
1102}
1103
1104multiclass sve_int_perm_dup_r<string asm, SDPatternOperator op> {
1105  def _B : sve_int_perm_dup_r<0b00, asm, ZPR8, nxv16i8, GPR32sp, op>;
1106  def _H : sve_int_perm_dup_r<0b01, asm, ZPR16, nxv8i16, GPR32sp, op>;
1107  def _S : sve_int_perm_dup_r<0b10, asm, ZPR32, nxv4i32, GPR32sp, op>;
1108  def _D : sve_int_perm_dup_r<0b11, asm, ZPR64, nxv2i64, GPR64sp, op>;
1109
1110  def : InstAlias<"mov $Zd, $Rn",
1111                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, GPR32sp:$Rn), 1>;
1112  def : InstAlias<"mov $Zd, $Rn",
1113                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, GPR32sp:$Rn), 1>;
1114  def : InstAlias<"mov $Zd, $Rn",
1115                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, GPR32sp:$Rn), 1>;
1116  def : InstAlias<"mov $Zd, $Rn",
1117                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, GPR64sp:$Rn), 1>;
1118}
1119
1120class sve_int_perm_dup_i<bits<5> tsz, Operand immtype, string asm,
1121                         ZPRRegOp zprty>
1122: I<(outs zprty:$Zd), (ins zprty:$Zn, immtype:$idx),
1123  asm, "\t$Zd, $Zn$idx",
1124  "",
1125  []>, Sched<[]> {
1126  bits<5> Zd;
1127  bits<5> Zn;
1128  bits<7> idx;
1129  let Inst{31-24} = 0b00000101;
1130  let Inst{23-22} = {?,?}; // imm3h
1131  let Inst{21}    = 0b1;
1132  let Inst{20-16} = tsz;
1133  let Inst{15-10} = 0b001000;
1134  let Inst{9-5}   = Zn;
1135  let Inst{4-0}   = Zd;
1136}
1137
1138multiclass sve_int_perm_dup_i<string asm> {
1139  def _B : sve_int_perm_dup_i<{?,?,?,?,1}, sve_elm_idx_extdup_b, asm, ZPR8> {
1140    let Inst{23-22} = idx{5-4};
1141    let Inst{20-17} = idx{3-0};
1142  }
1143  def _H : sve_int_perm_dup_i<{?,?,?,1,0}, sve_elm_idx_extdup_h, asm, ZPR16> {
1144    let Inst{23-22} = idx{4-3};
1145    let Inst{20-18} = idx{2-0};
1146  }
1147  def _S : sve_int_perm_dup_i<{?,?,1,0,0}, sve_elm_idx_extdup_s, asm, ZPR32> {
1148    let Inst{23-22} = idx{3-2};
1149    let Inst{20-19}    = idx{1-0};
1150  }
1151  def _D : sve_int_perm_dup_i<{?,1,0,0,0}, sve_elm_idx_extdup_d, asm, ZPR64> {
1152    let Inst{23-22} = idx{2-1};
1153    let Inst{20}    = idx{0};
1154  }
1155  def _Q : sve_int_perm_dup_i<{1,0,0,0,0}, sve_elm_idx_extdup_q, asm, ZPR128> {
1156    let Inst{23-22} = idx{1-0};
1157  }
1158
1159  def : InstAlias<"mov $Zd, $Zn$idx",
1160                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, ZPR8:$Zn, sve_elm_idx_extdup_b:$idx), 1>;
1161  def : InstAlias<"mov $Zd, $Zn$idx",
1162                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, ZPR16:$Zn, sve_elm_idx_extdup_h:$idx), 1>;
1163  def : InstAlias<"mov $Zd, $Zn$idx",
1164                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, ZPR32:$Zn, sve_elm_idx_extdup_s:$idx), 1>;
1165  def : InstAlias<"mov $Zd, $Zn$idx",
1166                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, ZPR64:$Zn, sve_elm_idx_extdup_d:$idx), 1>;
1167  def : InstAlias<"mov $Zd, $Zn$idx",
1168                  (!cast<Instruction>(NAME # _Q) ZPR128:$Zd, ZPR128:$Zn, sve_elm_idx_extdup_q:$idx), 1>;
1169  def : InstAlias<"mov $Zd, $Bn",
1170                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, FPR8asZPR:$Bn, 0), 2>;
1171  def : InstAlias<"mov $Zd, $Hn",
1172                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, FPR16asZPR:$Hn, 0), 2>;
1173  def : InstAlias<"mov $Zd, $Sn",
1174                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, FPR32asZPR:$Sn, 0), 2>;
1175  def : InstAlias<"mov $Zd, $Dn",
1176                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, FPR64asZPR:$Dn, 0), 2>;
1177  def : InstAlias<"mov $Zd, $Qn",
1178                  (!cast<Instruction>(NAME # _Q) ZPR128:$Zd, FPR128asZPR:$Qn, 0), 2>;
1179
1180  // Duplicate extracted element of vector into all vector elements
1181  def : Pat<(nxv16i8 (AArch64dup (i32 (vector_extract (nxv16i8 ZPR:$vec), sve_elm_idx_extdup_b:$index)))),
1182            (!cast<Instruction>(NAME # _B) ZPR:$vec, sve_elm_idx_extdup_b:$index)>;
1183  def : Pat<(nxv8i16 (AArch64dup (i32 (vector_extract (nxv8i16 ZPR:$vec), sve_elm_idx_extdup_h:$index)))),
1184            (!cast<Instruction>(NAME # _H) ZPR:$vec, sve_elm_idx_extdup_h:$index)>;
1185  def : Pat<(nxv4i32 (AArch64dup (i32 (vector_extract (nxv4i32 ZPR:$vec), sve_elm_idx_extdup_s:$index)))),
1186            (!cast<Instruction>(NAME # _S) ZPR:$vec, sve_elm_idx_extdup_s:$index)>;
1187  def : Pat<(nxv2i64 (AArch64dup (i64 (vector_extract (nxv2i64 ZPR:$vec), sve_elm_idx_extdup_d:$index)))),
1188            (!cast<Instruction>(NAME # _D) ZPR:$vec, sve_elm_idx_extdup_d:$index)>;
1189  def : Pat<(nxv8f16 (AArch64dup (f16 (vector_extract (nxv8f16 ZPR:$vec), sve_elm_idx_extdup_h:$index)))),
1190            (!cast<Instruction>(NAME # _H) ZPR:$vec, sve_elm_idx_extdup_h:$index)>;
1191  def : Pat<(nxv8bf16 (AArch64dup (bf16 (vector_extract (nxv8bf16 ZPR:$vec), sve_elm_idx_extdup_h:$index)))),
1192            (!cast<Instruction>(NAME # _H) ZPR:$vec, sve_elm_idx_extdup_h:$index)>;
1193  def : Pat<(nxv4f16 (AArch64dup (f16 (vector_extract (nxv4f16 ZPR:$vec), sve_elm_idx_extdup_s:$index)))),
1194            (!cast<Instruction>(NAME # _S) ZPR:$vec, sve_elm_idx_extdup_s:$index)>;
1195  def : Pat<(nxv2f16 (AArch64dup (f16 (vector_extract (nxv2f16 ZPR:$vec), sve_elm_idx_extdup_d:$index)))),
1196            (!cast<Instruction>(NAME # _D) ZPR:$vec, sve_elm_idx_extdup_d:$index)>;
1197  def : Pat<(nxv4f32 (AArch64dup (f32 (vector_extract (nxv4f32 ZPR:$vec), sve_elm_idx_extdup_s:$index)))),
1198            (!cast<Instruction>(NAME # _S) ZPR:$vec, sve_elm_idx_extdup_s:$index)>;
1199  def : Pat<(nxv2f32 (AArch64dup (f32 (vector_extract (nxv2f32 ZPR:$vec), sve_elm_idx_extdup_d:$index)))),
1200            (!cast<Instruction>(NAME # _D) ZPR:$vec, sve_elm_idx_extdup_d:$index)>;
1201  def : Pat<(nxv2f64 (AArch64dup (f64 (vector_extract (nxv2f64 ZPR:$vec), sve_elm_idx_extdup_d:$index)))),
1202            (!cast<Instruction>(NAME # _D) ZPR:$vec, sve_elm_idx_extdup_d:$index)>;
1203}
1204
1205class sve_int_perm_tbl<bits<2> sz8_64, bits<2> opc, string asm, ZPRRegOp zprty,
1206                       RegisterOperand VecList>
1207: I<(outs zprty:$Zd), (ins VecList:$Zn, zprty:$Zm),
1208  asm, "\t$Zd, $Zn, $Zm",
1209  "",
1210  []>, Sched<[]> {
1211  bits<5> Zd;
1212  bits<5> Zm;
1213  bits<5> Zn;
1214  let Inst{31-24} = 0b00000101;
1215  let Inst{23-22} = sz8_64;
1216  let Inst{21}    = 0b1;
1217  let Inst{20-16} = Zm;
1218  let Inst{15-13} = 0b001;
1219  let Inst{12-11} = opc;
1220  let Inst{10}    = 0b0;
1221  let Inst{9-5}   = Zn;
1222  let Inst{4-0}   = Zd;
1223}
1224
1225multiclass sve_int_perm_tbl<string asm, SDPatternOperator op> {
1226  def _B : sve_int_perm_tbl<0b00, 0b10, asm, ZPR8,  Z_b>;
1227  def _H : sve_int_perm_tbl<0b01, 0b10, asm, ZPR16, Z_h>;
1228  def _S : sve_int_perm_tbl<0b10, 0b10, asm, ZPR32, Z_s>;
1229  def _D : sve_int_perm_tbl<0b11, 0b10, asm, ZPR64, Z_d>;
1230
1231  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
1232                 (!cast<Instruction>(NAME # _B) ZPR8:$Zd, ZPR8:$Zn, ZPR8:$Zm), 0>;
1233  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
1234                 (!cast<Instruction>(NAME # _H) ZPR16:$Zd, ZPR16:$Zn, ZPR16:$Zm), 0>;
1235  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
1236                 (!cast<Instruction>(NAME # _S) ZPR32:$Zd, ZPR32:$Zn, ZPR32:$Zm), 0>;
1237  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
1238                 (!cast<Instruction>(NAME # _D) ZPR64:$Zd, ZPR64:$Zn, ZPR64:$Zm), 0>;
1239
1240  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
1241  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1242  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1243  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1244
1245  def : SVE_2_Op_Pat<nxv8f16, op, nxv8f16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1246  def : SVE_2_Op_Pat<nxv4f32, op, nxv4f32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1247  def : SVE_2_Op_Pat<nxv2f64, op, nxv2f64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1248
1249  def : SVE_2_Op_Pat<nxv8bf16, op, nxv8bf16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1250}
1251
1252multiclass sve2_int_perm_tbl<string asm, SDPatternOperator op> {
1253  def _B : sve_int_perm_tbl<0b00, 0b01, asm, ZPR8,  ZZ_b>;
1254  def _H : sve_int_perm_tbl<0b01, 0b01, asm, ZPR16, ZZ_h>;
1255  def _S : sve_int_perm_tbl<0b10, 0b01, asm, ZPR32, ZZ_s>;
1256  def _D : sve_int_perm_tbl<0b11, 0b01, asm, ZPR64, ZZ_d>;
1257
1258  def : Pat<(nxv16i8 (op nxv16i8:$Op1, nxv16i8:$Op2, nxv16i8:$Op3)),
1259            (nxv16i8 (!cast<Instruction>(NAME # _B) (REG_SEQUENCE ZPR2, nxv16i8:$Op1, zsub0,
1260                                                                        nxv16i8:$Op2, zsub1),
1261                                                     nxv16i8:$Op3))>;
1262
1263  def : Pat<(nxv8i16 (op nxv8i16:$Op1, nxv8i16:$Op2, nxv8i16:$Op3)),
1264            (nxv8i16 (!cast<Instruction>(NAME # _H) (REG_SEQUENCE ZPR2, nxv8i16:$Op1, zsub0,
1265                                                                        nxv8i16:$Op2, zsub1),
1266                                                     nxv8i16:$Op3))>;
1267
1268  def : Pat<(nxv4i32 (op nxv4i32:$Op1, nxv4i32:$Op2, nxv4i32:$Op3)),
1269            (nxv4i32 (!cast<Instruction>(NAME # _S) (REG_SEQUENCE ZPR2, nxv4i32:$Op1, zsub0,
1270                                                                        nxv4i32:$Op2, zsub1),
1271                                                     nxv4i32:$Op3))>;
1272
1273  def : Pat<(nxv2i64 (op nxv2i64:$Op1, nxv2i64:$Op2, nxv2i64:$Op3)),
1274            (nxv2i64 (!cast<Instruction>(NAME # _D) (REG_SEQUENCE ZPR2, nxv2i64:$Op1, zsub0,
1275                                                                        nxv2i64:$Op2, zsub1),
1276                                                     nxv2i64:$Op3))>;
1277
1278  def : Pat<(nxv8f16 (op nxv8f16:$Op1, nxv8f16:$Op2, nxv8i16:$Op3)),
1279            (nxv8f16 (!cast<Instruction>(NAME # _H) (REG_SEQUENCE ZPR2, nxv8f16:$Op1, zsub0,
1280                                                                        nxv8f16:$Op2, zsub1),
1281                                                     nxv8i16:$Op3))>;
1282
1283  def : Pat<(nxv4f32 (op nxv4f32:$Op1, nxv4f32:$Op2, nxv4i32:$Op3)),
1284            (nxv4f32 (!cast<Instruction>(NAME # _S) (REG_SEQUENCE ZPR2, nxv4f32:$Op1, zsub0,
1285                                                                        nxv4f32:$Op2, zsub1),
1286                                                     nxv4i32:$Op3))>;
1287
1288  def : Pat<(nxv2f64 (op nxv2f64:$Op1, nxv2f64:$Op2, nxv2i64:$Op3)),
1289            (nxv2f64 (!cast<Instruction>(NAME # _D) (REG_SEQUENCE ZPR2, nxv2f64:$Op1, zsub0,
1290                                                                        nxv2f64:$Op2, zsub1),
1291                                                     nxv2i64:$Op3))>;
1292
1293  def : Pat<(nxv8bf16 (op nxv8bf16:$Op1, nxv8bf16:$Op2, nxv8i16:$Op3)),
1294            (nxv8bf16 (!cast<Instruction>(NAME # _H) (REG_SEQUENCE ZPR2, nxv8bf16:$Op1, zsub0,
1295                                                                         nxv8bf16:$Op2, zsub1),
1296                                                      nxv8i16:$Op3))>;
1297}
1298
1299class sve2_int_perm_tbx<bits<2> sz8_64, string asm, ZPRRegOp zprty>
1300: I<(outs zprty:$Zd), (ins zprty:$_Zd, zprty:$Zn, zprty:$Zm),
1301  asm, "\t$Zd, $Zn, $Zm",
1302  "",
1303  []>, Sched<[]> {
1304  bits<5> Zd;
1305  bits<5> Zm;
1306  bits<5> Zn;
1307  let Inst{31-24} = 0b00000101;
1308  let Inst{23-22} = sz8_64;
1309  let Inst{21}    = 0b1;
1310  let Inst{20-16} = Zm;
1311  let Inst{15-10} = 0b001011;
1312  let Inst{9-5}   = Zn;
1313  let Inst{4-0}   = Zd;
1314
1315  let Constraints = "$Zd = $_Zd";
1316}
1317
1318multiclass sve2_int_perm_tbx<string asm, SDPatternOperator op> {
1319  def _B : sve2_int_perm_tbx<0b00, asm, ZPR8>;
1320  def _H : sve2_int_perm_tbx<0b01, asm, ZPR16>;
1321  def _S : sve2_int_perm_tbx<0b10, asm, ZPR32>;
1322  def _D : sve2_int_perm_tbx<0b11, asm, ZPR64>;
1323
1324  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
1325  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1326  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1327  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1328
1329  def : SVE_3_Op_Pat<nxv8f16, op, nxv8f16, nxv8f16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1330  def : SVE_3_Op_Pat<nxv4f32, op, nxv4f32, nxv4f32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1331  def : SVE_3_Op_Pat<nxv2f64, op, nxv2f64, nxv2f64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1332
1333  def : SVE_3_Op_Pat<nxv8bf16, op, nxv8bf16, nxv8bf16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1334}
1335
1336class sve_int_perm_reverse_z<bits<2> sz8_64, string asm, ZPRRegOp zprty>
1337: I<(outs zprty:$Zd), (ins zprty:$Zn),
1338  asm, "\t$Zd, $Zn",
1339  "",
1340  []>, Sched<[]> {
1341  bits<5> Zd;
1342  bits<5> Zn;
1343  let Inst{31-24} = 0b00000101;
1344  let Inst{23-22} = sz8_64;
1345  let Inst{21-10} = 0b111000001110;
1346  let Inst{9-5}   = Zn;
1347  let Inst{4-0}   = Zd;
1348}
1349
1350multiclass sve_int_perm_reverse_z<string asm, SDPatternOperator op> {
1351  def _B : sve_int_perm_reverse_z<0b00, asm, ZPR8>;
1352  def _H : sve_int_perm_reverse_z<0b01, asm, ZPR16>;
1353  def _S : sve_int_perm_reverse_z<0b10, asm, ZPR32>;
1354  def _D : sve_int_perm_reverse_z<0b11, asm, ZPR64>;
1355
1356  def : SVE_1_Op_Pat<nxv16i8, op, nxv16i8, !cast<Instruction>(NAME # _B)>;
1357  def : SVE_1_Op_Pat<nxv8i16, op, nxv8i16, !cast<Instruction>(NAME # _H)>;
1358  def : SVE_1_Op_Pat<nxv4i32, op, nxv4i32, !cast<Instruction>(NAME # _S)>;
1359  def : SVE_1_Op_Pat<nxv2i64, op, nxv2i64, !cast<Instruction>(NAME # _D)>;
1360
1361  def : SVE_1_Op_Pat<nxv2f16, op, nxv2f16, !cast<Instruction>(NAME # _D)>;
1362  def : SVE_1_Op_Pat<nxv4f16, op, nxv4f16, !cast<Instruction>(NAME # _S)>;
1363  def : SVE_1_Op_Pat<nxv8f16, op, nxv8f16, !cast<Instruction>(NAME # _H)>;
1364  def : SVE_1_Op_Pat<nxv2f32, op, nxv2f32, !cast<Instruction>(NAME # _D)>;
1365  def : SVE_1_Op_Pat<nxv4f32, op, nxv4f32, !cast<Instruction>(NAME # _S)>;
1366  def : SVE_1_Op_Pat<nxv2f64, op, nxv2f64, !cast<Instruction>(NAME # _D)>;
1367
1368  def : SVE_1_Op_Pat<nxv2bf16, op, nxv2bf16, !cast<Instruction>(NAME # _D)>;
1369  def : SVE_1_Op_Pat<nxv4bf16, op, nxv4bf16, !cast<Instruction>(NAME # _S)>;
1370  def : SVE_1_Op_Pat<nxv8bf16, op, nxv8bf16, !cast<Instruction>(NAME # _H)>;
1371}
1372
1373class sve_int_perm_reverse_p<bits<2> sz8_64, string asm, PPRRegOp pprty>
1374: I<(outs pprty:$Pd), (ins pprty:$Pn),
1375  asm, "\t$Pd, $Pn",
1376  "",
1377  []>, Sched<[]> {
1378  bits<4> Pd;
1379  bits<4> Pn;
1380  let Inst{31-24} = 0b00000101;
1381  let Inst{23-22} = sz8_64;
1382  let Inst{21-9}  = 0b1101000100000;
1383  let Inst{8-5}   = Pn;
1384  let Inst{4}     = 0b0;
1385  let Inst{3-0}   = Pd;
1386}
1387
1388multiclass sve_int_perm_reverse_p<string asm, SDPatternOperator op> {
1389  def _B : sve_int_perm_reverse_p<0b00, asm, PPR8>;
1390  def _H : sve_int_perm_reverse_p<0b01, asm, PPR16>;
1391  def _S : sve_int_perm_reverse_p<0b10, asm, PPR32>;
1392  def _D : sve_int_perm_reverse_p<0b11, asm, PPR64>;
1393
1394  def : SVE_1_Op_Pat<nxv16i1, op, nxv16i1, !cast<Instruction>(NAME # _B)>;
1395  def : SVE_1_Op_Pat<nxv8i1, op, nxv8i1, !cast<Instruction>(NAME # _H)>;
1396  def : SVE_1_Op_Pat<nxv4i1, op, nxv4i1, !cast<Instruction>(NAME # _S)>;
1397  def : SVE_1_Op_Pat<nxv2i1, op, nxv2i1, !cast<Instruction>(NAME # _D)>;
1398}
1399
1400class sve_int_perm_unpk<bits<2> sz16_64, bits<2> opc, string asm,
1401                        ZPRRegOp zprty1, ZPRRegOp zprty2>
1402: I<(outs zprty1:$Zd), (ins zprty2:$Zn),
1403  asm, "\t$Zd, $Zn",
1404  "", []>, Sched<[]> {
1405  bits<5> Zd;
1406  bits<5> Zn;
1407  let Inst{31-24} = 0b00000101;
1408  let Inst{23-22} = sz16_64;
1409  let Inst{21-18} = 0b1100;
1410  let Inst{17-16} = opc;
1411  let Inst{15-10} = 0b001110;
1412  let Inst{9-5}   = Zn;
1413  let Inst{4-0}   = Zd;
1414}
1415
1416multiclass sve_int_perm_unpk<bits<2> opc, string asm, SDPatternOperator op> {
1417  def _H : sve_int_perm_unpk<0b01, opc, asm, ZPR16, ZPR8>;
1418  def _S : sve_int_perm_unpk<0b10, opc, asm, ZPR32, ZPR16>;
1419  def _D : sve_int_perm_unpk<0b11, opc, asm, ZPR64, ZPR32>;
1420
1421  def : SVE_1_Op_Pat<nxv8i16, op, nxv16i8, !cast<Instruction>(NAME # _H)>;
1422  def : SVE_1_Op_Pat<nxv4i32, op, nxv8i16, !cast<Instruction>(NAME # _S)>;
1423  def : SVE_1_Op_Pat<nxv2i64, op, nxv4i32, !cast<Instruction>(NAME # _D)>;
1424}
1425
1426class sve_int_perm_insrs<bits<2> sz8_64, string asm, ZPRRegOp zprty,
1427                         RegisterClass srcRegType>
1428: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, srcRegType:$Rm),
1429  asm, "\t$Zdn, $Rm",
1430  "",
1431  []>, Sched<[]> {
1432  bits<5> Rm;
1433  bits<5> Zdn;
1434  let Inst{31-24} = 0b00000101;
1435  let Inst{23-22} = sz8_64;
1436  let Inst{21-10} = 0b100100001110;
1437  let Inst{9-5}   = Rm;
1438  let Inst{4-0}   = Zdn;
1439
1440  let Constraints = "$Zdn = $_Zdn";
1441  let DestructiveInstType = DestructiveOther;
1442}
1443
1444multiclass sve_int_perm_insrs<string asm, SDPatternOperator op> {
1445  def _B : sve_int_perm_insrs<0b00, asm, ZPR8, GPR32>;
1446  def _H : sve_int_perm_insrs<0b01, asm, ZPR16, GPR32>;
1447  def _S : sve_int_perm_insrs<0b10, asm, ZPR32, GPR32>;
1448  def _D : sve_int_perm_insrs<0b11, asm, ZPR64, GPR64>;
1449
1450  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, i32, !cast<Instruction>(NAME # _B)>;
1451  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, i32, !cast<Instruction>(NAME # _H)>;
1452  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, i32, !cast<Instruction>(NAME # _S)>;
1453  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, i64, !cast<Instruction>(NAME # _D)>;
1454}
1455
1456class sve_int_perm_insrv<bits<2> sz8_64, string asm, ZPRRegOp zprty,
1457                         FPRasZPROperand srcOpType>
1458: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, srcOpType:$Vm),
1459  asm, "\t$Zdn, $Vm",
1460  "",
1461  []>, Sched<[]> {
1462  bits<5> Vm;
1463  bits<5> Zdn;
1464  let Inst{31-24} = 0b00000101;
1465  let Inst{23-22} = sz8_64;
1466  let Inst{21-10} = 0b110100001110;
1467  let Inst{9-5}   = Vm;
1468  let Inst{4-0}   = Zdn;
1469
1470  let Constraints = "$Zdn = $_Zdn";
1471  let DestructiveInstType = DestructiveOther;
1472}
1473
1474multiclass sve_int_perm_insrv<string asm, SDPatternOperator op> {
1475  def _B : sve_int_perm_insrv<0b00, asm, ZPR8, FPR8asZPR>;
1476  def _H : sve_int_perm_insrv<0b01, asm, ZPR16, FPR16asZPR>;
1477  def _S : sve_int_perm_insrv<0b10, asm, ZPR32, FPR32asZPR>;
1478  def _D : sve_int_perm_insrv<0b11, asm, ZPR64, FPR64asZPR>;
1479
1480  def : Pat<(nxv8f16 (op nxv8f16:$Zn, f16:$Vm)),
1481            (!cast<Instruction>(NAME # _H) $Zn, (INSERT_SUBREG (IMPLICIT_DEF), $Vm, hsub))>;
1482  def : Pat<(nxv4f32 (op nxv4f32:$Zn, f32:$Vm)),
1483            (!cast<Instruction>(NAME # _S) $Zn, (INSERT_SUBREG (IMPLICIT_DEF), $Vm, ssub))>;
1484  def : Pat<(nxv2f64 (op nxv2f64:$Zn, f64:$Vm)),
1485            (!cast<Instruction>(NAME # _D) $Zn, (INSERT_SUBREG (IMPLICIT_DEF), $Vm, dsub))>;
1486
1487  def : Pat<(nxv8bf16 (op nxv8bf16:$Zn, bf16:$Vm)),
1488            (!cast<Instruction>(NAME # _H) $Zn, (INSERT_SUBREG (IMPLICIT_DEF), $Vm, hsub))>;
1489
1490  // Keep integer insertions within the vector unit.
1491  def : Pat<(nxv16i8 (op (nxv16i8 ZPR:$Zn), (i32 (vector_extract (nxv16i8 ZPR:$Vm), 0)))),
1492            (!cast<Instruction>(NAME # _B) $Zn, ZPR:$Vm)>;
1493  def : Pat<(nxv8i16 (op (nxv8i16 ZPR:$Zn), (i32 (vector_extract (nxv8i16 ZPR:$Vm), 0)))),
1494            (!cast<Instruction>(NAME # _H) $Zn, ZPR:$Vm)>;
1495  def : Pat<(nxv4i32 (op (nxv4i32 ZPR:$Zn), (i32 (vector_extract (nxv4i32 ZPR:$Vm), 0)))),
1496            (!cast<Instruction>(NAME # _S) $Zn, ZPR: $Vm)>;
1497  def : Pat<(nxv2i64 (op (nxv2i64 ZPR:$Zn), (i64 (vector_extract (nxv2i64 ZPR:$Vm), 0)))),
1498            (!cast<Instruction>(NAME # _D) $Zn, ZPR:$Vm)>;
1499
1500}
1501
1502//===----------------------------------------------------------------------===//
1503// SVE Permute - Extract Group
1504//===----------------------------------------------------------------------===//
1505
1506class sve_int_perm_extract_i<string asm>
1507: I<(outs ZPR8:$Zdn), (ins ZPR8:$_Zdn, ZPR8:$Zm, imm0_255:$imm8),
1508  asm, "\t$Zdn, $_Zdn, $Zm, $imm8",
1509  "", []>, Sched<[]> {
1510  bits<5> Zdn;
1511  bits<5> Zm;
1512  bits<8> imm8;
1513  let Inst{31-21} = 0b00000101001;
1514  let Inst{20-16} = imm8{7-3};
1515  let Inst{15-13} = 0b000;
1516  let Inst{12-10} = imm8{2-0};
1517  let Inst{9-5}   = Zm;
1518  let Inst{4-0}   = Zdn;
1519
1520  let Constraints = "$Zdn = $_Zdn";
1521  let DestructiveInstType = DestructiveOther;
1522  let ElementSize = ElementSizeNone;
1523}
1524
1525multiclass sve_int_perm_extract_i<string asm, SDPatternOperator op> {
1526  def NAME : sve_int_perm_extract_i<asm>;
1527
1528  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, i32, imm0_255,
1529                         !cast<Instruction>(NAME)>;
1530}
1531
1532class sve2_int_perm_extract_i_cons<string asm>
1533: I<(outs ZPR8:$Zd), (ins ZZ_b:$Zn, imm0_255:$imm8),
1534  asm, "\t$Zd, $Zn, $imm8",
1535  "", []>, Sched<[]> {
1536  bits<5> Zd;
1537  bits<5> Zn;
1538  bits<8> imm8;
1539  let Inst{31-21} = 0b00000101011;
1540  let Inst{20-16} = imm8{7-3};
1541  let Inst{15-13} = 0b000;
1542  let Inst{12-10} = imm8{2-0};
1543  let Inst{9-5}   = Zn;
1544  let Inst{4-0}   = Zd;
1545}
1546
1547//===----------------------------------------------------------------------===//
1548// SVE Vector Select Group
1549//===----------------------------------------------------------------------===//
1550
1551class sve_int_sel_vvv<bits<2> sz8_64, string asm, ZPRRegOp zprty>
1552: I<(outs zprty:$Zd), (ins PPRAny:$Pg, zprty:$Zn, zprty:$Zm),
1553  asm, "\t$Zd, $Pg, $Zn, $Zm",
1554  "",
1555  []>, Sched<[]> {
1556  bits<4> Pg;
1557  bits<5> Zd;
1558  bits<5> Zm;
1559  bits<5> Zn;
1560  let Inst{31-24} = 0b00000101;
1561  let Inst{23-22} = sz8_64;
1562  let Inst{21}    = 0b1;
1563  let Inst{20-16} = Zm;
1564  let Inst{15-14} = 0b11;
1565  let Inst{13-10} = Pg;
1566  let Inst{9-5}   = Zn;
1567  let Inst{4-0}   = Zd;
1568}
1569
1570multiclass sve_int_sel_vvv<string asm, SDPatternOperator op> {
1571  def _B : sve_int_sel_vvv<0b00, asm, ZPR8>;
1572  def _H : sve_int_sel_vvv<0b01, asm, ZPR16>;
1573  def _S : sve_int_sel_vvv<0b10, asm, ZPR32>;
1574  def _D : sve_int_sel_vvv<0b11, asm, ZPR64>;
1575
1576  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
1577  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1578  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1579  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1580
1581  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1,  nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
1582  def : SVE_3_Op_Pat<nxv4f16, op, nxv4i1,  nxv4f16, nxv4f16, !cast<Instruction>(NAME # _S)>;
1583  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1,  nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
1584  def : SVE_3_Op_Pat<nxv2f16, op, nxv2i1,  nxv2f16, nxv2f16, !cast<Instruction>(NAME # _D)>;
1585  def : SVE_3_Op_Pat<nxv2f32, op, nxv2i1,  nxv2f32, nxv2f32, !cast<Instruction>(NAME # _D)>;
1586  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1,  nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
1587
1588  def : SVE_3_Op_Pat<nxv8bf16, op, nxv8i1,  nxv8bf16, nxv8bf16, !cast<Instruction>(NAME # _H)>;
1589
1590  def : InstAlias<"mov $Zd, $Pg/m, $Zn",
1591                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, PPRAny:$Pg, ZPR8:$Zn, ZPR8:$Zd), 1>;
1592  def : InstAlias<"mov $Zd, $Pg/m, $Zn",
1593                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, PPRAny:$Pg, ZPR16:$Zn, ZPR16:$Zd), 1>;
1594  def : InstAlias<"mov $Zd, $Pg/m, $Zn",
1595                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, PPRAny:$Pg, ZPR32:$Zn, ZPR32:$Zd), 1>;
1596  def : InstAlias<"mov $Zd, $Pg/m, $Zn",
1597                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, PPRAny:$Pg, ZPR64:$Zn, ZPR64:$Zd), 1>;
1598}
1599
1600
1601//===----------------------------------------------------------------------===//
1602// SVE Predicate Logical Operations Group
1603//===----------------------------------------------------------------------===//
1604
1605class sve_int_pred_log<bits<4> opc, string asm>
1606: I<(outs PPR8:$Pd), (ins PPRAny:$Pg, PPR8:$Pn, PPR8:$Pm),
1607  asm, "\t$Pd, $Pg/z, $Pn, $Pm",
1608  "",
1609  []>, Sched<[]> {
1610  bits<4> Pd;
1611  bits<4> Pg;
1612  bits<4> Pm;
1613  bits<4> Pn;
1614  let Inst{31-24} = 0b00100101;
1615  let Inst{23-22} = opc{3-2};
1616  let Inst{21-20} = 0b00;
1617  let Inst{19-16} = Pm;
1618  let Inst{15-14} = 0b01;
1619  let Inst{13-10} = Pg;
1620  let Inst{9}     = opc{1};
1621  let Inst{8-5}   = Pn;
1622  let Inst{4}     = opc{0};
1623  let Inst{3-0}   = Pd;
1624
1625  // SEL has no predication qualifier.
1626  let AsmString = !if(!eq(opc, 0b0011),
1627                      !strconcat(asm, "\t$Pd, $Pg, $Pn, $Pm"),
1628                      !strconcat(asm, "\t$Pd, $Pg/z, $Pn, $Pm"));
1629
1630  let Defs = !if(!eq (opc{2}, 1), [NZCV], []);
1631
1632}
1633
1634multiclass sve_int_pred_log<bits<4> opc, string asm, SDPatternOperator op,
1635                            SDPatternOperator op_nopred = null_frag> {
1636  def NAME : sve_int_pred_log<opc, asm>;
1637
1638  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, nxv16i1, !cast<Instruction>(NAME)>;
1639  def : SVE_3_Op_Pat<nxv8i1, op, nxv8i1, nxv8i1, nxv8i1, !cast<Instruction>(NAME)>;
1640  def : SVE_3_Op_Pat<nxv4i1, op, nxv4i1, nxv4i1, nxv4i1, !cast<Instruction>(NAME)>;
1641  def : SVE_3_Op_Pat<nxv2i1, op, nxv2i1, nxv2i1, nxv2i1, !cast<Instruction>(NAME)>;
1642  def : SVE_2_Op_AllActive_Pat<nxv16i1, op_nopred, nxv16i1, nxv16i1,
1643                               !cast<Instruction>(NAME), PTRUE_B>;
1644  def : SVE_2_Op_AllActive_Pat<nxv8i1, op_nopred, nxv8i1, nxv8i1,
1645                               !cast<Instruction>(NAME), PTRUE_H>;
1646  def : SVE_2_Op_AllActive_Pat<nxv4i1, op_nopred, nxv4i1, nxv4i1,
1647                               !cast<Instruction>(NAME), PTRUE_S>;
1648  def : SVE_2_Op_AllActive_Pat<nxv2i1, op_nopred, nxv2i1, nxv2i1,
1649                               !cast<Instruction>(NAME), PTRUE_D>;
1650}
1651
1652// An instance of sve_int_pred_log_and but uses op_nopred's first operand as the
1653// general predicate.
1654multiclass sve_int_pred_log_v2<bits<4> opc, string asm, SDPatternOperator op,
1655                               SDPatternOperator op_nopred> :
1656  sve_int_pred_log<opc, asm, op> {
1657  def : Pat<(nxv16i1 (op_nopred nxv16i1:$Op1, nxv16i1:$Op2)),
1658            (!cast<Instruction>(NAME) $Op1, $Op1, $Op2)>;
1659  def : Pat<(nxv8i1 (op_nopred nxv8i1:$Op1, nxv8i1:$Op2)),
1660            (!cast<Instruction>(NAME) $Op1, $Op1, $Op2)>;
1661  def : Pat<(nxv4i1 (op_nopred nxv4i1:$Op1, nxv4i1:$Op2)),
1662            (!cast<Instruction>(NAME) $Op1, $Op1, $Op2)>;
1663  def : Pat<(nxv2i1 (op_nopred nxv2i1:$Op1, nxv2i1:$Op2)),
1664            (!cast<Instruction>(NAME) $Op1, $Op1, $Op2)>;
1665}
1666
1667//===----------------------------------------------------------------------===//
1668// SVE Logical Mask Immediate Group
1669//===----------------------------------------------------------------------===//
1670
1671class sve_int_log_imm<bits<2> opc, string asm>
1672: I<(outs ZPR64:$Zdn), (ins ZPR64:$_Zdn, logical_imm64:$imms13),
1673  asm, "\t$Zdn, $_Zdn, $imms13",
1674  "", []>, Sched<[]> {
1675  bits<5> Zdn;
1676  bits<13> imms13;
1677  let Inst{31-24} = 0b00000101;
1678  let Inst{23-22} = opc;
1679  let Inst{21-18} = 0b0000;
1680  let Inst{17-5}  = imms13;
1681  let Inst{4-0}   = Zdn;
1682
1683  let Constraints = "$Zdn = $_Zdn";
1684  let DecoderMethod = "DecodeSVELogicalImmInstruction";
1685  let DestructiveInstType = DestructiveOther;
1686  let ElementSize = ElementSizeNone;
1687}
1688
1689multiclass sve_int_log_imm<bits<2> opc, string asm, string alias, SDPatternOperator op> {
1690  def NAME : sve_int_log_imm<opc, asm>;
1691
1692  def : SVE_1_Op_Imm_Log_Pat<nxv16i8, op, ZPR8,  i32, SVELogicalImm8Pat,  !cast<Instruction>(NAME)>;
1693  def : SVE_1_Op_Imm_Log_Pat<nxv8i16, op, ZPR16, i32, SVELogicalImm16Pat, !cast<Instruction>(NAME)>;
1694  def : SVE_1_Op_Imm_Log_Pat<nxv4i32, op, ZPR32, i32, SVELogicalImm32Pat, !cast<Instruction>(NAME)>;
1695  def : SVE_1_Op_Imm_Log_Pat<nxv2i64, op, ZPR64, i64, SVELogicalImm64Pat, !cast<Instruction>(NAME)>;
1696
1697  def : InstAlias<asm # "\t$Zdn, $Zdn, $imm",
1698                  (!cast<Instruction>(NAME) ZPR8:$Zdn, sve_logical_imm8:$imm), 4>;
1699  def : InstAlias<asm # "\t$Zdn, $Zdn, $imm",
1700                  (!cast<Instruction>(NAME) ZPR16:$Zdn, sve_logical_imm16:$imm), 3>;
1701  def : InstAlias<asm # "\t$Zdn, $Zdn, $imm",
1702                  (!cast<Instruction>(NAME) ZPR32:$Zdn, sve_logical_imm32:$imm), 2>;
1703
1704  def : InstAlias<alias # "\t$Zdn, $Zdn, $imm",
1705                  (!cast<Instruction>(NAME) ZPR8:$Zdn, sve_logical_imm8_not:$imm), 0>;
1706  def : InstAlias<alias # "\t$Zdn, $Zdn, $imm",
1707                  (!cast<Instruction>(NAME) ZPR16:$Zdn, sve_logical_imm16_not:$imm), 0>;
1708  def : InstAlias<alias # "\t$Zdn, $Zdn, $imm",
1709                  (!cast<Instruction>(NAME) ZPR32:$Zdn, sve_logical_imm32_not:$imm), 0>;
1710  def : InstAlias<alias # "\t$Zdn, $Zdn, $imm",
1711                  (!cast<Instruction>(NAME) ZPR64:$Zdn, logical_imm64_not:$imm), 0>;
1712}
1713
1714multiclass sve_int_log_imm_bic<SDPatternOperator op> {
1715  def : SVE_1_Op_Imm_Log_Pat<nxv16i8, op, ZPR8,  i32, SVELogicalImm8NotPat,  !cast<Instruction>("AND_ZI")>;
1716  def : SVE_1_Op_Imm_Log_Pat<nxv8i16, op, ZPR16, i32, SVELogicalImm16NotPat, !cast<Instruction>("AND_ZI")>;
1717  def : SVE_1_Op_Imm_Log_Pat<nxv4i32, op, ZPR32, i32, SVELogicalImm32NotPat, !cast<Instruction>("AND_ZI")>;
1718  def : SVE_1_Op_Imm_Log_Pat<nxv2i64, op, ZPR64, i64, SVELogicalImm64NotPat, !cast<Instruction>("AND_ZI")>;
1719}
1720
1721class sve_int_dup_mask_imm<string asm>
1722: I<(outs ZPR64:$Zd), (ins logical_imm64:$imms),
1723  asm, "\t$Zd, $imms",
1724  "",
1725  []>, Sched<[]> {
1726  bits<5> Zd;
1727  bits<13> imms;
1728  let Inst{31-18} = 0b00000101110000;
1729  let Inst{17-5} = imms;
1730  let Inst{4-0} = Zd;
1731
1732  let isReMaterializable = 1;
1733  let DecoderMethod = "DecodeSVELogicalImmInstruction";
1734}
1735
1736multiclass sve_int_dup_mask_imm<string asm> {
1737  def NAME : sve_int_dup_mask_imm<asm>;
1738
1739  def : InstAlias<"dupm $Zd, $imm",
1740                  (!cast<Instruction>(NAME) ZPR8:$Zd, sve_logical_imm8:$imm), 4>;
1741  def : InstAlias<"dupm $Zd, $imm",
1742                  (!cast<Instruction>(NAME) ZPR16:$Zd, sve_logical_imm16:$imm), 3>;
1743  def : InstAlias<"dupm $Zd, $imm",
1744                  (!cast<Instruction>(NAME) ZPR32:$Zd, sve_logical_imm32:$imm), 2>;
1745
1746  // All Zd.b forms have a CPY/DUP equivalent, hence no byte alias here.
1747  def : InstAlias<"mov $Zd, $imm",
1748                  (!cast<Instruction>(NAME) ZPR16:$Zd, sve_preferred_logical_imm16:$imm), 7>;
1749  def : InstAlias<"mov $Zd, $imm",
1750                  (!cast<Instruction>(NAME) ZPR32:$Zd, sve_preferred_logical_imm32:$imm), 6>;
1751  def : InstAlias<"mov $Zd, $imm",
1752                  (!cast<Instruction>(NAME) ZPR64:$Zd, sve_preferred_logical_imm64:$imm), 5>;
1753
1754  def : Pat<(nxv2i64 (AArch64dup (i64 logical_imm64:$imm))),
1755            (!cast<Instruction>(NAME) logical_imm64:$imm)>;
1756}
1757
1758//===----------------------------------------------------------------------===//
1759// SVE Integer Arithmetic -  Unpredicated Group.
1760//===----------------------------------------------------------------------===//
1761
1762class sve_int_bin_cons_arit_0<bits<2> sz8_64, bits<3> opc, string asm,
1763                              ZPRRegOp zprty>
1764: I<(outs zprty:$Zd), (ins zprty:$Zn, zprty:$Zm),
1765  asm, "\t$Zd, $Zn, $Zm",
1766  "", []>, Sched<[]> {
1767  bits<5> Zd;
1768  bits<5> Zm;
1769  bits<5> Zn;
1770  let Inst{31-24} = 0b00000100;
1771  let Inst{23-22} = sz8_64;
1772  let Inst{21}    = 0b1;
1773  let Inst{20-16} = Zm;
1774  let Inst{15-13} = 0b000;
1775  let Inst{12-10} = opc;
1776  let Inst{9-5}   = Zn;
1777  let Inst{4-0}   = Zd;
1778}
1779
1780multiclass sve_int_bin_cons_arit_0<bits<3> opc, string asm, SDPatternOperator op> {
1781  def _B : sve_int_bin_cons_arit_0<0b00, opc, asm, ZPR8>;
1782  def _H : sve_int_bin_cons_arit_0<0b01, opc, asm, ZPR16>;
1783  def _S : sve_int_bin_cons_arit_0<0b10, opc, asm, ZPR32>;
1784  def _D : sve_int_bin_cons_arit_0<0b11, opc, asm, ZPR64>;
1785
1786  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
1787  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1788  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1789  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1790}
1791
1792//===----------------------------------------------------------------------===//
1793// SVE Floating Point Arithmetic - Predicated Group
1794//===----------------------------------------------------------------------===//
1795
1796class sve_fp_2op_i_p_zds<bits<2> sz, bits<3> opc, string asm,
1797                         ZPRRegOp zprty,
1798                         Operand imm_ty>
1799: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, imm_ty:$i1),
1800  asm, "\t$Zdn, $Pg/m, $_Zdn, $i1",
1801  "",
1802  []>, Sched<[]> {
1803  bits<3> Pg;
1804  bits<5> Zdn;
1805  bit i1;
1806  let Inst{31-24} = 0b01100101;
1807  let Inst{23-22} = sz;
1808  let Inst{21-19} = 0b011;
1809  let Inst{18-16} = opc;
1810  let Inst{15-13} = 0b100;
1811  let Inst{12-10} = Pg;
1812  let Inst{9-6}   = 0b0000;
1813  let Inst{5}     = i1;
1814  let Inst{4-0}   = Zdn;
1815
1816  let Constraints = "$Zdn = $_Zdn";
1817  let DestructiveInstType = DestructiveOther;
1818  let ElementSize = zprty.ElementSize;
1819}
1820
1821multiclass sve_fp_2op_i_p_zds<bits<3> opc, string asm, string Ps, Operand imm_ty, FPImmLeaf A, FPImmLeaf B, SDPatternOperator op> {
1822  let DestructiveInstType = DestructiveBinaryImm in {
1823  def _H : SVEPseudo2Instr<Ps # _H, 1>, sve_fp_2op_i_p_zds<0b01, opc, asm, ZPR16, imm_ty>;
1824  def _S : SVEPseudo2Instr<Ps # _S, 1>, sve_fp_2op_i_p_zds<0b10, opc, asm, ZPR32, imm_ty>;
1825  def _D : SVEPseudo2Instr<Ps # _D, 1>, sve_fp_2op_i_p_zds<0b11, opc, asm, ZPR64, imm_ty>;
1826  }
1827
1828  def : SVE_2_Op_Fp_Imm_Pat<nxv8f16, op, nxv8i1, f16, A, 0, !cast<Instruction>(NAME # "_H")>;
1829  def : SVE_2_Op_Fp_Imm_Pat<nxv8f16, op, nxv8i1, f16, B, 1, !cast<Instruction>(NAME # "_H")>;
1830  def : SVE_2_Op_Fp_Imm_Pat<nxv4f32, op, nxv4i1, f32, A, 0, !cast<Instruction>(NAME # "_S")>;
1831  def : SVE_2_Op_Fp_Imm_Pat<nxv4f32, op, nxv4i1, f32, B, 1, !cast<Instruction>(NAME # "_S")>;
1832  def : SVE_2_Op_Fp_Imm_Pat<nxv2f64, op, nxv2i1, f64, A, 0, !cast<Instruction>(NAME # "_D")>;
1833  def : SVE_2_Op_Fp_Imm_Pat<nxv2f64, op, nxv2i1, f64, B, 1, !cast<Instruction>(NAME # "_D")>;
1834}
1835
1836class sve_fp_2op_p_zds<bits<2> sz, bits<4> opc, string asm,
1837                       ZPRRegOp zprty>
1838: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm),
1839  asm, "\t$Zdn, $Pg/m, $_Zdn, $Zm",
1840  "",
1841  []>, Sched<[]> {
1842  bits<3> Pg;
1843  bits<5> Zdn;
1844  bits<5> Zm;
1845  let Inst{31-24} = 0b01100101;
1846  let Inst{23-22} = sz;
1847  let Inst{21-20} = 0b00;
1848  let Inst{19-16} = opc;
1849  let Inst{15-13} = 0b100;
1850  let Inst{12-10} = Pg;
1851  let Inst{9-5}   = Zm;
1852  let Inst{4-0}   = Zdn;
1853
1854  let Constraints = "$Zdn = $_Zdn";
1855  let DestructiveInstType = DestructiveOther;
1856  let ElementSize = zprty.ElementSize;
1857}
1858
1859multiclass sve_fp_2op_p_zds<bits<4> opc, string asm, string Ps,
1860                            SDPatternOperator op, DestructiveInstTypeEnum flags,
1861                            string revname="", bit isReverseInstr=0> {
1862  let DestructiveInstType = flags in {
1863  def _H : sve_fp_2op_p_zds<0b01, opc, asm, ZPR16>,
1864           SVEPseudo2Instr<Ps # _H, 1>, SVEInstr2Rev<NAME # _H, revname # _H, isReverseInstr>;
1865  def _S : sve_fp_2op_p_zds<0b10, opc, asm, ZPR32>,
1866           SVEPseudo2Instr<Ps # _S, 1>, SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
1867  def _D : sve_fp_2op_p_zds<0b11, opc, asm, ZPR64>,
1868           SVEPseudo2Instr<Ps # _D, 1>, SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
1869  }
1870
1871  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
1872  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
1873  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
1874}
1875
1876multiclass sve_fp_2op_p_zds_fscale<bits<4> opc, string asm,
1877                                   SDPatternOperator op> {
1878  def _H : sve_fp_2op_p_zds<0b01, opc, asm, ZPR16>;
1879  def _S : sve_fp_2op_p_zds<0b10, opc, asm, ZPR32>;
1880  def _D : sve_fp_2op_p_zds<0b11, opc, asm, ZPR64>;
1881
1882  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8i16, !cast<Instruction>(NAME # _H)>;
1883  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4i32, !cast<Instruction>(NAME # _S)>;
1884  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2i64, !cast<Instruction>(NAME # _D)>;
1885}
1886
1887multiclass sve_fp_2op_p_zds_zeroing_hsd<SDPatternOperator op> {
1888  def _ZERO_H : PredTwoOpPseudo<NAME # _H, ZPR16, FalseLanesZero>;
1889  def _ZERO_S : PredTwoOpPseudo<NAME # _S, ZPR32, FalseLanesZero>;
1890  def _ZERO_D : PredTwoOpPseudo<NAME # _D, ZPR64, FalseLanesZero>;
1891
1892  def : SVE_3_Op_Pat_SelZero<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, !cast<Pseudo>(NAME # _ZERO_H)>;
1893  def : SVE_3_Op_Pat_SelZero<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, !cast<Pseudo>(NAME # _ZERO_S)>;
1894  def : SVE_3_Op_Pat_SelZero<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, !cast<Pseudo>(NAME # _ZERO_D)>;
1895}
1896
1897class sve_fp_ftmad<bits<2> sz, string asm, ZPRRegOp zprty>
1898: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, zprty:$Zm, timm32_0_7:$imm3),
1899  asm, "\t$Zdn, $_Zdn, $Zm, $imm3",
1900  "",
1901  []>, Sched<[]> {
1902  bits<5> Zdn;
1903  bits<5> Zm;
1904  bits<3> imm3;
1905  let Inst{31-24} = 0b01100101;
1906  let Inst{23-22} = sz;
1907  let Inst{21-19} = 0b010;
1908  let Inst{18-16} = imm3;
1909  let Inst{15-10} = 0b100000;
1910  let Inst{9-5}   = Zm;
1911  let Inst{4-0}   = Zdn;
1912
1913  let Constraints = "$Zdn = $_Zdn";
1914  let DestructiveInstType = DestructiveOther;
1915  let ElementSize = ElementSizeNone;
1916}
1917
1918multiclass sve_fp_ftmad<string asm, SDPatternOperator op> {
1919  def _H : sve_fp_ftmad<0b01, asm, ZPR16>;
1920  def _S : sve_fp_ftmad<0b10, asm, ZPR32>;
1921  def _D : sve_fp_ftmad<0b11, asm, ZPR64>;
1922
1923  def : Pat<(nxv8f16 (op (nxv8f16 ZPR16:$Zn), (nxv8f16 ZPR16:$Zm), (i32 timm32_0_7:$imm))),
1924            (!cast<Instruction>(NAME # _H) ZPR16:$Zn, ZPR16:$Zm, timm32_0_7:$imm)>;
1925  def : Pat<(nxv4f32 (op (nxv4f32 ZPR32:$Zn), (nxv4f32 ZPR32:$Zm), (i32 timm32_0_7:$imm))),
1926            (!cast<Instruction>(NAME # _S) ZPR32:$Zn, ZPR32:$Zm, timm32_0_7:$imm)>;
1927  def : Pat<(nxv2f64 (op (nxv2f64 ZPR64:$Zn), (nxv2f64 ZPR64:$Zm), (i32 timm32_0_7:$imm))),
1928            (!cast<Instruction>(NAME # _D) ZPR64:$Zn, ZPR64:$Zm, timm32_0_7:$imm)>;
1929}
1930
1931multiclass sve_fp_2op_i_p_zds_hfd<Operand imm_ty, FPImmLeaf A, FPImmLeaf B, SDPatternOperator ir_op = null_frag> {
1932  def _UNDEF_H : PredTwoOpImmPseudo<NAME # _H, ZPR16, imm_ty, FalseLanesUndef>;
1933  def _UNDEF_S : PredTwoOpImmPseudo<NAME # _S, ZPR32, imm_ty, FalseLanesUndef>;
1934  def _UNDEF_D : PredTwoOpImmPseudo<NAME # _D, ZPR64, imm_ty, FalseLanesUndef>;
1935
1936  def : SVE_2_Op_Fp_Imm_Pat<nxv8f16, ir_op, nxv8i1, f16, A, 0, !cast<Instruction>(NAME # "_UNDEF_H")>;
1937  def : SVE_2_Op_Fp_Imm_Pat<nxv8f16, ir_op, nxv8i1, f16, B, 1, !cast<Instruction>(NAME # "_UNDEF_H")>;
1938  def : SVE_2_Op_Fp_Imm_Pat<nxv4f16, ir_op, nxv4i1, f16, A, 0, !cast<Instruction>(NAME # "_UNDEF_H")>;
1939  def : SVE_2_Op_Fp_Imm_Pat<nxv4f16, ir_op, nxv4i1, f16, B, 1, !cast<Instruction>(NAME # "_UNDEF_H")>;
1940  def : SVE_2_Op_Fp_Imm_Pat<nxv2f16, ir_op, nxv2i1, f16, A, 0, !cast<Instruction>(NAME # "_UNDEF_H")>;
1941  def : SVE_2_Op_Fp_Imm_Pat<nxv2f16, ir_op, nxv2i1, f16, B, 1, !cast<Instruction>(NAME # "_UNDEF_H")>;
1942  def : SVE_2_Op_Fp_Imm_Pat<nxv4f32, ir_op, nxv4i1, f32, A, 0, !cast<Instruction>(NAME # "_UNDEF_S")>;
1943  def : SVE_2_Op_Fp_Imm_Pat<nxv4f32, ir_op, nxv4i1, f32, B, 1, !cast<Instruction>(NAME # "_UNDEF_S")>;
1944  def : SVE_2_Op_Fp_Imm_Pat<nxv2f32, ir_op, nxv2i1, f32, A, 0, !cast<Instruction>(NAME # "_UNDEF_S")>;
1945  def : SVE_2_Op_Fp_Imm_Pat<nxv2f32, ir_op, nxv2i1, f32, B, 1, !cast<Instruction>(NAME # "_UNDEF_S")>;
1946  def : SVE_2_Op_Fp_Imm_Pat<nxv2f64, ir_op, nxv2i1, f64, A, 0, !cast<Instruction>(NAME # "_UNDEF_D")>;
1947  def : SVE_2_Op_Fp_Imm_Pat<nxv2f64, ir_op, nxv2i1, f64, B, 1, !cast<Instruction>(NAME # "_UNDEF_D")>;
1948}
1949
1950multiclass sve_fp_2op_i_p_zds_zeroing_hfd<Operand imm_ty, FPImmLeaf A, FPImmLeaf B, SDPatternOperator op> {
1951  def _ZERO_H : PredTwoOpImmPseudo<NAME # _H, ZPR16, imm_ty, FalseLanesZero>;
1952  def _ZERO_S : PredTwoOpImmPseudo<NAME # _S, ZPR32, imm_ty, FalseLanesZero>;
1953  def _ZERO_D : PredTwoOpImmPseudo<NAME # _D, ZPR64, imm_ty, FalseLanesZero>;
1954
1955  let AddedComplexity = 2 in {
1956    def : SVE_2_Op_Fp_Imm_Pat_Zero<nxv8f16, op, nxv8i1, f16, A, 0, !cast<Instruction>(NAME # "_ZERO_H")>;
1957    def : SVE_2_Op_Fp_Imm_Pat_Zero<nxv8f16, op, nxv8i1, f16, B, 1, !cast<Instruction>(NAME # "_ZERO_H")>;
1958    def : SVE_2_Op_Fp_Imm_Pat_Zero<nxv4f32, op, nxv4i1, f32, A, 0, !cast<Instruction>(NAME # "_ZERO_S")>;
1959    def : SVE_2_Op_Fp_Imm_Pat_Zero<nxv4f32, op, nxv4i1, f32, B, 1, !cast<Instruction>(NAME # "_ZERO_S")>;
1960    def : SVE_2_Op_Fp_Imm_Pat_Zero<nxv2f64, op, nxv2i1, f64, A, 0, !cast<Instruction>(NAME # "_ZERO_D")>;
1961    def : SVE_2_Op_Fp_Imm_Pat_Zero<nxv2f64, op, nxv2i1, f64, B, 1, !cast<Instruction>(NAME # "_ZERO_D")>;
1962  }
1963}
1964
1965//===----------------------------------------------------------------------===//
1966// SVE Floating Point Arithmetic - Unpredicated Group
1967//===----------------------------------------------------------------------===//
1968
1969class sve_fp_3op_u_zd<bits<2> sz, bits<3> opc, string asm, ZPRRegOp zprty>
1970: I<(outs zprty:$Zd), (ins  zprty:$Zn, zprty:$Zm),
1971  asm, "\t$Zd, $Zn, $Zm",
1972  "",
1973  []>, Sched<[]> {
1974  bits<5> Zd;
1975  bits<5> Zm;
1976  bits<5> Zn;
1977  let Inst{31-24} = 0b01100101;
1978  let Inst{23-22} = sz;
1979  let Inst{21}    = 0b0;
1980  let Inst{20-16} = Zm;
1981  let Inst{15-13} = 0b000;
1982  let Inst{12-10} = opc;
1983  let Inst{9-5}   = Zn;
1984  let Inst{4-0}   = Zd;
1985}
1986
1987multiclass sve_fp_3op_u_zd<bits<3> opc, string asm, SDPatternOperator op,
1988                           SDPatternOperator predicated_op = null_frag> {
1989  def _H : sve_fp_3op_u_zd<0b01, opc, asm, ZPR16>;
1990  def _S : sve_fp_3op_u_zd<0b10, opc, asm, ZPR32>;
1991  def _D : sve_fp_3op_u_zd<0b11, opc, asm, ZPR64>;
1992
1993  def : SVE_2_Op_Pat<nxv8f16, op, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
1994  def : SVE_2_Op_Pat<nxv4f32, op, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
1995  def : SVE_2_Op_Pat<nxv2f64, op, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
1996
1997  def : SVE_2_Op_Pred_All_Active<nxv8f16, predicated_op, nxv8i1, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
1998  def : SVE_2_Op_Pred_All_Active<nxv4f32, predicated_op, nxv4i1, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
1999  def : SVE_2_Op_Pred_All_Active<nxv2f64, predicated_op, nxv2i1, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
2000}
2001
2002multiclass sve_fp_3op_u_zd_ftsmul<bits<3> opc, string asm, SDPatternOperator op> {
2003  def _H : sve_fp_3op_u_zd<0b01, opc, asm, ZPR16>;
2004  def _S : sve_fp_3op_u_zd<0b10, opc, asm, ZPR32>;
2005  def _D : sve_fp_3op_u_zd<0b11, opc, asm, ZPR64>;
2006
2007  def : SVE_2_Op_Pat<nxv8f16, op, nxv8f16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2008  def : SVE_2_Op_Pat<nxv4f32, op, nxv4f32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2009  def : SVE_2_Op_Pat<nxv2f64, op, nxv2f64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2010}
2011
2012//===----------------------------------------------------------------------===//
2013// SVE Floating Point Fused Multiply-Add Group
2014//===----------------------------------------------------------------------===//
2015
2016class sve_fp_3op_p_zds_a<bits<2> sz, bits<2> opc, string asm, ZPRRegOp zprty>
2017: I<(outs zprty:$Zda), (ins PPR3bAny:$Pg, zprty:$_Zda, zprty:$Zn, zprty:$Zm),
2018  asm, "\t$Zda, $Pg/m, $Zn, $Zm",
2019  "",
2020  []>, Sched<[]> {
2021  bits<3> Pg;
2022  bits<5> Zda;
2023  bits<5> Zm;
2024  bits<5> Zn;
2025  let Inst{31-24} = 0b01100101;
2026  let Inst{23-22} = sz;
2027  let Inst{21}    = 0b1;
2028  let Inst{20-16} = Zm;
2029  let Inst{15}    = 0b0;
2030  let Inst{14-13} = opc;
2031  let Inst{12-10} = Pg;
2032  let Inst{9-5}   = Zn;
2033  let Inst{4-0}   = Zda;
2034
2035  let Constraints = "$Zda = $_Zda";
2036  let ElementSize = zprty.ElementSize;
2037}
2038
2039multiclass sve_fp_3op_p_zds_a<bits<2> opc, string asm, string Ps,
2040                              SDPatternOperator op, string revname,
2041                              bit isReverseInstr=0> {
2042  let DestructiveInstType = DestructiveTernaryCommWithRev in {
2043  def _H : sve_fp_3op_p_zds_a<0b01, opc, asm, ZPR16>,
2044           SVEPseudo2Instr<Ps # _H, 1>, SVEInstr2Rev<NAME # _H, revname # _H, isReverseInstr>;
2045  def _S : sve_fp_3op_p_zds_a<0b10, opc, asm, ZPR32>,
2046           SVEPseudo2Instr<Ps # _S, 1>, SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
2047  def _D : sve_fp_3op_p_zds_a<0b11, opc, asm, ZPR64>,
2048           SVEPseudo2Instr<Ps # _D, 1>, SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
2049  }
2050
2051  def : SVE_4_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
2052  def : SVE_4_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
2053  def : SVE_4_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
2054}
2055
2056class sve_fp_3op_p_zds_b<bits<2> sz, bits<2> opc, string asm,
2057                         ZPRRegOp zprty>
2058: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm, zprty:$Za),
2059  asm, "\t$Zdn, $Pg/m, $Zm, $Za",
2060  "",
2061  []>, Sched<[]> {
2062  bits<3> Pg;
2063  bits<5> Za;
2064  bits<5> Zdn;
2065  bits<5> Zm;
2066  let Inst{31-24} = 0b01100101;
2067  let Inst{23-22} = sz;
2068  let Inst{21}    = 0b1;
2069  let Inst{20-16} = Za;
2070  let Inst{15}    = 0b1;
2071  let Inst{14-13} = opc;
2072  let Inst{12-10} = Pg;
2073  let Inst{9-5}   = Zm;
2074  let Inst{4-0}   = Zdn;
2075
2076  let Constraints = "$Zdn = $_Zdn";
2077  let DestructiveInstType = DestructiveOther;
2078  let ElementSize = zprty.ElementSize;
2079}
2080
2081multiclass sve_fp_3op_p_zds_b<bits<2> opc, string asm, SDPatternOperator op,
2082                              string revname, bit isReverseInstr> {
2083  def _H : sve_fp_3op_p_zds_b<0b01, opc, asm, ZPR16>,
2084           SVEInstr2Rev<NAME # _H, revname # _H, isReverseInstr>;
2085  def _S : sve_fp_3op_p_zds_b<0b10, opc, asm, ZPR32>,
2086           SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
2087  def _D : sve_fp_3op_p_zds_b<0b11, opc, asm, ZPR64>,
2088           SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
2089
2090  def : SVE_4_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
2091  def : SVE_4_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
2092  def : SVE_4_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
2093}
2094
2095multiclass sve_fp_3op_p_zds_zx {
2096  def _UNDEF_H : PredThreeOpPseudo<NAME # _H, ZPR16, FalseLanesUndef>;
2097  def _UNDEF_S : PredThreeOpPseudo<NAME # _S, ZPR32, FalseLanesUndef>;
2098  def _UNDEF_D : PredThreeOpPseudo<NAME # _D, ZPR64, FalseLanesUndef>;
2099}
2100
2101//===----------------------------------------------------------------------===//
2102// SVE Floating Point Multiply-Add - Indexed Group
2103//===----------------------------------------------------------------------===//
2104
2105class sve_fp_fma_by_indexed_elem<bits<2> sz, bit opc, string asm,
2106                                 ZPRRegOp zprty1,
2107                                 ZPRRegOp zprty2, Operand itype>
2108: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty1:$Zn, zprty2:$Zm, itype:$iop),
2109  asm, "\t$Zda, $Zn, $Zm$iop", "", []>, Sched<[]> {
2110  bits<5> Zda;
2111  bits<5> Zn;
2112  let Inst{31-24} = 0b01100100;
2113  let Inst{23-22} = sz;
2114  let Inst{21}    = 0b1;
2115  let Inst{15-11} = 0;
2116  let Inst{10}    = opc;
2117  let Inst{9-5}   = Zn;
2118  let Inst{4-0}   = Zda;
2119
2120  let Constraints = "$Zda = $_Zda";
2121  let DestructiveInstType = DestructiveOther;
2122  let ElementSize = ElementSizeNone;
2123}
2124
2125multiclass sve_fp_fma_by_indexed_elem<bit opc, string asm,
2126                                      SDPatternOperator op> {
2127  def _H : sve_fp_fma_by_indexed_elem<{0, ?}, opc, asm, ZPR16, ZPR3b16, VectorIndexH32b> {
2128    bits<3> Zm;
2129    bits<3> iop;
2130    let Inst{22} = iop{2};
2131    let Inst{20-19} = iop{1-0};
2132    let Inst{18-16} = Zm;
2133  }
2134  def _S : sve_fp_fma_by_indexed_elem<0b10, opc, asm, ZPR32, ZPR3b32, VectorIndexS32b> {
2135    bits<3> Zm;
2136    bits<2> iop;
2137    let Inst{20-19} = iop;
2138    let Inst{18-16} = Zm;
2139  }
2140  def _D : sve_fp_fma_by_indexed_elem<0b11, opc, asm, ZPR64, ZPR4b64, VectorIndexD32b> {
2141    bits<4> Zm;
2142    bit iop;
2143    let Inst{20} = iop;
2144    let Inst{19-16} = Zm;
2145  }
2146
2147  def : Pat<(nxv8f16 (op nxv8f16:$Op1, nxv8f16:$Op2, nxv8f16:$Op3, (i32 VectorIndexH32b_timm:$idx))),
2148            (!cast<Instruction>(NAME # _H) $Op1, $Op2, $Op3, VectorIndexH32b_timm:$idx)>;
2149  def : Pat<(nxv4f32 (op nxv4f32:$Op1, nxv4f32:$Op2, nxv4f32:$Op3, (i32 VectorIndexS32b_timm:$idx))),
2150            (!cast<Instruction>(NAME # _S) $Op1, $Op2, $Op3, VectorIndexS32b_timm:$idx)>;
2151  def : Pat<(nxv2f64 (op nxv2f64:$Op1, nxv2f64:$Op2, nxv2f64:$Op3, (i32 VectorIndexD32b_timm:$idx))),
2152            (!cast<Instruction>(NAME # _D) $Op1, $Op2, $Op3, VectorIndexD32b_timm:$idx)>;
2153}
2154
2155
2156//===----------------------------------------------------------------------===//
2157// SVE Floating Point Multiply - Indexed Group
2158//===----------------------------------------------------------------------===//
2159
2160class sve_fp_fmul_by_indexed_elem<bits<2> sz, string asm, ZPRRegOp zprty,
2161                                      ZPRRegOp zprty2, Operand itype>
2162: I<(outs zprty:$Zd), (ins zprty:$Zn, zprty2:$Zm, itype:$iop),
2163  asm, "\t$Zd, $Zn, $Zm$iop", "", []>, Sched<[]> {
2164  bits<5> Zd;
2165  bits<5> Zn;
2166  let Inst{31-24} = 0b01100100;
2167  let Inst{23-22} = sz;
2168  let Inst{21}    = 0b1;
2169  let Inst{15-10} = 0b001000;
2170  let Inst{9-5}   = Zn;
2171  let Inst{4-0}   = Zd;
2172}
2173
2174multiclass sve_fp_fmul_by_indexed_elem<string asm, SDPatternOperator op> {
2175  def _H : sve_fp_fmul_by_indexed_elem<{0, ?}, asm, ZPR16, ZPR3b16, VectorIndexH32b> {
2176    bits<3> Zm;
2177    bits<3> iop;
2178    let Inst{22} = iop{2};
2179    let Inst{20-19} = iop{1-0};
2180    let Inst{18-16} = Zm;
2181  }
2182  def _S : sve_fp_fmul_by_indexed_elem<0b10, asm, ZPR32, ZPR3b32, VectorIndexS32b> {
2183    bits<3> Zm;
2184    bits<2> iop;
2185    let Inst{20-19} = iop;
2186    let Inst{18-16} = Zm;
2187  }
2188  def _D : sve_fp_fmul_by_indexed_elem<0b11, asm, ZPR64, ZPR4b64, VectorIndexD32b> {
2189    bits<4> Zm;
2190    bit iop;
2191    let Inst{20} = iop;
2192    let Inst{19-16} = Zm;
2193  }
2194
2195  def : Pat<(nxv8f16 (op nxv8f16:$Op1, nxv8f16:$Op2, (i32 VectorIndexH32b_timm:$idx))),
2196            (!cast<Instruction>(NAME # _H) $Op1, $Op2, VectorIndexH32b_timm:$idx)>;
2197  def : Pat<(nxv4f32 (op nxv4f32:$Op1, nxv4f32:$Op2, (i32 VectorIndexS32b_timm:$idx))),
2198            (!cast<Instruction>(NAME # _S) $Op1, $Op2, VectorIndexS32b_timm:$idx)>;
2199  def : Pat<(nxv2f64 (op nxv2f64:$Op1, nxv2f64:$Op2, (i32 VectorIndexD32b_timm:$idx))),
2200            (!cast<Instruction>(NAME # _D) $Op1, $Op2, VectorIndexD32b_timm:$idx)>;
2201}
2202
2203//===----------------------------------------------------------------------===//
2204// SVE Floating Point Complex Multiply-Add Group
2205//===----------------------------------------------------------------------===//
2206
2207class sve_fp_fcmla<bits<2> sz, string asm, ZPRRegOp zprty>
2208: I<(outs zprty:$Zda), (ins PPR3bAny:$Pg, zprty:$_Zda, zprty:$Zn, zprty:$Zm,
2209                        complexrotateop:$imm),
2210  asm, "\t$Zda, $Pg/m, $Zn, $Zm, $imm",
2211  "", []>, Sched<[]> {
2212  bits<5> Zda;
2213  bits<3> Pg;
2214  bits<5> Zn;
2215  bits<5> Zm;
2216  bits<2> imm;
2217  let Inst{31-24} = 0b01100100;
2218  let Inst{23-22} = sz;
2219  let Inst{21}    = 0;
2220  let Inst{20-16} = Zm;
2221  let Inst{15}    = 0;
2222  let Inst{14-13} = imm;
2223  let Inst{12-10} = Pg;
2224  let Inst{9-5}   = Zn;
2225  let Inst{4-0}   = Zda;
2226
2227  let Constraints = "$Zda = $_Zda";
2228  let DestructiveInstType = DestructiveOther;
2229  let ElementSize = zprty.ElementSize;
2230}
2231
2232multiclass sve_fp_fcmla<string asm, SDPatternOperator op> {
2233  def _H : sve_fp_fcmla<0b01, asm, ZPR16>;
2234  def _S : sve_fp_fcmla<0b10, asm, ZPR32>;
2235  def _D : sve_fp_fcmla<0b11, asm, ZPR64>;
2236
2237  def : Pat<(nxv8f16 (op nxv8i1:$Op1, nxv8f16:$Op2, nxv8f16:$Op3, nxv8f16:$Op4, (i32 complexrotateop:$imm))),
2238            (!cast<Instruction>(NAME # _H) $Op1, $Op2, $Op3, $Op4, complexrotateop:$imm)>;
2239  def : Pat<(nxv4f32 (op nxv4i1:$Op1, nxv4f32:$Op2, nxv4f32:$Op3, nxv4f32:$Op4, (i32 complexrotateop:$imm))),
2240            (!cast<Instruction>(NAME # _S) $Op1, $Op2, $Op3, $Op4, complexrotateop:$imm)>;
2241  def : Pat<(nxv2f64 (op nxv2i1:$Op1, nxv2f64:$Op2, nxv2f64:$Op3, nxv2f64:$Op4, (i32 complexrotateop:$imm))),
2242            (!cast<Instruction>(NAME # _D) $Op1, $Op2, $Op3, $Op4, complexrotateop:$imm)>;
2243}
2244
2245//===----------------------------------------------------------------------===//
2246// SVE Floating Point Complex Multiply-Add - Indexed Group
2247//===----------------------------------------------------------------------===//
2248
2249class sve_fp_fcmla_by_indexed_elem<bits<2> sz, string asm,
2250                                   ZPRRegOp zprty,
2251                                   ZPRRegOp zprty2, Operand itype>
2252: I<(outs zprty:$Zda), (ins zprty:$_Zda, zprty:$Zn, zprty2:$Zm, itype:$iop,
2253                        complexrotateop:$imm),
2254  asm, "\t$Zda, $Zn, $Zm$iop, $imm",
2255  "", []>, Sched<[]> {
2256  bits<5> Zda;
2257  bits<5> Zn;
2258  bits<2> imm;
2259  let Inst{31-24} = 0b01100100;
2260  let Inst{23-22} = sz;
2261  let Inst{21}    = 0b1;
2262  let Inst{15-12} = 0b0001;
2263  let Inst{11-10} = imm;
2264  let Inst{9-5}   = Zn;
2265  let Inst{4-0}   = Zda;
2266
2267  let Constraints = "$Zda = $_Zda";
2268  let DestructiveInstType = DestructiveOther;
2269  let ElementSize = ElementSizeNone;
2270}
2271
2272multiclass sve_fp_fcmla_by_indexed_elem<string asm, SDPatternOperator op> {
2273  def _H : sve_fp_fcmla_by_indexed_elem<0b10, asm, ZPR16, ZPR3b16, VectorIndexS32b> {
2274    bits<3> Zm;
2275    bits<2> iop;
2276    let Inst{20-19} = iop;
2277    let Inst{18-16} = Zm;
2278  }
2279  def _S : sve_fp_fcmla_by_indexed_elem<0b11, asm, ZPR32, ZPR4b32, VectorIndexD32b> {
2280    bits<4> Zm;
2281    bits<1> iop;
2282    let Inst{20} = iop;
2283    let Inst{19-16} = Zm;
2284  }
2285
2286  def : Pat<(nxv8f16 (op nxv8f16:$Op1, nxv8f16:$Op2, nxv8f16:$Op3, (i32 VectorIndexS32b_timm:$idx), (i32 complexrotateop:$imm))),
2287            (!cast<Instruction>(NAME # _H) $Op1, $Op2, $Op3, VectorIndexS32b_timm:$idx, complexrotateop:$imm)>;
2288  def : Pat<(nxv4f32 (op nxv4f32:$Op1, nxv4f32:$Op2, nxv4f32:$Op3, (i32 VectorIndexD32b_timm:$idx), (i32 complexrotateop:$imm))),
2289            (!cast<Instruction>(NAME # _S) $Op1, $Op2, $Op3, VectorIndexD32b_timm:$idx, complexrotateop:$imm)>;
2290}
2291
2292//===----------------------------------------------------------------------===//
2293// SVE Floating Point Complex Addition Group
2294//===----------------------------------------------------------------------===//
2295
2296class sve_fp_fcadd<bits<2> sz, string asm, ZPRRegOp zprty>
2297: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm,
2298                        complexrotateopodd:$imm),
2299  asm, "\t$Zdn, $Pg/m, $_Zdn, $Zm, $imm",
2300  "",
2301  []>, Sched<[]> {
2302  bits<5> Zdn;
2303  bits<5> Zm;
2304  bits<3> Pg;
2305  bit imm;
2306  let Inst{31-24} = 0b01100100;
2307  let Inst{23-22} = sz;
2308  let Inst{21-17} = 0;
2309  let Inst{16}    = imm;
2310  let Inst{15-13} = 0b100;
2311  let Inst{12-10} = Pg;
2312  let Inst{9-5}   = Zm;
2313  let Inst{4-0}   = Zdn;
2314
2315  let Constraints = "$Zdn = $_Zdn";
2316  let DestructiveInstType = DestructiveOther;
2317  let ElementSize = zprty.ElementSize;
2318}
2319
2320multiclass sve_fp_fcadd<string asm, SDPatternOperator op> {
2321  def _H : sve_fp_fcadd<0b01, asm, ZPR16>;
2322  def _S : sve_fp_fcadd<0b10, asm, ZPR32>;
2323  def _D : sve_fp_fcadd<0b11, asm, ZPR64>;
2324
2325  def : Pat<(nxv8f16 (op nxv8i1:$Op1, nxv8f16:$Op2, nxv8f16:$Op3, (i32 complexrotateopodd:$imm))),
2326            (!cast<Instruction>(NAME # _H) $Op1, $Op2, $Op3, complexrotateopodd:$imm)>;
2327  def : Pat<(nxv4f32 (op nxv4i1:$Op1, nxv4f32:$Op2, nxv4f32:$Op3, (i32 complexrotateopodd:$imm))),
2328            (!cast<Instruction>(NAME # _S) $Op1, $Op2, $Op3, complexrotateopodd:$imm)>;
2329  def : Pat<(nxv2f64 (op nxv2i1:$Op1, nxv2f64:$Op2, nxv2f64:$Op3, (i32 complexrotateopodd:$imm))),
2330            (!cast<Instruction>(NAME # _D) $Op1, $Op2, $Op3, complexrotateopodd:$imm)>;
2331}
2332
2333//===----------------------------------------------------------------------===//
2334// SVE2 Floating Point Convert Group
2335//===----------------------------------------------------------------------===//
2336
2337class sve2_fp_convert_precision<bits<4> opc, string asm,
2338                                ZPRRegOp zprty1, ZPRRegOp zprty2>
2339: I<(outs zprty1:$Zd), (ins zprty1:$_Zd, PPR3bAny:$Pg, zprty2:$Zn),
2340  asm, "\t$Zd, $Pg/m, $Zn",
2341  "",
2342  []>, Sched<[]> {
2343  bits<5> Zd;
2344  bits<5> Zn;
2345  bits<3> Pg;
2346  let Inst{31-24} = 0b01100100;
2347  let Inst{23-22} = opc{3-2};
2348  let Inst{21-18} = 0b0010;
2349  let Inst{17-16} = opc{1-0};
2350  let Inst{15-13} = 0b101;
2351  let Inst{12-10} = Pg;
2352  let Inst{9-5}   = Zn;
2353  let Inst{4-0}   = Zd;
2354
2355  let Constraints = "$Zd = $_Zd";
2356}
2357
2358multiclass sve2_fp_convert_down_narrow<string asm, string op> {
2359  def _StoH : sve2_fp_convert_precision<0b1000, asm, ZPR16, ZPR32>;
2360  def _DtoS : sve2_fp_convert_precision<0b1110, asm, ZPR32, ZPR64>;
2361
2362  def : SVE_3_Op_Pat<nxv8f16, !cast<SDPatternOperator>(op # _f16f32), nxv8f16, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _StoH)>;
2363  def : SVE_3_Op_Pat<nxv4f32, !cast<SDPatternOperator>(op # _f32f64), nxv4f32, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _DtoS)>;
2364}
2365
2366multiclass sve2_fp_convert_up_long<string asm, string op> {
2367  def _HtoS : sve2_fp_convert_precision<0b1001, asm, ZPR32, ZPR16>;
2368  def _StoD : sve2_fp_convert_precision<0b1111, asm, ZPR64, ZPR32>;
2369
2370  def : SVE_3_Op_Pat<nxv4f32, !cast<SDPatternOperator>(op # _f32f16), nxv4f32, nxv4i1, nxv8f16, !cast<Instruction>(NAME # _HtoS)>;
2371  def : SVE_3_Op_Pat<nxv2f64, !cast<SDPatternOperator>(op # _f64f32), nxv2f64, nxv2i1, nxv4f32, !cast<Instruction>(NAME # _StoD)>;
2372}
2373
2374multiclass sve2_fp_convert_down_odd_rounding_top<string asm, string op> {
2375  def _DtoS : sve2_fp_convert_precision<0b0010, asm, ZPR32, ZPR64>;
2376
2377  def : SVE_3_Op_Pat<nxv4f32, !cast<SDPatternOperator>(op # _f32f64), nxv4f32, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _DtoS)>;
2378}
2379
2380//===----------------------------------------------------------------------===//
2381// SVE2 Floating Point Pairwise Group
2382//===----------------------------------------------------------------------===//
2383
2384class sve2_fp_pairwise_pred<bits<2> sz, bits<3> opc, string asm,
2385                            ZPRRegOp zprty>
2386: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm),
2387  asm, "\t$Zdn, $Pg/m, $_Zdn, $Zm",
2388  "",
2389  []>, Sched<[]> {
2390  bits<3> Pg;
2391  bits<5> Zm;
2392  bits<5> Zdn;
2393  let Inst{31-24} = 0b01100100;
2394  let Inst{23-22} = sz;
2395  let Inst{21-19} = 0b010;
2396  let Inst{18-16} = opc;
2397  let Inst{15-13} = 0b100;
2398  let Inst{12-10} = Pg;
2399  let Inst{9-5}   = Zm;
2400  let Inst{4-0}   = Zdn;
2401
2402  let Constraints = "$Zdn = $_Zdn";
2403  let DestructiveInstType = DestructiveOther;
2404  let ElementSize = zprty.ElementSize;
2405}
2406
2407multiclass sve2_fp_pairwise_pred<bits<3> opc, string asm,
2408                                 SDPatternOperator op> {
2409  def _H : sve2_fp_pairwise_pred<0b01, opc, asm, ZPR16>;
2410  def _S : sve2_fp_pairwise_pred<0b10, opc, asm, ZPR32>;
2411  def _D : sve2_fp_pairwise_pred<0b11, opc, asm, ZPR64>;
2412
2413  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
2414  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
2415  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
2416}
2417
2418//===----------------------------------------------------------------------===//
2419// SVE2 Floating Point Widening Multiply-Add - Indexed Group
2420//===----------------------------------------------------------------------===//
2421
2422class sve2_fp_mla_long_by_indexed_elem<bits<2> opc, string asm>
2423: I<(outs ZPR32:$Zda), (ins ZPR32:$_Zda, ZPR16:$Zn, ZPR3b16:$Zm,
2424                        VectorIndexH32b:$iop),
2425  asm, "\t$Zda, $Zn, $Zm$iop",
2426  "",
2427  []>, Sched<[]> {
2428  bits<5> Zda;
2429  bits<5> Zn;
2430  bits<3> Zm;
2431  bits<3> iop;
2432  let Inst{31-21} = 0b01100100101;
2433  let Inst{20-19} = iop{2-1};
2434  let Inst{18-16} = Zm;
2435  let Inst{15-14} = 0b01;
2436  let Inst{13}    = opc{1};
2437  let Inst{12}    = 0b0;
2438  let Inst{11}    = iop{0};
2439  let Inst{10}    = opc{0};
2440  let Inst{9-5}   = Zn;
2441  let Inst{4-0}   = Zda;
2442
2443  let Constraints = "$Zda = $_Zda";
2444  let DestructiveInstType = DestructiveOther;
2445  let ElementSize = ElementSizeNone;
2446}
2447
2448multiclass sve2_fp_mla_long_by_indexed_elem<bits<2> opc, string asm,
2449                                            SDPatternOperator op> {
2450  def NAME : sve2_fp_mla_long_by_indexed_elem<opc, asm>;
2451  def : SVE_4_Op_Imm_Pat<nxv4f32, op, nxv4f32, nxv8f16, nxv8f16, i32, VectorIndexH32b_timm, !cast<Instruction>(NAME)>;
2452}
2453
2454//===----------------------------------------------------------------------===//
2455// SVE2 Floating Point Widening Multiply-Add Group
2456//===----------------------------------------------------------------------===//
2457
2458class sve2_fp_mla_long<bits<2> opc, string asm>
2459: I<(outs ZPR32:$Zda), (ins ZPR32:$_Zda, ZPR16:$Zn, ZPR16:$Zm),
2460  asm, "\t$Zda, $Zn, $Zm",
2461  "",
2462  []>, Sched<[]> {
2463  bits<5> Zda;
2464  bits<5> Zn;
2465  bits<5> Zm;
2466  let Inst{31-21} = 0b01100100101;
2467  let Inst{20-16} = Zm;
2468  let Inst{15-14} = 0b10;
2469  let Inst{13}    = opc{1};
2470  let Inst{12-11} = 0b00;
2471  let Inst{10}    = opc{0};
2472  let Inst{9-5}   = Zn;
2473  let Inst{4-0}   = Zda;
2474
2475  let Constraints = "$Zda = $_Zda";
2476  let DestructiveInstType = DestructiveOther;
2477  let ElementSize = ElementSizeNone;
2478}
2479
2480multiclass sve2_fp_mla_long<bits<2> opc, string asm, SDPatternOperator op> {
2481  def NAME : sve2_fp_mla_long<opc, asm>;
2482  def : SVE_3_Op_Pat<nxv4f32, op, nxv4f32, nxv8f16, nxv8f16, !cast<Instruction>(NAME)>;
2483}
2484
2485//===----------------------------------------------------------------------===//
2486// SVE Stack Allocation Group
2487//===----------------------------------------------------------------------===//
2488
2489class sve_int_arith_vl<bit opc, string asm>
2490: I<(outs GPR64sp:$Rd), (ins GPR64sp:$Rn, simm6_32b:$imm6),
2491  asm, "\t$Rd, $Rn, $imm6",
2492  "",
2493  []>, Sched<[]> {
2494  bits<5> Rd;
2495  bits<5> Rn;
2496  bits<6> imm6;
2497  let Inst{31-23} = 0b000001000;
2498  let Inst{22}    = opc;
2499  let Inst{21}    = 0b1;
2500  let Inst{20-16} = Rn;
2501  let Inst{15-11} = 0b01010;
2502  let Inst{10-5}  = imm6;
2503  let Inst{4-0}   = Rd;
2504}
2505
2506class sve_int_read_vl_a<bit op, bits<5> opc2, string asm>
2507: I<(outs GPR64:$Rd), (ins simm6_32b:$imm6),
2508  asm, "\t$Rd, $imm6",
2509  "",
2510  []>, Sched<[]> {
2511  bits<5> Rd;
2512  bits<6> imm6;
2513  let Inst{31-23} = 0b000001001;
2514  let Inst{22}    = op;
2515  let Inst{21}    = 0b1;
2516  let Inst{20-16} = opc2{4-0};
2517  let Inst{15-11} = 0b01010;
2518  let Inst{10-5}  = imm6;
2519  let Inst{4-0}   = Rd;
2520}
2521
2522//===----------------------------------------------------------------------===//
2523// SVE Permute - In Lane Group
2524//===----------------------------------------------------------------------===//
2525
2526class sve_int_perm_bin_perm_zz<bits<3> opc, bits<2> sz8_64, string asm,
2527                               ZPRRegOp zprty>
2528: I<(outs zprty:$Zd), (ins zprty:$Zn, zprty:$Zm),
2529  asm, "\t$Zd, $Zn, $Zm",
2530  "",
2531  []>, Sched<[]> {
2532  bits<5> Zd;
2533  bits<5> Zm;
2534  bits<5> Zn;
2535  let Inst{31-24} = 0b00000101;
2536  let Inst{23-22} = sz8_64;
2537  let Inst{21}    = 0b1;
2538  let Inst{20-16} = Zm;
2539  let Inst{15-13} = 0b011;
2540  let Inst{12-10} = opc;
2541  let Inst{9-5}   = Zn;
2542  let Inst{4-0}   = Zd;
2543}
2544
2545multiclass sve_int_perm_bin_perm_zz<bits<3> opc, string asm,
2546                                    SDPatternOperator op> {
2547  def _B : sve_int_perm_bin_perm_zz<opc, 0b00, asm, ZPR8>;
2548  def _H : sve_int_perm_bin_perm_zz<opc, 0b01, asm, ZPR16>;
2549  def _S : sve_int_perm_bin_perm_zz<opc, 0b10, asm, ZPR32>;
2550  def _D : sve_int_perm_bin_perm_zz<opc, 0b11, asm, ZPR64>;
2551
2552  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2553  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2554  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2555  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2556
2557  def : SVE_2_Op_Pat<nxv8f16, op, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
2558  def : SVE_2_Op_Pat<nxv4f16, op, nxv4f16, nxv4f16, !cast<Instruction>(NAME # _S)>;
2559  def : SVE_2_Op_Pat<nxv4f32, op, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
2560  def : SVE_2_Op_Pat<nxv2f16, op, nxv2f16, nxv2f16, !cast<Instruction>(NAME # _D)>;
2561  def : SVE_2_Op_Pat<nxv2f32, op, nxv2f32, nxv2f32, !cast<Instruction>(NAME # _D)>;
2562  def : SVE_2_Op_Pat<nxv2f64, op, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
2563
2564  def : SVE_2_Op_Pat<nxv8bf16, op, nxv8bf16, nxv8bf16, !cast<Instruction>(NAME # _H)>;
2565}
2566
2567//===----------------------------------------------------------------------===//
2568// SVE Floating Point Unary Operations Group
2569//===----------------------------------------------------------------------===//
2570
2571class sve_fp_2op_p_zd<bits<7> opc, string asm, RegisterOperand i_zprtype,
2572                      RegisterOperand o_zprtype, ElementSizeEnum Sz>
2573: I<(outs o_zprtype:$Zd), (ins i_zprtype:$_Zd, PPR3bAny:$Pg, i_zprtype:$Zn),
2574  asm, "\t$Zd, $Pg/m, $Zn",
2575  "",
2576  []>, Sched<[]> {
2577  bits<3> Pg;
2578  bits<5> Zd;
2579  bits<5> Zn;
2580  let Inst{31-24} = 0b01100101;
2581  let Inst{23-22} = opc{6-5};
2582  let Inst{21}    = 0b0;
2583  let Inst{20-16} = opc{4-0};
2584  let Inst{15-13} = 0b101;
2585  let Inst{12-10} = Pg;
2586  let Inst{9-5}   = Zn;
2587  let Inst{4-0}   = Zd;
2588
2589  let Constraints = "$Zd = $_Zd";
2590  let DestructiveInstType = DestructiveUnaryPassthru;
2591  let ElementSize = Sz;
2592}
2593
2594multiclass sve_fp_2op_p_zd<bits<7> opc, string asm,
2595                           RegisterOperand i_zprtype,
2596                           RegisterOperand o_zprtype,
2597                           SDPatternOperator int_op,
2598                           SDPatternOperator ir_op, ValueType vt1,
2599                           ValueType vt2, ValueType vt3, ElementSizeEnum Sz> {
2600  def NAME : sve_fp_2op_p_zd<opc, asm, i_zprtype, o_zprtype, Sz>,
2601             SVEPseudo2Instr<NAME, 1>;
2602  // convert vt1 to a packed type for the intrinsic patterns
2603  defvar packedvt1 = !cond(!eq(!cast<string>(vt1), "nxv2f16"): nxv8f16,
2604                           !eq(!cast<string>(vt1), "nxv4f16"): nxv8f16,
2605                           !eq(!cast<string>(vt1), "nxv2f32"): nxv4f32,
2606                           1 : vt1);
2607
2608  // convert vt3 to a packed type for the intrinsic patterns
2609  defvar packedvt3 = !cond(!eq(!cast<string>(vt3), "nxv2f16"): nxv8f16,
2610                           !eq(!cast<string>(vt3), "nxv4f16"): nxv8f16,
2611                           !eq(!cast<string>(vt3), "nxv2f32"): nxv4f32,
2612                           1 : vt3);
2613
2614  def : SVE_3_Op_Pat<packedvt1, int_op, packedvt1, vt2, packedvt3, !cast<Instruction>(NAME)>;
2615  def : SVE_1_Op_Passthru_Pat<vt1, ir_op, vt2, vt3, !cast<Instruction>(NAME)>;
2616
2617  def _UNDEF : PredOneOpPassthruPseudo<NAME, !cast<ZPRRegOp>(i_zprtype)>;
2618
2619  defm : SVE_1_Op_PassthruUndef_Pat<vt1, ir_op, vt2, vt3, !cast<Instruction>(NAME # _UNDEF)>;
2620}
2621
2622multiclass sve_fp_2op_p_zdr<bits<7> opc, string asm,
2623                            RegisterOperand i_zprtype,
2624                            RegisterOperand o_zprtype,
2625                            SDPatternOperator int_op,
2626                            SDPatternOperator ir_op, ValueType vt1,
2627                            ValueType vt2, ValueType vt3, ElementSizeEnum Sz> {
2628  def NAME : sve_fp_2op_p_zd<opc, asm, i_zprtype, o_zprtype, Sz>,
2629             SVEPseudo2Instr<NAME, 1>;
2630
2631  // convert vt1 to a packed type for the intrinsic patterns
2632  defvar packedvt1 = !cond(!eq(!cast<string>(vt1), "nxv2f16"): nxv8f16,
2633                           !eq(!cast<string>(vt1), "nxv4f16"): nxv8f16,
2634                           !eq(!cast<string>(vt1), "nxv2f32"): nxv4f32,
2635                           1 : vt1);
2636
2637  def : SVE_3_Op_Pat<packedvt1, int_op, packedvt1, vt2, vt3, !cast<Instruction>(NAME)>;
2638  def : SVE_1_Op_Passthru_Round_Pat<vt1, ir_op, vt2, vt3, !cast<Instruction>(NAME)>;
2639
2640  def _UNDEF : PredOneOpPassthruPseudo<NAME, !cast<ZPRRegOp>(i_zprtype)>;
2641
2642  defm : SVE_1_Op_PassthruUndef_Round_Pat<vt1, ir_op, vt2, vt3, !cast<Instruction>(NAME # _UNDEF)>;
2643}
2644
2645multiclass sve_fp_2op_p_zd_HSD<bits<5> opc, string asm, SDPatternOperator op> {
2646  def _H : sve_fp_2op_p_zd<{ 0b01, opc }, asm, ZPR16, ZPR16, ElementSizeH>,
2647           SVEPseudo2Instr<NAME # _H, 1>;
2648  def _S : sve_fp_2op_p_zd<{ 0b10, opc }, asm, ZPR32, ZPR32, ElementSizeS>,
2649           SVEPseudo2Instr<NAME # _S, 1>;
2650  def _D : sve_fp_2op_p_zd<{ 0b11, opc }, asm, ZPR64, ZPR64, ElementSizeD>,
2651           SVEPseudo2Instr<NAME # _D, 1>;
2652
2653  def : SVE_1_Op_Passthru_Pat<nxv8f16, op, nxv8i1, nxv8f16, !cast<Instruction>(NAME # _H)>;
2654  def : SVE_1_Op_Passthru_Pat<nxv4f16, op, nxv4i1, nxv4f16, !cast<Instruction>(NAME # _H)>;
2655  def : SVE_1_Op_Passthru_Pat<nxv2f16, op, nxv2i1, nxv2f16, !cast<Instruction>(NAME # _H)>;
2656  def : SVE_1_Op_Passthru_Pat<nxv4f32, op, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _S)>;
2657  def : SVE_1_Op_Passthru_Pat<nxv2f32, op, nxv2i1, nxv2f32, !cast<Instruction>(NAME # _S)>;
2658  def : SVE_1_Op_Passthru_Pat<nxv2f64, op, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _D)>;
2659
2660  def _UNDEF_H : PredOneOpPassthruPseudo<NAME # _H, ZPR16>;
2661  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
2662  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
2663
2664  defm : SVE_1_Op_PassthruUndef_Pat<nxv8f16, op, nxv8i1, nxv8f16, !cast<Instruction>(NAME # _UNDEF_H)>;
2665  defm : SVE_1_Op_PassthruUndef_Pat<nxv4f16, op, nxv4i1, nxv4f16, !cast<Instruction>(NAME # _UNDEF_H)>;
2666  defm : SVE_1_Op_PassthruUndef_Pat<nxv2f16, op, nxv2i1, nxv2f16, !cast<Instruction>(NAME # _UNDEF_H)>;
2667  defm : SVE_1_Op_PassthruUndef_Pat<nxv4f32, op, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _UNDEF_S)>;
2668  defm : SVE_1_Op_PassthruUndef_Pat<nxv2f32, op, nxv2i1, nxv2f32, !cast<Instruction>(NAME # _UNDEF_S)>;
2669  defm : SVE_1_Op_PassthruUndef_Pat<nxv2f64, op, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _UNDEF_D)>;
2670}
2671
2672multiclass sve2_fp_flogb<string asm, SDPatternOperator op> {
2673  def _H : sve_fp_2op_p_zd<0b0011010, asm, ZPR16, ZPR16, ElementSizeH>;
2674  def _S : sve_fp_2op_p_zd<0b0011100, asm, ZPR32, ZPR32, ElementSizeS>;
2675  def _D : sve_fp_2op_p_zd<0b0011110, asm, ZPR64, ZPR64, ElementSizeD>;
2676
2677  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i1, nxv8f16, !cast<Instruction>(NAME # _H)>;
2678  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _S)>;
2679  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _D)>;
2680}
2681
2682multiclass sve2_fp_convert_down_odd_rounding<string asm, string op> {
2683  def _DtoS : sve_fp_2op_p_zd<0b0001010, asm, ZPR64, ZPR32, ElementSizeD>;
2684  def : SVE_3_Op_Pat<nxv4f32, !cast<SDPatternOperator>(op # _f32f64), nxv4f32, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _DtoS)>;
2685}
2686
2687//===----------------------------------------------------------------------===//
2688// SVE Floating Point Unary Operations - Unpredicated Group
2689//===----------------------------------------------------------------------===//
2690
2691class sve_fp_2op_u_zd<bits<2> sz, bits<3> opc, string asm,
2692                      ZPRRegOp zprty>
2693: I<(outs zprty:$Zd), (ins zprty:$Zn),
2694  asm, "\t$Zd, $Zn",
2695  "",
2696  []>, Sched<[]> {
2697  bits<5> Zd;
2698  bits<5> Zn;
2699  let Inst{31-24} = 0b01100101;
2700  let Inst{23-22} = sz;
2701  let Inst{21-19} = 0b001;
2702  let Inst{18-16} = opc;
2703  let Inst{15-10} = 0b001100;
2704  let Inst{9-5}   = Zn;
2705  let Inst{4-0}   = Zd;
2706}
2707
2708multiclass sve_fp_2op_u_zd<bits<3> opc, string asm, SDPatternOperator op> {
2709  def _H : sve_fp_2op_u_zd<0b01, opc, asm, ZPR16>;
2710  def _S : sve_fp_2op_u_zd<0b10, opc, asm, ZPR32>;
2711  def _D : sve_fp_2op_u_zd<0b11, opc, asm, ZPR64>;
2712
2713  def : SVE_1_Op_Pat<nxv8f16, op, nxv8f16, !cast<Instruction>(NAME # _H)>;
2714  def : SVE_1_Op_Pat<nxv4f32, op, nxv4f32, !cast<Instruction>(NAME # _S)>;
2715  def : SVE_1_Op_Pat<nxv2f64, op, nxv2f64, !cast<Instruction>(NAME # _D)>;
2716}
2717
2718//===----------------------------------------------------------------------===//
2719// SVE Integer Arithmetic - Binary Predicated Group
2720//===----------------------------------------------------------------------===//
2721
2722class sve_int_bin_pred_arit_log<bits<2> sz8_64, bits<2> fmt, bits<3> opc,
2723                                string asm, ZPRRegOp zprty>
2724: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm),
2725  asm, "\t$Zdn, $Pg/m, $_Zdn, $Zm", "", []>, Sched<[]> {
2726  bits<3> Pg;
2727  bits<5> Zdn;
2728  bits<5> Zm;
2729  let Inst{31-24} = 0b00000100;
2730  let Inst{23-22} = sz8_64;
2731  let Inst{21}    = 0b0;
2732  let Inst{20-19} = fmt;
2733  let Inst{18-16} = opc;
2734  let Inst{15-13} = 0b000;
2735  let Inst{12-10} = Pg;
2736  let Inst{9-5}   = Zm;
2737  let Inst{4-0}   = Zdn;
2738
2739  let Constraints = "$Zdn = $_Zdn";
2740  let DestructiveInstType = DestructiveOther;
2741  let ElementSize = zprty.ElementSize;
2742}
2743
2744multiclass sve_int_bin_pred_log<bits<3> opc, string asm, SDPatternOperator op> {
2745  def _B : sve_int_bin_pred_arit_log<0b00, 0b11, opc, asm, ZPR8>;
2746  def _H : sve_int_bin_pred_arit_log<0b01, 0b11, opc, asm, ZPR16>;
2747  def _S : sve_int_bin_pred_arit_log<0b10, 0b11, opc, asm, ZPR32>;
2748  def _D : sve_int_bin_pred_arit_log<0b11, 0b11, opc, asm, ZPR64>;
2749
2750  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2751  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2752  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2753  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2754}
2755
2756multiclass sve_int_bin_pred_arit_0<bits<3> opc, string asm, string Ps,
2757                                   SDPatternOperator op,
2758                                   DestructiveInstTypeEnum flags,
2759                                   string revname="", bit isReverseInstr=0> {
2760  let DestructiveInstType = flags in {
2761  def _B : sve_int_bin_pred_arit_log<0b00, 0b00, opc, asm, ZPR8>,
2762           SVEPseudo2Instr<Ps # _B, 1>, SVEInstr2Rev<NAME # _B, revname # _B, isReverseInstr>;
2763  def _H : sve_int_bin_pred_arit_log<0b01, 0b00, opc, asm, ZPR16>,
2764           SVEPseudo2Instr<Ps # _H, 1>, SVEInstr2Rev<NAME # _H, revname # _H, isReverseInstr>;
2765  def _S : sve_int_bin_pred_arit_log<0b10, 0b00, opc, asm, ZPR32>,
2766           SVEPseudo2Instr<Ps # _S, 1>, SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
2767  def _D : sve_int_bin_pred_arit_log<0b11, 0b00, opc, asm, ZPR64>,
2768           SVEPseudo2Instr<Ps # _D, 1>, SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
2769  }
2770
2771  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2772  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2773  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2774  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2775}
2776
2777multiclass sve_int_bin_pred_arit_1<bits<3> opc, string asm, string Ps,
2778                                   SDPatternOperator op,
2779                                   DestructiveInstTypeEnum flags> {
2780  let DestructiveInstType = flags in {
2781  def _B : sve_int_bin_pred_arit_log<0b00, 0b01, opc, asm, ZPR8>,
2782           SVEPseudo2Instr<Ps # _B, 1>;
2783  def _H : sve_int_bin_pred_arit_log<0b01, 0b01, opc, asm, ZPR16>,
2784           SVEPseudo2Instr<Ps # _H, 1>;
2785  def _S : sve_int_bin_pred_arit_log<0b10, 0b01, opc, asm, ZPR32>,
2786           SVEPseudo2Instr<Ps # _S, 1>;
2787  def _D : sve_int_bin_pred_arit_log<0b11, 0b01, opc, asm, ZPR64>,
2788           SVEPseudo2Instr<Ps # _D, 1>;
2789  }
2790
2791  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2792  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2793  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2794  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2795}
2796
2797multiclass sve_int_bin_pred_arit_2<bits<3> opc, string asm, string Ps,
2798                                   SDPatternOperator op,
2799                                   DestructiveInstTypeEnum flags> {
2800  let DestructiveInstType = flags in {
2801  def _B : sve_int_bin_pred_arit_log<0b00, 0b10, opc, asm, ZPR8>,
2802           SVEPseudo2Instr<Ps # _B, 1>;
2803  def _H : sve_int_bin_pred_arit_log<0b01, 0b10, opc, asm, ZPR16>,
2804           SVEPseudo2Instr<Ps # _H, 1>;
2805  def _S : sve_int_bin_pred_arit_log<0b10, 0b10, opc, asm, ZPR32>,
2806           SVEPseudo2Instr<Ps # _S, 1>;
2807  def _D : sve_int_bin_pred_arit_log<0b11, 0b10, opc, asm, ZPR64>,
2808           SVEPseudo2Instr<Ps # _D, 1>;
2809  }
2810
2811  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2812  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2813  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2814  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2815}
2816
2817// Special case for divides which are not defined for 8b/16b elements.
2818multiclass sve_int_bin_pred_arit_2_div<bits<3> opc, string asm, string Ps,
2819                                       SDPatternOperator op,
2820                                       DestructiveInstTypeEnum flags,
2821                                       string revname="", bit isReverseInstr=0> {
2822  let DestructiveInstType = flags in {
2823  def _S : sve_int_bin_pred_arit_log<0b10, 0b10, opc, asm, ZPR32>,
2824           SVEPseudo2Instr<Ps # _S, 1>, SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
2825  def _D : sve_int_bin_pred_arit_log<0b11, 0b10, opc, asm, ZPR64>,
2826           SVEPseudo2Instr<Ps # _D, 1>, SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
2827  }
2828
2829  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2830  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2831}
2832
2833//===----------------------------------------------------------------------===//
2834// SVE Integer Multiply-Add Group
2835//===----------------------------------------------------------------------===//
2836
2837class sve_int_mladdsub_vvv_pred<bits<2> sz8_64, bits<1> opc, string asm,
2838                                ZPRRegOp zprty>
2839: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm, zprty:$Za),
2840  asm, "\t$Zdn, $Pg/m, $Zm, $Za",
2841  "",
2842  []>, Sched<[]> {
2843  bits<3> Pg;
2844  bits<5> Zdn;
2845  bits<5> Za;
2846  bits<5> Zm;
2847  let Inst{31-24} = 0b00000100;
2848  let Inst{23-22} = sz8_64;
2849  let Inst{21}    = 0b0;
2850  let Inst{20-16} = Zm;
2851  let Inst{15-14} = 0b11;
2852  let Inst{13}    = opc;
2853  let Inst{12-10} = Pg;
2854  let Inst{9-5}   = Za;
2855  let Inst{4-0}   = Zdn;
2856
2857  let Constraints = "$Zdn = $_Zdn";
2858  let DestructiveInstType = DestructiveOther;
2859  let ElementSize = zprty.ElementSize;
2860}
2861
2862multiclass sve_int_mladdsub_vvv_pred<bits<1> opc, string asm, SDPatternOperator op> {
2863  def _B : sve_int_mladdsub_vvv_pred<0b00, opc, asm, ZPR8>;
2864  def _H : sve_int_mladdsub_vvv_pred<0b01, opc, asm, ZPR16>;
2865  def _S : sve_int_mladdsub_vvv_pred<0b10, opc, asm, ZPR32>;
2866  def _D : sve_int_mladdsub_vvv_pred<0b11, opc, asm, ZPR64>;
2867
2868  def : SVE_4_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2869  def : SVE_4_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2870  def : SVE_4_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2871  def : SVE_4_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2872}
2873
2874class sve_int_mlas_vvv_pred<bits<2> sz8_64, bits<1> opc, string asm,
2875                            ZPRRegOp zprty>
2876: I<(outs zprty:$Zda), (ins PPR3bAny:$Pg, zprty:$_Zda, zprty:$Zn, zprty:$Zm),
2877  asm, "\t$Zda, $Pg/m, $Zn, $Zm",
2878  "",
2879  []>, Sched<[]> {
2880  bits<3> Pg;
2881  bits<5> Zda;
2882  bits<5> Zm;
2883  bits<5> Zn;
2884  let Inst{31-24} = 0b00000100;
2885  let Inst{23-22} = sz8_64;
2886  let Inst{21}    = 0b0;
2887  let Inst{20-16} = Zm;
2888  let Inst{15-14} = 0b01;
2889  let Inst{13}    = opc;
2890  let Inst{12-10} = Pg;
2891  let Inst{9-5}   = Zn;
2892  let Inst{4-0}   = Zda;
2893
2894  let Constraints = "$Zda = $_Zda";
2895  let DestructiveInstType = DestructiveOther;
2896  let ElementSize = zprty.ElementSize;
2897}
2898
2899multiclass sve_int_mlas_vvv_pred<bits<1> opc, string asm, SDPatternOperator op,
2900                                 SDPatternOperator outerop, SDPatternOperator mulop> {
2901  def _B : sve_int_mlas_vvv_pred<0b00, opc, asm, ZPR8>;
2902  def _H : sve_int_mlas_vvv_pred<0b01, opc, asm, ZPR16>;
2903  def _S : sve_int_mlas_vvv_pred<0b10, opc, asm, ZPR32>;
2904  def _D : sve_int_mlas_vvv_pred<0b11, opc, asm, ZPR64>;
2905
2906  def : SVE_4_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2907  def : SVE_4_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2908  def : SVE_4_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2909  def : SVE_4_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2910
2911  def : Pat<(outerop nxv16i8:$Op1, (mulop nxv16i1:$pred, nxv16i8:$Op2, nxv16i8:$Op3)),
2912            (!cast<Instruction>(NAME # _B) $pred, $Op1, $Op2, $Op3)>;
2913  def : Pat<(outerop nxv8i16:$Op1, (mulop nxv8i1:$pred, nxv8i16:$Op2, nxv8i16:$Op3)),
2914            (!cast<Instruction>(NAME # _H) $pred, $Op1, $Op2, $Op3)>;
2915  def : Pat<(outerop nxv4i32:$Op1, (mulop nxv4i1:$pred, nxv4i32:$Op2, nxv4i32:$Op3)),
2916            (!cast<Instruction>(NAME # _S) $pred, $Op1, $Op2, $Op3)>;
2917  def : Pat<(outerop nxv2i64:$Op1, (mulop nxv2i1:$pred, nxv2i64:$Op2, nxv2i64:$Op3)),
2918            (!cast<Instruction>(NAME # _D) $pred, $Op1, $Op2, $Op3)>;
2919}
2920
2921//===----------------------------------------------------------------------===//
2922// SVE2 Integer Multiply-Add - Unpredicated Group
2923//===----------------------------------------------------------------------===//
2924
2925class sve2_int_mla<bits<2> sz, bits<5> opc, string asm,
2926                   ZPRRegOp zprty1, ZPRRegOp zprty2>
2927: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty2:$Zm),
2928  asm, "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
2929  bits<5> Zda;
2930  bits<5> Zn;
2931  bits<5> Zm;
2932  let Inst{31-24} = 0b01000100;
2933  let Inst{23-22} = sz;
2934  let Inst{21}    = 0b0;
2935  let Inst{20-16} = Zm;
2936  let Inst{15}    = 0b0;
2937  let Inst{14-10} = opc;
2938  let Inst{9-5}   = Zn;
2939  let Inst{4-0}   = Zda;
2940
2941  let Constraints = "$Zda = $_Zda";
2942  let DestructiveInstType = DestructiveOther;
2943  let ElementSize = ElementSizeNone;
2944}
2945
2946multiclass sve2_int_mla<bit S, string asm, SDPatternOperator op> {
2947  def _B : sve2_int_mla<0b00, { 0b1110, S }, asm, ZPR8, ZPR8>;
2948  def _H : sve2_int_mla<0b01, { 0b1110, S }, asm, ZPR16, ZPR16>;
2949  def _S : sve2_int_mla<0b10, { 0b1110, S }, asm, ZPR32, ZPR32>;
2950  def _D : sve2_int_mla<0b11, { 0b1110, S }, asm, ZPR64, ZPR64>;
2951
2952  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
2953  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
2954  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
2955  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
2956}
2957
2958multiclass sve2_int_mla_long<bits<5> opc, string asm, SDPatternOperator op> {
2959  def _H : sve2_int_mla<0b01, opc, asm, ZPR16, ZPR8>;
2960  def _S : sve2_int_mla<0b10, opc, asm, ZPR32, ZPR16>;
2961  def _D : sve2_int_mla<0b11, opc, asm, ZPR64, ZPR32>;
2962
2963  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _H)>;
2964  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _S)>;
2965  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _D)>;
2966}
2967
2968//===----------------------------------------------------------------------===//
2969// SVE2 Integer Multiply-Add - Indexed Group
2970//===----------------------------------------------------------------------===//
2971
2972class sve2_int_mla_by_indexed_elem<bits<2> sz, bits<6> opc, string asm,
2973                                   ZPRRegOp zprty1, ZPRRegOp zprty2,
2974                                   ZPRRegOp zprty3, Operand itype>
2975: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty3:$Zm, itype:$iop),
2976  asm, "\t$Zda, $Zn, $Zm$iop", "", []>, Sched<[]> {
2977  bits<5> Zda;
2978  bits<5> Zn;
2979  let Inst{31-24} = 0b01000100;
2980  let Inst{23-22} = sz;
2981  let Inst{21}    = 0b1;
2982  let Inst{15-10} = opc;
2983  let Inst{9-5}   = Zn;
2984  let Inst{4-0}   = Zda;
2985
2986  let Constraints = "$Zda = $_Zda";
2987  let DestructiveInstType = DestructiveOther;
2988  let ElementSize = ElementSizeNone;
2989}
2990
2991multiclass sve2_int_mla_by_indexed_elem<bits<2> opc, bit S, string asm,
2992                                        SDPatternOperator op> {
2993  def _H : sve2_int_mla_by_indexed_elem<{0, ?}, { 0b000, opc, S }, asm, ZPR16, ZPR16, ZPR3b16, VectorIndexH32b> {
2994    bits<3> Zm;
2995    bits<3> iop;
2996    let Inst{22} = iop{2};
2997    let Inst{20-19} = iop{1-0};
2998    let Inst{18-16} = Zm;
2999  }
3000  def _S : sve2_int_mla_by_indexed_elem<0b10, { 0b000, opc, S }, asm, ZPR32, ZPR32, ZPR3b32, VectorIndexS32b> {
3001    bits<3> Zm;
3002    bits<2> iop;
3003    let Inst{20-19} = iop;
3004    let Inst{18-16} = Zm;
3005  }
3006  def _D : sve2_int_mla_by_indexed_elem<0b11, { 0b000, opc, S }, asm, ZPR64, ZPR64, ZPR4b64, VectorIndexD32b> {
3007    bits<4> Zm;
3008    bit iop;
3009    let Inst{20} = iop;
3010    let Inst{19-16} = Zm;
3011  }
3012
3013  def : SVE_4_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, i32, VectorIndexH32b_timm, !cast<Instruction>(NAME # _H)>;
3014  def : SVE_4_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, i32, VectorIndexS32b_timm, !cast<Instruction>(NAME # _S)>;
3015  def : SVE_4_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, i32, VectorIndexD32b_timm, !cast<Instruction>(NAME # _D)>;
3016}
3017
3018//===----------------------------------------------------------------------===//
3019// SVE2 Integer Multiply-Add Long - Indexed Group
3020//===----------------------------------------------------------------------===//
3021
3022multiclass sve2_int_mla_long_by_indexed_elem<bits<4> opc, string asm,
3023                                             SDPatternOperator op> {
3024  def _S : sve2_int_mla_by_indexed_elem<0b10, { opc{3}, 0b0, opc{2-1}, ?, opc{0} },
3025                                        asm, ZPR32, ZPR16, ZPR3b16, VectorIndexH32b> {
3026    bits<3> Zm;
3027    bits<3> iop;
3028    let Inst{20-19} = iop{2-1};
3029    let Inst{18-16} = Zm;
3030    let Inst{11} = iop{0};
3031  }
3032  def _D : sve2_int_mla_by_indexed_elem<0b11, { opc{3}, 0b0, opc{2-1}, ?, opc{0} },
3033                                        asm, ZPR64, ZPR32, ZPR4b32, VectorIndexS32b> {
3034    bits<4> Zm;
3035    bits<2> iop;
3036    let Inst{20} = iop{1};
3037    let Inst{19-16} = Zm;
3038    let Inst{11} = iop{0};
3039  }
3040
3041  def : SVE_4_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv8i16, nxv8i16, i32, VectorIndexH32b_timm, !cast<Instruction>(NAME # _S)>;
3042  def : SVE_4_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv4i32, nxv4i32, i32, VectorIndexS32b_timm, !cast<Instruction>(NAME # _D)>;
3043}
3044
3045//===----------------------------------------------------------------------===//
3046// SVE Integer Dot Product Group
3047//===----------------------------------------------------------------------===//
3048
3049class sve_intx_dot<bit sz, bit U, string asm, ZPRRegOp zprty1,
3050                   ZPRRegOp zprty2>
3051: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty2:$Zm), asm,
3052  "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
3053  bits<5> Zda;
3054  bits<5> Zn;
3055  bits<5> Zm;
3056  let Inst{31-23} = 0b010001001;
3057  let Inst{22}    = sz;
3058  let Inst{21}    = 0;
3059  let Inst{20-16} = Zm;
3060  let Inst{15-11} = 0;
3061  let Inst{10}    = U;
3062  let Inst{9-5}   = Zn;
3063  let Inst{4-0}   = Zda;
3064
3065  let Constraints = "$Zda = $_Zda";
3066  let DestructiveInstType = DestructiveOther;
3067}
3068
3069multiclass sve_intx_dot<bit opc, string asm, SDPatternOperator op> {
3070  def _S : sve_intx_dot<0b0, opc, asm, ZPR32, ZPR8>;
3071  def _D : sve_intx_dot<0b1, opc, asm, ZPR64, ZPR16>;
3072
3073  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32,  nxv16i8, nxv16i8, !cast<Instruction>(NAME # _S)>;
3074  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _D)>;
3075}
3076
3077//===----------------------------------------------------------------------===//
3078// SVE Integer Dot Product Group - Indexed Group
3079//===----------------------------------------------------------------------===//
3080
3081class sve_intx_dot_by_indexed_elem<bit sz, bit U, string asm,
3082                                   ZPRRegOp zprty1, ZPRRegOp zprty2,
3083                                   ZPRRegOp zprty3, Operand itype>
3084: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty3:$Zm, itype:$iop),
3085  asm, "\t$Zda, $Zn, $Zm$iop",
3086  "", []>, Sched<[]> {
3087  bits<5> Zda;
3088  bits<5> Zn;
3089  let Inst{31-23} = 0b010001001;
3090  let Inst{22}    = sz;
3091  let Inst{21}    = 0b1;
3092  let Inst{15-11} = 0;
3093  let Inst{10}    = U;
3094  let Inst{9-5}   = Zn;
3095  let Inst{4-0}   = Zda;
3096
3097  let Constraints = "$Zda = $_Zda";
3098  let DestructiveInstType = DestructiveOther;
3099}
3100
3101multiclass sve_intx_dot_by_indexed_elem<bit opc, string asm,
3102                                        SDPatternOperator op> {
3103  def _S : sve_intx_dot_by_indexed_elem<0b0, opc, asm, ZPR32, ZPR8, ZPR3b8, VectorIndexS32b_timm> {
3104    bits<2> iop;
3105    bits<3> Zm;
3106    let Inst{20-19} = iop;
3107    let Inst{18-16} = Zm;
3108  }
3109  def _D : sve_intx_dot_by_indexed_elem<0b1, opc, asm, ZPR64, ZPR16, ZPR4b16, VectorIndexD32b_timm> {
3110    bits<1> iop;
3111    bits<4> Zm;
3112    let Inst{20} = iop;
3113    let Inst{19-16} = Zm;
3114  }
3115
3116  def : SVE_4_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv16i8, nxv16i8, i32, VectorIndexS32b_timm, !cast<Instruction>(NAME # _S)>;
3117  def : SVE_4_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv8i16, nxv8i16, i32, VectorIndexD32b_timm, !cast<Instruction>(NAME # _D)>;
3118}
3119
3120//===----------------------------------------------------------------------===//
3121// SVE2 Complex Integer Dot Product Group
3122//===----------------------------------------------------------------------===//
3123
3124class sve2_complex_int_arith<bits<2> sz, bits<4> opc, string asm,
3125                             ZPRRegOp zprty1, ZPRRegOp zprty2>
3126: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty2:$Zm,
3127                         complexrotateop:$rot),
3128  asm, "\t$Zda, $Zn, $Zm, $rot", "", []>, Sched<[]> {
3129  bits<5> Zda;
3130  bits<5> Zn;
3131  bits<5> Zm;
3132  bits<2> rot;
3133  let Inst{31-24} = 0b01000100;
3134  let Inst{23-22} = sz;
3135  let Inst{21}    = 0b0;
3136  let Inst{20-16} = Zm;
3137  let Inst{15-12} = opc;
3138  let Inst{11-10} = rot;
3139  let Inst{9-5}   = Zn;
3140  let Inst{4-0}   = Zda;
3141
3142  let Constraints = "$Zda = $_Zda";
3143  let DestructiveInstType = DestructiveOther;
3144  let ElementSize = ElementSizeNone;
3145}
3146
3147multiclass sve2_cintx_dot<string asm, SDPatternOperator op> {
3148  def _S : sve2_complex_int_arith<0b10, 0b0001, asm, ZPR32, ZPR8>;
3149  def _D : sve2_complex_int_arith<0b11, 0b0001, asm, ZPR64, ZPR16>;
3150
3151  def : Pat<(nxv4i32 (op (nxv4i32 ZPR32:$Op1), (nxv16i8 ZPR8:$Op2), (nxv16i8 ZPR8:$Op3),
3152                         (i32 complexrotateop:$imm))),
3153            (!cast<Instruction>(NAME # "_S") ZPR32:$Op1, ZPR8:$Op2, ZPR8:$Op3, complexrotateop:$imm)>;
3154  def : Pat<(nxv2i64 (op (nxv2i64 ZPR64:$Op1), (nxv8i16 ZPR16:$Op2), (nxv8i16 ZPR16:$Op3),
3155                         (i32 complexrotateop:$imm))),
3156            (!cast<Instruction>(NAME # "_D") ZPR64:$Op1, ZPR16:$Op2, ZPR16:$Op3, complexrotateop:$imm)>;
3157}
3158
3159//===----------------------------------------------------------------------===//
3160// SVE2 Complex Multiply-Add Group
3161//===----------------------------------------------------------------------===//
3162
3163multiclass sve2_int_cmla<bit opc, string asm, SDPatternOperator op> {
3164  def _B : sve2_complex_int_arith<0b00, { 0b001, opc }, asm, ZPR8, ZPR8>;
3165  def _H : sve2_complex_int_arith<0b01, { 0b001, opc }, asm, ZPR16, ZPR16>;
3166  def _S : sve2_complex_int_arith<0b10, { 0b001, opc }, asm, ZPR32, ZPR32>;
3167  def _D : sve2_complex_int_arith<0b11, { 0b001, opc }, asm, ZPR64, ZPR64>;
3168
3169  def : SVE_4_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, nxv16i8, i32, complexrotateop, !cast<Instruction>(NAME # _B)>;
3170  def : SVE_4_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, i32, complexrotateop, !cast<Instruction>(NAME # _H)>;
3171  def : SVE_4_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, i32, complexrotateop, !cast<Instruction>(NAME # _S)>;
3172  def : SVE_4_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, i32, complexrotateop, !cast<Instruction>(NAME # _D)>;
3173}
3174
3175//===----------------------------------------------------------------------===//
3176// SVE2 Complex Integer Dot Product - Indexed Group
3177//===----------------------------------------------------------------------===//
3178
3179class sve2_complex_int_arith_indexed<bits<2> sz, bits<4> opc, string asm,
3180                                     ZPRRegOp zprty1, ZPRRegOp zprty2,
3181                                     ZPRRegOp zprty3, Operand itype>
3182: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty3:$Zm, itype:$iop,
3183                         complexrotateop:$rot),
3184  asm, "\t$Zda, $Zn, $Zm$iop, $rot", "", []>, Sched<[]> {
3185  bits<5> Zda;
3186  bits<5> Zn;
3187  bits<2> rot;
3188  let Inst{31-24} = 0b01000100;
3189  let Inst{23-22} = sz;
3190  let Inst{21}    = 0b1;
3191  let Inst{15-12} = opc;
3192  let Inst{11-10} = rot;
3193  let Inst{9-5}   = Zn;
3194  let Inst{4-0}   = Zda;
3195
3196  let Constraints = "$Zda = $_Zda";
3197  let DestructiveInstType = DestructiveOther;
3198  let ElementSize = ElementSizeNone;
3199}
3200
3201multiclass sve2_cintx_dot_by_indexed_elem<string asm, SDPatternOperator op> {
3202  def _S : sve2_complex_int_arith_indexed<0b10, 0b0100, asm, ZPR32, ZPR8, ZPR3b8, VectorIndexS32b> {
3203    bits<2> iop;
3204    bits<3> Zm;
3205    let Inst{20-19} = iop;
3206    let Inst{18-16} = Zm;
3207  }
3208  def _D : sve2_complex_int_arith_indexed<0b11, 0b0100, asm, ZPR64, ZPR16, ZPR4b16, VectorIndexD32b> {
3209    bit iop;
3210    bits<4> Zm;
3211    let Inst{20} = iop;
3212    let Inst{19-16} = Zm;
3213  }
3214
3215  def : Pat<(nxv4i32 (op (nxv4i32 ZPR32:$Op1), (nxv16i8 ZPR8:$Op2), (nxv16i8 ZPR8:$Op3),
3216                         (i32 VectorIndexS32b_timm:$idx), (i32 complexrotateop:$imm))),
3217            (!cast<Instruction>(NAME # "_S") ZPR32:$Op1, ZPR8:$Op2, ZPR8:$Op3, VectorIndexS32b_timm:$idx, complexrotateop:$imm)>;
3218  def : Pat<(nxv2i64 (op (nxv2i64 ZPR64:$Op1), (nxv8i16 ZPR16:$Op2), (nxv8i16 ZPR16:$Op3),
3219                         (i32 VectorIndexD32b_timm:$idx), (i32 complexrotateop:$imm))),
3220            (!cast<Instruction>(NAME # "_D") ZPR64:$Op1, ZPR16:$Op2, ZPR16:$Op3, VectorIndexD32b_timm:$idx, complexrotateop:$imm)>;
3221}
3222
3223//===----------------------------------------------------------------------===//
3224// SVE2 Complex Multiply-Add - Indexed Group
3225//===----------------------------------------------------------------------===//
3226
3227multiclass sve2_cmla_by_indexed_elem<bit opc, string asm,
3228                                     SDPatternOperator op> {
3229  def _H : sve2_complex_int_arith_indexed<0b10, { 0b011, opc }, asm, ZPR16, ZPR16, ZPR3b16, VectorIndexS32b> {
3230    bits<2> iop;
3231    bits<3> Zm;
3232    let Inst{20-19} = iop;
3233    let Inst{18-16} = Zm;
3234  }
3235  def _S : sve2_complex_int_arith_indexed<0b11, { 0b011, opc }, asm, ZPR32, ZPR32, ZPR4b32, VectorIndexD32b> {
3236    bit iop;
3237    bits<4> Zm;
3238    let Inst{20} = iop;
3239    let Inst{19-16} = Zm;
3240  }
3241
3242  def : Pat<(nxv8i16 (op (nxv8i16 ZPR16:$Op1), (nxv8i16 ZPR16:$Op2), (nxv8i16 ZPR16:$Op3),
3243                         (i32 VectorIndexS32b_timm:$idx), (i32 complexrotateop:$imm))),
3244            (!cast<Instruction>(NAME # "_H") ZPR16:$Op1, ZPR16:$Op2, ZPR16:$Op3, VectorIndexS32b_timm:$idx, complexrotateop:$imm)>;
3245
3246  def : Pat<(nxv4i32 (op (nxv4i32 ZPR32:$Op1), (nxv4i32 ZPR32:$Op2), (nxv4i32 ZPR32:$Op3),
3247                         (i32 VectorIndexD32b_timm:$idx), (i32 complexrotateop:$imm))),
3248            (!cast<Instruction>(NAME # "_S") ZPR32:$Op1, ZPR32:$Op2, ZPR32:$Op3, VectorIndexD32b_timm:$idx, complexrotateop:$imm)>;
3249}
3250
3251//===----------------------------------------------------------------------===//
3252// SVE2 Integer Multiply - Unpredicated Group
3253//===----------------------------------------------------------------------===//
3254
3255class sve2_int_mul<bits<2> sz, bits<3> opc, string asm, ZPRRegOp zprty>
3256: I<(outs zprty:$Zd), (ins zprty:$Zn, zprty:$Zm),
3257  asm, "\t$Zd, $Zn, $Zm", "", []>, Sched<[]> {
3258  bits<5> Zd;
3259  bits<5> Zm;
3260  bits<5> Zn;
3261  let Inst{31-24} = 0b00000100;
3262  let Inst{23-22} = sz;
3263  let Inst{21}    = 0b1;
3264  let Inst{20-16} = Zm;
3265  let Inst{15-13} = 0b011;
3266  let Inst{12-10} = opc;
3267  let Inst{9-5}   = Zn;
3268  let Inst{4-0}   = Zd;
3269}
3270
3271multiclass sve2_int_mul<bits<3> opc, string asm, SDPatternOperator op,
3272                        SDPatternOperator op_pred = null_frag> {
3273  def _B : sve2_int_mul<0b00, opc, asm, ZPR8>;
3274  def _H : sve2_int_mul<0b01, opc, asm, ZPR16>;
3275  def _S : sve2_int_mul<0b10, opc, asm, ZPR32>;
3276  def _D : sve2_int_mul<0b11, opc, asm, ZPR64>;
3277
3278  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3279  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
3280  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3281  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3282
3283  def : SVE_2_Op_Pred_All_Active<nxv16i8, op_pred, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3284  def : SVE_2_Op_Pred_All_Active<nxv8i16, op_pred, nxv8i1, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
3285  def : SVE_2_Op_Pred_All_Active<nxv4i32, op_pred, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3286  def : SVE_2_Op_Pred_All_Active<nxv2i64, op_pred, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3287}
3288
3289multiclass sve2_int_mul_single<bits<3> opc, string asm, SDPatternOperator op> {
3290  def _B : sve2_int_mul<0b00, opc, asm, ZPR8>;
3291
3292  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3293}
3294
3295//===----------------------------------------------------------------------===//
3296// SVE2 Integer Multiply - Indexed Group
3297//===----------------------------------------------------------------------===//
3298
3299class sve2_int_mul_by_indexed_elem<bits<2> sz, bits<4> opc, string asm,
3300                                   ZPRRegOp zprty1, ZPRRegOp zprty2,
3301                                   ZPRRegOp zprty3, Operand itype>
3302: I<(outs zprty1:$Zd), (ins zprty2:$Zn, zprty3:$Zm, itype:$iop),
3303  asm, "\t$Zd, $Zn, $Zm$iop", "", []>, Sched<[]> {
3304  bits<5> Zd;
3305  bits<5> Zn;
3306  let Inst{31-24} = 0b01000100;
3307  let Inst{23-22} = sz;
3308  let Inst{21}    = 0b1;
3309  let Inst{15-14} = 0b11;
3310  let Inst{13-10} = opc;
3311  let Inst{9-5}   = Zn;
3312  let Inst{4-0}   = Zd;
3313}
3314
3315multiclass sve2_int_mul_by_indexed_elem<bits<4> opc, string asm,
3316                                        SDPatternOperator op> {
3317  def _H : sve2_int_mul_by_indexed_elem<{0, ?}, opc, asm, ZPR16, ZPR16, ZPR3b16, VectorIndexH32b> {
3318    bits<3> Zm;
3319    bits<3> iop;
3320    let Inst{22} = iop{2};
3321    let Inst{20-19} = iop{1-0};
3322    let Inst{18-16} = Zm;
3323  }
3324  def _S : sve2_int_mul_by_indexed_elem<0b10, opc, asm, ZPR32, ZPR32, ZPR3b32, VectorIndexS32b> {
3325    bits<3> Zm;
3326    bits<2> iop;
3327    let Inst{20-19} = iop;
3328    let Inst{18-16} = Zm;
3329  }
3330  def _D : sve2_int_mul_by_indexed_elem<0b11, opc, asm, ZPR64, ZPR64, ZPR4b64, VectorIndexD32b> {
3331    bits<4> Zm;
3332    bit iop;
3333    let Inst{20} = iop;
3334    let Inst{19-16} = Zm;
3335  }
3336
3337  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, i32, VectorIndexH32b_timm, !cast<Instruction>(NAME # _H)>;
3338  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, i32, VectorIndexS32b_timm, !cast<Instruction>(NAME # _S)>;
3339  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, i32, VectorIndexD32b_timm, !cast<Instruction>(NAME # _D)>;
3340}
3341
3342multiclass sve2_int_mul_long_by_indexed_elem<bits<3> opc, string asm,
3343                                             SDPatternOperator op> {
3344  def _S : sve2_int_mul_by_indexed_elem<0b10, { opc{2-1}, ?, opc{0} }, asm,
3345                                        ZPR32, ZPR16, ZPR3b16, VectorIndexH32b> {
3346    bits<3> Zm;
3347    bits<3> iop;
3348    let Inst{20-19} = iop{2-1};
3349    let Inst{18-16} = Zm;
3350    let Inst{11} = iop{0};
3351  }
3352  def _D : sve2_int_mul_by_indexed_elem<0b11, { opc{2-1}, ?, opc{0} }, asm,
3353                                        ZPR64, ZPR32, ZPR4b32, VectorIndexS32b> {
3354    bits<4> Zm;
3355    bits<2> iop;
3356    let Inst{20} = iop{1};
3357    let Inst{19-16} = Zm;
3358    let Inst{11} = iop{0};
3359  }
3360
3361  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv8i16, nxv8i16, i32, VectorIndexH32b_timm, !cast<Instruction>(NAME # _S)>;
3362  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv4i32, nxv4i32, i32, VectorIndexS32b_timm, !cast<Instruction>(NAME # _D)>;
3363}
3364
3365//===----------------------------------------------------------------------===//
3366// SVE2 Integer - Predicated Group
3367//===----------------------------------------------------------------------===//
3368
3369class sve2_int_arith_pred<bits<2> sz, bits<6> opc, string asm,
3370                          ZPRRegOp zprty>
3371: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm),
3372  asm, "\t$Zdn, $Pg/m, $_Zdn, $Zm", "", []>, Sched<[]> {
3373  bits<3> Pg;
3374  bits<5> Zm;
3375  bits<5> Zdn;
3376  let Inst{31-24} = 0b01000100;
3377  let Inst{23-22} = sz;
3378  let Inst{21-20} = 0b01;
3379  let Inst{20-16} = opc{5-1};
3380  let Inst{15-14} = 0b10;
3381  let Inst{13}    = opc{0};
3382  let Inst{12-10} = Pg;
3383  let Inst{9-5}   = Zm;
3384  let Inst{4-0}   = Zdn;
3385
3386  let Constraints = "$Zdn = $_Zdn";
3387  let DestructiveInstType = DestructiveOther;
3388  let ElementSize = zprty.ElementSize;
3389}
3390
3391multiclass sve2_int_arith_pred<bits<6> opc, string asm, SDPatternOperator op,
3392                               string Ps = "",
3393                               DestructiveInstTypeEnum flags=DestructiveOther,
3394                               string revname="", bit isReverseInstr=0> {
3395  let DestructiveInstType = flags in {
3396  def _B : sve2_int_arith_pred<0b00, opc, asm, ZPR8>,
3397           SVEPseudo2Instr<Ps # _B, 1>, SVEInstr2Rev<NAME # _B, revname # _B, isReverseInstr>;
3398  def _H : sve2_int_arith_pred<0b01, opc, asm, ZPR16>,
3399           SVEPseudo2Instr<Ps # _H, 1>, SVEInstr2Rev<NAME # _H, revname # _H, isReverseInstr>;
3400  def _S : sve2_int_arith_pred<0b10, opc, asm, ZPR32>,
3401           SVEPseudo2Instr<Ps # _S, 1>, SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
3402  def _D : sve2_int_arith_pred<0b11, opc, asm, ZPR64>,
3403           SVEPseudo2Instr<Ps # _D, 1>, SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
3404  }
3405
3406  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3407  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
3408  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3409  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3410}
3411
3412class sve2_int_sadd_long_accum_pairwise<bits<2> sz, bit U, string asm,
3413                                        ZPRRegOp zprty1, ZPRRegOp zprty2>
3414: I<(outs zprty1:$Zda), (ins PPR3bAny:$Pg, zprty1:$_Zda, zprty2:$Zn),
3415  asm, "\t$Zda, $Pg/m, $Zn", "", []>, Sched<[]> {
3416  bits<3> Pg;
3417  bits<5> Zn;
3418  bits<5> Zda;
3419  let Inst{31-24} = 0b01000100;
3420  let Inst{23-22} = sz;
3421  let Inst{21-17} = 0b00010;
3422  let Inst{16}    = U;
3423  let Inst{15-13} = 0b101;
3424  let Inst{12-10} = Pg;
3425  let Inst{9-5}   = Zn;
3426  let Inst{4-0}   = Zda;
3427
3428  let Constraints = "$Zda = $_Zda";
3429  let DestructiveInstType = DestructiveOther;
3430  let ElementSize = zprty1.ElementSize;
3431}
3432
3433multiclass sve2_int_sadd_long_accum_pairwise<bit U, string asm, SDPatternOperator op> {
3434  def _H : sve2_int_sadd_long_accum_pairwise<0b01, U, asm, ZPR16, ZPR8>;
3435  def _S : sve2_int_sadd_long_accum_pairwise<0b10, U, asm, ZPR32, ZPR16>;
3436  def _D : sve2_int_sadd_long_accum_pairwise<0b11, U, asm, ZPR64, ZPR32>;
3437
3438  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1, nxv8i16, nxv16i8, !cast<Instruction>(NAME # _H)>;
3439  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv8i16, !cast<Instruction>(NAME # _S)>;
3440  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv4i32, !cast<Instruction>(NAME # _D)>;
3441}
3442
3443class sve2_int_un_pred_arit<bits<2> sz, bit Q, bits<2> opc,
3444                            string asm, ZPRRegOp zprty>
3445: I<(outs zprty:$Zd), (ins zprty:$_Zd, PPR3bAny:$Pg, zprty:$Zn),
3446  asm, "\t$Zd, $Pg/m, $Zn",
3447  "",
3448  []>, Sched<[]> {
3449  bits<3> Pg;
3450  bits<5> Zd;
3451  bits<5> Zn;
3452  let Inst{31-24} = 0b01000100;
3453  let Inst{23-22} = sz;
3454  let Inst{21-20} = 0b00;
3455  let Inst{19}    = Q;
3456  let Inst{18}    = 0b0;
3457  let Inst{17-16} = opc;
3458  let Inst{15-13} = 0b101;
3459  let Inst{12-10} = Pg;
3460  let Inst{9-5}   = Zn;
3461  let Inst{4-0}   = Zd;
3462
3463  let Constraints = "$Zd = $_Zd";
3464  let DestructiveInstType = DestructiveUnaryPassthru;
3465  let ElementSize = zprty.ElementSize;
3466}
3467
3468multiclass sve2_int_un_pred_arit_s<bits<3> opc, string asm,
3469                                   SDPatternOperator op> {
3470  def _S : sve2_int_un_pred_arit<0b10, opc{2}, opc{1-0}, asm, ZPR32>,
3471           SVEPseudo2Instr<NAME # _S, 1>;
3472
3473  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i1, nxv4i32, !cast<Instruction>(NAME # _S)>;
3474
3475  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
3476
3477  defm : SVE_3_Op_Undef_Pat<nxv4i32, op, nxv4i32, nxv4i1,  nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
3478}
3479
3480multiclass sve2_int_un_pred_arit<bits<3> opc, string asm, SDPatternOperator op> {
3481  def _B : sve2_int_un_pred_arit<0b00, opc{2}, opc{1-0}, asm, ZPR8>,
3482           SVEPseudo2Instr<NAME # _B, 1>;
3483  def _H : sve2_int_un_pred_arit<0b01, opc{2}, opc{1-0}, asm, ZPR16>,
3484           SVEPseudo2Instr<NAME # _H, 1>;
3485  def _S : sve2_int_un_pred_arit<0b10, opc{2}, opc{1-0}, asm, ZPR32>,
3486           SVEPseudo2Instr<NAME # _S, 1>;
3487  def _D : sve2_int_un_pred_arit<0b11, opc{2}, opc{1-0}, asm, ZPR64>,
3488           SVEPseudo2Instr<NAME # _D, 1>;
3489
3490  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
3491  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
3492  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
3493  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
3494
3495  def _UNDEF_B : PredOneOpPassthruPseudo<NAME # _B, ZPR8>;
3496  def _UNDEF_H : PredOneOpPassthruPseudo<NAME # _H, ZPR16>;
3497  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
3498  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
3499
3500  defm : SVE_3_Op_Undef_Pat<nxv16i8, op, nxv16i8, nxv16i1, nxv16i8, !cast<Pseudo>(NAME # _UNDEF_B)>;
3501  defm : SVE_3_Op_Undef_Pat<nxv8i16, op, nxv8i16, nxv8i1,  nxv8i16, !cast<Pseudo>(NAME # _UNDEF_H)>;
3502  defm : SVE_3_Op_Undef_Pat<nxv4i32, op, nxv4i32, nxv4i1,  nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
3503  defm : SVE_3_Op_Undef_Pat<nxv2i64, op, nxv2i64, nxv2i1,  nxv2i64, !cast<Pseudo>(NAME # _UNDEF_D)>;
3504}
3505
3506//===----------------------------------------------------------------------===//
3507// SVE2 Widening Integer Arithmetic Group
3508//===----------------------------------------------------------------------===//
3509
3510class sve2_wide_int_arith<bits<2> sz, bits<5> opc, string asm,
3511                          ZPRRegOp zprty1, ZPRRegOp zprty2, ZPRRegOp zprty3>
3512: I<(outs zprty1:$Zd), (ins zprty2:$Zn, zprty3:$Zm),
3513  asm, "\t$Zd, $Zn, $Zm", "", []>, Sched<[]> {
3514  bits<5> Zd;
3515  bits<5> Zn;
3516  bits<5> Zm;
3517  let Inst{31-24} = 0b01000101;
3518  let Inst{23-22} = sz;
3519  let Inst{21}    = 0b0;
3520  let Inst{20-16} = Zm;
3521  let Inst{15}    = 0b0;
3522  let Inst{14-10} = opc;
3523  let Inst{9-5}   = Zn;
3524  let Inst{4-0}   = Zd;
3525}
3526
3527multiclass sve2_wide_int_arith_long<bits<5> opc, string asm,
3528                                    SDPatternOperator op> {
3529  def _H : sve2_wide_int_arith<0b01, opc, asm, ZPR16, ZPR8, ZPR8>;
3530  def _S : sve2_wide_int_arith<0b10, opc, asm, ZPR32, ZPR16, ZPR16>;
3531  def _D : sve2_wide_int_arith<0b11, opc, asm, ZPR64, ZPR32, ZPR32>;
3532
3533  def : SVE_2_Op_Pat<nxv8i16, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _H)>;
3534  def : SVE_2_Op_Pat<nxv4i32, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _S)>;
3535  def : SVE_2_Op_Pat<nxv2i64, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _D)>;
3536}
3537
3538multiclass sve2_wide_int_arith_wide<bits<3> opc, string asm,
3539                                    SDPatternOperator op> {
3540  def _H : sve2_wide_int_arith<0b01, { 0b10, opc }, asm, ZPR16, ZPR16, ZPR8>;
3541  def _S : sve2_wide_int_arith<0b10, { 0b10, opc }, asm, ZPR32, ZPR32, ZPR16>;
3542  def _D : sve2_wide_int_arith<0b11, { 0b10, opc }, asm, ZPR64, ZPR64, ZPR32>;
3543
3544  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv16i8, !cast<Instruction>(NAME # _H)>;
3545  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv8i16, !cast<Instruction>(NAME # _S)>;
3546  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv4i32, !cast<Instruction>(NAME # _D)>;
3547}
3548
3549multiclass sve2_wide_int_arith_pmul<bits<2> sz, bits<5> opc, string asm,
3550                                     SDPatternOperator op> {
3551  def NAME : sve2_wide_int_arith<sz, opc, asm, ZPR128, ZPR64, ZPR64>;
3552
3553  // To avoid using 128 bit elements in the IR, the pattern below works with
3554  // llvm intrinsics with the _pair suffix, to reflect that
3555  // _Q is implemented as a pair of _D.
3556  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME)>;
3557}
3558
3559multiclass sve2_pmul_long<bits<1> opc, string asm, SDPatternOperator op> {
3560  def _H : sve2_wide_int_arith<0b01, {0b1101, opc}, asm, ZPR16, ZPR8, ZPR8>;
3561  def _D : sve2_wide_int_arith<0b11, {0b1101, opc}, asm, ZPR64, ZPR32, ZPR32>;
3562
3563  // To avoid using 128 bit elements in the IR, the patterns below work with
3564  // llvm intrinsics with the _pair suffix, to reflect that
3565  // _H is implemented as a pair of _B and _D is implemented as a pair of _S.
3566  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _H)>;
3567  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _D)>;
3568}
3569
3570//===----------------------------------------------------------------------===//
3571// SVE2 Misc Group
3572//===----------------------------------------------------------------------===//
3573
3574class sve2_misc<bits<2> sz, bits<4> opc, string asm,
3575                ZPRRegOp zprty1, ZPRRegOp zprty2>
3576: I<(outs zprty1:$Zd), (ins zprty2:$Zn, zprty2:$Zm),
3577  asm, "\t$Zd, $Zn, $Zm", "", []>, Sched<[]> {
3578  bits<5> Zd;
3579  bits<5> Zn;
3580  bits<5> Zm;
3581  let Inst{31-24} = 0b01000101;
3582  let Inst{23-22} = sz;
3583  let Inst{21}    = 0b0;
3584  let Inst{20-16} = Zm;
3585  let Inst{15-14} = 0b10;
3586  let Inst{13-10} = opc;
3587  let Inst{9-5}   = Zn;
3588  let Inst{4-0}   = Zd;
3589}
3590
3591multiclass sve2_misc_bitwise<bits<4> opc, string asm, SDPatternOperator op> {
3592  def _B : sve2_misc<0b00, opc, asm, ZPR8, ZPR8>;
3593  def _H : sve2_misc<0b01, opc, asm, ZPR16, ZPR16>;
3594  def _S : sve2_misc<0b10, opc, asm, ZPR32, ZPR32>;
3595  def _D : sve2_misc<0b11, opc, asm, ZPR64, ZPR64>;
3596
3597  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3598  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
3599  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3600  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3601}
3602
3603multiclass sve2_misc_int_addsub_long_interleaved<bits<2> opc, string asm,
3604                                                 SDPatternOperator op> {
3605  def _H : sve2_misc<0b01, { 0b00, opc }, asm, ZPR16, ZPR8>;
3606  def _S : sve2_misc<0b10, { 0b00, opc }, asm, ZPR32, ZPR16>;
3607  def _D : sve2_misc<0b11, { 0b00, opc }, asm, ZPR64, ZPR32>;
3608
3609  def : SVE_2_Op_Pat<nxv8i16, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _H)>;
3610  def : SVE_2_Op_Pat<nxv4i32, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _S)>;
3611  def : SVE_2_Op_Pat<nxv2i64, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _D)>;
3612}
3613
3614class sve2_bitwise_xor_interleaved<bits<2> sz, bits<1> opc, string asm,
3615                                   ZPRRegOp zprty1, ZPRRegOp zprty2>
3616: I<(outs zprty1:$Zd), (ins zprty1:$_Zd, zprty2:$Zn, zprty2:$Zm),
3617  asm, "\t$Zd, $Zn, $Zm", "", []>, Sched<[]> {
3618  bits<5> Zd;
3619  bits<5> Zn;
3620  bits<5> Zm;
3621  let Inst{31-24} = 0b01000101;
3622  let Inst{23-22} = sz;
3623  let Inst{21}    = 0b0;
3624  let Inst{20-16} = Zm;
3625  let Inst{15-11} = 0b10010;
3626  let Inst{10}    = opc;
3627  let Inst{9-5}   = Zn;
3628  let Inst{4-0}   = Zd;
3629
3630  let Constraints = "$Zd = $_Zd";
3631  let DestructiveInstType = DestructiveOther;
3632  let ElementSize = ElementSizeNone;
3633}
3634
3635multiclass sve2_bitwise_xor_interleaved<bit opc, string asm,
3636                                        SDPatternOperator op> {
3637  def _B : sve2_bitwise_xor_interleaved<0b00, opc, asm, ZPR8,  ZPR8>;
3638  def _H : sve2_bitwise_xor_interleaved<0b01, opc, asm, ZPR16, ZPR16>;
3639  def _S : sve2_bitwise_xor_interleaved<0b10, opc, asm, ZPR32, ZPR32>;
3640  def _D : sve2_bitwise_xor_interleaved<0b11, opc, asm, ZPR64, ZPR64>;
3641
3642  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3643  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
3644  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3645  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3646}
3647
3648class sve2_bitwise_shift_left_long<bits<3> tsz8_64, bits<2> opc, string asm,
3649                                   ZPRRegOp zprty1, ZPRRegOp zprty2,
3650                                   Operand immtype>
3651: I<(outs zprty1:$Zd), (ins zprty2:$Zn, immtype:$imm),
3652  asm, "\t$Zd, $Zn, $imm",
3653  "", []>, Sched<[]> {
3654  bits<5> Zd;
3655  bits<5> Zn;
3656  bits<5> imm;
3657  let Inst{31-23} = 0b010001010;
3658  let Inst{22}    = tsz8_64{2};
3659  let Inst{21}    = 0b0;
3660  let Inst{20-19} = tsz8_64{1-0};
3661  let Inst{18-16} = imm{2-0}; // imm3
3662  let Inst{15-12} = 0b1010;
3663  let Inst{11-10} = opc;
3664  let Inst{9-5}   = Zn;
3665  let Inst{4-0}   = Zd;
3666}
3667
3668multiclass sve2_bitwise_shift_left_long<bits<2> opc, string asm,
3669                                        SDPatternOperator op> {
3670  def _H : sve2_bitwise_shift_left_long<{0,0,1}, opc, asm,
3671                                        ZPR16, ZPR8, vecshiftL8>;
3672  def _S : sve2_bitwise_shift_left_long<{0,1,?}, opc, asm,
3673                                        ZPR32, ZPR16, vecshiftL16> {
3674    let Inst{19} = imm{3};
3675  }
3676  def _D : sve2_bitwise_shift_left_long<{1,?,?}, opc, asm,
3677                                        ZPR64, ZPR32, vecshiftL32> {
3678    let Inst{20-19} = imm{4-3};
3679  }
3680  def : SVE_2_Op_Imm_Pat<nxv8i16, op, nxv16i8, i32, tvecshiftL8,  !cast<Instruction>(NAME # _H)>;
3681  def : SVE_2_Op_Imm_Pat<nxv4i32, op, nxv8i16, i32, tvecshiftL16, !cast<Instruction>(NAME # _S)>;
3682  def : SVE_2_Op_Imm_Pat<nxv2i64, op, nxv4i32, i32, tvecshiftL32, !cast<Instruction>(NAME # _D)>;
3683}
3684
3685//===----------------------------------------------------------------------===//
3686// SVE2 Accumulate Group
3687//===----------------------------------------------------------------------===//
3688
3689class sve2_int_bin_shift_imm<bits<4> tsz8_64, bit opc, string asm,
3690                             ZPRRegOp zprty, Operand immtype>
3691: I<(outs zprty:$Zd), (ins zprty:$_Zd, zprty:$Zn, immtype:$imm),
3692  asm, "\t$Zd, $Zn, $imm",
3693  "", []>, Sched<[]> {
3694  bits<5> Zd;
3695  bits<5> Zn;
3696  bits<6> imm;
3697  let Inst{31-24} = 0b01000101;
3698  let Inst{23-22} = tsz8_64{3-2};
3699  let Inst{21}    = 0b0;
3700  let Inst{20-19} = tsz8_64{1-0};
3701  let Inst{18-16} = imm{2-0}; // imm3
3702  let Inst{15-11} = 0b11110;
3703  let Inst{10}    = opc;
3704  let Inst{9-5}   = Zn;
3705  let Inst{4-0}   = Zd;
3706
3707  let Constraints = "$Zd = $_Zd";
3708}
3709
3710multiclass sve2_int_bin_shift_imm_left<bit opc, string asm,
3711                                       SDPatternOperator op> {
3712  def _B : sve2_int_bin_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftL8>;
3713  def _H : sve2_int_bin_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftL16> {
3714    let Inst{19} = imm{3};
3715  }
3716  def _S : sve2_int_bin_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftL32> {
3717    let Inst{20-19} = imm{4-3};
3718  }
3719  def _D : sve2_int_bin_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftL64> {
3720    let Inst{22}    = imm{5};
3721    let Inst{20-19} = imm{4-3};
3722  }
3723
3724  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, i32, tvecshiftL8,  !cast<Instruction>(NAME # _B)>;
3725  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, i32, tvecshiftL16, !cast<Instruction>(NAME # _H)>;
3726  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, i32, tvecshiftL32, !cast<Instruction>(NAME # _S)>;
3727  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, i32, tvecshiftL64, !cast<Instruction>(NAME # _D)>;
3728}
3729
3730multiclass sve2_int_bin_shift_imm_right<bit opc, string asm,
3731                                        SDPatternOperator op> {
3732  def _B : sve2_int_bin_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftR8>;
3733  def _H : sve2_int_bin_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftR16> {
3734    let Inst{19} = imm{3};
3735  }
3736  def _S : sve2_int_bin_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftR32> {
3737    let Inst{20-19} = imm{4-3};
3738  }
3739  def _D : sve2_int_bin_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftR64> {
3740    let Inst{22}    = imm{5};
3741    let Inst{20-19} = imm{4-3};
3742  }
3743
3744  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, i32, tvecshiftR8,  !cast<Instruction>(NAME # _B)>;
3745  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, i32, tvecshiftR16, !cast<Instruction>(NAME # _H)>;
3746  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, i32, tvecshiftR32, !cast<Instruction>(NAME # _S)>;
3747  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, i32, tvecshiftR64, !cast<Instruction>(NAME # _D)>;
3748}
3749
3750class sve2_int_bin_accum_shift_imm<bits<4> tsz8_64, bits<2> opc, string asm,
3751                                   ZPRRegOp zprty, Operand immtype>
3752: I<(outs zprty:$Zda), (ins zprty:$_Zda, zprty:$Zn, immtype:$imm),
3753  asm, "\t$Zda, $Zn, $imm",
3754  "", []>, Sched<[]> {
3755  bits<5> Zda;
3756  bits<5> Zn;
3757  bits<6> imm;
3758  let Inst{31-24} = 0b01000101;
3759  let Inst{23-22} = tsz8_64{3-2};
3760  let Inst{21}    = 0b0;
3761  let Inst{20-19} = tsz8_64{1-0};
3762  let Inst{18-16} = imm{2-0}; // imm3
3763  let Inst{15-12} = 0b1110;
3764  let Inst{11-10} = opc;
3765  let Inst{9-5}   = Zn;
3766  let Inst{4-0}   = Zda;
3767
3768  let Constraints = "$Zda = $_Zda";
3769  let DestructiveInstType = DestructiveOther;
3770  let ElementSize = ElementSizeNone;
3771}
3772
3773multiclass sve2_int_bin_accum_shift_imm_right<bits<2> opc, string asm,
3774                                              SDPatternOperator op> {
3775  def _B : sve2_int_bin_accum_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftR8>;
3776  def _H : sve2_int_bin_accum_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftR16> {
3777    let Inst{19} = imm{3};
3778  }
3779  def _S : sve2_int_bin_accum_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftR32> {
3780    let Inst{20-19} = imm{4-3};
3781  }
3782  def _D : sve2_int_bin_accum_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftR64> {
3783    let Inst{22}    = imm{5};
3784    let Inst{20-19} = imm{4-3};
3785  }
3786
3787  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, i32, tvecshiftR8,  !cast<Instruction>(NAME # _B)>;
3788  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, i32, tvecshiftR16, !cast<Instruction>(NAME # _H)>;
3789  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, i32, tvecshiftR32, !cast<Instruction>(NAME # _S)>;
3790  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, i32, tvecshiftR64, !cast<Instruction>(NAME # _D)>;
3791}
3792
3793class sve2_int_cadd<bits<2> sz, bit opc, string asm, ZPRRegOp zprty>
3794: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, zprty:$Zm, complexrotateopodd:$rot),
3795  asm, "\t$Zdn, $_Zdn, $Zm, $rot", "", []>, Sched<[]> {
3796  bits<5> Zdn;
3797  bits<5> Zm;
3798  bit rot;
3799  let Inst{31-24} = 0b01000101;
3800  let Inst{23-22} = sz;
3801  let Inst{21-17} = 0b00000;
3802  let Inst{16}    = opc;
3803  let Inst{15-11} = 0b11011;
3804  let Inst{10}    = rot;
3805  let Inst{9-5}   = Zm;
3806  let Inst{4-0}   = Zdn;
3807
3808  let Constraints = "$Zdn = $_Zdn";
3809  let DestructiveInstType = DestructiveOther;
3810  let ElementSize = ElementSizeNone;
3811}
3812
3813multiclass sve2_int_cadd<bit opc, string asm, SDPatternOperator op> {
3814  def _B : sve2_int_cadd<0b00, opc, asm, ZPR8>;
3815  def _H : sve2_int_cadd<0b01, opc, asm, ZPR16>;
3816  def _S : sve2_int_cadd<0b10, opc, asm, ZPR32>;
3817  def _D : sve2_int_cadd<0b11, opc, asm, ZPR64>;
3818
3819  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, i32, complexrotateopodd, !cast<Instruction>(NAME # _B)>;
3820  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, i32, complexrotateopodd, !cast<Instruction>(NAME # _H)>;
3821  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, i32, complexrotateopodd, !cast<Instruction>(NAME # _S)>;
3822  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, i32, complexrotateopodd, !cast<Instruction>(NAME # _D)>;
3823}
3824
3825class sve2_int_absdiff_accum<bits<2> sz, bits<4> opc, string asm,
3826                             ZPRRegOp zprty1, ZPRRegOp zprty2>
3827: I<(outs zprty1:$Zda), (ins zprty1:$_Zda, zprty2:$Zn, zprty2:$Zm),
3828  asm, "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
3829  bits<5> Zda;
3830  bits<5> Zn;
3831  bits<5> Zm;
3832  let Inst{31-24} = 0b01000101;
3833  let Inst{23-22} = sz;
3834  let Inst{21}    = 0b0;
3835  let Inst{20-16} = Zm;
3836  let Inst{15-14} = 0b11;
3837  let Inst{13-10} = opc;
3838  let Inst{9-5}   = Zn;
3839  let Inst{4-0}   = Zda;
3840
3841  let Constraints = "$Zda = $_Zda";
3842  let DestructiveInstType = DestructiveOther;
3843  let ElementSize = ElementSizeNone;
3844}
3845
3846multiclass sve2_int_absdiff_accum<bit opc, string asm, SDPatternOperator op> {
3847  def _B : sve2_int_absdiff_accum<0b00, { 0b111, opc }, asm, ZPR8, ZPR8>;
3848  def _H : sve2_int_absdiff_accum<0b01, { 0b111, opc }, asm, ZPR16, ZPR16>;
3849  def _S : sve2_int_absdiff_accum<0b10, { 0b111, opc }, asm, ZPR32, ZPR32>;
3850  def _D : sve2_int_absdiff_accum<0b11, { 0b111, opc }, asm, ZPR64, ZPR64>;
3851
3852  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
3853  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
3854  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3855  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3856}
3857
3858multiclass sve2_int_absdiff_accum_long<bits<2> opc, string asm,
3859                                       SDPatternOperator op> {
3860  def _H : sve2_int_absdiff_accum<0b01, { 0b00, opc }, asm, ZPR16, ZPR8>;
3861  def _S : sve2_int_absdiff_accum<0b10, { 0b00, opc }, asm, ZPR32, ZPR16>;
3862  def _D : sve2_int_absdiff_accum<0b11, { 0b00, opc }, asm, ZPR64, ZPR32>;
3863
3864  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _H)>;
3865  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _S)>;
3866  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _D)>;
3867}
3868
3869multiclass sve2_int_addsub_long_carry<bits<2> opc, string asm,
3870                                      SDPatternOperator op> {
3871  def _S : sve2_int_absdiff_accum<{ opc{1}, 0b0 }, { 0b010, opc{0} }, asm,
3872                                  ZPR32, ZPR32>;
3873  def _D : sve2_int_absdiff_accum<{ opc{1}, 0b1 }, { 0b010, opc{0} }, asm,
3874                                  ZPR64, ZPR64>;
3875
3876  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
3877  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
3878}
3879
3880//===----------------------------------------------------------------------===//
3881// SVE2 Narrowing Group
3882//===----------------------------------------------------------------------===//
3883
3884class sve2_int_bin_shift_imm_narrow_bottom<bits<3> tsz8_64, bits<3> opc,
3885                                           string asm, ZPRRegOp zprty1,
3886                                           ZPRRegOp zprty2, Operand immtype>
3887: I<(outs zprty1:$Zd), (ins zprty2:$Zn, immtype:$imm),
3888  asm, "\t$Zd, $Zn, $imm",
3889  "", []>, Sched<[]> {
3890  bits<5> Zd;
3891  bits<5> Zn;
3892  bits<5> imm;
3893  let Inst{31-23} = 0b010001010;
3894  let Inst{22}    = tsz8_64{2};
3895  let Inst{21}    = 0b1;
3896  let Inst{20-19} = tsz8_64{1-0};
3897  let Inst{18-16} = imm{2-0}; // imm3
3898  let Inst{15-14} = 0b00;
3899  let Inst{13-11} = opc;
3900  let Inst{10}    = 0b0;
3901  let Inst{9-5}   = Zn;
3902  let Inst{4-0}   = Zd;
3903}
3904
3905multiclass sve2_int_bin_shift_imm_right_narrow_bottom<bits<3> opc, string asm,
3906                                                      SDPatternOperator op> {
3907  def _B : sve2_int_bin_shift_imm_narrow_bottom<{0,0,1}, opc, asm, ZPR8, ZPR16,
3908                                                tvecshiftR8>;
3909  def _H : sve2_int_bin_shift_imm_narrow_bottom<{0,1,?}, opc, asm, ZPR16, ZPR32,
3910                                                tvecshiftR16> {
3911    let Inst{19} = imm{3};
3912  }
3913  def _S : sve2_int_bin_shift_imm_narrow_bottom<{1,?,?}, opc, asm, ZPR32, ZPR64,
3914                                                tvecshiftR32> {
3915    let Inst{20-19} = imm{4-3};
3916  }
3917  def : SVE_2_Op_Imm_Pat<nxv16i8, op, nxv8i16, i32, tvecshiftR8,  !cast<Instruction>(NAME # _B)>;
3918  def : SVE_2_Op_Imm_Pat<nxv8i16, op, nxv4i32, i32, tvecshiftR16, !cast<Instruction>(NAME # _H)>;
3919  def : SVE_2_Op_Imm_Pat<nxv4i32, op, nxv2i64, i32, tvecshiftR32, !cast<Instruction>(NAME # _S)>;
3920}
3921
3922class sve2_int_bin_shift_imm_narrow_top<bits<3> tsz8_64, bits<3> opc,
3923                                        string asm, ZPRRegOp zprty1,
3924                                        ZPRRegOp zprty2, Operand immtype>
3925: I<(outs zprty1:$Zd), (ins zprty1:$_Zd, zprty2:$Zn, immtype:$imm),
3926  asm, "\t$Zd, $Zn, $imm",
3927  "", []>, Sched<[]> {
3928  bits<5> Zd;
3929  bits<5> Zn;
3930  bits<5> imm;
3931  let Inst{31-23} = 0b010001010;
3932  let Inst{22}    = tsz8_64{2};
3933  let Inst{21}    = 0b1;
3934  let Inst{20-19} = tsz8_64{1-0};
3935  let Inst{18-16} = imm{2-0}; // imm3
3936  let Inst{15-14} = 0b00;
3937  let Inst{13-11} = opc;
3938  let Inst{10}    = 0b1;
3939  let Inst{9-5}   = Zn;
3940  let Inst{4-0}   = Zd;
3941
3942  let Constraints = "$Zd = $_Zd";
3943}
3944
3945multiclass sve2_int_bin_shift_imm_right_narrow_top<bits<3> opc, string asm,
3946                                                   SDPatternOperator op> {
3947  def _B : sve2_int_bin_shift_imm_narrow_top<{0,0,1}, opc, asm, ZPR8, ZPR16,
3948                                             tvecshiftR8>;
3949  def _H : sve2_int_bin_shift_imm_narrow_top<{0,1,?}, opc, asm, ZPR16, ZPR32,
3950                                             tvecshiftR16> {
3951    let Inst{19} = imm{3};
3952  }
3953  def _S : sve2_int_bin_shift_imm_narrow_top<{1,?,?}, opc, asm, ZPR32, ZPR64,
3954                                             tvecshiftR32> {
3955    let Inst{20-19} = imm{4-3};
3956  }
3957  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv8i16, i32, tvecshiftR8,  !cast<Instruction>(NAME # _B)>;
3958  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv4i32, i32, tvecshiftR16, !cast<Instruction>(NAME # _H)>;
3959  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv2i64, i32, tvecshiftR32, !cast<Instruction>(NAME # _S)>;
3960}
3961
3962class sve2_int_addsub_narrow_high_bottom<bits<2> sz, bits<2> opc, string asm,
3963                                         ZPRRegOp zprty1, ZPRRegOp zprty2>
3964: I<(outs zprty1:$Zd), (ins zprty2:$Zn, zprty2:$Zm),
3965  asm, "\t$Zd, $Zn, $Zm", "", []>, Sched<[]> {
3966  bits<5> Zd;
3967  bits<5> Zn;
3968  bits<5> Zm;
3969  let Inst{31-24} = 0b01000101;
3970  let Inst{23-22} = sz;
3971  let Inst{21}    = 0b1;
3972  let Inst{20-16} = Zm;
3973  let Inst{15-13} = 0b011;
3974  let Inst{12-11} = opc; // S, R
3975  let Inst{10}    = 0b0; // Top
3976  let Inst{9-5}   = Zn;
3977  let Inst{4-0}   = Zd;
3978}
3979
3980multiclass sve2_int_addsub_narrow_high_bottom<bits<2> opc, string asm,
3981                                              SDPatternOperator op> {
3982  def _B : sve2_int_addsub_narrow_high_bottom<0b01, opc, asm, ZPR8, ZPR16>;
3983  def _H : sve2_int_addsub_narrow_high_bottom<0b10, opc, asm, ZPR16, ZPR32>;
3984  def _S : sve2_int_addsub_narrow_high_bottom<0b11, opc, asm, ZPR32, ZPR64>;
3985
3986  def : SVE_2_Op_Pat<nxv16i8, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _B)>;
3987  def : SVE_2_Op_Pat<nxv8i16, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _H)>;
3988  def : SVE_2_Op_Pat<nxv4i32, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _S)>;
3989}
3990
3991class sve2_int_addsub_narrow_high_top<bits<2> sz, bits<2> opc, string asm,
3992                                      ZPRRegOp zprty1, ZPRRegOp zprty2>
3993: I<(outs zprty1:$Zd), (ins zprty1:$_Zd, zprty2:$Zn, zprty2:$Zm),
3994  asm, "\t$Zd, $Zn, $Zm", "", []>, Sched<[]> {
3995  bits<5> Zd;
3996  bits<5> Zn;
3997  bits<5> Zm;
3998  let Inst{31-24} = 0b01000101;
3999  let Inst{23-22} = sz;
4000  let Inst{21}    = 0b1;
4001  let Inst{20-16} = Zm;
4002  let Inst{15-13} = 0b011;
4003  let Inst{12-11} = opc; // S, R
4004  let Inst{10}    = 0b1; // Top
4005  let Inst{9-5}   = Zn;
4006  let Inst{4-0}   = Zd;
4007
4008  let Constraints = "$Zd = $_Zd";
4009}
4010
4011multiclass sve2_int_addsub_narrow_high_top<bits<2> opc, string asm,
4012                                           SDPatternOperator op> {
4013  def _B : sve2_int_addsub_narrow_high_top<0b01, opc, asm, ZPR8, ZPR16>;
4014  def _H : sve2_int_addsub_narrow_high_top<0b10, opc, asm, ZPR16, ZPR32>;
4015  def _S : sve2_int_addsub_narrow_high_top<0b11, opc, asm, ZPR32, ZPR64>;
4016
4017  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv8i16, nxv8i16, !cast<Instruction>(NAME # _B)>;
4018  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _H)>;
4019  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _S)>;
4020}
4021
4022class sve2_int_sat_extract_narrow_bottom<bits<3> tsz8_64, bits<2> opc, string asm,
4023                                         ZPRRegOp zprty1, ZPRRegOp zprty2>
4024: I<(outs zprty1:$Zd), (ins zprty2:$Zn),
4025  asm, "\t$Zd, $Zn", "", []>, Sched<[]> {
4026  bits<5> Zd;
4027  bits<5> Zn;
4028  let Inst{31-23} = 0b010001010;
4029  let Inst{22}    = tsz8_64{2};
4030  let Inst{21}    = 0b1;
4031  let Inst{20-19} = tsz8_64{1-0};
4032  let Inst{18-13} = 0b000010;
4033  let Inst{12-11} = opc;
4034  let Inst{10}    = 0b0;
4035  let Inst{9-5}   = Zn;
4036  let Inst{4-0}   = Zd;
4037}
4038
4039multiclass sve2_int_sat_extract_narrow_bottom<bits<2> opc, string asm,
4040                                              SDPatternOperator op> {
4041  def _B : sve2_int_sat_extract_narrow_bottom<0b001, opc, asm, ZPR8, ZPR16>;
4042  def _H : sve2_int_sat_extract_narrow_bottom<0b010, opc, asm, ZPR16, ZPR32>;
4043  def _S : sve2_int_sat_extract_narrow_bottom<0b100, opc, asm, ZPR32, ZPR64>;
4044
4045  def : SVE_1_Op_Pat<nxv16i8, op, nxv8i16, !cast<Instruction>(NAME # _B)>;
4046  def : SVE_1_Op_Pat<nxv8i16, op, nxv4i32, !cast<Instruction>(NAME # _H)>;
4047  def : SVE_1_Op_Pat<nxv4i32, op, nxv2i64, !cast<Instruction>(NAME # _S)>;
4048}
4049
4050class sve2_int_sat_extract_narrow_top<bits<3> tsz8_64, bits<2> opc, string asm,
4051                                      ZPRRegOp zprty1, ZPRRegOp zprty2>
4052: I<(outs zprty1:$Zd), (ins zprty1:$_Zd, zprty2:$Zn),
4053  asm, "\t$Zd, $Zn", "", []>, Sched<[]> {
4054  bits<5> Zd;
4055  bits<5> Zn;
4056  let Inst{31-23} = 0b010001010;
4057  let Inst{22}    = tsz8_64{2};
4058  let Inst{21}    = 0b1;
4059  let Inst{20-19} = tsz8_64{1-0};
4060  let Inst{18-13} = 0b000010;
4061  let Inst{12-11} = opc;
4062  let Inst{10}    = 0b1;
4063  let Inst{9-5}   = Zn;
4064  let Inst{4-0}   = Zd;
4065
4066  let Constraints = "$Zd = $_Zd";
4067}
4068
4069multiclass sve2_int_sat_extract_narrow_top<bits<2> opc, string asm,
4070                                           SDPatternOperator op> {
4071  def _B : sve2_int_sat_extract_narrow_top<0b001, opc, asm, ZPR8, ZPR16>;
4072  def _H : sve2_int_sat_extract_narrow_top<0b010, opc, asm, ZPR16, ZPR32>;
4073  def _S : sve2_int_sat_extract_narrow_top<0b100, opc, asm, ZPR32, ZPR64>;
4074
4075  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv8i16, !cast<Instruction>(NAME # _B)>;
4076  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv4i32, !cast<Instruction>(NAME # _H)>;
4077  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv2i64, !cast<Instruction>(NAME # _S)>;
4078}
4079
4080//===----------------------------------------------------------------------===//
4081// SVE Integer Arithmetic - Unary Predicated Group
4082//===----------------------------------------------------------------------===//
4083
4084class sve_int_un_pred_arit<bits<2> sz8_64, bits<4> opc,
4085                             string asm, ZPRRegOp zprty>
4086: I<(outs zprty:$Zd), (ins zprty:$_Zd, PPR3bAny:$Pg, zprty:$Zn),
4087  asm, "\t$Zd, $Pg/m, $Zn",
4088  "",
4089  []>, Sched<[]> {
4090  bits<3> Pg;
4091  bits<5> Zd;
4092  bits<5> Zn;
4093  let Inst{31-24} = 0b00000100;
4094  let Inst{23-22} = sz8_64;
4095  let Inst{21-20} = 0b01;
4096  let Inst{19}    = opc{0};
4097  let Inst{18-16} = opc{3-1};
4098  let Inst{15-13} = 0b101;
4099  let Inst{12-10} = Pg;
4100  let Inst{9-5}   = Zn;
4101  let Inst{4-0}   = Zd;
4102
4103  let Constraints = "$Zd = $_Zd";
4104  let DestructiveInstType = DestructiveUnaryPassthru;
4105  let ElementSize = zprty.ElementSize;
4106}
4107
4108multiclass sve_int_un_pred_arit_0<bits<3> opc, string asm,
4109                                  SDPatternOperator op> {
4110  def _B : sve_int_un_pred_arit<0b00, { opc, 0b0 }, asm, ZPR8>,
4111           SVEPseudo2Instr<NAME # _B, 1>;
4112  def _H : sve_int_un_pred_arit<0b01, { opc, 0b0 }, asm, ZPR16>,
4113           SVEPseudo2Instr<NAME # _H, 1>;
4114  def _S : sve_int_un_pred_arit<0b10, { opc, 0b0 }, asm, ZPR32>,
4115           SVEPseudo2Instr<NAME # _S, 1>;
4116  def _D : sve_int_un_pred_arit<0b11, { opc, 0b0 }, asm, ZPR64>,
4117           SVEPseudo2Instr<NAME # _D, 1>;
4118
4119  def : SVE_1_Op_Passthru_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
4120  def : SVE_1_Op_Passthru_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
4121  def : SVE_1_Op_Passthru_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
4122  def : SVE_1_Op_Passthru_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
4123
4124  def _UNDEF_B : PredOneOpPassthruPseudo<NAME # _B, ZPR8>;
4125  def _UNDEF_H : PredOneOpPassthruPseudo<NAME # _H, ZPR16>;
4126  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
4127  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
4128
4129  defm : SVE_1_Op_PassthruUndef_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Pseudo>(NAME # _UNDEF_B)>;
4130  defm : SVE_1_Op_PassthruUndef_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Pseudo>(NAME # _UNDEF_H)>;
4131  defm : SVE_1_Op_PassthruUndef_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
4132  defm : SVE_1_Op_PassthruUndef_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Pseudo>(NAME # _UNDEF_D)>;
4133}
4134
4135multiclass sve_int_un_pred_arit_0_h<bits<3> opc, string asm,
4136                                    SDPatternOperator op> {
4137  def _H : sve_int_un_pred_arit<0b01, { opc, 0b0 }, asm, ZPR16>,
4138           SVEPseudo2Instr<NAME # _H, 1>;
4139  def _S : sve_int_un_pred_arit<0b10, { opc, 0b0 }, asm, ZPR32>,
4140           SVEPseudo2Instr<NAME # _S, 1>;
4141  def _D : sve_int_un_pred_arit<0b11, { opc, 0b0 }, asm, ZPR64>,
4142           SVEPseudo2Instr<NAME # _D, 1>;
4143
4144  def : SVE_InReg_Extend<nxv8i16, op, nxv8i1, nxv8i8, !cast<Instruction>(NAME # _H)>;
4145  def : SVE_InReg_Extend<nxv4i32, op, nxv4i1, nxv4i8, !cast<Instruction>(NAME # _S)>;
4146  def : SVE_InReg_Extend<nxv2i64, op, nxv2i1, nxv2i8, !cast<Instruction>(NAME # _D)>;
4147
4148  def _UNDEF_H : PredOneOpPassthruPseudo<NAME # _H, ZPR16>;
4149  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
4150  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
4151
4152  defm : SVE_InReg_Extend_PassthruUndef<nxv8i16, op, nxv8i1, nxv8i8, !cast<Pseudo>(NAME # _UNDEF_H)>;
4153  defm : SVE_InReg_Extend_PassthruUndef<nxv4i32, op, nxv4i1, nxv4i8, !cast<Pseudo>(NAME # _UNDEF_S)>;
4154  defm : SVE_InReg_Extend_PassthruUndef<nxv2i64, op, nxv2i1, nxv2i8, !cast<Pseudo>(NAME # _UNDEF_D)>;
4155}
4156
4157multiclass sve_int_un_pred_arit_0_w<bits<3> opc, string asm,
4158                                    SDPatternOperator op> {
4159  def _S : sve_int_un_pred_arit<0b10, { opc, 0b0 }, asm, ZPR32>,
4160           SVEPseudo2Instr<NAME # _S, 1>;
4161  def _D : sve_int_un_pred_arit<0b11, { opc, 0b0 }, asm, ZPR64>,
4162           SVEPseudo2Instr<NAME # _D, 1>;
4163
4164  def : SVE_InReg_Extend<nxv4i32, op, nxv4i1, nxv4i16, !cast<Instruction>(NAME # _S)>;
4165  def : SVE_InReg_Extend<nxv2i64, op, nxv2i1, nxv2i16, !cast<Instruction>(NAME # _D)>;
4166
4167  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
4168  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
4169
4170  defm : SVE_InReg_Extend_PassthruUndef<nxv4i32, op, nxv4i1, nxv4i16, !cast<Pseudo>(NAME # _UNDEF_S)>;
4171  defm : SVE_InReg_Extend_PassthruUndef<nxv2i64, op, nxv2i1, nxv2i16, !cast<Pseudo>(NAME # _UNDEF_D)>;
4172}
4173
4174multiclass sve_int_un_pred_arit_0_d<bits<3> opc, string asm,
4175                                    SDPatternOperator op> {
4176  def _D : sve_int_un_pred_arit<0b11, { opc, 0b0 }, asm, ZPR64>,
4177           SVEPseudo2Instr<NAME # _D, 1>;
4178
4179  def : SVE_InReg_Extend<nxv2i64, op, nxv2i1, nxv2i32, !cast<Instruction>(NAME # _D)>;
4180
4181  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
4182
4183  defm : SVE_InReg_Extend_PassthruUndef<nxv2i64, op, nxv2i1, nxv2i32, !cast<Pseudo>(NAME # _UNDEF_D)>;
4184}
4185
4186multiclass sve_int_un_pred_arit_1<bits<3> opc, string asm,
4187                                  SDPatternOperator op> {
4188  def _B : sve_int_un_pred_arit<0b00, { opc, 0b1 }, asm, ZPR8>,
4189           SVEPseudo2Instr<NAME # _B, 1>;
4190  def _H : sve_int_un_pred_arit<0b01, { opc, 0b1 }, asm, ZPR16>,
4191           SVEPseudo2Instr<NAME # _H, 1>;
4192  def _S : sve_int_un_pred_arit<0b10, { opc, 0b1 }, asm, ZPR32>,
4193           SVEPseudo2Instr<NAME # _S, 1>;
4194  def _D : sve_int_un_pred_arit<0b11, { opc, 0b1 }, asm, ZPR64>,
4195           SVEPseudo2Instr<NAME # _D, 1>;
4196
4197  def : SVE_1_Op_Passthru_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
4198  def : SVE_1_Op_Passthru_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
4199  def : SVE_1_Op_Passthru_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
4200  def : SVE_1_Op_Passthru_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
4201
4202  def _UNDEF_B : PredOneOpPassthruPseudo<NAME # _B, ZPR8>;
4203  def _UNDEF_H : PredOneOpPassthruPseudo<NAME # _H, ZPR16>;
4204  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
4205  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
4206
4207  defm : SVE_1_Op_PassthruUndef_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Pseudo>(NAME # _UNDEF_B)>;
4208  defm : SVE_1_Op_PassthruUndef_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Pseudo>(NAME # _UNDEF_H)>;
4209  defm : SVE_1_Op_PassthruUndef_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
4210  defm : SVE_1_Op_PassthruUndef_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Pseudo>(NAME # _UNDEF_D)>;
4211}
4212
4213multiclass sve_int_un_pred_arit_1_fp<bits<3> opc, string asm, SDPatternOperator op> {
4214  def _H : sve_int_un_pred_arit<0b01, { opc, 0b1 }, asm, ZPR16>,
4215           SVEPseudo2Instr<NAME # _H, 1>;
4216  def _S : sve_int_un_pred_arit<0b10, { opc, 0b1 }, asm, ZPR32>,
4217           SVEPseudo2Instr<NAME # _S, 1>;
4218  def _D : sve_int_un_pred_arit<0b11, { opc, 0b1 }, asm, ZPR64>,
4219           SVEPseudo2Instr<NAME # _D, 1>;
4220
4221  def : SVE_1_Op_Passthru_Pat<nxv8f16, op, nxv8i1, nxv8f16, !cast<Instruction>(NAME # _H)>;
4222  def : SVE_1_Op_Passthru_Pat<nxv4f16, op, nxv4i1, nxv4f16, !cast<Instruction>(NAME # _H)>;
4223  def : SVE_1_Op_Passthru_Pat<nxv2f16, op, nxv2i1, nxv2f16, !cast<Instruction>(NAME # _H)>;
4224  def : SVE_1_Op_Passthru_Pat<nxv4f32, op, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _S)>;
4225  def : SVE_1_Op_Passthru_Pat<nxv2f32, op, nxv2i1, nxv2f32, !cast<Instruction>(NAME # _S)>;
4226  def : SVE_1_Op_Passthru_Pat<nxv2f64, op, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _D)>;
4227
4228  def _UNDEF_H : PredOneOpPassthruPseudo<NAME # _H, ZPR16>;
4229  def _UNDEF_S : PredOneOpPassthruPseudo<NAME # _S, ZPR32>;
4230  def _UNDEF_D : PredOneOpPassthruPseudo<NAME # _D, ZPR64>;
4231
4232  defm : SVE_1_Op_PassthruUndef_Pat<nxv8f16, op, nxv8i1, nxv8f16, !cast<Pseudo>(NAME # _UNDEF_H)>;
4233  defm : SVE_1_Op_PassthruUndef_Pat<nxv4f16, op, nxv4i1, nxv4f16, !cast<Pseudo>(NAME # _UNDEF_H)>;
4234  defm : SVE_1_Op_PassthruUndef_Pat<nxv2f16, op, nxv2i1, nxv2f16, !cast<Pseudo>(NAME # _UNDEF_H)>;
4235  defm : SVE_1_Op_PassthruUndef_Pat<nxv4f32, op, nxv4i1, nxv4f32, !cast<Pseudo>(NAME # _UNDEF_S)>;
4236  defm : SVE_1_Op_PassthruUndef_Pat<nxv2f32, op, nxv2i1, nxv2f32, !cast<Pseudo>(NAME # _UNDEF_S)>;
4237  defm : SVE_1_Op_PassthruUndef_Pat<nxv2f64, op, nxv2i1, nxv2f64, !cast<Pseudo>(NAME # _UNDEF_D)>;
4238}
4239
4240//===----------------------------------------------------------------------===//
4241// SVE Integer Wide Immediate - Unpredicated Group
4242//===----------------------------------------------------------------------===//
4243class sve_int_dup_imm<bits<2> sz8_64, string asm,
4244                      ZPRRegOp zprty, Operand immtype>
4245: I<(outs zprty:$Zd), (ins immtype:$imm),
4246  asm, "\t$Zd, $imm",
4247  "",
4248  []>, Sched<[]> {
4249  bits<5> Zd;
4250  bits<9> imm;
4251  let Inst{31-24} = 0b00100101;
4252  let Inst{23-22} = sz8_64;
4253  let Inst{21-14} = 0b11100011;
4254  let Inst{13}    = imm{8};   // sh
4255  let Inst{12-5}  = imm{7-0}; // imm8
4256  let Inst{4-0}   = Zd;
4257
4258  let isReMaterializable = 1;
4259}
4260
4261multiclass sve_int_dup_imm<string asm> {
4262  def _B : sve_int_dup_imm<0b00, asm, ZPR8, cpy_imm8_opt_lsl_i8>;
4263  def _H : sve_int_dup_imm<0b01, asm, ZPR16, cpy_imm8_opt_lsl_i16>;
4264  def _S : sve_int_dup_imm<0b10, asm, ZPR32, cpy_imm8_opt_lsl_i32>;
4265  def _D : sve_int_dup_imm<0b11, asm, ZPR64, cpy_imm8_opt_lsl_i64>;
4266
4267  def : InstAlias<"mov $Zd, $imm",
4268                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, cpy_imm8_opt_lsl_i8:$imm), 1>;
4269  def : InstAlias<"mov $Zd, $imm",
4270                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, cpy_imm8_opt_lsl_i16:$imm), 1>;
4271  def : InstAlias<"mov $Zd, $imm",
4272                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, cpy_imm8_opt_lsl_i32:$imm), 1>;
4273  def : InstAlias<"mov $Zd, $imm",
4274                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, cpy_imm8_opt_lsl_i64:$imm), 1>;
4275
4276  def : InstAlias<"fmov $Zd, #0.0",
4277                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, 0, 0), 1>;
4278  def : InstAlias<"fmov $Zd, #0.0",
4279                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, 0, 0), 1>;
4280  def : InstAlias<"fmov $Zd, #0.0",
4281                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, 0, 0), 1>;
4282}
4283
4284class sve_int_dup_fpimm<bits<2> sz8_64, Operand fpimmtype,
4285                        string asm, ZPRRegOp zprty>
4286: I<(outs zprty:$Zd), (ins fpimmtype:$imm8),
4287  asm, "\t$Zd, $imm8",
4288  "",
4289  []>, Sched<[]> {
4290  bits<5> Zd;
4291  bits<8> imm8;
4292  let Inst{31-24} = 0b00100101;
4293  let Inst{23-22} = sz8_64;
4294  let Inst{21-14} = 0b11100111;
4295  let Inst{13}    = 0b0;
4296  let Inst{12-5}  = imm8;
4297  let Inst{4-0}   = Zd;
4298
4299  let isReMaterializable = 1;
4300}
4301
4302multiclass sve_int_dup_fpimm<string asm> {
4303  def _H : sve_int_dup_fpimm<0b01, fpimm16, asm, ZPR16>;
4304  def _S : sve_int_dup_fpimm<0b10, fpimm32, asm, ZPR32>;
4305  def _D : sve_int_dup_fpimm<0b11, fpimm64, asm, ZPR64>;
4306
4307  def : InstAlias<"fmov $Zd, $imm8",
4308                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, fpimm16:$imm8), 1>;
4309  def : InstAlias<"fmov $Zd, $imm8",
4310                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, fpimm32:$imm8), 1>;
4311  def : InstAlias<"fmov $Zd, $imm8",
4312                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, fpimm64:$imm8), 1>;
4313}
4314
4315class sve_int_arith_imm0<bits<2> sz8_64, bits<3> opc, string asm,
4316                         ZPRRegOp zprty, Operand immtype>
4317: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, immtype:$imm),
4318  asm, "\t$Zdn, $_Zdn, $imm",
4319  "",
4320  []>, Sched<[]> {
4321  bits<5> Zdn;
4322  bits<9> imm;
4323  let Inst{31-24} = 0b00100101;
4324  let Inst{23-22} = sz8_64;
4325  let Inst{21-19} = 0b100;
4326  let Inst{18-16} = opc;
4327  let Inst{15-14} = 0b11;
4328  let Inst{13}    = imm{8};   // sh
4329  let Inst{12-5}  = imm{7-0}; // imm8
4330  let Inst{4-0}   = Zdn;
4331
4332  let Constraints = "$Zdn = $_Zdn";
4333  let DestructiveInstType = DestructiveOther;
4334  let ElementSize = ElementSizeNone;
4335}
4336
4337multiclass sve_int_arith_imm0<bits<3> opc, string asm, SDPatternOperator op> {
4338  def _B : sve_int_arith_imm0<0b00, opc, asm, ZPR8,  addsub_imm8_opt_lsl_i8>;
4339  def _H : sve_int_arith_imm0<0b01, opc, asm, ZPR16, addsub_imm8_opt_lsl_i16>;
4340  def _S : sve_int_arith_imm0<0b10, opc, asm, ZPR32, addsub_imm8_opt_lsl_i32>;
4341  def _D : sve_int_arith_imm0<0b11, opc, asm, ZPR64, addsub_imm8_opt_lsl_i64>;
4342
4343  def : SVE_1_Op_Imm_OptLsl_Pat<nxv16i8, op, ZPR8,  i32, SVEAddSubImm8Pat,  !cast<Instruction>(NAME # _B)>;
4344  def : SVE_1_Op_Imm_OptLsl_Pat<nxv8i16, op, ZPR16, i32, SVEAddSubImm16Pat, !cast<Instruction>(NAME # _H)>;
4345  def : SVE_1_Op_Imm_OptLsl_Pat<nxv4i32, op, ZPR32, i32, SVEAddSubImm32Pat, !cast<Instruction>(NAME # _S)>;
4346  def : SVE_1_Op_Imm_OptLsl_Pat<nxv2i64, op, ZPR64, i64, SVEAddSubImm64Pat, !cast<Instruction>(NAME # _D)>;
4347}
4348
4349multiclass sve_int_arith_imm0_subr<bits<3> opc, string asm, SDPatternOperator op> {
4350  def _B : sve_int_arith_imm0<0b00, opc, asm, ZPR8,  addsub_imm8_opt_lsl_i8>;
4351  def _H : sve_int_arith_imm0<0b01, opc, asm, ZPR16, addsub_imm8_opt_lsl_i16>;
4352  def _S : sve_int_arith_imm0<0b10, opc, asm, ZPR32, addsub_imm8_opt_lsl_i32>;
4353  def _D : sve_int_arith_imm0<0b11, opc, asm, ZPR64, addsub_imm8_opt_lsl_i64>;
4354
4355  def : SVE_1_Op_Imm_OptLsl_Reverse_Pat<nxv16i8, op, ZPR8,  i32, SVEAddSubImm8Pat,  !cast<Instruction>(NAME # _B)>;
4356  def : SVE_1_Op_Imm_OptLsl_Reverse_Pat<nxv8i16, op, ZPR16, i32, SVEAddSubImm16Pat, !cast<Instruction>(NAME # _H)>;
4357  def : SVE_1_Op_Imm_OptLsl_Reverse_Pat<nxv4i32, op, ZPR32, i32, SVEAddSubImm32Pat, !cast<Instruction>(NAME # _S)>;
4358  def : SVE_1_Op_Imm_OptLsl_Reverse_Pat<nxv2i64, op, ZPR64, i64, SVEAddSubImm64Pat, !cast<Instruction>(NAME # _D)>;
4359}
4360
4361class sve_int_arith_imm<bits<2> sz8_64, bits<6> opc, string asm,
4362                        ZPRRegOp zprty, Operand immtype>
4363: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, immtype:$imm),
4364  asm, "\t$Zdn, $_Zdn, $imm",
4365  "",
4366  []>, Sched<[]> {
4367  bits<5> Zdn;
4368  bits<8> imm;
4369  let Inst{31-24} = 0b00100101;
4370  let Inst{23-22} = sz8_64;
4371  let Inst{21-16} = opc;
4372  let Inst{15-13} = 0b110;
4373  let Inst{12-5} = imm;
4374  let Inst{4-0} = Zdn;
4375
4376  let Constraints = "$Zdn = $_Zdn";
4377  let DestructiveInstType = DestructiveOther;
4378  let ElementSize = ElementSizeNone;
4379}
4380
4381multiclass sve_int_arith_imm1<bits<2> opc, string asm, SDPatternOperator op> {
4382  def _B : sve_int_arith_imm<0b00, { 0b1010, opc }, asm, ZPR8, simm8>;
4383  def _H : sve_int_arith_imm<0b01, { 0b1010, opc }, asm, ZPR16, simm8>;
4384  def _S : sve_int_arith_imm<0b10, { 0b1010, opc }, asm, ZPR32, simm8>;
4385  def _D : sve_int_arith_imm<0b11, { 0b1010, opc }, asm, ZPR64, simm8>;
4386
4387  def : SVE_1_Op_Imm_Arith_All_Active<nxv16i8, nxv16i1, op, ZPR8, i32, SVEArithSImmPat32, !cast<Instruction>(NAME # _B)>;
4388  def : SVE_1_Op_Imm_Arith_All_Active<nxv8i16, nxv8i1,  op, ZPR16, i32, SVEArithSImmPat32, !cast<Instruction>(NAME # _H)>;
4389  def : SVE_1_Op_Imm_Arith_All_Active<nxv4i32, nxv4i1,  op, ZPR32, i32, SVEArithSImmPat32, !cast<Instruction>(NAME # _S)>;
4390  def : SVE_1_Op_Imm_Arith_All_Active<nxv2i64, nxv2i1,  op, ZPR64, i64, SVEArithSImmPat64, !cast<Instruction>(NAME # _D)>;
4391}
4392
4393multiclass sve_int_arith_imm1_unsigned<bits<2> opc, string asm, SDPatternOperator op> {
4394  def _B : sve_int_arith_imm<0b00, { 0b1010, opc }, asm, ZPR8, imm0_255>;
4395  def _H : sve_int_arith_imm<0b01, { 0b1010, opc }, asm, ZPR16, imm0_255>;
4396  def _S : sve_int_arith_imm<0b10, { 0b1010, opc }, asm, ZPR32, imm0_255>;
4397  def _D : sve_int_arith_imm<0b11, { 0b1010, opc }, asm, ZPR64, imm0_255>;
4398
4399  def : SVE_1_Op_Imm_Arith_All_Active<nxv16i8, nxv16i1, op, ZPR8, i32, SVEArithUImm8Pat, !cast<Instruction>(NAME # _B)>;
4400  def : SVE_1_Op_Imm_Arith_All_Active<nxv8i16, nxv8i1, op, ZPR16, i32, SVEArithUImm16Pat, !cast<Instruction>(NAME # _H)>;
4401  def : SVE_1_Op_Imm_Arith_All_Active<nxv4i32, nxv4i1, op, ZPR32, i32, SVEArithUImm32Pat, !cast<Instruction>(NAME # _S)>;
4402  def : SVE_1_Op_Imm_Arith_All_Active<nxv2i64, nxv2i1, op, ZPR64, i64, SVEArithUImm64Pat, !cast<Instruction>(NAME # _D)>;
4403}
4404
4405multiclass sve_int_arith_imm2<string asm, SDPatternOperator op> {
4406  def _B : sve_int_arith_imm<0b00, 0b110000, asm, ZPR8,  simm8>;
4407  def _H : sve_int_arith_imm<0b01, 0b110000, asm, ZPR16, simm8>;
4408  def _S : sve_int_arith_imm<0b10, 0b110000, asm, ZPR32, simm8>;
4409  def _D : sve_int_arith_imm<0b11, 0b110000, asm, ZPR64, simm8>;
4410
4411  def : SVE_1_Op_Imm_Arith_All_Active<nxv16i8, nxv16i1, op, ZPR8, i32, SVEArithSImmPat32, !cast<Instruction>(NAME # _B)>;
4412  def : SVE_1_Op_Imm_Arith_All_Active<nxv8i16, nxv8i1, op, ZPR16, i32, SVEArithSImmPat32, !cast<Instruction>(NAME # _H)>;
4413  def : SVE_1_Op_Imm_Arith_All_Active<nxv4i32, nxv4i1, op, ZPR32, i32, SVEArithSImmPat32, !cast<Instruction>(NAME # _S)>;
4414  def : SVE_1_Op_Imm_Arith_All_Active<nxv2i64, nxv2i1, op, ZPR64, i64, SVEArithSImmPat64, !cast<Instruction>(NAME # _D)>;
4415}
4416
4417//===----------------------------------------------------------------------===//
4418// SVE Bitwise Logical - Unpredicated Group
4419//===----------------------------------------------------------------------===//
4420
4421class sve_int_bin_cons_log<bits<2> opc, string asm>
4422: I<(outs ZPR64:$Zd), (ins ZPR64:$Zn, ZPR64:$Zm),
4423  asm, "\t$Zd, $Zn, $Zm",
4424  "",
4425  []>, Sched<[]> {
4426  bits<5> Zd;
4427  bits<5> Zm;
4428  bits<5> Zn;
4429  let Inst{31-24} = 0b00000100;
4430  let Inst{23-22} = opc{1-0};
4431  let Inst{21}    = 0b1;
4432  let Inst{20-16} = Zm;
4433  let Inst{15-10} = 0b001100;
4434  let Inst{9-5}   = Zn;
4435  let Inst{4-0}   = Zd;
4436}
4437
4438multiclass sve_int_bin_cons_log<bits<2> opc, string asm, SDPatternOperator op> {
4439  def NAME : sve_int_bin_cons_log<opc, asm>;
4440
4441  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, !cast<Instruction>(NAME)>;
4442  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, !cast<Instruction>(NAME)>;
4443  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, !cast<Instruction>(NAME)>;
4444  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, !cast<Instruction>(NAME)>;
4445
4446  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
4447                  (!cast<Instruction>(NAME) ZPR8:$Zd,  ZPR8:$Zn,  ZPR8:$Zm),  1>;
4448  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
4449                  (!cast<Instruction>(NAME) ZPR16:$Zd, ZPR16:$Zn, ZPR16:$Zm), 1>;
4450  def : InstAlias<asm # "\t$Zd, $Zn, $Zm",
4451                  (!cast<Instruction>(NAME) ZPR32:$Zd, ZPR32:$Zn, ZPR32:$Zm), 1>;
4452}
4453
4454class sve2_int_bitwise_ternary_op_d<bits<3> opc, string asm>
4455: I<(outs ZPR64:$Zdn), (ins ZPR64:$_Zdn, ZPR64:$Zm, ZPR64:$Zk),
4456  asm, "\t$Zdn, $_Zdn, $Zm, $Zk",
4457  "",
4458  []>, Sched<[]> {
4459  bits<5> Zdn;
4460  bits<5> Zk;
4461  bits<5> Zm;
4462  let Inst{31-24} = 0b00000100;
4463  let Inst{23-22} = opc{2-1};
4464  let Inst{21}    = 0b1;
4465  let Inst{20-16} = Zm;
4466  let Inst{15-11} = 0b00111;
4467  let Inst{10}    = opc{0};
4468  let Inst{9-5}   = Zk;
4469  let Inst{4-0}   = Zdn;
4470
4471  let Constraints = "$Zdn = $_Zdn";
4472  let DestructiveInstType = DestructiveOther;
4473  let ElementSize = ElementSizeNone;
4474}
4475
4476multiclass sve2_int_bitwise_ternary_op<bits<3> opc, string asm, SDPatternOperator op> {
4477  def NAME : sve2_int_bitwise_ternary_op_d<opc, asm>;
4478
4479  def : InstAlias<asm # "\t$Zdn, $Zdn, $Zm, $Zk",
4480                  (!cast<Instruction>(NAME) ZPR8:$Zdn,  ZPR8:$Zm,  ZPR8:$Zk),  1>;
4481  def : InstAlias<asm # "\t$Zdn, $Zdn, $Zm, $Zk",
4482                  (!cast<Instruction>(NAME) ZPR16:$Zdn, ZPR16:$Zm, ZPR16:$Zk), 1>;
4483  def : InstAlias<asm # "\t$Zdn, $Zdn, $Zm, $Zk",
4484                  (!cast<Instruction>(NAME) ZPR32:$Zdn, ZPR32:$Zm, ZPR32:$Zk), 1>;
4485
4486  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i8, nxv16i8, nxv16i8, !cast<Instruction>(NAME)>;
4487  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i16, nxv8i16, nxv8i16, !cast<Instruction>(NAME)>;
4488  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i32, nxv4i32, nxv4i32, !cast<Instruction>(NAME)>;
4489  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i64, nxv2i64, nxv2i64, !cast<Instruction>(NAME)>;
4490}
4491
4492class sve2_int_rotate_right_imm<bits<4> tsz8_64, string asm,
4493                                ZPRRegOp zprty, Operand immtype>
4494: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, zprty:$Zm, immtype:$imm),
4495  asm, "\t$Zdn, $_Zdn, $Zm, $imm",
4496  "",
4497  []>, Sched<[]> {
4498  bits<5> Zdn;
4499  bits<5> Zm;
4500  bits<6> imm;
4501  let Inst{31-24} = 0b00000100;
4502  let Inst{23-22} = tsz8_64{3-2};
4503  let Inst{21}    = 0b1;
4504  let Inst{20-19} = tsz8_64{1-0};
4505  let Inst{18-16} = imm{2-0}; // imm3
4506  let Inst{15-10} = 0b001101;
4507  let Inst{9-5}   = Zm;
4508  let Inst{4-0}   = Zdn;
4509
4510  let Constraints = "$Zdn = $_Zdn";
4511  let DestructiveInstType = DestructiveOther;
4512  let ElementSize = ElementSizeNone;
4513}
4514
4515multiclass sve2_int_rotate_right_imm<string asm, SDPatternOperator op> {
4516  def _B : sve2_int_rotate_right_imm<{0,0,0,1}, asm, ZPR8, vecshiftR8>;
4517  def _H : sve2_int_rotate_right_imm<{0,0,1,?}, asm, ZPR16, vecshiftR16> {
4518    let Inst{19} = imm{3};
4519  }
4520  def _S : sve2_int_rotate_right_imm<{0,1,?,?}, asm, ZPR32, vecshiftR32> {
4521    let Inst{20-19} = imm{4-3};
4522  }
4523  def _D : sve2_int_rotate_right_imm<{1,?,?,?}, asm, ZPR64, vecshiftR64> {
4524    let Inst{22}    = imm{5};
4525    let Inst{20-19} = imm{4-3};
4526  }
4527
4528  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i8, nxv16i8, i32, tvecshiftR8,  !cast<Instruction>(NAME # _B)>;
4529  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i16, nxv8i16, i32, tvecshiftR16, !cast<Instruction>(NAME # _H)>;
4530  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv4i32, i32, tvecshiftR32, !cast<Instruction>(NAME # _S)>;
4531  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i64, nxv2i64, i32, tvecshiftR64, !cast<Instruction>(NAME # _D)>;
4532}
4533
4534//===----------------------------------------------------------------------===//
4535// SVE Integer Wide Immediate - Predicated Group
4536//===----------------------------------------------------------------------===//
4537
4538class sve_int_dup_fpimm_pred<bits<2> sz, Operand fpimmtype,
4539                             string asm, ZPRRegOp zprty>
4540: I<(outs zprty:$Zd), (ins zprty:$_Zd, PPRAny:$Pg, fpimmtype:$imm8),
4541  asm, "\t$Zd, $Pg/m, $imm8",
4542  "",
4543  []>, Sched<[]> {
4544  bits<4> Pg;
4545  bits<5> Zd;
4546  bits<8> imm8;
4547  let Inst{31-24} = 0b00000101;
4548  let Inst{23-22} = sz;
4549  let Inst{21-20} = 0b01;
4550  let Inst{19-16} = Pg;
4551  let Inst{15-13} = 0b110;
4552  let Inst{12-5}  = imm8;
4553  let Inst{4-0}   = Zd;
4554
4555  let Constraints = "$Zd = $_Zd";
4556  let DestructiveInstType = DestructiveOther;
4557  let ElementSize = zprty.ElementSize;
4558}
4559
4560multiclass sve_int_dup_fpimm_pred<string asm> {
4561  def _H : sve_int_dup_fpimm_pred<0b01, fpimm16, asm, ZPR16>;
4562  def _S : sve_int_dup_fpimm_pred<0b10, fpimm32, asm, ZPR32>;
4563  def _D : sve_int_dup_fpimm_pred<0b11, fpimm64, asm, ZPR64>;
4564
4565  def : InstAlias<"fmov $Zd, $Pg/m, $imm8",
4566                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, PPRAny:$Pg, fpimm16:$imm8), 1>;
4567  def : InstAlias<"fmov $Zd, $Pg/m, $imm8",
4568                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, PPRAny:$Pg, fpimm32:$imm8), 1>;
4569  def : InstAlias<"fmov $Zd, $Pg/m, $imm8",
4570                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, PPRAny:$Pg, fpimm64:$imm8), 1>;
4571}
4572
4573class sve_int_dup_imm_pred<bits<2> sz8_64, bit m, string asm,
4574                           ZPRRegOp zprty, string pred_qual, dag iops>
4575: I<(outs zprty:$Zd), iops,
4576  asm, "\t$Zd, $Pg"#pred_qual#", $imm",
4577  "", []>, Sched<[]> {
4578  bits<5> Zd;
4579  bits<4> Pg;
4580  bits<9> imm;
4581  let Inst{31-24} = 0b00000101;
4582  let Inst{23-22} = sz8_64;
4583  let Inst{21-20} = 0b01;
4584  let Inst{19-16} = Pg;
4585  let Inst{15}    = 0b0;
4586  let Inst{14}    = m;
4587  let Inst{13}    = imm{8};   // sh
4588  let Inst{12-5}  = imm{7-0}; // imm8
4589  let Inst{4-0}   = Zd;
4590
4591  let DestructiveInstType = DestructiveOther;
4592  let ElementSize = zprty.ElementSize;
4593}
4594
4595multiclass sve_int_dup_imm_pred_merge_inst<
4596    bits<2> sz8_64, string asm, ZPRRegOp zprty, ValueType intty,
4597    ValueType predty, ValueType scalarty, imm8_opt_lsl cpyimm> {
4598  let Constraints = "$Zd = $_Zd" in
4599  def NAME : sve_int_dup_imm_pred<sz8_64, 1, asm, zprty,  "/m",
4600                                  (ins zprty:$_Zd, PPRAny:$Pg, cpyimm:$imm)>;
4601  def : InstAlias<"mov $Zd, $Pg/m, $imm",
4602                  (!cast<Instruction>(NAME) zprty:$Zd, PPRAny:$Pg, cpyimm:$imm), 1>;
4603  def : Pat<(intty
4604              (vselect predty:$Pg,
4605                (intty (AArch64dup (scalarty (SVE8BitLslImm<scalarty>.Pat i32:$imm, i32:$shift)))),
4606                intty:$Zd)),
4607            (!cast<Instruction>(NAME) zprty:$Zd, $Pg, i32:$imm, i32:$shift)>;
4608}
4609
4610multiclass sve_int_dup_imm_pred_merge<string asm> {
4611  defm _B : sve_int_dup_imm_pred_merge_inst<0b00, asm, ZPR8, nxv16i8, nxv16i1,
4612                                            i32, cpy_imm8_opt_lsl_i8>;
4613  defm _H : sve_int_dup_imm_pred_merge_inst<0b01, asm, ZPR16, nxv8i16, nxv8i1,
4614                                            i32, cpy_imm8_opt_lsl_i16>;
4615  defm _S : sve_int_dup_imm_pred_merge_inst<0b10, asm, ZPR32, nxv4i32, nxv4i1,
4616                                            i32, cpy_imm8_opt_lsl_i32>;
4617  defm _D : sve_int_dup_imm_pred_merge_inst<0b11, asm, ZPR64, nxv2i64, nxv2i1,
4618                                            i64, cpy_imm8_opt_lsl_i64>;
4619
4620  def : InstAlias<"fmov $Zd, $Pg/m, #0.0",
4621                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, PPRAny:$Pg, 0, 0), 0>;
4622  def : InstAlias<"fmov $Zd, $Pg/m, #0.0",
4623                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, PPRAny:$Pg, 0, 0), 0>;
4624  def : InstAlias<"fmov $Zd, $Pg/m, #0.0",
4625                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, PPRAny:$Pg, 0, 0), 0>;
4626}
4627
4628multiclass sve_int_dup_imm_pred_zero_inst<
4629    bits<2> sz8_64, string asm, ZPRRegOp zprty, ValueType intty,
4630    ValueType predty, ValueType scalarty, imm8_opt_lsl cpyimm> {
4631  def NAME : sve_int_dup_imm_pred<sz8_64, 0, asm, zprty, "/z",
4632                                  (ins PPRAny:$Pg, cpyimm:$imm)>;
4633  def : InstAlias<"mov $Zd, $Pg/z, $imm",
4634                  (!cast<Instruction>(NAME) zprty:$Zd, PPRAny:$Pg, cpyimm:$imm), 1>;
4635  def : Pat<(intty (zext (predty PPRAny:$Ps1))),
4636            (!cast<Instruction>(NAME) PPRAny:$Ps1, 1, 0)>;
4637  def : Pat<(intty (sext (predty PPRAny:$Ps1))),
4638            (!cast<Instruction>(NAME) PPRAny:$Ps1, -1, 0)>;
4639  def : Pat<(intty (anyext (predty PPRAny:$Ps1))),
4640            (!cast<Instruction>(NAME) PPRAny:$Ps1, 1, 0)>;
4641  def : Pat<(intty
4642              (vselect predty:$Pg,
4643                (intty (AArch64dup (scalarty (SVE8BitLslImm<scalarty>.Pat i32:$imm, i32:$shift)))),
4644                (intty (AArch64dup (scalarty 0))))),
4645            (!cast<Instruction>(NAME) $Pg, i32:$imm, i32:$shift)>;
4646}
4647
4648multiclass sve_int_dup_imm_pred_zero<string asm> {
4649  defm _B : sve_int_dup_imm_pred_zero_inst<0b00, asm, ZPR8,  nxv16i8, nxv16i1,
4650                                           i32, cpy_imm8_opt_lsl_i8>;
4651  defm _H : sve_int_dup_imm_pred_zero_inst<0b01, asm, ZPR16, nxv8i16, nxv8i1,
4652                                           i32, cpy_imm8_opt_lsl_i16>;
4653  defm _S : sve_int_dup_imm_pred_zero_inst<0b10, asm, ZPR32, nxv4i32, nxv4i1,
4654                                           i32, cpy_imm8_opt_lsl_i32>;
4655  defm _D : sve_int_dup_imm_pred_zero_inst<0b11, asm, ZPR64, nxv2i64, nxv2i1,
4656                                           i64, cpy_imm8_opt_lsl_i64>;
4657}
4658
4659//===----------------------------------------------------------------------===//
4660// SVE Integer Compare - Vectors Group
4661//===----------------------------------------------------------------------===//
4662
4663class sve_int_cmp<bit cmp_1, bits<2> sz8_64, bits<3> opc, string asm,
4664                  PPRRegOp pprty, ZPRRegOp zprty1, ZPRRegOp zprty2>
4665: I<(outs pprty:$Pd), (ins PPR3bAny:$Pg, zprty1:$Zn, zprty2:$Zm),
4666  asm, "\t$Pd, $Pg/z, $Zn, $Zm",
4667  "",
4668  []>, Sched<[]> {
4669  bits<4> Pd;
4670  bits<3> Pg;
4671  bits<5> Zm;
4672  bits<5> Zn;
4673  let Inst{31-24} = 0b00100100;
4674  let Inst{23-22} = sz8_64;
4675  let Inst{21}    = 0b0;
4676  let Inst{20-16} = Zm;
4677  let Inst{15}    = opc{2};
4678  let Inst{14}    = cmp_1;
4679  let Inst{13}    = opc{1};
4680  let Inst{12-10} = Pg;
4681  let Inst{9-5}   = Zn;
4682  let Inst{4}     = opc{0};
4683  let Inst{3-0}   = Pd;
4684
4685  let Defs = [NZCV];
4686  let ElementSize = pprty.ElementSize;
4687  let isPTestLike = 1;
4688}
4689
4690multiclass SVE_SETCC_Pat<CondCode cc, CondCode invcc, ValueType predvt,
4691                         ValueType intvt, Instruction cmp> {
4692  def : Pat<(predvt (AArch64setcc_z predvt:$Op1, intvt:$Op2, intvt:$Op3, cc)),
4693            (cmp $Op1, $Op2, $Op3)>;
4694  def : Pat<(predvt (AArch64setcc_z predvt:$Op1, intvt:$Op2, intvt:$Op3, invcc)),
4695            (cmp $Op1, $Op3, $Op2)>;
4696  def : Pat<(predvt (and predvt:$Pg, (AArch64setcc_z (predvt (AArch64ptrue 31)), intvt:$Op2, intvt:$Op3, cc))),
4697            (cmp $Pg, $Op2, $Op3)>;
4698  def : Pat<(predvt (and predvt:$Pg, (AArch64setcc_z (predvt (AArch64ptrue 31)), intvt:$Op2, intvt:$Op3, invcc))),
4699            (cmp $Pg, $Op3, $Op2)>;
4700}
4701
4702multiclass SVE_SETCC_Pat_With_Zero<CondCode cc, CondCode invcc, ValueType predvt,
4703                                   ValueType intvt, Instruction cmp> {
4704  def : Pat<(predvt (AArch64setcc_z predvt:$Op1, intvt:$Op2, (SVEDup0), cc)),
4705            (cmp $Op1, $Op2)>;
4706  def : Pat<(predvt (AArch64setcc_z predvt:$Op1, (SVEDup0), intvt:$Op2, invcc)),
4707            (cmp $Op1, $Op2)>;
4708}
4709
4710multiclass sve_int_cmp_0<bits<3> opc, string asm, CondCode cc, CondCode invcc> {
4711  def _B : sve_int_cmp<0b0, 0b00, opc, asm, PPR8, ZPR8, ZPR8>;
4712  def _H : sve_int_cmp<0b0, 0b01, opc, asm, PPR16, ZPR16, ZPR16>;
4713  def _S : sve_int_cmp<0b0, 0b10, opc, asm, PPR32, ZPR32, ZPR32>;
4714  def _D : sve_int_cmp<0b0, 0b11, opc, asm, PPR64, ZPR64, ZPR64>;
4715
4716  defm : SVE_SETCC_Pat<cc, invcc, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
4717  defm : SVE_SETCC_Pat<cc, invcc, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
4718  defm : SVE_SETCC_Pat<cc, invcc, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
4719  defm : SVE_SETCC_Pat<cc, invcc, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
4720}
4721
4722multiclass sve_int_cmp_0_wide<bits<3> opc, string asm, SDPatternOperator op> {
4723  def _B : sve_int_cmp<0b0, 0b00, opc, asm, PPR8, ZPR8, ZPR64>;
4724  def _H : sve_int_cmp<0b0, 0b01, opc, asm, PPR16, ZPR16, ZPR64>;
4725  def _S : sve_int_cmp<0b0, 0b10, opc, asm, PPR32, ZPR32, ZPR64>;
4726
4727  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i8, nxv2i64, !cast<Instruction>(NAME # _B)>;
4728  def : SVE_3_Op_Pat<nxv8i1,  op, nxv8i1,  nxv8i16, nxv2i64, !cast<Instruction>(NAME # _H)>;
4729  def : SVE_3_Op_Pat<nxv4i1,  op, nxv4i1,  nxv4i32, nxv2i64, !cast<Instruction>(NAME # _S)>;
4730}
4731
4732multiclass sve_int_cmp_1_wide<bits<3> opc, string asm, SDPatternOperator op> {
4733  def _B : sve_int_cmp<0b1, 0b00, opc, asm, PPR8, ZPR8, ZPR64>;
4734  def _H : sve_int_cmp<0b1, 0b01, opc, asm, PPR16, ZPR16, ZPR64>;
4735  def _S : sve_int_cmp<0b1, 0b10, opc, asm, PPR32, ZPR32, ZPR64>;
4736
4737  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i8, nxv2i64, !cast<Instruction>(NAME # _B)>;
4738  def : SVE_3_Op_Pat<nxv8i1,  op, nxv8i1,  nxv8i16, nxv2i64, !cast<Instruction>(NAME # _H)>;
4739  def : SVE_3_Op_Pat<nxv4i1,  op, nxv4i1,  nxv4i32, nxv2i64, !cast<Instruction>(NAME # _S)>;
4740}
4741
4742
4743//===----------------------------------------------------------------------===//
4744// SVE Integer Compare - Signed Immediate Group
4745//===----------------------------------------------------------------------===//
4746
4747class sve_int_scmp_vi<bits<2> sz8_64, bits<3> opc, string asm, PPRRegOp pprty,
4748                      ZPRRegOp zprty,
4749                      Operand immtype>
4750: I<(outs pprty:$Pd), (ins PPR3bAny:$Pg, zprty:$Zn, immtype:$imm5),
4751  asm, "\t$Pd, $Pg/z, $Zn, $imm5",
4752  "",
4753  []>, Sched<[]> {
4754  bits<4> Pd;
4755  bits<3> Pg;
4756  bits<5> Zn;
4757  bits<5> imm5;
4758  let Inst{31-24} = 0b00100101;
4759  let Inst{23-22} = sz8_64;
4760  let Inst{21}    = 0b0;
4761  let Inst{20-16} = imm5;
4762  let Inst{15}    = opc{2};
4763  let Inst{14}    = 0b0;
4764  let Inst{13}    = opc{1};
4765  let Inst{12-10} = Pg;
4766  let Inst{9-5}   = Zn;
4767  let Inst{4}     = opc{0};
4768  let Inst{3-0}   = Pd;
4769
4770  let Defs = [NZCV];
4771  let ElementSize = pprty.ElementSize;
4772  let isPTestLike = 1;
4773}
4774
4775multiclass SVE_SETCC_Imm_Pat<CondCode cc, CondCode commuted_cc,
4776                             ValueType predvt, ValueType intvt,
4777                             Operand immtype, Instruction cmp> {
4778  def : Pat<(predvt (AArch64setcc_z (predvt PPR_3b:$Pg),
4779                                       (intvt ZPR:$Zs1),
4780                                       (intvt (AArch64dup (immtype:$imm))),
4781                                       cc)),
4782            (cmp $Pg, $Zs1, immtype:$imm)>;
4783  def : Pat<(predvt (AArch64setcc_z (predvt PPR_3b:$Pg),
4784                                       (intvt (AArch64dup (immtype:$imm))),
4785                                       (intvt ZPR:$Zs1),
4786                                       commuted_cc)),
4787            (cmp $Pg, $Zs1, immtype:$imm)>;
4788}
4789
4790multiclass sve_int_scmp_vi<bits<3> opc, string asm, CondCode cc, CondCode commuted_cc> {
4791  def _B : sve_int_scmp_vi<0b00, opc, asm, PPR8, ZPR8, simm5_32b>;
4792  def _H : sve_int_scmp_vi<0b01, opc, asm, PPR16, ZPR16, simm5_32b>;
4793  def _S : sve_int_scmp_vi<0b10, opc, asm, PPR32, ZPR32, simm5_32b>;
4794  def _D : sve_int_scmp_vi<0b11, opc, asm, PPR64, ZPR64, simm5_64b>;
4795
4796  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv16i1, nxv16i8, simm5_32b,
4797                           !cast<Instruction>(NAME # _B)>;
4798  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv8i1,  nxv8i16, simm5_32b,
4799                           !cast<Instruction>(NAME # _H)>;
4800  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv4i1,  nxv4i32, simm5_32b,
4801                           !cast<Instruction>(NAME # _S)>;
4802  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv2i1,  nxv2i64, simm5_64b,
4803                           !cast<Instruction>(NAME # _D)>;
4804}
4805
4806
4807//===----------------------------------------------------------------------===//
4808// SVE Integer Compare - Unsigned Immediate Group
4809//===----------------------------------------------------------------------===//
4810
4811class sve_int_ucmp_vi<bits<2> sz8_64, bits<2> opc, string asm, PPRRegOp pprty,
4812                      ZPRRegOp zprty, Operand immtype>
4813: I<(outs pprty:$Pd), (ins PPR3bAny:$Pg, zprty:$Zn, immtype:$imm7),
4814  asm, "\t$Pd, $Pg/z, $Zn, $imm7",
4815  "",
4816  []>, Sched<[]> {
4817  bits<4> Pd;
4818  bits<3> Pg;
4819  bits<5> Zn;
4820  bits<7> imm7;
4821  let Inst{31-24} = 0b00100100;
4822  let Inst{23-22} = sz8_64;
4823  let Inst{21}    = 1;
4824  let Inst{20-14} = imm7;
4825  let Inst{13}    = opc{1};
4826  let Inst{12-10} = Pg;
4827  let Inst{9-5}   = Zn;
4828  let Inst{4}     = opc{0};
4829  let Inst{3-0}   = Pd;
4830
4831  let Defs = [NZCV];
4832  let ElementSize = pprty.ElementSize;
4833  let isPTestLike = 1;
4834}
4835
4836multiclass sve_int_ucmp_vi<bits<2> opc, string asm, CondCode cc,
4837                           CondCode commuted_cc> {
4838  def _B : sve_int_ucmp_vi<0b00, opc, asm, PPR8, ZPR8, imm0_127>;
4839  def _H : sve_int_ucmp_vi<0b01, opc, asm, PPR16, ZPR16, imm0_127>;
4840  def _S : sve_int_ucmp_vi<0b10, opc, asm, PPR32, ZPR32, imm0_127>;
4841  def _D : sve_int_ucmp_vi<0b11, opc, asm, PPR64, ZPR64, imm0_127_64b>;
4842
4843  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv16i1, nxv16i8, imm0_127,
4844                           !cast<Instruction>(NAME # _B)>;
4845  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv8i1,  nxv8i16, imm0_127,
4846                           !cast<Instruction>(NAME # _H)>;
4847  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv4i1,  nxv4i32, imm0_127,
4848                           !cast<Instruction>(NAME # _S)>;
4849  defm : SVE_SETCC_Imm_Pat<cc, commuted_cc, nxv2i1,  nxv2i64, imm0_127_64b,
4850                           !cast<Instruction>(NAME # _D)>;
4851}
4852
4853
4854//===----------------------------------------------------------------------===//
4855// SVE Integer Compare - Scalars Group
4856//===----------------------------------------------------------------------===//
4857
4858class sve_int_cterm<bit sz, bit opc, string asm, RegisterClass rt>
4859: I<(outs), (ins rt:$Rn, rt:$Rm),
4860  asm, "\t$Rn, $Rm",
4861  "",
4862  []>, Sched<[]> {
4863  bits<5> Rm;
4864  bits<5> Rn;
4865  let Inst{31-23} = 0b001001011;
4866  let Inst{22}    = sz;
4867  let Inst{21}    = 0b1;
4868  let Inst{20-16} = Rm;
4869  let Inst{15-10} = 0b001000;
4870  let Inst{9-5}   = Rn;
4871  let Inst{4}     = opc;
4872  let Inst{3-0}   = 0b0000;
4873
4874  let Defs = [NZCV];
4875}
4876
4877class sve_int_while_rr<bits<2> sz8_64, bits<4> opc, string asm,
4878                       RegisterClass gprty, PPRRegOp pprty>
4879: I<(outs pprty:$Pd), (ins gprty:$Rn, gprty:$Rm),
4880  asm, "\t$Pd, $Rn, $Rm",
4881  "", []>, Sched<[]> {
4882  bits<4> Pd;
4883  bits<5> Rm;
4884  bits<5> Rn;
4885  let Inst{31-24} = 0b00100101;
4886  let Inst{23-22} = sz8_64;
4887  let Inst{21}    = 0b1;
4888  let Inst{20-16} = Rm;
4889  let Inst{15-13} = 0b000;
4890  let Inst{12-10} = opc{3-1};
4891  let Inst{9-5}   = Rn;
4892  let Inst{4}     = opc{0};
4893  let Inst{3-0}   = Pd;
4894
4895  let Defs = [NZCV];
4896  let ElementSize = pprty.ElementSize;
4897  let isWhile = 1;
4898}
4899
4900multiclass sve_int_while4_rr<bits<3> opc, string asm, SDPatternOperator op> {
4901  def _B : sve_int_while_rr<0b00, { 0, opc }, asm, GPR32, PPR8>;
4902  def _H : sve_int_while_rr<0b01, { 0, opc }, asm, GPR32, PPR16>;
4903  def _S : sve_int_while_rr<0b10, { 0, opc }, asm, GPR32, PPR32>;
4904  def _D : sve_int_while_rr<0b11, { 0, opc }, asm, GPR32, PPR64>;
4905
4906  def : SVE_2_Op_Pat<nxv16i1, op, i32, i32, !cast<Instruction>(NAME # _B)>;
4907  def : SVE_2_Op_Pat<nxv8i1,  op, i32, i32, !cast<Instruction>(NAME # _H)>;
4908  def : SVE_2_Op_Pat<nxv4i1,  op, i32, i32, !cast<Instruction>(NAME # _S)>;
4909  def : SVE_2_Op_Pat<nxv2i1,  op, i32, i32, !cast<Instruction>(NAME # _D)>;
4910}
4911
4912multiclass sve_int_while8_rr<bits<3> opc, string asm, SDPatternOperator op> {
4913  def _B : sve_int_while_rr<0b00, { 1, opc }, asm, GPR64, PPR8>;
4914  def _H : sve_int_while_rr<0b01, { 1, opc }, asm, GPR64, PPR16>;
4915  def _S : sve_int_while_rr<0b10, { 1, opc }, asm, GPR64, PPR32>;
4916  def _D : sve_int_while_rr<0b11, { 1, opc }, asm, GPR64, PPR64>;
4917
4918  def : SVE_2_Op_Pat<nxv16i1, op, i64, i64, !cast<Instruction>(NAME # _B)>;
4919  def : SVE_2_Op_Pat<nxv8i1,  op, i64, i64, !cast<Instruction>(NAME # _H)>;
4920  def : SVE_2_Op_Pat<nxv4i1,  op, i64, i64, !cast<Instruction>(NAME # _S)>;
4921  def : SVE_2_Op_Pat<nxv2i1,  op, i64, i64, !cast<Instruction>(NAME # _D)>;
4922}
4923
4924class sve2_int_while_rr<bits<2> sz8_64, bits<1> rw, string asm,
4925                        PPRRegOp pprty>
4926: I<(outs pprty:$Pd), (ins GPR64:$Rn, GPR64:$Rm),
4927  asm, "\t$Pd, $Rn, $Rm",
4928  "", []>, Sched<[]> {
4929  bits<4> Pd;
4930  bits<5> Rm;
4931  bits<5> Rn;
4932  let Inst{31-24} = 0b00100101;
4933  let Inst{23-22} = sz8_64;
4934  let Inst{21}    = 0b1;
4935  let Inst{20-16} = Rm;
4936  let Inst{15-10} = 0b001100;
4937  let Inst{9-5}   = Rn;
4938  let Inst{4}     = rw;
4939  let Inst{3-0}   = Pd;
4940
4941  let Defs = [NZCV];
4942  let ElementSize = pprty.ElementSize;
4943  let isWhile = 1;
4944}
4945
4946multiclass sve2_int_while_rr<bits<1> rw, string asm, string op> {
4947  def _B : sve2_int_while_rr<0b00, rw, asm, PPR8>;
4948  def _H : sve2_int_while_rr<0b01, rw, asm, PPR16>;
4949  def _S : sve2_int_while_rr<0b10, rw, asm, PPR32>;
4950  def _D : sve2_int_while_rr<0b11, rw, asm, PPR64>;
4951
4952  def : SVE_2_Op_Pat<nxv16i1, !cast<SDPatternOperator>(op # _b), i64, i64, !cast<Instruction>(NAME # _B)>;
4953  def : SVE_2_Op_Pat<nxv8i1,  !cast<SDPatternOperator>(op # _h), i64, i64, !cast<Instruction>(NAME # _H)>;
4954  def : SVE_2_Op_Pat<nxv4i1,  !cast<SDPatternOperator>(op # _s), i64, i64, !cast<Instruction>(NAME # _S)>;
4955  def : SVE_2_Op_Pat<nxv2i1,  !cast<SDPatternOperator>(op # _d), i64, i64, !cast<Instruction>(NAME # _D)>;
4956}
4957
4958//===----------------------------------------------------------------------===//
4959// SVE Floating Point Fast Reduction Group
4960//===----------------------------------------------------------------------===//
4961
4962class sve_fp_fast_red<bits<2> sz, bits<3> opc, string asm,
4963                      ZPRRegOp zprty, FPRasZPROperand dstOpType>
4964: I<(outs dstOpType:$Vd), (ins PPR3bAny:$Pg, zprty:$Zn),
4965  asm, "\t$Vd, $Pg, $Zn",
4966  "",
4967  []>, Sched<[]> {
4968  bits<5> Zn;
4969  bits<5> Vd;
4970  bits<3> Pg;
4971  let Inst{31-24} = 0b01100101;
4972  let Inst{23-22} = sz;
4973  let Inst{21-19} = 0b000;
4974  let Inst{18-16} = opc;
4975  let Inst{15-13} = 0b001;
4976  let Inst{12-10} = Pg;
4977  let Inst{9-5}   = Zn;
4978  let Inst{4-0}   = Vd;
4979}
4980
4981multiclass sve_fp_fast_red<bits<3> opc, string asm, SDPatternOperator op> {
4982  def _H : sve_fp_fast_red<0b01, opc, asm, ZPR16, FPR16asZPR>;
4983  def _S : sve_fp_fast_red<0b10, opc, asm, ZPR32, FPR32asZPR>;
4984  def _D : sve_fp_fast_red<0b11, opc, asm, ZPR64, FPR64asZPR>;
4985
4986  def : SVE_2_Op_Pat<nxv2f16, op, nxv2i1, nxv2f16, !cast<Instruction>(NAME # _H)>;
4987  def : SVE_2_Op_Pat<nxv4f16, op, nxv4i1, nxv4f16, !cast<Instruction>(NAME # _H)>;
4988  def : SVE_2_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, !cast<Instruction>(NAME # _H)>;
4989  def : SVE_2_Op_Pat<nxv2f32, op, nxv2i1, nxv2f32, !cast<Instruction>(NAME # _S)>;
4990  def : SVE_2_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _S)>;
4991  def : SVE_2_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _D)>;
4992}
4993
4994//===----------------------------------------------------------------------===//
4995// SVE Floating Point Accumulating Reduction Group
4996//===----------------------------------------------------------------------===//
4997
4998class sve_fp_2op_p_vd<bits<2> sz, bits<3> opc, string asm,
4999                      ZPRRegOp zprty, FPRasZPROperand dstOpType>
5000: I<(outs dstOpType:$Vdn), (ins PPR3bAny:$Pg, dstOpType:$_Vdn, zprty:$Zm),
5001  asm, "\t$Vdn, $Pg, $_Vdn, $Zm",
5002  "",
5003  []>,
5004  Sched<[]> {
5005  bits<3> Pg;
5006  bits<5> Vdn;
5007  bits<5> Zm;
5008  let Inst{31-24} = 0b01100101;
5009  let Inst{23-22} = sz;
5010  let Inst{21-19} = 0b011;
5011  let Inst{18-16} = opc;
5012  let Inst{15-13} = 0b001;
5013  let Inst{12-10} = Pg;
5014  let Inst{9-5}   = Zm;
5015  let Inst{4-0}   = Vdn;
5016
5017  let Constraints = "$Vdn = $_Vdn";
5018}
5019
5020multiclass sve_fp_2op_p_vd<bits<3> opc, string asm, SDPatternOperator op> {
5021  def _H : sve_fp_2op_p_vd<0b01, opc, asm, ZPR16, FPR16asZPR>;
5022  def _S : sve_fp_2op_p_vd<0b10, opc, asm, ZPR32, FPR32asZPR>;
5023  def _D : sve_fp_2op_p_vd<0b11, opc, asm, ZPR64, FPR64asZPR>;
5024
5025  def : SVE_3_Op_Pat<nxv2f16, op, nxv2i1, nxv2f16, nxv2f16, !cast<Instruction>(NAME # _H)>;
5026  def : SVE_3_Op_Pat<nxv4f16, op, nxv4i1, nxv4f16, nxv4f16, !cast<Instruction>(NAME # _H)>;
5027  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
5028  def : SVE_3_Op_Pat<nxv2f32, op, nxv2i1, nxv2f32, nxv2f32, !cast<Instruction>(NAME # _S)>;
5029  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
5030  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
5031}
5032
5033//===----------------------------------------------------------------------===//
5034// SVE Floating Point Compare - Vectors Group
5035//===----------------------------------------------------------------------===//
5036
5037class sve_fp_3op_p_pd<bits<2> sz, bits<3> opc, string asm, PPRRegOp pprty,
5038                      ZPRRegOp zprty>
5039: I<(outs pprty:$Pd), (ins PPR3bAny:$Pg, zprty:$Zn, zprty:$Zm),
5040  asm, "\t$Pd, $Pg/z, $Zn, $Zm",
5041  "",
5042  []>, Sched<[]> {
5043  bits<4> Pd;
5044  bits<3> Pg;
5045  bits<5> Zm;
5046  bits<5> Zn;
5047  let Inst{31-24} = 0b01100101;
5048  let Inst{23-22} = sz;
5049  let Inst{21}    = 0b0;
5050  let Inst{20-16} = Zm;
5051  let Inst{15}    = opc{2};
5052  let Inst{14}    = 0b1;
5053  let Inst{13}    = opc{1};
5054  let Inst{12-10} = Pg;
5055  let Inst{9-5}   = Zn;
5056  let Inst{4}     = opc{0};
5057  let Inst{3-0}   = Pd;
5058}
5059
5060multiclass sve_fp_3op_p_pd<bits<3> opc, string asm, SDPatternOperator op> {
5061  def _H : sve_fp_3op_p_pd<0b01, opc, asm, PPR16, ZPR16>;
5062  def _S : sve_fp_3op_p_pd<0b10, opc, asm, PPR32, ZPR32>;
5063  def _D : sve_fp_3op_p_pd<0b11, opc, asm, PPR64, ZPR64>;
5064
5065  def : SVE_3_Op_Pat<nxv8i1, op, nxv8i1, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
5066  def : SVE_3_Op_Pat<nxv4i1, op, nxv4i1, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
5067  def : SVE_3_Op_Pat<nxv2i1, op, nxv2i1, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
5068}
5069
5070multiclass sve_fp_3op_p_pd_cc<bits<3> opc, string asm,
5071                              CondCode cc1, CondCode cc2,
5072                              CondCode invcc1, CondCode invcc2> {
5073  def _H : sve_fp_3op_p_pd<0b01, opc, asm, PPR16, ZPR16>;
5074  def _S : sve_fp_3op_p_pd<0b10, opc, asm, PPR32, ZPR32>;
5075  def _D : sve_fp_3op_p_pd<0b11, opc, asm, PPR64, ZPR64>;
5076
5077  defm : SVE_SETCC_Pat<cc1, invcc1, nxv8i1,  nxv8f16, !cast<Instruction>(NAME # _H)>;
5078  defm : SVE_SETCC_Pat<cc1, invcc1, nxv4i1,  nxv4f16, !cast<Instruction>(NAME # _H)>;
5079  defm : SVE_SETCC_Pat<cc1, invcc1, nxv2i1,  nxv2f16, !cast<Instruction>(NAME # _H)>;
5080  defm : SVE_SETCC_Pat<cc1, invcc1, nxv4i1,  nxv4f32, !cast<Instruction>(NAME # _S)>;
5081  defm : SVE_SETCC_Pat<cc1, invcc1, nxv2i1,  nxv2f32, !cast<Instruction>(NAME # _S)>;
5082  defm : SVE_SETCC_Pat<cc1, invcc1, nxv2i1,  nxv2f64, !cast<Instruction>(NAME # _D)>;
5083
5084  defm : SVE_SETCC_Pat<cc2, invcc2, nxv8i1,  nxv8f16, !cast<Instruction>(NAME # _H)>;
5085  defm : SVE_SETCC_Pat<cc2, invcc2, nxv4i1,  nxv4f16, !cast<Instruction>(NAME # _H)>;
5086  defm : SVE_SETCC_Pat<cc2, invcc2, nxv2i1,  nxv2f16, !cast<Instruction>(NAME # _H)>;
5087  defm : SVE_SETCC_Pat<cc2, invcc2, nxv4i1,  nxv4f32, !cast<Instruction>(NAME # _S)>;
5088  defm : SVE_SETCC_Pat<cc2, invcc2, nxv2i1,  nxv2f32, !cast<Instruction>(NAME # _S)>;
5089  defm : SVE_SETCC_Pat<cc2, invcc2, nxv2i1,  nxv2f64, !cast<Instruction>(NAME # _D)>;
5090}
5091
5092//===----------------------------------------------------------------------===//
5093// SVE Floating Point Compare - with Zero Group
5094//===----------------------------------------------------------------------===//
5095
5096class sve_fp_2op_p_pd<bits<2> sz, bits<3> opc, string asm, PPRRegOp pprty,
5097                      ZPRRegOp zprty>
5098: I<(outs pprty:$Pd), (ins PPR3bAny:$Pg, zprty:$Zn),
5099  asm, "\t$Pd, $Pg/z, $Zn, #0.0",
5100  "",
5101  []>, Sched<[]> {
5102  bits<4> Pd;
5103  bits<3> Pg;
5104  bits<5> Zn;
5105  let Inst{31-24} = 0b01100101;
5106  let Inst{23-22} = sz;
5107  let Inst{21-18} = 0b0100;
5108  let Inst{17-16} = opc{2-1};
5109  let Inst{15-13} = 0b001;
5110  let Inst{12-10} = Pg;
5111  let Inst{9-5}   = Zn;
5112  let Inst{4}     = opc{0};
5113  let Inst{3-0}   = Pd;
5114}
5115
5116multiclass sve_fp_2op_p_pd<bits<3> opc, string asm,
5117                           CondCode cc1, CondCode cc2,
5118                           CondCode invcc1, CondCode invcc2> {
5119  def _H : sve_fp_2op_p_pd<0b01, opc, asm, PPR16, ZPR16>;
5120  def _S : sve_fp_2op_p_pd<0b10, opc, asm, PPR32, ZPR32>;
5121  def _D : sve_fp_2op_p_pd<0b11, opc, asm, PPR64, ZPR64>;
5122
5123  defm : SVE_SETCC_Pat_With_Zero<cc1, invcc1, nxv8i1,  nxv8f16, !cast<Instruction>(NAME # _H)>;
5124  defm : SVE_SETCC_Pat_With_Zero<cc1, invcc1, nxv4i1,  nxv4f16, !cast<Instruction>(NAME # _H)>;
5125  defm : SVE_SETCC_Pat_With_Zero<cc1, invcc1, nxv2i1,  nxv2f16, !cast<Instruction>(NAME # _H)>;
5126  defm : SVE_SETCC_Pat_With_Zero<cc1, invcc1, nxv4i1,  nxv4f32, !cast<Instruction>(NAME # _S)>;
5127  defm : SVE_SETCC_Pat_With_Zero<cc1, invcc1, nxv2i1,  nxv2f32, !cast<Instruction>(NAME # _S)>;
5128  defm : SVE_SETCC_Pat_With_Zero<cc1, invcc1, nxv2i1,  nxv2f64, !cast<Instruction>(NAME # _D)>;
5129
5130  defm : SVE_SETCC_Pat_With_Zero<cc2, invcc2, nxv8i1,  nxv8f16, !cast<Instruction>(NAME # _H)>;
5131  defm : SVE_SETCC_Pat_With_Zero<cc2, invcc2, nxv4i1,  nxv4f16, !cast<Instruction>(NAME # _H)>;
5132  defm : SVE_SETCC_Pat_With_Zero<cc2, invcc2, nxv2i1,  nxv2f16, !cast<Instruction>(NAME # _H)>;
5133  defm : SVE_SETCC_Pat_With_Zero<cc2, invcc2, nxv4i1,  nxv4f32, !cast<Instruction>(NAME # _S)>;
5134  defm : SVE_SETCC_Pat_With_Zero<cc2, invcc2, nxv2i1,  nxv2f32, !cast<Instruction>(NAME # _S)>;
5135  defm : SVE_SETCC_Pat_With_Zero<cc2, invcc2, nxv2i1,  nxv2f64, !cast<Instruction>(NAME # _D)>;
5136}
5137
5138
5139//===----------------------------------------------------------------------===//
5140//SVE Index Generation Group
5141//===----------------------------------------------------------------------===//
5142
5143def simm5_8b_tgt : TImmLeaf<i8, [{ return (int8_t)Imm >= -16 && (int8_t)Imm < 16; }]>;
5144def simm5_16b_tgt : TImmLeaf<i16, [{ return (int16_t)Imm >= -16 && (int16_t)Imm < 16; }]>;
5145def simm5_32b_tgt : TImmLeaf<i32, [{ return (int32_t)Imm >= -16 && (int32_t)Imm < 16; }]>;
5146def simm5_64b_tgt : TImmLeaf<i64, [{ return (int64_t)Imm >= -16 && (int64_t)Imm < 16; }]>;
5147def i64imm_32bit_tgt : TImmLeaf<i64, [{
5148  return (Imm & 0xffffffffULL) == static_cast<uint64_t>(Imm);
5149}]>;
5150
5151class sve_int_index_ii<bits<2> sz8_64, string asm, ZPRRegOp zprty,
5152                       Operand imm_ty>
5153: I<(outs zprty:$Zd), (ins imm_ty:$imm5, imm_ty:$imm5b),
5154  asm, "\t$Zd, $imm5, $imm5b",
5155  "", []>, Sched<[]> {
5156  bits<5> Zd;
5157  bits<5> imm5;
5158  bits<5> imm5b;
5159  let Inst{31-24} = 0b00000100;
5160  let Inst{23-22} = sz8_64;
5161  let Inst{21}    = 0b1;
5162  let Inst{20-16} = imm5b;
5163  let Inst{15-10} = 0b010000;
5164  let Inst{9-5}   = imm5;
5165  let Inst{4-0}   = Zd;
5166}
5167
5168multiclass sve_int_index_ii<string asm> {
5169  def _B : sve_int_index_ii<0b00, asm, ZPR8, simm5_8b>;
5170  def _H : sve_int_index_ii<0b01, asm, ZPR16, simm5_16b>;
5171  def _S : sve_int_index_ii<0b10, asm, ZPR32, simm5_32b>;
5172  def _D : sve_int_index_ii<0b11, asm, ZPR64, simm5_64b>;
5173
5174  def : Pat<(nxv16i8 (step_vector simm5_8b_tgt:$imm5b)),
5175            (!cast<Instruction>(NAME # "_B") (i32 0), (!cast<SDNodeXForm>("trunc_imm") $imm5b))>;
5176  def : Pat<(nxv8i16 (step_vector simm5_16b_tgt:$imm5b)),
5177            (!cast<Instruction>(NAME # "_H") (i32 0), (!cast<SDNodeXForm>("trunc_imm") $imm5b))>;
5178  def : Pat<(nxv4i32 (step_vector simm5_32b_tgt:$imm5b)),
5179            (!cast<Instruction>(NAME # "_S") (i32 0), simm5_32b:$imm5b)>;
5180  def : Pat<(nxv2i64 (step_vector simm5_64b_tgt:$imm5b)),
5181            (!cast<Instruction>(NAME # "_D") (i64 0), simm5_64b:$imm5b)>;
5182
5183  // add(step_vector(step), dup(X)) -> index(X, step).
5184  def : Pat<(add (nxv16i8 (step_vector_oneuse simm5_8b_tgt:$imm5b)), (nxv16i8 (AArch64dup(simm5_8b:$imm5)))),
5185            (!cast<Instruction>(NAME # "_B") simm5_8b:$imm5, (!cast<SDNodeXForm>("trunc_imm") $imm5b))>;
5186  def : Pat<(add (nxv8i16 (step_vector_oneuse simm5_16b_tgt:$imm5b)), (nxv8i16 (AArch64dup(simm5_16b:$imm5)))),
5187            (!cast<Instruction>(NAME # "_H") simm5_16b:$imm5, (!cast<SDNodeXForm>("trunc_imm") $imm5b))>;
5188  def : Pat<(add (nxv4i32 (step_vector_oneuse simm5_32b_tgt:$imm5b)), (nxv4i32 (AArch64dup(simm5_32b:$imm5)))),
5189            (!cast<Instruction>(NAME # "_S") simm5_32b:$imm5, simm5_32b:$imm5b)>;
5190  def : Pat<(add (nxv2i64 (step_vector_oneuse simm5_64b_tgt:$imm5b)), (nxv2i64 (AArch64dup(simm5_64b:$imm5)))),
5191            (!cast<Instruction>(NAME # "_D") simm5_64b:$imm5, simm5_64b:$imm5b)>;
5192}
5193
5194class sve_int_index_ir<bits<2> sz8_64, string asm, ZPRRegOp zprty,
5195                       RegisterClass srcRegType, Operand imm_ty>
5196: I<(outs zprty:$Zd), (ins imm_ty:$imm5, srcRegType:$Rm),
5197  asm, "\t$Zd, $imm5, $Rm",
5198  "", []>, Sched<[]> {
5199  bits<5> Rm;
5200  bits<5> Zd;
5201  bits<5> imm5;
5202  let Inst{31-24} = 0b00000100;
5203  let Inst{23-22} = sz8_64;
5204  let Inst{21}    = 0b1;
5205  let Inst{20-16} = Rm;
5206  let Inst{15-10} = 0b010010;
5207  let Inst{9-5}   = imm5;
5208  let Inst{4-0}   = Zd;
5209}
5210
5211multiclass sve_int_index_ir<string asm, SDPatternOperator mulop, SDPatternOperator muloneuseop> {
5212  def _B : sve_int_index_ir<0b00, asm, ZPR8, GPR32, simm5_8b>;
5213  def _H : sve_int_index_ir<0b01, asm, ZPR16, GPR32, simm5_16b>;
5214  def _S : sve_int_index_ir<0b10, asm, ZPR32, GPR32, simm5_32b>;
5215  def _D : sve_int_index_ir<0b11, asm, ZPR64, GPR64, simm5_64b>;
5216
5217  def : Pat<(nxv16i8 (step_vector i8:$imm)),
5218            (!cast<Instruction>(NAME # "_B") (i32 0), (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)))>;
5219  def : Pat<(nxv8i16 (step_vector i16:$imm)),
5220            (!cast<Instruction>(NAME # "_H") (i32 0), (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)))>;
5221  def : Pat<(nxv4i32 (step_vector i32:$imm)),
5222            (!cast<Instruction>(NAME # "_S") (i32 0), (!cast<Instruction>("MOVi32imm") $imm))>;
5223  def : Pat<(nxv2i64 (step_vector i64:$imm)),
5224            (!cast<Instruction>(NAME # "_D") (i64 0), (!cast<Instruction>("MOVi64imm") $imm))>;
5225  def : Pat<(nxv2i64 (step_vector i64imm_32bit_tgt:$imm)),
5226            (!cast<Instruction>(NAME # "_D") (i64 0), (SUBREG_TO_REG (i64 0), (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)), sub_32))>;
5227
5228  // add(step_vector(step), dup(X)) -> index(X, step).
5229  def : Pat<(add (nxv16i8 (step_vector_oneuse i8:$imm)), (nxv16i8 (AArch64dup(simm5_8b:$imm5)))),
5230            (!cast<Instruction>(NAME # "_B") simm5_8b:$imm5, (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)))>;
5231  def : Pat<(add (nxv8i16 (step_vector_oneuse i16:$imm)), (nxv8i16 (AArch64dup(simm5_16b:$imm5)))),
5232            (!cast<Instruction>(NAME # "_H") simm5_16b:$imm5, (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)))>;
5233  def : Pat<(add (nxv4i32 (step_vector_oneuse i32:$imm)), (nxv4i32 (AArch64dup(simm5_32b:$imm5)))),
5234            (!cast<Instruction>(NAME # "_S") simm5_32b:$imm5, (!cast<Instruction>("MOVi32imm") $imm))>;
5235  def : Pat<(add (nxv2i64 (step_vector_oneuse i64:$imm)), (nxv2i64 (AArch64dup(simm5_64b:$imm5)))),
5236            (!cast<Instruction>(NAME # "_D") simm5_64b:$imm5, (!cast<Instruction>("MOVi64imm") $imm))>;
5237  def : Pat<(add (nxv2i64 (step_vector_oneuse i64imm_32bit_tgt:$imm)), (nxv2i64 (AArch64dup(simm5_64b:$imm5)))),
5238            (!cast<Instruction>(NAME # "_D") simm5_64b:$imm5, (SUBREG_TO_REG (i64 0), (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)), sub_32))>;
5239
5240  // mul(step_vector(1), dup(Y)) -> index(0, Y).
5241  def : Pat<(mulop (nxv16i1 (AArch64ptrue 31)), (nxv16i8 (step_vector_oneuse (i8 1))), (nxv16i8 (AArch64dup(i32 GPR32:$Rm)))),
5242            (!cast<Instruction>(NAME # "_B") (i32 0), GPR32:$Rm)>;
5243  def : Pat<(mulop (nxv8i1 (AArch64ptrue 31)), (nxv8i16 (step_vector_oneuse (i16 1))), (nxv8i16 (AArch64dup(i32 GPR32:$Rm)))),
5244            (!cast<Instruction>(NAME # "_H") (i32 0), GPR32:$Rm)>;
5245  def : Pat<(mulop (nxv4i1 (AArch64ptrue 31)), (nxv4i32 (step_vector_oneuse (i32 1))), (nxv4i32 (AArch64dup(i32 GPR32:$Rm)))),
5246            (!cast<Instruction>(NAME # "_S") (i32 0), GPR32:$Rm)>;
5247  def : Pat<(mulop (nxv2i1 (AArch64ptrue 31)), (nxv2i64 (step_vector_oneuse (i64 1))), (nxv2i64 (AArch64dup(i64 GPR64:$Rm)))),
5248            (!cast<Instruction>(NAME # "_D") (i64 0), GPR64:$Rm)>;
5249
5250  // add(mul(step_vector(1), dup(Y)), dup(X)) -> index(X, Y).
5251  def : Pat<(add (muloneuseop (nxv16i1 (AArch64ptrue 31)), (nxv16i8 (step_vector_oneuse (i8 1))), (nxv16i8 (AArch64dup(i32 GPR32:$Rm)))), (nxv16i8 (AArch64dup(simm5_8b:$imm5)))),
5252            (!cast<Instruction>(NAME # "_B") simm5_8b:$imm5, GPR32:$Rm)>;
5253  def : Pat<(add (muloneuseop (nxv8i1 (AArch64ptrue 31)), (nxv8i16 (step_vector_oneuse (i16 1))), (nxv8i16 (AArch64dup(i32 GPR32:$Rm)))), (nxv8i16 (AArch64dup(simm5_16b:$imm5)))),
5254            (!cast<Instruction>(NAME # "_H") simm5_16b:$imm5, GPR32:$Rm)>;
5255  def : Pat<(add (muloneuseop (nxv4i1 (AArch64ptrue 31)), (nxv4i32 (step_vector_oneuse (i32 1))), (nxv4i32 (AArch64dup(i32 GPR32:$Rm)))), (nxv4i32 (AArch64dup(simm5_32b:$imm5)))),
5256            (!cast<Instruction>(NAME # "_S") simm5_32b:$imm5, GPR32:$Rm)>;
5257  def : Pat<(add (muloneuseop (nxv2i1 (AArch64ptrue 31)), (nxv2i64 (step_vector_oneuse (i64 1))), (nxv2i64 (AArch64dup(i64 GPR64:$Rm)))), (nxv2i64 (AArch64dup(simm5_64b:$imm5)))),
5258            (!cast<Instruction>(NAME # "_D") simm5_64b:$imm5, GPR64:$Rm)>;
5259}
5260
5261class sve_int_index_ri<bits<2> sz8_64, string asm, ZPRRegOp zprty,
5262                       RegisterClass srcRegType, Operand imm_ty>
5263: I<(outs zprty:$Zd), (ins srcRegType:$Rn, imm_ty:$imm5),
5264  asm, "\t$Zd, $Rn, $imm5",
5265  "", []>, Sched<[]> {
5266  bits<5> Rn;
5267  bits<5> Zd;
5268  bits<5> imm5;
5269  let Inst{31-24} = 0b00000100;
5270  let Inst{23-22} = sz8_64;
5271  let Inst{21}    = 0b1;
5272  let Inst{20-16} = imm5;
5273  let Inst{15-10} = 0b010001;
5274  let Inst{9-5}   = Rn;
5275  let Inst{4-0}   = Zd;
5276}
5277
5278multiclass sve_int_index_ri<string asm> {
5279  def _B : sve_int_index_ri<0b00, asm, ZPR8, GPR32, simm5_8b>;
5280  def _H : sve_int_index_ri<0b01, asm, ZPR16, GPR32, simm5_16b>;
5281  def _S : sve_int_index_ri<0b10, asm, ZPR32, GPR32, simm5_32b>;
5282  def _D : sve_int_index_ri<0b11, asm, ZPR64, GPR64, simm5_64b>;
5283
5284  // add(step_vector(step), dup(X)) -> index(X, step).
5285  def : Pat<(add (nxv16i8 (step_vector_oneuse simm5_8b_tgt:$imm5)), (nxv16i8 (AArch64dup(i32 GPR32:$Rm)))),
5286            (!cast<Instruction>(NAME # "_B") GPR32:$Rm, (!cast<SDNodeXForm>("trunc_imm") $imm5))>;
5287  def : Pat<(add (nxv8i16 (step_vector_oneuse simm5_16b_tgt:$imm5)), (nxv8i16 (AArch64dup(i32 GPR32:$Rm)))),
5288            (!cast<Instruction>(NAME # "_H") GPR32:$Rm, (!cast<SDNodeXForm>("trunc_imm") $imm5))>;
5289  def : Pat<(add (nxv4i32 (step_vector_oneuse simm5_32b_tgt:$imm5)), (nxv4i32 (AArch64dup(i32 GPR32:$Rm)))),
5290            (!cast<Instruction>(NAME # "_S") GPR32:$Rm, simm5_32b:$imm5)>;
5291  def : Pat<(add (nxv2i64 (step_vector_oneuse simm5_64b_tgt:$imm5)), (nxv2i64 (AArch64dup(i64 GPR64:$Rm)))),
5292            (!cast<Instruction>(NAME # "_D") GPR64:$Rm, simm5_64b:$imm5)>;
5293}
5294
5295class sve_int_index_rr<bits<2> sz8_64, string asm, ZPRRegOp zprty,
5296                       RegisterClass srcRegType>
5297: I<(outs zprty:$Zd), (ins srcRegType:$Rn, srcRegType:$Rm),
5298  asm, "\t$Zd, $Rn, $Rm",
5299  "", []>, Sched<[]> {
5300  bits<5> Zd;
5301  bits<5> Rm;
5302  bits<5> Rn;
5303  let Inst{31-24} = 0b00000100;
5304  let Inst{23-22} = sz8_64;
5305  let Inst{21}    = 0b1;
5306  let Inst{20-16} = Rm;
5307  let Inst{15-10} = 0b010011;
5308  let Inst{9-5}   = Rn;
5309  let Inst{4-0}   = Zd;
5310}
5311
5312multiclass sve_int_index_rr<string asm, SDPatternOperator mulop> {
5313  def _B : sve_int_index_rr<0b00, asm, ZPR8, GPR32>;
5314  def _H : sve_int_index_rr<0b01, asm, ZPR16, GPR32>;
5315  def _S : sve_int_index_rr<0b10, asm, ZPR32, GPR32>;
5316  def _D : sve_int_index_rr<0b11, asm, ZPR64, GPR64>;
5317
5318  // add(step_vector(step), dup(X)) -> index(X, step).
5319  def : Pat<(add (nxv16i8 (step_vector_oneuse i8:$imm)), (nxv16i8 (AArch64dup(i32 GPR32:$Rn)))),
5320            (!cast<Instruction>(NAME # "_B") GPR32:$Rn, (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)))>;
5321  def : Pat<(add (nxv8i16 (step_vector_oneuse i16:$imm)), (nxv8i16 (AArch64dup(i32 GPR32:$Rn)))),
5322            (!cast<Instruction>(NAME # "_H") GPR32:$Rn, (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)))>;
5323  def : Pat<(add (nxv4i32 (step_vector_oneuse i32:$imm)), (nxv4i32 (AArch64dup(i32 GPR32:$Rn)))),
5324            (!cast<Instruction>(NAME # "_S") GPR32:$Rn, (!cast<Instruction>("MOVi32imm") $imm))>;
5325  def : Pat<(add (nxv2i64 (step_vector_oneuse i64:$imm)), (nxv2i64 (AArch64dup(i64 GPR64:$Rn)))),
5326            (!cast<Instruction>(NAME # "_D") GPR64:$Rn, (!cast<Instruction>("MOVi64imm") $imm))>;
5327  def : Pat<(add (nxv2i64 (step_vector_oneuse i64imm_32bit_tgt:$imm)), (nxv2i64 (AArch64dup(i64 GPR64:$Rn)))),
5328            (!cast<Instruction>(NAME # "_D") GPR64:$Rn, (SUBREG_TO_REG (i64 0), (!cast<Instruction>("MOVi32imm") (!cast<SDNodeXForm>("trunc_imm") $imm)), sub_32))>;
5329
5330  // add(mul(step_vector(1), dup(Y)), dup(X)) -> index(X, Y).
5331  def : Pat<(add (mulop (nxv16i1 (AArch64ptrue 31)), (nxv16i8 (step_vector_oneuse (i8 1))), (nxv16i8 (AArch64dup(i32 GPR32:$Rm)))), (nxv16i8 (AArch64dup(i32 GPR32:$Rn)))),
5332            (!cast<Instruction>(NAME # "_B") GPR32:$Rn, GPR32:$Rm)>;
5333  def : Pat<(add (mulop (nxv8i1 (AArch64ptrue 31)), (nxv8i16 (step_vector_oneuse (i16 1))), (nxv8i16 (AArch64dup(i32 GPR32:$Rm)))),(nxv8i16 (AArch64dup(i32 GPR32:$Rn)))),
5334            (!cast<Instruction>(NAME # "_H") GPR32:$Rn, GPR32:$Rm)>;
5335  def : Pat<(add (mulop (nxv4i1 (AArch64ptrue 31)), (nxv4i32 (step_vector_oneuse (i32 1))), (nxv4i32 (AArch64dup(i32 GPR32:$Rm)))),(nxv4i32 (AArch64dup(i32 GPR32:$Rn)))),
5336            (!cast<Instruction>(NAME # "_S") GPR32:$Rn, GPR32:$Rm)>;
5337  def : Pat<(add (mulop (nxv2i1 (AArch64ptrue 31)), (nxv2i64 (step_vector_oneuse (i64 1))), (nxv2i64 (AArch64dup(i64 GPR64:$Rm)))),(nxv2i64 (AArch64dup(i64 GPR64:$Rn)))),
5338            (!cast<Instruction>(NAME # "_D") GPR64:$Rn, GPR64:$Rm)>;
5339}
5340
5341//===----------------------------------------------------------------------===//
5342// SVE Bitwise Shift - Predicated Group
5343//===----------------------------------------------------------------------===//
5344
5345class sve_int_bin_pred_shift_imm<bits<4> tsz8_64, bits<4> opc, string asm,
5346                                 ZPRRegOp zprty, Operand immtype>
5347: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, immtype:$imm),
5348  asm, "\t$Zdn, $Pg/m, $_Zdn, $imm",
5349  "",
5350  []>, Sched<[]> {
5351  bits<3> Pg;
5352  bits<5> Zdn;
5353  bits<6> imm;
5354  let Inst{31-24} = 0b00000100;
5355  let Inst{23-22} = tsz8_64{3-2};
5356  let Inst{21-20} = 0b00;
5357  let Inst{19-16} = opc;
5358  let Inst{15-13} = 0b100;
5359  let Inst{12-10} = Pg;
5360  let Inst{9-8}   = tsz8_64{1-0};
5361  let Inst{7-5}   = imm{2-0}; // imm3
5362  let Inst{4-0}   = Zdn;
5363
5364  let Constraints = "$Zdn = $_Zdn";
5365  let DestructiveInstType = DestructiveBinaryImm;
5366  let ElementSize = zprty.ElementSize;
5367}
5368
5369multiclass sve_int_bin_pred_shift_imm_left<bits<4> opc, string asm, string Ps,
5370                                           SDPatternOperator op = null_frag> {
5371  def _B : SVEPseudo2Instr<Ps # _B, 1>,
5372           sve_int_bin_pred_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftL8>;
5373  def _H : SVEPseudo2Instr<Ps # _H, 1>,
5374           sve_int_bin_pred_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftL16> {
5375    let Inst{8} = imm{3};
5376  }
5377  def _S : SVEPseudo2Instr<Ps # _S, 1>,
5378           sve_int_bin_pred_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftL32> {
5379    let Inst{9-8} = imm{4-3};
5380  }
5381  def _D : SVEPseudo2Instr<Ps # _D, 1>,
5382           sve_int_bin_pred_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftL64> {
5383    let Inst{22}  = imm{5};
5384    let Inst{9-8} = imm{4-3};
5385  }
5386
5387  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i1, nxv16i8, i32, tvecshiftL8,  !cast<Instruction>(NAME # _B)>;
5388  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i1,  nxv8i16, i32, tvecshiftL16, !cast<Instruction>(NAME # _H)>;
5389  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i1,  nxv4i32, i32, tvecshiftL32, !cast<Instruction>(NAME # _S)>;
5390  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i1,  nxv2i64, i32, tvecshiftL64, !cast<Instruction>(NAME # _D)>;
5391}
5392
5393// As above but shift amount takes the form of a "vector immediate".
5394multiclass sve_int_bin_pred_shift_imm_left_dup<bits<4> opc, string asm,
5395                                               string Ps, SDPatternOperator op>
5396: sve_int_bin_pred_shift_imm_left<opc, asm, Ps, null_frag> {
5397  def : SVE_Shift_DupImm_Pred_Pat<nxv16i8, op, nxv16i1, i32, SVEShiftImmL8,  !cast<Instruction>(NAME # _B)>;
5398  def : SVE_Shift_DupImm_Pred_Pat<nxv8i16, op, nxv8i1,  i32, SVEShiftImmL16, !cast<Instruction>(NAME # _H)>;
5399  def : SVE_Shift_DupImm_Pred_Pat<nxv4i32, op, nxv4i1,  i32, SVEShiftImmL32, !cast<Instruction>(NAME # _S)>;
5400  def : SVE_Shift_DupImm_Pred_Pat<nxv2i64, op, nxv2i1,  i64, SVEShiftImmL64, !cast<Instruction>(NAME # _D)>;
5401}
5402
5403multiclass sve_int_bin_pred_shift_imm_left_zeroing_bhsd<SDPatternOperator op> {
5404  def _ZERO_B : PredTwoOpImmPseudo<NAME # _B, ZPR8,  tvecshiftL8,  FalseLanesZero>;
5405  def _ZERO_H : PredTwoOpImmPseudo<NAME # _H, ZPR16, tvecshiftL16, FalseLanesZero>;
5406  def _ZERO_S : PredTwoOpImmPseudo<NAME # _S, ZPR32, tvecshiftL32, FalseLanesZero>;
5407  def _ZERO_D : PredTwoOpImmPseudo<NAME # _D, ZPR64, tvecshiftL64, FalseLanesZero>;
5408
5409  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv16i8, op, nxv16i1, nxv16i8, tvecshiftL8,  !cast<Pseudo>(NAME # _ZERO_B)>;
5410  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv8i16, op, nxv8i1,  nxv8i16, tvecshiftL16, !cast<Pseudo>(NAME # _ZERO_H)>;
5411  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv4i32, op, nxv4i1,  nxv4i32, tvecshiftL32, !cast<Pseudo>(NAME # _ZERO_S)>;
5412  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv2i64, op, nxv2i1,  nxv2i64, tvecshiftL64, !cast<Pseudo>(NAME # _ZERO_D)>;
5413}
5414
5415multiclass sve_int_bin_pred_shift_imm_right<bits<4> opc, string asm, string Ps,
5416                                            SDPatternOperator op = null_frag> {
5417  def _B : SVEPseudo2Instr<Ps # _B, 1>,
5418           sve_int_bin_pred_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftR8>;
5419  def _H : SVEPseudo2Instr<Ps # _H, 1>,
5420           sve_int_bin_pred_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftR16> {
5421    let Inst{8} = imm{3};
5422  }
5423  def _S : SVEPseudo2Instr<Ps # _S, 1>,
5424           sve_int_bin_pred_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftR32> {
5425    let Inst{9-8} = imm{4-3};
5426  }
5427  def _D : SVEPseudo2Instr<Ps # _D, 1>,
5428           sve_int_bin_pred_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftR64> {
5429    let Inst{22}  = imm{5};
5430    let Inst{9-8} = imm{4-3};
5431  }
5432
5433  def : SVE_3_Op_Imm_Pat<nxv16i8, op, nxv16i1, nxv16i8, i32, tvecshiftR8,  !cast<Instruction>(NAME # _B)>;
5434  def : SVE_3_Op_Imm_Pat<nxv8i16, op, nxv8i1,  nxv8i16, i32, tvecshiftR16, !cast<Instruction>(NAME # _H)>;
5435  def : SVE_3_Op_Imm_Pat<nxv4i32, op, nxv4i1,  nxv4i32, i32, tvecshiftR32, !cast<Instruction>(NAME # _S)>;
5436  def : SVE_3_Op_Imm_Pat<nxv2i64, op, nxv2i1,  nxv2i64, i32, tvecshiftR64, !cast<Instruction>(NAME # _D)>;
5437}
5438
5439// As above but shift amount takes the form of a "vector immediate".
5440multiclass sve_int_bin_pred_shift_imm_right_dup<bits<4> opc, string asm,
5441                                            string Ps, SDPatternOperator op>
5442: sve_int_bin_pred_shift_imm_right<opc, asm, Ps, null_frag> {
5443  def : SVE_Shift_DupImm_Pred_Pat<nxv16i8, op, nxv16i1, i32, SVEShiftImmR8,  !cast<Instruction>(NAME # _B)>;
5444  def : SVE_Shift_DupImm_Pred_Pat<nxv8i16, op, nxv8i1,  i32, SVEShiftImmR16, !cast<Instruction>(NAME # _H)>;
5445  def : SVE_Shift_DupImm_Pred_Pat<nxv4i32, op, nxv4i1,  i32, SVEShiftImmR32, !cast<Instruction>(NAME # _S)>;
5446  def : SVE_Shift_DupImm_Pred_Pat<nxv2i64, op, nxv2i1,  i64, SVEShiftImmR64, !cast<Instruction>(NAME # _D)>;
5447}
5448
5449multiclass sve_int_bin_pred_shift_imm_right_zeroing_bhsd<SDPatternOperator op = null_frag> {
5450  def _ZERO_B : PredTwoOpImmPseudo<NAME # _B, ZPR8, vecshiftR8, FalseLanesZero>;
5451  def _ZERO_H : PredTwoOpImmPseudo<NAME # _H, ZPR16, vecshiftR16, FalseLanesZero>;
5452  def _ZERO_S : PredTwoOpImmPseudo<NAME # _S, ZPR32, vecshiftR32, FalseLanesZero>;
5453  def _ZERO_D : PredTwoOpImmPseudo<NAME # _D, ZPR64, vecshiftR64, FalseLanesZero>;
5454
5455  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv16i8, op, nxv16i1, nxv16i8, tvecshiftR8, !cast<Pseudo>(NAME # _ZERO_B)>;
5456  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv8i16, op, nxv8i1, nxv8i16, tvecshiftR16, !cast<Pseudo>(NAME # _ZERO_H)>;
5457  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv4i32, op, nxv4i1, nxv4i32, tvecshiftR32, !cast<Pseudo>(NAME # _ZERO_S)>;
5458  def : SVE_3_Op_Pat_Shift_Imm_SelZero<nxv2i64, op, nxv2i1, nxv2i64, tvecshiftR64, !cast<Pseudo>(NAME # _ZERO_D)>;
5459}
5460
5461class sve_int_bin_pred_shift<bits<2> sz8_64, bit wide, bits<3> opc,
5462                             string asm, ZPRRegOp zprty, ZPRRegOp zprty2>
5463: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty2:$Zm),
5464  asm, "\t$Zdn, $Pg/m, $_Zdn, $Zm",
5465  "",
5466  []>, Sched<[]> {
5467  bits<3> Pg;
5468  bits<5> Zdn;
5469  bits<5> Zm;
5470  let Inst{31-24} = 0b00000100;
5471  let Inst{23-22} = sz8_64;
5472  let Inst{21-20} = 0b01;
5473  let Inst{19}    = wide;
5474  let Inst{18-16} = opc;
5475  let Inst{15-13} = 0b100;
5476  let Inst{12-10} = Pg;
5477  let Inst{9-5}   = Zm;
5478  let Inst{4-0}   = Zdn;
5479
5480  let Constraints = "$Zdn = $_Zdn";
5481  let DestructiveInstType = DestructiveOther;
5482  let ElementSize = zprty.ElementSize;
5483}
5484
5485multiclass sve_int_bin_pred_shift<bits<3> opc, string asm, string Ps,
5486                                  SDPatternOperator op, string revname, bit isReverseInstr = 0> {
5487  let DestructiveInstType = DestructiveBinaryCommWithRev in {
5488  def _B : sve_int_bin_pred_shift<0b00, 0b0, opc, asm, ZPR8, ZPR8>,
5489           SVEPseudo2Instr<Ps # _B, 1>, SVEInstr2Rev<NAME # _B, revname # _B, isReverseInstr>;
5490  def _H : sve_int_bin_pred_shift<0b01, 0b0, opc, asm, ZPR16, ZPR16>,
5491           SVEPseudo2Instr<Ps # _H, 1>, SVEInstr2Rev<NAME # _H, revname # _H, isReverseInstr>;
5492  def _S : sve_int_bin_pred_shift<0b10, 0b0, opc, asm, ZPR32, ZPR32>,
5493           SVEPseudo2Instr<Ps # _S, 1>, SVEInstr2Rev<NAME # _S, revname # _S, isReverseInstr>;
5494  def _D : sve_int_bin_pred_shift<0b11, 0b0, opc, asm, ZPR64, ZPR64>,
5495           SVEPseudo2Instr<Ps # _D, 1>, SVEInstr2Rev<NAME # _D, revname # _D, isReverseInstr>;
5496  }
5497  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
5498  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
5499  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
5500  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
5501}
5502
5503multiclass sve_int_bin_pred_zeroing_bhsd<SDPatternOperator op> {
5504  def _ZERO_B : PredTwoOpPseudo<NAME # _B, ZPR8, FalseLanesZero>;
5505  def _ZERO_H : PredTwoOpPseudo<NAME # _H, ZPR16, FalseLanesZero>;
5506  def _ZERO_S : PredTwoOpPseudo<NAME # _S, ZPR32, FalseLanesZero>;
5507  def _ZERO_D : PredTwoOpPseudo<NAME # _D, ZPR64, FalseLanesZero>;
5508
5509  def : SVE_3_Op_Pat_SelZero<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Pseudo>(NAME # _ZERO_B)>;
5510  def : SVE_3_Op_Pat_SelZero<nxv8i16, op, nxv8i1, nxv8i16, nxv8i16, !cast<Pseudo>(NAME # _ZERO_H)>;
5511  def : SVE_3_Op_Pat_SelZero<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Pseudo>(NAME # _ZERO_S)>;
5512  def : SVE_3_Op_Pat_SelZero<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Pseudo>(NAME # _ZERO_D)>;
5513}
5514
5515multiclass sve_int_bin_pred_shift_wide<bits<3> opc, string asm,
5516                                  SDPatternOperator op> {
5517  def _B : sve_int_bin_pred_shift<0b00, 0b1, opc, asm, ZPR8, ZPR64>;
5518  def _H : sve_int_bin_pred_shift<0b01, 0b1, opc, asm, ZPR16, ZPR64>;
5519  def _S : sve_int_bin_pred_shift<0b10, 0b1, opc, asm, ZPR32, ZPR64>;
5520
5521  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv2i64, !cast<Instruction>(NAME # _B)>;
5522  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv2i64, !cast<Instruction>(NAME # _H)>;
5523  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv2i64, !cast<Instruction>(NAME # _S)>;
5524}
5525
5526//===----------------------------------------------------------------------===//
5527// SVE Shift - Unpredicated Group
5528//===----------------------------------------------------------------------===//
5529
5530class sve_int_bin_cons_shift_wide<bits<2> sz8_64, bits<2> opc, string asm,
5531                               ZPRRegOp zprty>
5532: I<(outs zprty:$Zd), (ins zprty:$Zn, ZPR64:$Zm),
5533  asm, "\t$Zd, $Zn, $Zm",
5534  "",
5535  []>, Sched<[]> {
5536  bits<5> Zd;
5537  bits<5> Zm;
5538  bits<5> Zn;
5539  let Inst{31-24} = 0b00000100;
5540  let Inst{23-22} = sz8_64;
5541  let Inst{21}    = 0b1;
5542  let Inst{20-16} = Zm;
5543  let Inst{15-12} = 0b1000;
5544  let Inst{11-10} = opc;
5545  let Inst{9-5}   = Zn;
5546  let Inst{4-0}   = Zd;
5547}
5548
5549multiclass sve_int_bin_cons_shift_wide<bits<2> opc, string asm, SDPatternOperator op> {
5550  def _B : sve_int_bin_cons_shift_wide<0b00, opc, asm, ZPR8>;
5551  def _H : sve_int_bin_cons_shift_wide<0b01, opc, asm, ZPR16>;
5552  def _S : sve_int_bin_cons_shift_wide<0b10, opc, asm, ZPR32>;
5553
5554  def : SVE_2_Op_Pred_All_Active<nxv16i8, op, nxv16i1, nxv16i8, nxv2i64, !cast<Instruction>(NAME # _B)>;
5555  def : SVE_2_Op_Pred_All_Active<nxv8i16, op, nxv8i1, nxv8i16, nxv2i64, !cast<Instruction>(NAME # _H)>;
5556  def : SVE_2_Op_Pred_All_Active<nxv4i32, op, nxv4i1, nxv4i32, nxv2i64, !cast<Instruction>(NAME # _S)>;
5557}
5558
5559class sve_int_bin_cons_shift_imm<bits<4> tsz8_64, bits<2> opc, string asm,
5560                               ZPRRegOp zprty, Operand immtype>
5561: I<(outs zprty:$Zd), (ins zprty:$Zn, immtype:$imm),
5562  asm, "\t$Zd, $Zn, $imm",
5563  "",
5564  []>, Sched<[]> {
5565  bits<5> Zd;
5566  bits<5> Zn;
5567  bits<6> imm;
5568  let Inst{31-24} = 0b00000100;
5569  let Inst{23-22} = tsz8_64{3-2};
5570  let Inst{21}    = 0b1;
5571  let Inst{20-19} = tsz8_64{1-0};
5572  let Inst{18-16} = imm{2-0}; // imm3
5573  let Inst{15-12} = 0b1001;
5574  let Inst{11-10} = opc;
5575  let Inst{9-5}   = Zn;
5576  let Inst{4-0}   = Zd;
5577}
5578
5579multiclass sve_int_bin_cons_shift_imm_left<bits<2> opc, string asm,
5580                                           SDPatternOperator op> {
5581  def _B : sve_int_bin_cons_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftL8>;
5582  def _H : sve_int_bin_cons_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftL16> {
5583    let Inst{19} = imm{3};
5584  }
5585  def _S : sve_int_bin_cons_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftL32> {
5586    let Inst{20-19} = imm{4-3};
5587  }
5588  def _D : sve_int_bin_cons_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftL64> {
5589    let Inst{22}    = imm{5};
5590    let Inst{20-19} = imm{4-3};
5591  }
5592
5593  def : SVE_Shift_DupImm_All_Active_Pat<nxv16i8, op, nxv16i1, i32, SVEShiftImmL8,  !cast<Instruction>(NAME # _B)>;
5594  def : SVE_Shift_DupImm_All_Active_Pat<nxv8i16, op, nxv8i1,  i32, SVEShiftImmL16, !cast<Instruction>(NAME # _H)>;
5595  def : SVE_Shift_DupImm_All_Active_Pat<nxv4i32, op, nxv4i1,  i32, SVEShiftImmL32, !cast<Instruction>(NAME # _S)>;
5596  def : SVE_Shift_DupImm_All_Active_Pat<nxv2i64, op, nxv2i1,  i64, SVEShiftImmL64, !cast<Instruction>(NAME # _D)>;
5597}
5598
5599multiclass sve_int_bin_cons_shift_imm_right<bits<2> opc, string asm,
5600                                            SDPatternOperator op> {
5601  def _B : sve_int_bin_cons_shift_imm<{0,0,0,1}, opc, asm, ZPR8, vecshiftR8>;
5602  def _H : sve_int_bin_cons_shift_imm<{0,0,1,?}, opc, asm, ZPR16, vecshiftR16> {
5603    let Inst{19} = imm{3};
5604  }
5605  def _S : sve_int_bin_cons_shift_imm<{0,1,?,?}, opc, asm, ZPR32, vecshiftR32> {
5606    let Inst{20-19} = imm{4-3};
5607  }
5608  def _D : sve_int_bin_cons_shift_imm<{1,?,?,?}, opc, asm, ZPR64, vecshiftR64> {
5609    let Inst{22}    = imm{5};
5610    let Inst{20-19} = imm{4-3};
5611  }
5612
5613  def : SVE_Shift_DupImm_All_Active_Pat<nxv16i8, op, nxv16i1, i32, SVEShiftImmR8,  !cast<Instruction>(NAME # _B)>;
5614  def : SVE_Shift_DupImm_All_Active_Pat<nxv8i16, op, nxv8i1,  i32, SVEShiftImmR16, !cast<Instruction>(NAME # _H)>;
5615  def : SVE_Shift_DupImm_All_Active_Pat<nxv4i32, op, nxv4i1,  i32, SVEShiftImmR32, !cast<Instruction>(NAME # _S)>;
5616  def : SVE_Shift_DupImm_All_Active_Pat<nxv2i64, op, nxv2i1,  i64, SVEShiftImmR64, !cast<Instruction>(NAME # _D)>;
5617}
5618
5619//===----------------------------------------------------------------------===//
5620// SVE Memory - Store Group
5621//===----------------------------------------------------------------------===//
5622
5623class sve_mem_cst_si<bits<2> msz, bits<2> esz, string asm,
5624                     RegisterOperand VecList>
5625: I<(outs), (ins VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4),
5626  asm, "\t$Zt, $Pg, [$Rn, $imm4, mul vl]",
5627  "",
5628  []>, Sched<[]> {
5629  bits<3> Pg;
5630  bits<5> Rn;
5631  bits<5> Zt;
5632  bits<4> imm4;
5633  let Inst{31-25} = 0b1110010;
5634  let Inst{24-23} = msz;
5635  let Inst{22-21} = esz;
5636  let Inst{20}    = 0;
5637  let Inst{19-16} = imm4;
5638  let Inst{15-13} = 0b111;
5639  let Inst{12-10} = Pg;
5640  let Inst{9-5}   = Rn;
5641  let Inst{4-0}   = Zt;
5642
5643  let mayStore = 1;
5644}
5645
5646multiclass sve_mem_cst_si<bits<2> msz, bits<2> esz, string asm,
5647                          RegisterOperand listty, ZPRRegOp zprty>
5648{
5649  def NAME : sve_mem_cst_si<msz, esz, asm, listty>;
5650
5651  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $imm4, mul vl]",
5652                 (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4), 0>;
5653  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn]",
5654                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
5655  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn]",
5656                  (!cast<Instruction>(NAME) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
5657}
5658
5659class sve_mem_est_si<bits<2> sz, bits<2> nregs, RegisterOperand VecList,
5660                     string asm, Operand immtype>
5661: I<(outs), (ins VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, immtype:$imm4),
5662  asm, "\t$Zt, $Pg, [$Rn, $imm4, mul vl]",
5663  "",
5664  []>, Sched<[]> {
5665  bits<3> Pg;
5666  bits<5> Rn;
5667  bits<5> Zt;
5668  bits<4> imm4;
5669  let Inst{31-25} = 0b1110010;
5670  let Inst{24-23} = sz;
5671  let Inst{22-21} = nregs;
5672  let Inst{20}    = 1;
5673  let Inst{19-16} = imm4;
5674  let Inst{15-13} = 0b111;
5675  let Inst{12-10} = Pg;
5676  let Inst{9-5}   = Rn;
5677  let Inst{4-0}   = Zt;
5678
5679  let mayStore = 1;
5680}
5681
5682multiclass sve_mem_est_si<bits<2> sz, bits<2> nregs, RegisterOperand VecList,
5683                          string asm, Operand immtype> {
5684  def NAME : sve_mem_est_si<sz, nregs, VecList, asm, immtype>;
5685
5686  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn]",
5687                  (!cast<Instruction>(NAME) VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
5688}
5689
5690class sve_mem_est_ss<bits<2> sz, bits<2> nregs, RegisterOperand VecList,
5691                     string asm, RegisterOperand gprty>
5692: I<(outs), (ins VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
5693  asm, "\t$Zt, $Pg, [$Rn, $Rm]",
5694  "",
5695  []>, Sched<[]> {
5696  bits<3> Pg;
5697  bits<5> Rm;
5698  bits<5> Rn;
5699  bits<5> Zt;
5700  let Inst{31-25} = 0b1110010;
5701  let Inst{24-23} = sz;
5702  let Inst{22-21} = nregs;
5703  let Inst{20-16} = Rm;
5704  let Inst{15-13} = 0b011;
5705  let Inst{12-10} = Pg;
5706  let Inst{9-5}   = Rn;
5707  let Inst{4-0}   = Zt;
5708
5709  let mayStore = 1;
5710}
5711
5712class sve_mem_cst_ss_base<bits<4> dtype, string asm,
5713                          RegisterOperand listty, RegisterOperand gprty>
5714: I<(outs), (ins listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
5715  asm, "\t$Zt, $Pg, [$Rn, $Rm]",
5716  "",
5717  []>, Sched<[]> {
5718  bits<3> Pg;
5719  bits<5> Rm;
5720  bits<5> Rn;
5721  bits<5> Zt;
5722  let Inst{31-25} = 0b1110010;
5723  let Inst{24-21} = dtype;
5724  let Inst{20-16} = Rm;
5725  let Inst{15-13} = 0b010;
5726  let Inst{12-10} = Pg;
5727  let Inst{9-5}   = Rn;
5728  let Inst{4-0}   = Zt;
5729
5730  let mayStore = 1;
5731}
5732
5733multiclass sve_mem_cst_ss<bits<4> dtype, string asm,
5734                          RegisterOperand listty, ZPRRegOp zprty,
5735                          RegisterOperand gprty> {
5736  def NAME : sve_mem_cst_ss_base<dtype, asm, listty, gprty>;
5737
5738  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Rm]",
5739                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
5740}
5741
5742class sve_mem_cstnt_si<bits<2> msz, string asm, RegisterOperand VecList>
5743: I<(outs), (ins VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4),
5744  asm, "\t$Zt, $Pg, [$Rn, $imm4, mul vl]",
5745  "",
5746  []>, Sched<[]> {
5747  bits<3> Pg;
5748  bits<5> Rn;
5749  bits<5> Zt;
5750  bits<4> imm4;
5751  let Inst{31-25} = 0b1110010;
5752  let Inst{24-23} = msz;
5753  let Inst{22-20} = 0b001;
5754  let Inst{19-16} = imm4;
5755  let Inst{15-13} = 0b111;
5756  let Inst{12-10} = Pg;
5757  let Inst{9-5}   = Rn;
5758  let Inst{4-0}   = Zt;
5759
5760  let mayStore = 1;
5761}
5762
5763multiclass sve_mem_cstnt_si<bits<2> msz, string asm, RegisterOperand listty,
5764                            ZPRRegOp zprty> {
5765  def NAME : sve_mem_cstnt_si<msz, asm, listty>;
5766
5767  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn]",
5768                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
5769  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $imm4, mul vl]",
5770                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4), 0>;
5771  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn]",
5772                  (!cast<Instruction>(NAME) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
5773}
5774
5775class sve_mem_cstnt_ss_base<bits<2> msz, string asm, RegisterOperand listty,
5776                            RegisterOperand gprty>
5777: I<(outs), (ins listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
5778  asm, "\t$Zt, $Pg, [$Rn, $Rm]",
5779  "",
5780  []>, Sched<[]> {
5781  bits<3> Pg;
5782  bits<5> Rm;
5783  bits<5> Rn;
5784  bits<5> Zt;
5785  let Inst{31-25} = 0b1110010;
5786  let Inst{24-23} = msz;
5787  let Inst{22-21} = 0b00;
5788  let Inst{20-16} = Rm;
5789  let Inst{15-13} = 0b011;
5790  let Inst{12-10} = Pg;
5791  let Inst{9-5}   = Rn;
5792  let Inst{4-0}   = Zt;
5793
5794  let mayStore = 1;
5795}
5796
5797multiclass sve_mem_cstnt_ss<bits<2> msz, string asm, RegisterOperand listty,
5798                            ZPRRegOp zprty, RegisterOperand gprty> {
5799  def NAME : sve_mem_cstnt_ss_base<msz, asm, listty, gprty>;
5800
5801  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Rm]",
5802                 (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
5803}
5804
5805class sve2_mem_sstnt_vs_base<bits<3> opc, string asm,
5806                             RegisterOperand listty, ZPRRegOp zprty>
5807: I<(outs), (ins listty:$Zt, PPR3bAny:$Pg, zprty:$Zn, GPR64:$Rm),
5808  asm, "\t$Zt, $Pg, [$Zn, $Rm]",
5809  "",
5810  []>, Sched<[]> {
5811  bits<3> Pg;
5812  bits<5> Rm;
5813  bits<5> Zn;
5814  bits<5> Zt;
5815  let Inst{31-25} = 0b1110010;
5816  let Inst{24-22} = opc;
5817  let Inst{21}    = 0b0;
5818  let Inst{20-16} = Rm;
5819  let Inst{15-13} = 0b001;
5820  let Inst{12-10} = Pg;
5821  let Inst{9-5}   = Zn;
5822  let Inst{4-0}   = Zt;
5823
5824  let mayStore = 1;
5825}
5826
5827multiclass sve2_mem_sstnt_vs_32_ptrs<bits<3> opc, string asm,
5828                             SDPatternOperator op,
5829                             ValueType vt> {
5830  def _REAL : sve2_mem_sstnt_vs_base<opc, asm, Z_s, ZPR32>;
5831
5832  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn, $Rm]",
5833                 (!cast<Instruction>(NAME # _REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, GPR64:$Rm), 0>;
5834  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
5835                 (!cast<Instruction>(NAME # _REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, XZR), 0>;
5836  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
5837                 (!cast<Instruction>(NAME # _REAL) Z_s:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, XZR), 1>;
5838
5839  def : Pat <(op (nxv4i32 ZPR32:$Zt), (nxv4i1 PPR3bAny:$Pg), (nxv4i32 ZPR32:$Zn), (i64 GPR64:$Rm), vt),
5840             (!cast<Instruction>(NAME # _REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, GPR64:$Rm)>;
5841}
5842
5843multiclass sve2_mem_sstnt_vs_64_ptrs<bits<3> opc, string asm,
5844                             SDPatternOperator op,
5845                             ValueType vt> {
5846  def _REAL : sve2_mem_sstnt_vs_base<opc, asm, Z_d, ZPR64>;
5847
5848  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn, $Rm]",
5849                 (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, GPR64:$Rm), 0>;
5850  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
5851                 (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, XZR), 0>;
5852  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
5853                 (!cast<Instruction>(NAME # _REAL) Z_d:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, XZR), 1>;
5854
5855  def : Pat <(op (nxv2i64 ZPR64:$Zt), (nxv2i1 PPR3bAny:$Pg), (nxv2i64 ZPR64:$Zn), (i64 GPR64:$Rm), vt),
5856             (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, GPR64:$Rm)>;
5857}
5858
5859class sve_mem_sst_sv<bits<3> opc, bit xs, bit scaled, string asm,
5860                     RegisterOperand VecList, RegisterOperand zprext>
5861: I<(outs), (ins VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm),
5862  asm, "\t$Zt, $Pg, [$Rn, $Zm]",
5863  "",
5864  []>, Sched<[]> {
5865  bits<3> Pg;
5866  bits<5> Rn;
5867  bits<5> Zm;
5868  bits<5> Zt;
5869  let Inst{31-25} = 0b1110010;
5870  let Inst{24-22} = opc;
5871  let Inst{21}    = scaled;
5872  let Inst{20-16} = Zm;
5873  let Inst{15}    = 0b1;
5874  let Inst{14}    = xs;
5875  let Inst{13}    = 0;
5876  let Inst{12-10} = Pg;
5877  let Inst{9-5}   = Rn;
5878  let Inst{4-0}   = Zt;
5879
5880  let mayStore = 1;
5881}
5882
5883multiclass sve_mem_32b_sst_sv_32_scaled<bits<3> opc, string asm,
5884                                    SDPatternOperator sxtw_op,
5885                                    SDPatternOperator uxtw_op,
5886                                    RegisterOperand sxtw_opnd,
5887                                    RegisterOperand uxtw_opnd,
5888                                    ValueType vt > {
5889  def _UXTW_SCALED : sve_mem_sst_sv<opc, 0, 1, asm, Z_s, uxtw_opnd>;
5890  def _SXTW_SCALED : sve_mem_sst_sv<opc, 1, 1, asm, Z_s, sxtw_opnd>;
5891
5892  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5893                 (!cast<Instruction>(NAME # _UXTW_SCALED) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
5894  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5895                 (!cast<Instruction>(NAME # _SXTW_SCALED) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
5896
5897  def : Pat<(uxtw_op (nxv4i32 ZPR:$data), (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$offsets), vt),
5898            (!cast<Instruction>(NAME # _UXTW_SCALED) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5899  def : Pat<(sxtw_op (nxv4i32 ZPR:$data), (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$offsets), vt),
5900            (!cast<Instruction>(NAME # _SXTW_SCALED) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5901}
5902
5903multiclass sve_mem_64b_sst_sv_32_scaled<bits<3> opc, string asm,
5904                                    SDPatternOperator sxtw_op,
5905                                    SDPatternOperator uxtw_op,
5906                                    RegisterOperand sxtw_opnd,
5907                                    RegisterOperand uxtw_opnd,
5908                                    ValueType vt > {
5909  def _UXTW_SCALED : sve_mem_sst_sv<opc, 0, 1, asm, Z_d, uxtw_opnd>;
5910  def _SXTW_SCALED : sve_mem_sst_sv<opc, 1, 1, asm, Z_d, sxtw_opnd>;
5911
5912  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5913                 (!cast<Instruction>(NAME # _UXTW_SCALED) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
5914  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5915                 (!cast<Instruction>(NAME # _SXTW_SCALED) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
5916
5917  def : Pat<(uxtw_op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt),
5918            (!cast<Instruction>(NAME # _UXTW_SCALED) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5919  def : Pat<(sxtw_op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt),
5920            (!cast<Instruction>(NAME # _SXTW_SCALED) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5921}
5922
5923multiclass sve_mem_64b_sst_sv_32_unscaled<bits<3> opc, string asm,
5924                                         SDPatternOperator sxtw_op,
5925                                         SDPatternOperator uxtw_op,
5926                                         RegisterOperand sxtw_opnd,
5927                                         RegisterOperand uxtw_opnd,
5928                                         ValueType vt> {
5929  def _UXTW : sve_mem_sst_sv<opc, 0, 0, asm, Z_d, uxtw_opnd>;
5930  def _SXTW : sve_mem_sst_sv<opc, 1, 0, asm, Z_d, sxtw_opnd>;
5931
5932  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5933                 (!cast<Instruction>(NAME # _UXTW) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
5934  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5935                 (!cast<Instruction>(NAME # _SXTW) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
5936
5937  def : Pat<(uxtw_op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt),
5938            (!cast<Instruction>(NAME # _UXTW) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5939  def : Pat<(sxtw_op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt),
5940            (!cast<Instruction>(NAME # _SXTW) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5941}
5942
5943multiclass sve_mem_32b_sst_sv_32_unscaled<bits<3> opc, string asm,
5944                                          SDPatternOperator sxtw_op,
5945                                          SDPatternOperator uxtw_op,
5946                                          RegisterOperand sxtw_opnd,
5947                                          RegisterOperand uxtw_opnd,
5948                                          ValueType vt> {
5949  def _UXTW : sve_mem_sst_sv<opc, 0, 0, asm, Z_s, uxtw_opnd>;
5950  def _SXTW : sve_mem_sst_sv<opc, 1, 0, asm, Z_s, sxtw_opnd>;
5951
5952  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5953                 (!cast<Instruction>(NAME # _UXTW) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
5954  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5955                 (!cast<Instruction>(NAME # _SXTW) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
5956
5957  def : Pat<(uxtw_op (nxv4i32 ZPR:$data), (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$offsets), vt),
5958            (!cast<Instruction>(NAME # _UXTW) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5959  def : Pat<(sxtw_op (nxv4i32 ZPR:$data), (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$offsets), vt),
5960            (!cast<Instruction>(NAME # _SXTW) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
5961}
5962
5963class sve_mem_sst_sv2<bits<2> msz, bit scaled, string asm,
5964                      RegisterOperand zprext>
5965: I<(outs), (ins Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm),
5966  asm, "\t$Zt, $Pg, [$Rn, $Zm]",
5967  "",
5968  []>, Sched<[]> {
5969  bits<3> Pg;
5970  bits<5> Rn;
5971  bits<5> Zm;
5972  bits<5> Zt;
5973  let Inst{31-25} = 0b1110010;
5974  let Inst{24-23} = msz;
5975  let Inst{22}    = 0b0;
5976  let Inst{21}    = scaled;
5977  let Inst{20-16} = Zm;
5978  let Inst{15-13} = 0b101;
5979  let Inst{12-10} = Pg;
5980  let Inst{9-5}   = Rn;
5981  let Inst{4-0}   = Zt;
5982
5983  let mayStore = 1;
5984}
5985
5986multiclass sve_mem_sst_sv_64_scaled<bits<2> msz, string asm,
5987                                    SDPatternOperator op,
5988                                    RegisterOperand zprext,
5989                                    ValueType vt> {
5990  def _SCALED_REAL : sve_mem_sst_sv2<msz, 1, asm, zprext>;
5991
5992  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
5993                 (!cast<Instruction>(NAME # _SCALED_REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm), 0>;
5994
5995  def : Pat<(op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$indices), vt),
5996            (!cast<Instruction>(NAME # _SCALED_REAL) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$indices)>;
5997}
5998
5999multiclass sve_mem_sst_sv_64_unscaled<bits<2> msz, string asm,
6000                                      SDPatternOperator op,
6001                                      ValueType vt> {
6002  def _REAL : sve_mem_sst_sv2<msz, 0, asm, ZPR64ExtLSL8>;
6003
6004  def : InstAlias<asm # "\t$Zt, $Pg, [$Rn, $Zm]",
6005                 (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, ZPR64ExtLSL8:$Zm), 0>;
6006
6007  def : Pat<(op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt),
6008            (!cast<Instruction>(NAME # _REAL) ZPR:$data, PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
6009}
6010
6011class sve_mem_sst_vi<bits<3> opc, string asm, ZPRRegOp zprty,
6012                     RegisterOperand VecList, Operand imm_ty>
6013: I<(outs), (ins VecList:$Zt, PPR3bAny:$Pg, zprty:$Zn, imm_ty:$imm5),
6014  asm, "\t$Zt, $Pg, [$Zn, $imm5]",
6015  "",
6016  []>, Sched<[]> {
6017  bits<3> Pg;
6018  bits<5> imm5;
6019  bits<5> Zn;
6020  bits<5> Zt;
6021  let Inst{31-25} = 0b1110010;
6022  let Inst{24-23} = opc{2-1};
6023  let Inst{22}    = 0b1;
6024  let Inst{21}    = opc{0};
6025  let Inst{20-16} = imm5;
6026  let Inst{15-13} = 0b101;
6027  let Inst{12-10} = Pg;
6028  let Inst{9-5}   = Zn;
6029  let Inst{4-0}   = Zt;
6030
6031  let mayStore = 1;
6032}
6033
6034multiclass sve_mem_32b_sst_vi_ptrs<bits<3> opc, string asm,
6035                                   Operand imm_ty,
6036                                   SDPatternOperator op,
6037                                   ValueType vt> {
6038  def _IMM : sve_mem_sst_vi<opc, asm, ZPR32, Z_s, imm_ty>;
6039
6040  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
6041                  (!cast<Instruction>(NAME # _IMM) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, 0), 0>;
6042  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn, $imm5]",
6043                  (!cast<Instruction>(NAME # _IMM) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, imm_ty:$imm5), 0>;
6044  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
6045                  (!cast<Instruction>(NAME # _IMM) Z_s:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, 0), 1>;
6046
6047  def : Pat<(op (nxv4i32 ZPR:$data), (nxv4i1 PPR:$gp), (nxv4i32 ZPR:$ptrs), imm_ty:$index, vt),
6048            (!cast<Instruction>(NAME # _IMM) ZPR:$data, PPR:$gp, ZPR:$ptrs, imm_ty:$index)>;
6049}
6050
6051multiclass sve_mem_64b_sst_vi_ptrs<bits<3> opc, string asm,
6052                                   Operand imm_ty,
6053                                   SDPatternOperator op,
6054                                   ValueType vt> {
6055  def _IMM : sve_mem_sst_vi<opc, asm, ZPR64, Z_d, imm_ty>;
6056
6057  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
6058                  (!cast<Instruction>(NAME # _IMM) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, 0), 0>;
6059  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn, $imm5]",
6060                  (!cast<Instruction>(NAME # _IMM) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, imm_ty:$imm5), 0>;
6061  def : InstAlias<asm # "\t$Zt, $Pg, [$Zn]",
6062                  (!cast<Instruction>(NAME # _IMM) Z_d:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, 0), 1>;
6063
6064  def : Pat<(op (nxv2i64 ZPR:$data), (nxv2i1 PPR:$gp), (nxv2i64 ZPR:$ptrs), imm_ty:$index, vt),
6065            (!cast<Instruction>(NAME # _IMM) ZPR:$data, PPR:$gp, ZPR:$ptrs, imm_ty:$index)>;
6066}
6067
6068class sve_mem_z_spill<string asm>
6069: I<(outs), (ins ZPRAny:$Zt, GPR64sp:$Rn, simm9:$imm9),
6070  asm, "\t$Zt, [$Rn, $imm9, mul vl]",
6071  "",
6072  []>, Sched<[]> {
6073  bits<5> Rn;
6074  bits<5> Zt;
6075  bits<9> imm9;
6076  let Inst{31-22} = 0b1110010110;
6077  let Inst{21-16} = imm9{8-3};
6078  let Inst{15-13} = 0b010;
6079  let Inst{12-10} = imm9{2-0};
6080  let Inst{9-5}   = Rn;
6081  let Inst{4-0}   = Zt;
6082
6083  let mayStore = 1;
6084}
6085
6086multiclass sve_mem_z_spill<string asm> {
6087  def NAME : sve_mem_z_spill<asm>;
6088
6089  def : InstAlias<asm # "\t$Zt, [$Rn]",
6090                  (!cast<Instruction>(NAME) ZPRAny:$Zt, GPR64sp:$Rn, 0), 1>;
6091}
6092
6093class sve_mem_p_spill<string asm>
6094: I<(outs), (ins PPRAny:$Pt, GPR64sp:$Rn, simm9:$imm9),
6095  asm, "\t$Pt, [$Rn, $imm9, mul vl]",
6096  "",
6097  []>, Sched<[]> {
6098  bits<4> Pt;
6099  bits<5> Rn;
6100  bits<9> imm9;
6101  let Inst{31-22} = 0b1110010110;
6102  let Inst{21-16} = imm9{8-3};
6103  let Inst{15-13} = 0b000;
6104  let Inst{12-10} = imm9{2-0};
6105  let Inst{9-5}   = Rn;
6106  let Inst{4}     = 0b0;
6107  let Inst{3-0}   = Pt;
6108
6109  let mayStore = 1;
6110}
6111
6112multiclass sve_mem_p_spill<string asm> {
6113  def NAME : sve_mem_p_spill<asm>;
6114
6115  def : InstAlias<asm # "\t$Pt, [$Rn]",
6116                  (!cast<Instruction>(NAME) PPRAny:$Pt, GPR64sp:$Rn, 0), 1>;
6117}
6118
6119//===----------------------------------------------------------------------===//
6120// SVE Permute - Predicates Group
6121//===----------------------------------------------------------------------===//
6122
6123class sve_int_perm_bin_perm_pp<bits<3> opc, bits<2> sz8_64, string asm,
6124                               PPRRegOp pprty>
6125: I<(outs pprty:$Pd), (ins pprty:$Pn, pprty:$Pm),
6126  asm, "\t$Pd, $Pn, $Pm",
6127  "", []>, Sched<[]> {
6128  bits<4> Pd;
6129  bits<4> Pm;
6130  bits<4> Pn;
6131  let Inst{31-24} = 0b00000101;
6132  let Inst{23-22} = sz8_64;
6133  let Inst{21-20} = 0b10;
6134  let Inst{19-16} = Pm;
6135  let Inst{15-13} = 0b010;
6136  let Inst{12-10} = opc;
6137  let Inst{9}     = 0b0;
6138  let Inst{8-5}   = Pn;
6139  let Inst{4}     = 0b0;
6140  let Inst{3-0}   = Pd;
6141}
6142
6143multiclass sve_int_perm_bin_perm_pp<bits<3> opc, string asm,
6144                                    SDPatternOperator op> {
6145  def _B : sve_int_perm_bin_perm_pp<opc, 0b00, asm, PPR8>;
6146  def _H : sve_int_perm_bin_perm_pp<opc, 0b01, asm, PPR16>;
6147  def _S : sve_int_perm_bin_perm_pp<opc, 0b10, asm, PPR32>;
6148  def _D : sve_int_perm_bin_perm_pp<opc, 0b11, asm, PPR64>;
6149
6150  def : SVE_2_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, !cast<Instruction>(NAME # _B)>;
6151  def : SVE_2_Op_Pat<nxv8i1, op, nxv8i1,  nxv8i1,  !cast<Instruction>(NAME # _H)>;
6152  def : SVE_2_Op_Pat<nxv4i1, op, nxv4i1,  nxv4i1,  !cast<Instruction>(NAME # _S)>;
6153  def : SVE_2_Op_Pat<nxv2i1, op, nxv2i1,  nxv2i1,  !cast<Instruction>(NAME # _D)>;
6154}
6155
6156class sve_int_perm_punpk<bit opc, string asm>
6157: I<(outs PPR16:$Pd), (ins PPR8:$Pn),
6158  asm, "\t$Pd, $Pn",
6159  "",
6160  []>, Sched<[]> {
6161  bits<4> Pd;
6162  bits<4> Pn;
6163  let Inst{31-17} = 0b000001010011000;
6164  let Inst{16}    = opc;
6165  let Inst{15-9}  = 0b0100000;
6166  let Inst{8-5}   = Pn;
6167  let Inst{4}     = 0b0;
6168  let Inst{3-0}   = Pd;
6169}
6170
6171multiclass sve_int_perm_punpk<bit opc, string asm, SDPatternOperator op> {
6172  def NAME : sve_int_perm_punpk<opc, asm>;
6173
6174  def : SVE_1_Op_Pat<nxv8i1, op, nxv16i1, !cast<Instruction>(NAME)>;
6175  def : SVE_1_Op_Pat<nxv4i1, op, nxv8i1,  !cast<Instruction>(NAME)>;
6176  def : SVE_1_Op_Pat<nxv2i1, op, nxv4i1,  !cast<Instruction>(NAME)>;
6177}
6178
6179class sve_int_rdffr_pred<bit s, string asm>
6180: I<(outs PPR8:$Pd), (ins PPRAny:$Pg),
6181  asm, "\t$Pd, $Pg/z",
6182  "",
6183  []>, Sched<[]> {
6184  bits<4> Pd;
6185  bits<4> Pg;
6186  let Inst{31-23} = 0b001001010;
6187  let Inst{22}    = s;
6188  let Inst{21-9}  = 0b0110001111000;
6189  let Inst{8-5}   = Pg;
6190  let Inst{4}     = 0;
6191  let Inst{3-0}   = Pd;
6192
6193  let Defs = !if(s, [NZCV], []);
6194  let Uses = [FFR];
6195}
6196
6197multiclass sve_int_rdffr_pred<bit s, string asm, SDPatternOperator op> {
6198  def _REAL : sve_int_rdffr_pred<s, asm>;
6199
6200  // We need a layer of indirection because early machine code passes balk at
6201  // physical register (i.e. FFR) uses that have no previous definition.
6202  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
6203  def "" : Pseudo<(outs PPR8:$Pd), (ins PPRAny:$Pg), [(set (nxv16i1 PPR8:$Pd), (op (nxv16i1 PPRAny:$Pg)))]>,
6204           PseudoInstExpansion<(!cast<Instruction>(NAME # _REAL) PPR8:$Pd, PPRAny:$Pg)>;
6205  }
6206}
6207
6208class sve_int_rdffr_unpred<string asm> : I<
6209  (outs PPR8:$Pd), (ins),
6210  asm, "\t$Pd",
6211  "",
6212  []>, Sched<[]> {
6213  bits<4> Pd;
6214  let Inst{31-4} = 0b0010010100011001111100000000;
6215  let Inst{3-0}   = Pd;
6216
6217  let Uses = [FFR];
6218}
6219
6220multiclass sve_int_rdffr_unpred<string asm, SDPatternOperator op> {
6221  def _REAL : sve_int_rdffr_unpred<asm>;
6222
6223  // We need a layer of indirection because early machine code passes balk at
6224  // physical register (i.e. FFR) uses that have no previous definition.
6225  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
6226  def "" : Pseudo<(outs PPR8:$Pd), (ins), [(set (nxv16i1 PPR8:$Pd), (op))]>,
6227           PseudoInstExpansion<(!cast<Instruction>(NAME # _REAL) PPR8:$Pd)>;
6228  }
6229}
6230
6231class sve_int_wrffr<string asm, SDPatternOperator op>
6232: I<(outs), (ins PPR8:$Pn),
6233  asm, "\t$Pn",
6234  "",
6235  [(op (nxv16i1 PPR8:$Pn))]>, Sched<[]> {
6236  bits<4> Pn;
6237  let Inst{31-9} = 0b00100101001010001001000;
6238  let Inst{8-5}  = Pn;
6239  let Inst{4-0}  = 0b00000;
6240
6241  let hasSideEffects = 1;
6242  let Defs = [FFR];
6243}
6244
6245class sve_int_setffr<string asm, SDPatternOperator op>
6246: I<(outs), (ins),
6247  asm, "",
6248  "",
6249  [(op)]>, Sched<[]> {
6250  let Inst{31-0} = 0b00100101001011001001000000000000;
6251
6252  let hasSideEffects = 1;
6253  let Defs = [FFR];
6254}
6255
6256//===----------------------------------------------------------------------===//
6257// SVE Permute Vector - Predicated Group
6258//===----------------------------------------------------------------------===//
6259
6260class sve_int_perm_clast_rz<bits<2> sz8_64, bit ab, string asm,
6261                            ZPRRegOp zprty, RegisterClass rt>
6262: I<(outs rt:$Rdn), (ins PPR3bAny:$Pg, rt:$_Rdn, zprty:$Zm),
6263  asm, "\t$Rdn, $Pg, $_Rdn, $Zm",
6264  "",
6265  []>, Sched<[]> {
6266  bits<3> Pg;
6267  bits<5> Rdn;
6268  bits<5> Zm;
6269  let Inst{31-24} = 0b00000101;
6270  let Inst{23-22} = sz8_64;
6271  let Inst{21-17} = 0b11000;
6272  let Inst{16}    = ab;
6273  let Inst{15-13} = 0b101;
6274  let Inst{12-10} = Pg;
6275  let Inst{9-5}   = Zm;
6276  let Inst{4-0}   = Rdn;
6277
6278  let Constraints = "$Rdn = $_Rdn";
6279}
6280
6281multiclass sve_int_perm_clast_rz<bit ab, string asm, SDPatternOperator op> {
6282  def _B : sve_int_perm_clast_rz<0b00, ab, asm, ZPR8, GPR32>;
6283  def _H : sve_int_perm_clast_rz<0b01, ab, asm, ZPR16, GPR32>;
6284  def _S : sve_int_perm_clast_rz<0b10, ab, asm, ZPR32, GPR32>;
6285  def _D : sve_int_perm_clast_rz<0b11, ab, asm, ZPR64, GPR64>;
6286
6287  def : SVE_3_Op_Pat<i32, op, nxv16i1, i32, nxv16i8, !cast<Instruction>(NAME # _B)>;
6288  def : SVE_3_Op_Pat<i32, op, nxv8i1,  i32, nxv8i16, !cast<Instruction>(NAME # _H)>;
6289  def : SVE_3_Op_Pat<i32, op, nxv4i1,  i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
6290  def : SVE_3_Op_Pat<i64, op, nxv2i1,  i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
6291}
6292
6293class sve_int_perm_clast_vz<bits<2> sz8_64, bit ab, string asm,
6294                            ZPRRegOp zprty, RegisterClass rt>
6295: I<(outs rt:$Vdn), (ins PPR3bAny:$Pg, rt:$_Vdn, zprty:$Zm),
6296  asm, "\t$Vdn, $Pg, $_Vdn, $Zm",
6297  "",
6298  []>, Sched<[]> {
6299  bits<3> Pg;
6300  bits<5> Vdn;
6301  bits<5> Zm;
6302  let Inst{31-24} = 0b00000101;
6303  let Inst{23-22} = sz8_64;
6304  let Inst{21-17} = 0b10101;
6305  let Inst{16}    = ab;
6306  let Inst{15-13} = 0b100;
6307  let Inst{12-10} = Pg;
6308  let Inst{9-5}   = Zm;
6309  let Inst{4-0}   = Vdn;
6310
6311  let Constraints = "$Vdn = $_Vdn";
6312}
6313
6314multiclass sve_int_perm_clast_vz<bit ab, string asm, SDPatternOperator op> {
6315  def _B : sve_int_perm_clast_vz<0b00, ab, asm, ZPR8, FPR8>;
6316  def _H : sve_int_perm_clast_vz<0b01, ab, asm, ZPR16, FPR16>;
6317  def _S : sve_int_perm_clast_vz<0b10, ab, asm, ZPR32, FPR32>;
6318  def _D : sve_int_perm_clast_vz<0b11, ab, asm, ZPR64, FPR64>;
6319
6320  def : SVE_3_Op_Pat<f16, op, nxv8i1, f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
6321  def : SVE_3_Op_Pat<f32, op, nxv4i1, f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
6322  def : SVE_3_Op_Pat<f64, op, nxv2i1, f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
6323
6324  def : SVE_3_Op_Pat<bf16, op, nxv8i1, bf16, nxv8bf16, !cast<Instruction>(NAME # _H)>;
6325}
6326
6327class sve_int_perm_clast_zz<bits<2> sz8_64, bit ab, string asm,
6328                            ZPRRegOp zprty>
6329: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm),
6330  asm, "\t$Zdn, $Pg, $_Zdn, $Zm",
6331  "",
6332  []>, Sched<[]> {
6333  bits<3> Pg;
6334  bits<5> Zdn;
6335  bits<5> Zm;
6336  let Inst{31-24} = 0b00000101;
6337  let Inst{23-22} = sz8_64;
6338  let Inst{21-17} = 0b10100;
6339  let Inst{16}    = ab;
6340  let Inst{15-13} = 0b100;
6341  let Inst{12-10} = Pg;
6342  let Inst{9-5}   = Zm;
6343  let Inst{4-0}   = Zdn;
6344
6345  let Constraints = "$Zdn = $_Zdn";
6346  let DestructiveInstType = DestructiveOther;
6347  let ElementSize = ElementSizeNone;
6348}
6349
6350multiclass sve_int_perm_clast_zz<bit ab, string asm, SDPatternOperator op> {
6351  def _B : sve_int_perm_clast_zz<0b00, ab, asm, ZPR8>;
6352  def _H : sve_int_perm_clast_zz<0b01, ab, asm, ZPR16>;
6353  def _S : sve_int_perm_clast_zz<0b10, ab, asm, ZPR32>;
6354  def _D : sve_int_perm_clast_zz<0b11, ab, asm, ZPR64>;
6355
6356  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
6357  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
6358  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
6359  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
6360
6361  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
6362  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
6363  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
6364
6365  def : SVE_3_Op_Pat<nxv8bf16, op, nxv8i1, nxv8bf16, nxv8bf16, !cast<Instruction>(NAME # _H)>;
6366}
6367
6368class sve_int_perm_last_r<bits<2> sz8_64, bit ab, string asm,
6369                          ZPRRegOp zprty, RegisterClass resultRegType>
6370: I<(outs resultRegType:$Rd), (ins PPR3bAny:$Pg, zprty:$Zn),
6371  asm, "\t$Rd, $Pg, $Zn",
6372  "",
6373  []>, Sched<[]> {
6374  bits<3> Pg;
6375  bits<5> Rd;
6376  bits<5> Zn;
6377  let Inst{31-24} = 0b00000101;
6378  let Inst{23-22} = sz8_64;
6379  let Inst{21-17} = 0b10000;
6380  let Inst{16}    = ab;
6381  let Inst{15-13} = 0b101;
6382  let Inst{12-10} = Pg;
6383  let Inst{9-5}   = Zn;
6384  let Inst{4-0}   = Rd;
6385}
6386
6387multiclass sve_int_perm_last_r<bit ab, string asm, SDPatternOperator op> {
6388  def _B : sve_int_perm_last_r<0b00, ab, asm, ZPR8, GPR32>;
6389  def _H : sve_int_perm_last_r<0b01, ab, asm, ZPR16, GPR32>;
6390  def _S : sve_int_perm_last_r<0b10, ab, asm, ZPR32, GPR32>;
6391  def _D : sve_int_perm_last_r<0b11, ab, asm, ZPR64, GPR64>;
6392
6393  def : SVE_2_Op_Pat<i32, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
6394  def : SVE_2_Op_Pat<i32, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
6395  def : SVE_2_Op_Pat<i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
6396  def : SVE_2_Op_Pat<i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
6397}
6398
6399class sve_int_perm_last_v<bits<2> sz8_64, bit ab, string asm,
6400                          ZPRRegOp zprty, RegisterClass dstRegtype>
6401: I<(outs dstRegtype:$Vd), (ins PPR3bAny:$Pg, zprty:$Zn),
6402  asm, "\t$Vd, $Pg, $Zn",
6403  "",
6404  []>, Sched<[]> {
6405  bits<3> Pg;
6406  bits<5> Vd;
6407  bits<5> Zn;
6408  let Inst{31-24} = 0b00000101;
6409  let Inst{23-22} = sz8_64;
6410  let Inst{21-17} = 0b10001;
6411  let Inst{16}    = ab;
6412  let Inst{15-13} = 0b100;
6413  let Inst{12-10} = Pg;
6414  let Inst{9-5}   = Zn;
6415  let Inst{4-0}   = Vd;
6416}
6417
6418multiclass sve_int_perm_last_v<bit ab, string asm, SDPatternOperator op> {
6419  def _B : sve_int_perm_last_v<0b00, ab, asm, ZPR8, FPR8>;
6420  def _H : sve_int_perm_last_v<0b01, ab, asm, ZPR16, FPR16>;
6421  def _S : sve_int_perm_last_v<0b10, ab, asm, ZPR32, FPR32>;
6422  def _D : sve_int_perm_last_v<0b11, ab, asm, ZPR64, FPR64>;
6423
6424  def : SVE_2_Op_Pat<f16, op, nxv8i1,  nxv8f16, !cast<Instruction>(NAME # _H)>;
6425  def : SVE_2_Op_Pat<f32, op, nxv4i1,  nxv4f32, !cast<Instruction>(NAME # _S)>;
6426  def : SVE_2_Op_Pat<f32, op, nxv2i1,  nxv2f32, !cast<Instruction>(NAME # _S)>;
6427  def : SVE_2_Op_Pat<f64, op, nxv2i1,  nxv2f64, !cast<Instruction>(NAME # _D)>;
6428
6429  def : SVE_2_Op_Pat<bf16, op, nxv8i1,  nxv8bf16, !cast<Instruction>(NAME # _H)>;
6430}
6431
6432class sve_int_perm_splice<bits<2> sz8_64, string asm, ZPRRegOp zprty>
6433: I<(outs zprty:$Zdn), (ins PPR3bAny:$Pg, zprty:$_Zdn, zprty:$Zm),
6434  asm, "\t$Zdn, $Pg, $_Zdn, $Zm",
6435  "",
6436  []>, Sched<[]> {
6437  bits<3> Pg;
6438  bits<5> Zdn;
6439  bits<5> Zm;
6440  let Inst{31-24} = 0b00000101;
6441  let Inst{23-22} = sz8_64;
6442  let Inst{21-13} = 0b101100100;
6443  let Inst{12-10} = Pg;
6444  let Inst{9-5}   = Zm;
6445  let Inst{4-0}   = Zdn;
6446
6447  let Constraints = "$Zdn = $_Zdn";
6448  let DestructiveInstType = DestructiveOther;
6449  let ElementSize = ElementSizeNone;
6450}
6451
6452multiclass sve_int_perm_splice<string asm, SDPatternOperator op> {
6453  def _B : sve_int_perm_splice<0b00, asm, ZPR8>;
6454  def _H : sve_int_perm_splice<0b01, asm, ZPR16>;
6455  def _S : sve_int_perm_splice<0b10, asm, ZPR32>;
6456  def _D : sve_int_perm_splice<0b11, asm, ZPR64>;
6457
6458  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
6459  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
6460  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
6461  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
6462
6463  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1,  nxv8f16, nxv8f16, !cast<Instruction>(NAME # _H)>;
6464  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1,  nxv4f32, nxv4f32, !cast<Instruction>(NAME # _S)>;
6465  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1,  nxv2f64, nxv2f64, !cast<Instruction>(NAME # _D)>;
6466
6467  def : SVE_3_Op_Pat<nxv8bf16, op, nxv8i1, nxv8bf16, nxv8bf16, !cast<Instruction>(NAME # _H)>;
6468}
6469
6470class sve2_int_perm_splice_cons<bits<2> sz8_64, string asm,
6471                               ZPRRegOp zprty, RegisterOperand VecList>
6472: I<(outs zprty:$Zd), (ins PPR3bAny:$Pg, VecList:$Zn),
6473  asm, "\t$Zd, $Pg, $Zn",
6474  "",
6475  []>, Sched<[]> {
6476  bits<3> Pg;
6477  bits<5> Zn;
6478  bits<5> Zd;
6479  let Inst{31-24} = 0b00000101;
6480  let Inst{23-22} = sz8_64;
6481  let Inst{21-13} = 0b101101100;
6482  let Inst{12-10} = Pg;
6483  let Inst{9-5}   = Zn;
6484  let Inst{4-0}   = Zd;
6485}
6486
6487multiclass sve2_int_perm_splice_cons<string asm> {
6488  def _B : sve2_int_perm_splice_cons<0b00, asm, ZPR8,  ZZ_b>;
6489  def _H : sve2_int_perm_splice_cons<0b01, asm, ZPR16, ZZ_h>;
6490  def _S : sve2_int_perm_splice_cons<0b10, asm, ZPR32, ZZ_s>;
6491  def _D : sve2_int_perm_splice_cons<0b11, asm, ZPR64, ZZ_d>;
6492}
6493
6494class sve_int_perm_rev<bits<2> sz8_64, bits<2> opc, string asm,
6495                       ZPRRegOp zprty>
6496: I<(outs zprty:$Zd), (ins zprty:$_Zd, PPR3bAny:$Pg, zprty:$Zn),
6497  asm, "\t$Zd, $Pg/m, $Zn",
6498  "",
6499  []>, Sched<[]> {
6500  bits<5> Zd;
6501  bits<3> Pg;
6502  bits<5> Zn;
6503  let Inst{31-24} = 0b00000101;
6504  let Inst{23-22} = sz8_64;
6505  let Inst{21-18} = 0b1001;
6506  let Inst{17-16} = opc;
6507  let Inst{15-13} = 0b100;
6508  let Inst{12-10} = Pg;
6509  let Inst{9-5}   = Zn;
6510  let Inst{4-0}   = Zd;
6511
6512  let Constraints = "$Zd = $_Zd";
6513  let DestructiveInstType = DestructiveOther;
6514  let ElementSize = zprty.ElementSize;
6515}
6516
6517multiclass sve_int_perm_rev_rbit<string asm, SDPatternOperator op> {
6518  def _B : sve_int_perm_rev<0b00, 0b11, asm, ZPR8>;
6519  def _H : sve_int_perm_rev<0b01, 0b11, asm, ZPR16>;
6520  def _S : sve_int_perm_rev<0b10, 0b11, asm, ZPR32>;
6521  def _D : sve_int_perm_rev<0b11, 0b11, asm, ZPR64>;
6522
6523  def : SVE_1_Op_Passthru_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
6524  def : SVE_1_Op_Passthru_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
6525  def : SVE_1_Op_Passthru_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
6526  def : SVE_1_Op_Passthru_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
6527}
6528
6529multiclass sve_int_perm_rev_revb<string asm, SDPatternOperator op> {
6530  def _H : sve_int_perm_rev<0b01, 0b00, asm, ZPR16>;
6531  def _S : sve_int_perm_rev<0b10, 0b00, asm, ZPR32>;
6532  def _D : sve_int_perm_rev<0b11, 0b00, asm, ZPR64>;
6533
6534  def : SVE_1_Op_Passthru_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
6535  def : SVE_1_Op_Passthru_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
6536  def : SVE_1_Op_Passthru_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
6537}
6538
6539multiclass sve_int_perm_rev_revh<string asm, SDPatternOperator op> {
6540  def _S : sve_int_perm_rev<0b10, 0b01, asm, ZPR32>;
6541  def _D : sve_int_perm_rev<0b11, 0b01, asm, ZPR64>;
6542
6543  def : SVE_1_Op_Passthru_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
6544  def : SVE_1_Op_Passthru_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
6545}
6546
6547multiclass sve_int_perm_rev_revw<string asm, SDPatternOperator op> {
6548  def _D : sve_int_perm_rev<0b11, 0b10, asm, ZPR64>;
6549
6550  def : SVE_1_Op_Passthru_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
6551}
6552
6553class sve_int_perm_cpy_r<bits<2> sz8_64, string asm, ZPRRegOp zprty,
6554                         RegisterClass srcRegType>
6555: I<(outs zprty:$Zd), (ins zprty:$_Zd, PPR3bAny:$Pg, srcRegType:$Rn),
6556  asm, "\t$Zd, $Pg/m, $Rn",
6557  "",
6558  []>, Sched<[]> {
6559  bits<3> Pg;
6560  bits<5> Rn;
6561  bits<5> Zd;
6562  let Inst{31-24} = 0b00000101;
6563  let Inst{23-22} = sz8_64;
6564  let Inst{21-13} = 0b101000101;
6565  let Inst{12-10} = Pg;
6566  let Inst{9-5}   = Rn;
6567  let Inst{4-0}   = Zd;
6568
6569  let Constraints = "$Zd = $_Zd";
6570  let DestructiveInstType = DestructiveOther;
6571  let ElementSize = zprty.ElementSize;
6572}
6573
6574multiclass sve_int_perm_cpy_r<string asm, SDPatternOperator op> {
6575  def _B : sve_int_perm_cpy_r<0b00, asm, ZPR8, GPR32sp>;
6576  def _H : sve_int_perm_cpy_r<0b01, asm, ZPR16, GPR32sp>;
6577  def _S : sve_int_perm_cpy_r<0b10, asm, ZPR32, GPR32sp>;
6578  def _D : sve_int_perm_cpy_r<0b11, asm, ZPR64, GPR64sp>;
6579
6580  def : InstAlias<"mov $Zd, $Pg/m, $Rn",
6581                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, PPR3bAny:$Pg, GPR32sp:$Rn), 1>;
6582  def : InstAlias<"mov $Zd, $Pg/m, $Rn",
6583                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, PPR3bAny:$Pg, GPR32sp:$Rn), 1>;
6584  def : InstAlias<"mov $Zd, $Pg/m, $Rn",
6585                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, PPR3bAny:$Pg, GPR32sp:$Rn), 1>;
6586  def : InstAlias<"mov $Zd, $Pg/m, $Rn",
6587                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, PPR3bAny:$Pg, GPR64sp:$Rn), 1>;
6588
6589  def : Pat<(nxv16i8 (op nxv16i1:$pg, i32:$splat, nxv16i8:$passthru)),
6590            (!cast<Instruction>(NAME # _B) $passthru, $pg, $splat)>;
6591  def : Pat<(nxv8i16 (op nxv8i1:$pg, i32:$splat, nxv8i16:$passthru)),
6592            (!cast<Instruction>(NAME # _H) $passthru, $pg, $splat)>;
6593  def : Pat<(nxv4i32 (op nxv4i1:$pg, i32:$splat, nxv4i32:$passthru)),
6594            (!cast<Instruction>(NAME # _S) $passthru, $pg, $splat)>;
6595  def : Pat<(nxv2i64 (op nxv2i1:$pg, i64:$splat, nxv2i64:$passthru)),
6596            (!cast<Instruction>(NAME # _D) $passthru, $pg, $splat)>;
6597}
6598
6599class sve_int_perm_cpy_v<bits<2> sz8_64, string asm, ZPRRegOp zprty,
6600                         RegisterClass srcRegtype>
6601: I<(outs zprty:$Zd), (ins zprty:$_Zd, PPR3bAny:$Pg, srcRegtype:$Vn),
6602  asm, "\t$Zd, $Pg/m, $Vn",
6603  "",
6604  []>, Sched<[]> {
6605  bits<3> Pg;
6606  bits<5> Vn;
6607  bits<5> Zd;
6608  let Inst{31-24} = 0b00000101;
6609  let Inst{23-22} = sz8_64;
6610  let Inst{21-13} = 0b100000100;
6611  let Inst{12-10} = Pg;
6612  let Inst{9-5}   = Vn;
6613  let Inst{4-0}   = Zd;
6614
6615  let Constraints = "$Zd = $_Zd";
6616  let DestructiveInstType = DestructiveOther;
6617  let ElementSize = zprty.ElementSize;
6618}
6619
6620multiclass sve_int_perm_cpy_v<string asm, SDPatternOperator op> {
6621  def _B : sve_int_perm_cpy_v<0b00, asm, ZPR8, FPR8>;
6622  def _H : sve_int_perm_cpy_v<0b01, asm, ZPR16, FPR16>;
6623  def _S : sve_int_perm_cpy_v<0b10, asm, ZPR32, FPR32>;
6624  def _D : sve_int_perm_cpy_v<0b11, asm, ZPR64, FPR64>;
6625
6626  def : InstAlias<"mov $Zd, $Pg/m, $Vn",
6627                  (!cast<Instruction>(NAME # _B) ZPR8:$Zd, PPR3bAny:$Pg, FPR8:$Vn), 1>;
6628  def : InstAlias<"mov $Zd, $Pg/m, $Vn",
6629                  (!cast<Instruction>(NAME # _H) ZPR16:$Zd, PPR3bAny:$Pg, FPR16:$Vn), 1>;
6630  def : InstAlias<"mov $Zd, $Pg/m, $Vn",
6631                  (!cast<Instruction>(NAME # _S) ZPR32:$Zd, PPR3bAny:$Pg, FPR32:$Vn), 1>;
6632  def : InstAlias<"mov $Zd, $Pg/m, $Vn",
6633                  (!cast<Instruction>(NAME # _D) ZPR64:$Zd, PPR3bAny:$Pg, FPR64:$Vn), 1>;
6634
6635  def : Pat<(nxv8f16 (op nxv8i1:$pg, f16:$splat, nxv8f16:$passthru)),
6636            (!cast<Instruction>(NAME # _H) $passthru, $pg, $splat)>;
6637  def : Pat<(nxv2f32 (op nxv2i1:$pg, f32:$splat, nxv2f32:$passthru)),
6638            (!cast<Instruction>(NAME # _S) $passthru, $pg, $splat)>;
6639  def : Pat<(nxv4f32 (op nxv4i1:$pg, f32:$splat, nxv4f32:$passthru)),
6640            (!cast<Instruction>(NAME # _S) $passthru, $pg, $splat)>;
6641  def : Pat<(nxv2f64 (op nxv2i1:$pg, f64:$splat, nxv2f64:$passthru)),
6642            (!cast<Instruction>(NAME # _D) $passthru, $pg, $splat)>;
6643
6644  def : Pat<(nxv8bf16 (op nxv8i1:$pg, bf16:$splat, nxv8bf16:$passthru)),
6645            (!cast<Instruction>(NAME # _H) $passthru, $pg, $splat)>;
6646}
6647
6648class sve_int_perm_compact<bit sz, string asm, ZPRRegOp zprty>
6649: I<(outs zprty:$Zd), (ins PPR3bAny:$Pg, zprty:$Zn),
6650  asm, "\t$Zd, $Pg, $Zn",
6651  "",
6652  []>, Sched<[]> {
6653  bits<3> Pg;
6654  bits<5> Zd;
6655  bits<5> Zn;
6656  let Inst{31-23} = 0b000001011;
6657  let Inst{22}    = sz;
6658  let Inst{21-13} = 0b100001100;
6659  let Inst{12-10} = Pg;
6660  let Inst{9-5}   = Zn;
6661  let Inst{4-0}   = Zd;
6662}
6663
6664multiclass sve_int_perm_compact<string asm, SDPatternOperator op> {
6665  def _S : sve_int_perm_compact<0b0, asm, ZPR32>;
6666  def _D : sve_int_perm_compact<0b1, asm, ZPR64>;
6667
6668  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, !cast<Instruction>(NAME # _S)>;
6669  def : SVE_2_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, !cast<Instruction>(NAME # _S)>;
6670  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, !cast<Instruction>(NAME # _D)>;
6671  def : SVE_2_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, !cast<Instruction>(NAME # _D)>;
6672}
6673
6674//===----------------------------------------------------------------------===//
6675// SVE Memory - Contiguous Load Group
6676//===----------------------------------------------------------------------===//
6677
6678class sve_mem_cld_si_base<bits<4> dtype, bit nf, string asm,
6679                          RegisterOperand VecList>
6680: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4),
6681  asm, "\t$Zt, $Pg/z, [$Rn, $imm4, mul vl]",
6682  "",
6683  []>, Sched<[]> {
6684  bits<3> Pg;
6685  bits<5> Rn;
6686  bits<5> Zt;
6687  bits<4> imm4;
6688  let Inst{31-25} = 0b1010010;
6689  let Inst{24-21} = dtype;
6690  let Inst{20}    = nf;
6691  let Inst{19-16} = imm4;
6692  let Inst{15-13} = 0b101;
6693  let Inst{12-10} = Pg;
6694  let Inst{9-5}   = Rn;
6695  let Inst{4-0}   = Zt;
6696
6697  let mayLoad = 1;
6698  let Uses = !if(nf, [FFR], []);
6699  let Defs = !if(nf, [FFR], []);
6700}
6701
6702multiclass sve_mem_cld_si_base<bits<4> dtype, bit nf, string asm,
6703                               RegisterOperand listty, ZPRRegOp zprty> {
6704  def _REAL : sve_mem_cld_si_base<dtype, nf, asm, listty>;
6705
6706  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6707                  (!cast<Instruction>(NAME # _REAL) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
6708  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $imm4, mul vl]",
6709                  (!cast<Instruction>(NAME # _REAL) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4), 0>;
6710  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6711                  (!cast<Instruction>(NAME # _REAL) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
6712
6713  // We need a layer of indirection because early machine code passes balk at
6714  // physical register (i.e. FFR) uses that have no previous definition.
6715  let hasSideEffects = 1, hasNoSchedulingInfo = 1, mayLoad = 1 in {
6716  def "" : Pseudo<(outs listty:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4), []>,
6717           PseudoInstExpansion<(!cast<Instruction>(NAME # _REAL) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4)>;
6718  }
6719}
6720
6721multiclass sve_mem_cld_si<bits<4> dtype, string asm, RegisterOperand listty,
6722                          ZPRRegOp zprty>
6723: sve_mem_cld_si_base<dtype, 0, asm, listty, zprty>;
6724
6725class sve_mem_cldnt_si_base<bits<2> msz, string asm, RegisterOperand VecList>
6726: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4),
6727  asm, "\t$Zt, $Pg/z, [$Rn, $imm4, mul vl]",
6728  "",
6729  []>, Sched<[]> {
6730  bits<5> Zt;
6731  bits<3> Pg;
6732  bits<5> Rn;
6733  bits<4> imm4;
6734  let Inst{31-25} = 0b1010010;
6735  let Inst{24-23} = msz;
6736  let Inst{22-20} = 0b000;
6737  let Inst{19-16} = imm4;
6738  let Inst{15-13} = 0b111;
6739  let Inst{12-10} = Pg;
6740  let Inst{9-5}   = Rn;
6741  let Inst{4-0}   = Zt;
6742
6743  let mayLoad = 1;
6744}
6745
6746multiclass sve_mem_cldnt_si<bits<2> msz, string asm, RegisterOperand listty,
6747                            ZPRRegOp zprty> {
6748  def NAME : sve_mem_cldnt_si_base<msz, asm, listty>;
6749
6750  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6751                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
6752  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $imm4, mul vl]",
6753                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s1:$imm4), 0>;
6754  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6755                  (!cast<Instruction>(NAME) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
6756}
6757
6758class sve_mem_cldnt_ss_base<bits<2> msz, string asm, RegisterOperand VecList,
6759                            RegisterOperand gprty>
6760: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
6761  asm, "\t$Zt, $Pg/z, [$Rn, $Rm]",
6762  "",
6763  []>, Sched<[]> {
6764  bits<3> Pg;
6765  bits<5> Rm;
6766  bits<5> Rn;
6767  bits<5> Zt;
6768  let Inst{31-25} = 0b1010010;
6769  let Inst{24-23} = msz;
6770  let Inst{22-21} = 0b00;
6771  let Inst{20-16} = Rm;
6772  let Inst{15-13} = 0b110;
6773  let Inst{12-10} = Pg;
6774  let Inst{9-5}   = Rn;
6775  let Inst{4-0}   = Zt;
6776
6777  let mayLoad = 1;
6778}
6779
6780multiclass sve_mem_cldnt_ss<bits<2> msz, string asm, RegisterOperand listty,
6781                            ZPRRegOp zprty, RegisterOperand gprty> {
6782  def NAME : sve_mem_cldnt_ss_base<msz, asm, listty, gprty>;
6783
6784  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Rm]",
6785                 (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
6786}
6787
6788class sve_mem_ldqr_si<bits<2> sz, string asm, RegisterOperand VecList>
6789: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, simm4s16:$imm4),
6790  asm, "\t$Zt, $Pg/z, [$Rn, $imm4]", "", []>, Sched<[]> {
6791  bits<5> Zt;
6792  bits<5> Rn;
6793  bits<3> Pg;
6794  bits<4> imm4;
6795  let Inst{31-25} = 0b1010010;
6796  let Inst{24-23} = sz;
6797  let Inst{22-20} = 0;
6798  let Inst{19-16} = imm4;
6799  let Inst{15-13} = 0b001;
6800  let Inst{12-10} = Pg;
6801  let Inst{9-5}   = Rn;
6802  let Inst{4-0}   = Zt;
6803
6804  let mayLoad = 1;
6805}
6806
6807multiclass sve_mem_ldqr_si<bits<2> sz, string asm, RegisterOperand listty,
6808                           ZPRRegOp zprty> {
6809  def NAME : sve_mem_ldqr_si<sz, asm, listty>;
6810  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6811                  (!cast<Instruction>(NAME) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
6812  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6813                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
6814  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $imm4]",
6815                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s16:$imm4), 0>;
6816}
6817
6818class sve_mem_ldqr_ss<bits<2> sz, string asm, RegisterOperand VecList,
6819                      RegisterOperand gprty>
6820: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
6821  asm, "\t$Zt, $Pg/z, [$Rn, $Rm]", "", []>, Sched<[]> {
6822  bits<5> Zt;
6823  bits<3> Pg;
6824  bits<5> Rn;
6825  bits<5> Rm;
6826  let Inst{31-25} = 0b1010010;
6827  let Inst{24-23} = sz;
6828  let Inst{22-21} = 0;
6829  let Inst{20-16} = Rm;
6830  let Inst{15-13} = 0;
6831  let Inst{12-10} = Pg;
6832  let Inst{9-5}   = Rn;
6833  let Inst{4-0}   = Zt;
6834
6835  let mayLoad = 1;
6836}
6837
6838multiclass sve_mem_ldqr_ss<bits<2> sz, string asm, RegisterOperand listty,
6839                           ZPRRegOp zprty, RegisterOperand gprty> {
6840  def NAME : sve_mem_ldqr_ss<sz, asm, listty, gprty>;
6841
6842  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Rm]",
6843                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
6844}
6845
6846class sve_mem_ld_dup<bits<2> dtypeh, bits<2> dtypel, string asm,
6847                     RegisterOperand VecList, Operand immtype>
6848: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, immtype:$imm6),
6849  asm, "\t$Zt, $Pg/z, [$Rn, $imm6]",
6850  "",
6851  []>, Sched<[]> {
6852  bits<3> Pg;
6853  bits<5> Rn;
6854  bits<5> Zt;
6855  bits<6> imm6;
6856  let Inst{31-25} = 0b1000010;
6857  let Inst{24-23} = dtypeh;
6858  let Inst{22}    = 1;
6859  let Inst{21-16} = imm6;
6860  let Inst{15}    = 0b1;
6861  let Inst{14-13} = dtypel;
6862  let Inst{12-10} = Pg;
6863  let Inst{9-5}   = Rn;
6864  let Inst{4-0}   = Zt;
6865
6866  let mayLoad = 1;
6867}
6868
6869multiclass sve_mem_ld_dup<bits<2> dtypeh, bits<2> dtypel, string asm,
6870                          RegisterOperand zlistty, ZPRRegOp zprty, Operand immtype> {
6871  def NAME : sve_mem_ld_dup<dtypeh, dtypel, asm, zlistty, immtype>;
6872
6873  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6874                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
6875  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $imm6]",
6876                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, immtype:$imm6), 0>;
6877  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6878                  (!cast<Instruction>(NAME) zlistty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
6879}
6880
6881class sve_mem_cld_ss_base<bits<4> dtype, bit ff, dag iops, string asm,
6882                          RegisterOperand VecList>
6883: I<(outs VecList:$Zt), iops,
6884  asm, "\t$Zt, $Pg/z, [$Rn, $Rm]",
6885  "",
6886  []>, Sched<[]> {
6887  bits<5> Zt;
6888  bits<3> Pg;
6889  bits<5> Rm;
6890  bits<5> Rn;
6891  let Inst{31-25} = 0b1010010;
6892  let Inst{24-21} = dtype;
6893  let Inst{20-16} = Rm;
6894  let Inst{15-14} = 0b01;
6895  let Inst{13}    = ff;
6896  let Inst{12-10} = Pg;
6897  let Inst{9-5}   = Rn;
6898  let Inst{4-0}   = Zt;
6899
6900  let mayLoad = 1;
6901  let Uses = !if(ff, [FFR], []);
6902  let Defs = !if(ff, [FFR], []);
6903}
6904
6905multiclass sve_mem_cld_ss<bits<4> dtype, string asm, RegisterOperand listty,
6906                          ZPRRegOp zprty, RegisterOperand gprty> {
6907  def "" : sve_mem_cld_ss_base<dtype, 0, (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
6908                               asm, listty>;
6909
6910  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Rm]",
6911                 (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
6912}
6913
6914multiclass sve_mem_cldff_ss<bits<4> dtype, string asm, RegisterOperand listty,
6915                            ZPRRegOp zprty, RegisterOperand gprty> {
6916  def _REAL : sve_mem_cld_ss_base<dtype, 1, (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
6917                                  asm, listty>;
6918
6919  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Rm]",
6920                 (!cast<Instruction>(NAME # _REAL) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
6921
6922  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6923                 (!cast<Instruction>(NAME # _REAL) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, XZR), 1>;
6924
6925  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6926                 (!cast<Instruction>(NAME # _REAL) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, XZR), 0>;
6927
6928  // We need a layer of indirection because early machine code passes balk at
6929  // physical register (i.e. FFR) uses that have no previous definition.
6930  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
6931  def "" : Pseudo<(outs listty:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), []>,
6932           PseudoInstExpansion<(!cast<Instruction>(NAME # _REAL) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm)>;
6933  }
6934}
6935
6936multiclass sve_mem_cldnf_si<bits<4> dtype, string asm, RegisterOperand listty,
6937                            ZPRRegOp zprty>
6938: sve_mem_cld_si_base<dtype, 1, asm, listty, zprty>;
6939
6940class sve_mem_eld_si<bits<2> sz, bits<2> nregs, RegisterOperand VecList,
6941                     string asm, Operand immtype>
6942: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, immtype:$imm4),
6943  asm, "\t$Zt, $Pg/z, [$Rn, $imm4, mul vl]",
6944  "",
6945  []>, Sched<[]> {
6946  bits<5> Zt;
6947  bits<3> Pg;
6948  bits<5> Rn;
6949  bits<4> imm4;
6950  let Inst{31-25} = 0b1010010;
6951  let Inst{24-23} = sz;
6952  let Inst{22-21} = nregs;
6953  let Inst{20}    = 0;
6954  let Inst{19-16} = imm4;
6955  let Inst{15-13} = 0b111;
6956  let Inst{12-10} = Pg;
6957  let Inst{9-5}   = Rn;
6958  let Inst{4-0}   = Zt;
6959
6960  let mayLoad = 1;
6961}
6962
6963multiclass sve_mem_eld_si<bits<2> sz, bits<2> nregs, RegisterOperand VecList,
6964                          string asm, Operand immtype> {
6965  def NAME : sve_mem_eld_si<sz, nregs, VecList, asm, immtype>;
6966
6967  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
6968                  (!cast<Instruction>(NAME) VecList:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
6969}
6970
6971class sve_mem_eld_ss<bits<2> sz, bits<2> nregs, RegisterOperand VecList,
6972                     string asm, RegisterOperand gprty>
6973: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
6974  asm, "\t$Zt, $Pg/z, [$Rn, $Rm]",
6975  "",
6976  []>, Sched<[]> {
6977  bits<3> Pg;
6978  bits<5> Rm;
6979  bits<5> Rn;
6980  bits<5> Zt;
6981  let Inst{31-25} = 0b1010010;
6982  let Inst{24-23} = sz;
6983  let Inst{22-21} = nregs;
6984  let Inst{20-16} = Rm;
6985  let Inst{15-13} = 0b110;
6986  let Inst{12-10} = Pg;
6987  let Inst{9-5}   = Rn;
6988  let Inst{4-0}   = Zt;
6989
6990  let mayLoad = 1;
6991}
6992
6993//===----------------------------------------------------------------------===//
6994// SVE Memory - 32-bit Gather and Unsized Contiguous Group
6995//===----------------------------------------------------------------------===//
6996
6997// bit xs      is '1' if offsets are signed
6998// bit scaled  is '1' if the offsets are scaled
6999class sve_mem_32b_gld_sv<bits<4> opc, bit xs, bit scaled, string asm,
7000                         RegisterOperand zprext>
7001: I<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm),
7002  asm, "\t$Zt, $Pg/z, [$Rn, $Zm]",
7003  "",
7004  []>, Sched<[]> {
7005  bits<3> Pg;
7006  bits<5> Rn;
7007  bits<5> Zm;
7008  bits<5> Zt;
7009  let Inst{31-25} = 0b1000010;
7010  let Inst{24-23} = opc{3-2};
7011  let Inst{22}    = xs;
7012  let Inst{21}    = scaled;
7013  let Inst{20-16} = Zm;
7014  let Inst{15}    = 0b0;
7015  let Inst{14-13} = opc{1-0};
7016  let Inst{12-10} = Pg;
7017  let Inst{9-5}   = Rn;
7018  let Inst{4-0}   = Zt;
7019
7020  let mayLoad = 1;
7021  let Defs = !if(!eq(opc{0}, 1), [FFR], []);
7022  let Uses = !if(!eq(opc{0}, 1), [FFR], []);
7023}
7024
7025multiclass sve_mem_32b_gld_sv_32_scaled<bits<4> opc, string asm,
7026                                        SDPatternOperator sxtw_op,
7027                                        SDPatternOperator uxtw_op,
7028                                        RegisterOperand sxtw_opnd,
7029                                        RegisterOperand uxtw_opnd,
7030                                        ValueType vt> {
7031  def _UXTW_SCALED_REAL : sve_mem_32b_gld_sv<opc, 0, 1, asm, uxtw_opnd>;
7032  def _SXTW_SCALED_REAL : sve_mem_32b_gld_sv<opc, 1, 1, asm, sxtw_opnd>;
7033
7034  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7035                  (!cast<Instruction>(NAME # _UXTW_SCALED_REAL) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
7036  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7037                  (!cast<Instruction>(NAME # _SXTW_SCALED_REAL) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
7038
7039  // We need a layer of indirection because early machine code passes balk at
7040  // physical register (i.e. FFR) uses that have no previous definition.
7041  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7042  def _UXTW_SCALED : Pseudo<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), []>,
7043                     PseudoInstExpansion<(!cast<Instruction>(NAME # _UXTW_SCALED_REAL) Z_s:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm)>;
7044  def _SXTW_SCALED : Pseudo<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), []>,
7045                     PseudoInstExpansion<(!cast<Instruction>(NAME # _SXTW_SCALED_REAL) Z_s:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm)>;
7046  }
7047
7048  def : Pat<(nxv4i32 (uxtw_op (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$indices), vt)),
7049            (!cast<Instruction>(NAME # _UXTW_SCALED) PPR:$gp, GPR64sp:$base, ZPR:$indices)>;
7050  def : Pat<(nxv4i32 (sxtw_op (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$indices), vt)),
7051            (!cast<Instruction>(NAME # _SXTW_SCALED) PPR:$gp, GPR64sp:$base, ZPR:$indices)>;
7052}
7053
7054multiclass sve_mem_32b_gld_vs_32_unscaled<bits<4> opc, string asm,
7055                                          SDPatternOperator sxtw_op,
7056                                          SDPatternOperator uxtw_op,
7057                                          RegisterOperand sxtw_opnd,
7058                                          RegisterOperand uxtw_opnd,
7059                                          ValueType vt> {
7060  def _UXTW_REAL : sve_mem_32b_gld_sv<opc, 0, 0, asm, uxtw_opnd>;
7061  def _SXTW_REAL : sve_mem_32b_gld_sv<opc, 1, 0, asm, sxtw_opnd>;
7062
7063  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7064                  (!cast<Instruction>(NAME # _UXTW_REAL) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
7065  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7066                  (!cast<Instruction>(NAME # _SXTW_REAL) ZPR32:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
7067
7068  // We need a layer of indirection because early machine code passes balk at
7069  // physical register (i.e. FFR) uses that have no previous definition.
7070  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7071  def _UXTW : Pseudo<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), []>,
7072              PseudoInstExpansion<(!cast<Instruction>(NAME # _UXTW_REAL) Z_s:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm)>;
7073  def _SXTW : Pseudo<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), []>,
7074              PseudoInstExpansion<(!cast<Instruction>(NAME # _SXTW_REAL) Z_s:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm)>;
7075  }
7076
7077  def : Pat<(nxv4i32 (uxtw_op (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$offsets), vt)),
7078            (!cast<Instruction>(NAME # _UXTW) PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
7079  def : Pat<(nxv4i32 (sxtw_op (nxv4i1 PPR:$gp), GPR64sp:$base, (nxv4i32 ZPR:$offsets), vt)),
7080            (!cast<Instruction>(NAME # _SXTW) PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
7081}
7082
7083
7084class sve_mem_32b_gld_vi<bits<4> opc, string asm, Operand imm_ty>
7085: I<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, ZPR32:$Zn, imm_ty:$imm5),
7086  asm, "\t$Zt, $Pg/z, [$Zn, $imm5]",
7087  "",
7088  []>, Sched<[]> {
7089  bits<3> Pg;
7090  bits<5> Zn;
7091  bits<5> Zt;
7092  bits<5> imm5;
7093  let Inst{31-25} = 0b1000010;
7094  let Inst{24-23} = opc{3-2};
7095  let Inst{22-21} = 0b01;
7096  let Inst{20-16} = imm5;
7097  let Inst{15}    = 0b1;
7098  let Inst{14-13} = opc{1-0};
7099  let Inst{12-10} = Pg;
7100  let Inst{9-5}   = Zn;
7101  let Inst{4-0}   = Zt;
7102
7103  let mayLoad = 1;
7104  let Defs = !if(!eq(opc{0}, 1), [FFR], []);
7105  let Uses = !if(!eq(opc{0}, 1), [FFR], []);
7106}
7107
7108multiclass sve_mem_32b_gld_vi_32_ptrs<bits<4> opc, string asm, Operand imm_ty,
7109                                      SDPatternOperator op, ValueType vt> {
7110  def _IMM_REAL : sve_mem_32b_gld_vi<opc, asm, imm_ty>;
7111
7112  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7113                  (!cast<Instruction>(NAME # _IMM_REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, 0), 0>;
7114  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn, $imm5]",
7115                  (!cast<Instruction>(NAME # _IMM_REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, imm_ty:$imm5), 0>;
7116  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7117                  (!cast<Instruction>(NAME # _IMM_REAL) Z_s:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, 0), 1>;
7118
7119  // We need a layer of indirection because early machine code passes balk at
7120  // physical register (i.e. FFR) uses that have no previous definition.
7121  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7122  def _IMM : Pseudo<(outs Z_s:$Zt), (ins PPR3bAny:$Pg, ZPR32:$Zn, imm_ty:$imm5), []>,
7123             PseudoInstExpansion<(!cast<Instruction>(NAME # _IMM_REAL) Z_s:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, imm_ty:$imm5)>;
7124  }
7125
7126  def : Pat<(nxv4i32 (op (nxv4i1 PPR:$gp), (nxv4i32 ZPR:$ptrs), imm_ty:$index, vt)),
7127            (!cast<Instruction>(NAME # _IMM) PPR:$gp, ZPR:$ptrs, imm_ty:$index)>;
7128}
7129
7130class sve_mem_prfm_si<bits<2> msz, string asm>
7131: I<(outs), (ins sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, simm6s1:$imm6),
7132  asm, "\t$prfop, $Pg, [$Rn, $imm6, mul vl]",
7133  "",
7134  []>, Sched<[]> {
7135  bits<5> Rn;
7136  bits<3> Pg;
7137  bits<6> imm6;
7138  bits<4> prfop;
7139  let Inst{31-22} = 0b1000010111;
7140  let Inst{21-16} = imm6;
7141  let Inst{15}    = 0b0;
7142  let Inst{14-13} = msz;
7143  let Inst{12-10} = Pg;
7144  let Inst{9-5}   = Rn;
7145  let Inst{4}     = 0b0;
7146  let Inst{3-0}   = prfop;
7147
7148  let hasSideEffects = 1;
7149}
7150
7151multiclass sve_mem_prfm_si<bits<2> msz, string asm> {
7152  def NAME : sve_mem_prfm_si<msz, asm>;
7153
7154  def : InstAlias<asm # "\t$prfop, $Pg, [$Rn]",
7155                  (!cast<Instruction>(NAME) sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
7156}
7157
7158class sve_mem_prfm_ss<bits<3> opc, string asm, RegisterOperand gprty>
7159: I<(outs), (ins sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
7160  asm, "\t$prfop, $Pg, [$Rn, $Rm]",
7161  "",
7162  []>, Sched<[]> {
7163  bits<5> Rm;
7164  bits<5> Rn;
7165  bits<3> Pg;
7166  bits<4> prfop;
7167  let Inst{31-25} = 0b1000010;
7168  let Inst{24-23} = opc{2-1};
7169  let Inst{22-21} = 0b00;
7170  let Inst{20-16} = Rm;
7171  let Inst{15}    = 0b1;
7172  let Inst{14}    = opc{0};
7173  let Inst{13}    = 0b0;
7174  let Inst{12-10} = Pg;
7175  let Inst{9-5}   = Rn;
7176  let Inst{4}     = 0b0;
7177  let Inst{3-0}   = prfop;
7178
7179  let hasSideEffects = 1;
7180}
7181
7182class sve_mem_32b_prfm_sv<bits<2> msz, bit xs, string asm,
7183                          RegisterOperand zprext>
7184: I<(outs), (ins sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm),
7185  asm, "\t$prfop, $Pg, [$Rn, $Zm]",
7186  "",
7187  []>, Sched<[]> {
7188  bits<3> Pg;
7189  bits<5> Rn;
7190  bits<5> Zm;
7191  bits<4> prfop;
7192  let Inst{31-23} = 0b100001000;
7193  let Inst{22}    = xs;
7194  let Inst{21}    = 0b1;
7195  let Inst{20-16} = Zm;
7196  let Inst{15}    = 0b0;
7197  let Inst{14-13} = msz;
7198  let Inst{12-10} = Pg;
7199  let Inst{9-5}   = Rn;
7200  let Inst{4}     = 0b0;
7201  let Inst{3-0}   = prfop;
7202
7203  let hasSideEffects = 1;
7204}
7205
7206multiclass sve_mem_32b_prfm_sv_scaled<bits<2> msz, string asm,
7207                                      RegisterOperand sxtw_opnd,
7208                                      RegisterOperand uxtw_opnd,
7209                                      SDPatternOperator op_sxtw,
7210                                      SDPatternOperator op_uxtw> {
7211  def _UXTW_SCALED : sve_mem_32b_prfm_sv<msz, 0, asm, uxtw_opnd>;
7212  def _SXTW_SCALED : sve_mem_32b_prfm_sv<msz, 1, asm, sxtw_opnd>;
7213
7214  def : Pat<(op_uxtw (nxv4i1 PPR3bAny:$Pg), (i64 GPR64sp:$Rn), (nxv4i32 uxtw_opnd:$Zm), (i32 sve_prfop:$prfop)),
7215            (!cast<Instruction>(NAME # _UXTW_SCALED) sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm)>;
7216
7217  def : Pat<(op_sxtw (nxv4i1 PPR3bAny:$Pg), (i64 GPR64sp:$Rn), (nxv4i32 sxtw_opnd:$Zm), (i32 sve_prfop:$prfop)),
7218            (!cast<Instruction>(NAME # _SXTW_SCALED) sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm)>;
7219}
7220
7221class sve_mem_32b_prfm_vi<bits<2> msz, string asm, Operand imm_ty>
7222: I<(outs), (ins sve_prfop:$prfop, PPR3bAny:$Pg, ZPR32:$Zn, imm_ty:$imm5),
7223  asm, "\t$prfop, $Pg, [$Zn, $imm5]",
7224  "",
7225  []>, Sched<[]> {
7226  bits<3> Pg;
7227  bits<5> Zn;
7228  bits<5> imm5;
7229  bits<4> prfop;
7230  let Inst{31-25} = 0b1000010;
7231  let Inst{24-23} = msz;
7232  let Inst{22-21} = 0b00;
7233  let Inst{20-16} = imm5;
7234  let Inst{15-13} = 0b111;
7235  let Inst{12-10} = Pg;
7236  let Inst{9-5}   = Zn;
7237  let Inst{4}     = 0b0;
7238  let Inst{3-0}   = prfop;
7239}
7240
7241multiclass sve_mem_32b_prfm_vi<bits<2> msz, string asm, Operand imm_ty, SDPatternOperator op> {
7242  def NAME : sve_mem_32b_prfm_vi<msz, asm, imm_ty>;
7243
7244  def : InstAlias<asm # "\t$prfop, $Pg, [$Zn]",
7245                  (!cast<Instruction>(NAME) sve_prfop:$prfop, PPR3bAny:$Pg, ZPR32:$Zn, 0), 1>;
7246
7247  def : Pat<(op (nxv4i1 PPR_3b:$Pg), (nxv4i32 ZPR32:$Zn), (i64 imm_ty:$imm), (i32 sve_prfop:$prfop)),
7248            (!cast<Instruction>(NAME) sve_prfop:$prfop, PPR_3b:$Pg, ZPR32:$Zn, imm_ty:$imm)>;
7249}
7250
7251class sve_mem_z_fill<string asm>
7252: I<(outs ZPRAny:$Zt), (ins GPR64sp:$Rn, simm9:$imm9),
7253  asm, "\t$Zt, [$Rn, $imm9, mul vl]",
7254  "",
7255  []>, Sched<[]> {
7256  bits<5> Rn;
7257  bits<5> Zt;
7258  bits<9> imm9;
7259  let Inst{31-22} = 0b1000010110;
7260  let Inst{21-16} = imm9{8-3};
7261  let Inst{15-13} = 0b010;
7262  let Inst{12-10} = imm9{2-0};
7263  let Inst{9-5}   = Rn;
7264  let Inst{4-0}   = Zt;
7265
7266  let mayLoad = 1;
7267}
7268
7269multiclass sve_mem_z_fill<string asm> {
7270  def NAME : sve_mem_z_fill<asm>;
7271
7272  def : InstAlias<asm # "\t$Zt, [$Rn]",
7273                  (!cast<Instruction>(NAME) ZPRAny:$Zt, GPR64sp:$Rn, 0), 1>;
7274}
7275
7276class sve_mem_p_fill<string asm>
7277: I<(outs PPRAny:$Pt), (ins GPR64sp:$Rn, simm9:$imm9),
7278  asm, "\t$Pt, [$Rn, $imm9, mul vl]",
7279  "",
7280  []>, Sched<[]> {
7281  bits<4> Pt;
7282  bits<5> Rn;
7283  bits<9> imm9;
7284  let Inst{31-22} = 0b1000010110;
7285  let Inst{21-16} = imm9{8-3};
7286  let Inst{15-13} = 0b000;
7287  let Inst{12-10} = imm9{2-0};
7288  let Inst{9-5}   = Rn;
7289  let Inst{4}     = 0b0;
7290  let Inst{3-0}   = Pt;
7291
7292  let mayLoad = 1;
7293}
7294
7295multiclass sve_mem_p_fill<string asm> {
7296  def NAME : sve_mem_p_fill<asm>;
7297
7298  def : InstAlias<asm # "\t$Pt, [$Rn]",
7299                  (!cast<Instruction>(NAME) PPRAny:$Pt, GPR64sp:$Rn, 0), 1>;
7300}
7301
7302class sve2_mem_gldnt_vs_base<bits<5> opc, dag iops, string asm,
7303                             RegisterOperand VecList>
7304: I<(outs VecList:$Zt), iops,
7305  asm, "\t$Zt, $Pg/z, [$Zn, $Rm]",
7306  "",
7307  []>, Sched<[]> {
7308  bits<3> Pg;
7309  bits<5> Rm;
7310  bits<5> Zn;
7311  bits<5> Zt;
7312  let Inst{31}    = 0b1;
7313  let Inst{30}    = opc{4};
7314  let Inst{29-25} = 0b00010;
7315  let Inst{24-23} = opc{3-2};
7316  let Inst{22-21} = 0b00;
7317  let Inst{20-16} = Rm;
7318  let Inst{15}    = 0b1;
7319  let Inst{14-13} = opc{1-0};
7320  let Inst{12-10} = Pg;
7321  let Inst{9-5}   = Zn;
7322  let Inst{4-0}   = Zt;
7323
7324  let mayLoad = 1;
7325}
7326
7327multiclass sve2_mem_gldnt_vs_32_ptrs<bits<5> opc, string asm,
7328                                  SDPatternOperator op,
7329                                  ValueType vt> {
7330  def _REAL : sve2_mem_gldnt_vs_base<opc, (ins PPR3bAny:$Pg, ZPR32:$Zn, GPR64:$Rm),
7331                                     asm, Z_s>;
7332
7333  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn, $Rm]",
7334                 (!cast<Instruction>(NAME # _REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, GPR64:$Rm), 0>;
7335  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7336                 (!cast<Instruction>(NAME # _REAL) ZPR32:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, XZR), 0>;
7337  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7338                 (!cast<Instruction>(NAME # _REAL) Z_s:$Zt, PPR3bAny:$Pg, ZPR32:$Zn, XZR), 1>;
7339
7340  def : Pat <(nxv4i32 (op (nxv4i1 PPR3bAny:$Pg), (nxv4i32 ZPR32:$Zd), (i64 GPR64:$Rm), vt)),
7341             (!cast<Instruction>(NAME # _REAL) PPR3bAny:$Pg, ZPR32:$Zd, GPR64:$Rm)>;
7342}
7343
7344multiclass sve2_mem_gldnt_vs_64_ptrs<bits<5> opc, string asm,
7345                                   SDPatternOperator op,
7346                                   ValueType vt> {
7347  def _REAL : sve2_mem_gldnt_vs_base<opc, (ins PPR3bAny:$Pg, ZPR64:$Zn, GPR64:$Rm),
7348                                     asm, Z_d>;
7349
7350  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn, $Rm]",
7351                 (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, GPR64:$Rm), 0>;
7352  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7353                 (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, XZR), 0>;
7354  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7355                 (!cast<Instruction>(NAME # _REAL) Z_d:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, XZR), 1>;
7356
7357  def : Pat <(nxv2i64 (op (nxv2i1 PPR3bAny:$Pg), (nxv2i64 ZPR64:$Zd), (i64 GPR64:$Rm), vt)),
7358             (!cast<Instruction>(NAME # _REAL) PPR3bAny:$Pg, ZPR64:$Zd, GPR64:$Rm)>;
7359}
7360
7361//===----------------------------------------------------------------------===//
7362// SVE Memory - 64-bit Gather Group
7363//===----------------------------------------------------------------------===//
7364
7365// bit xs      is '1' if offsets are signed
7366// bit scaled  is '1' if the offsets are scaled
7367// bit lsl     is '0' if the offsets are extended (uxtw/sxtw), '1' if shifted (lsl)
7368class sve_mem_64b_gld_sv<bits<4> opc, bit xs, bit scaled, bit lsl, string asm,
7369                         RegisterOperand zprext>
7370: I<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm),
7371  asm, "\t$Zt, $Pg/z, [$Rn, $Zm]",
7372  "",
7373  []>, Sched<[]> {
7374  bits<3> Pg;
7375  bits<5> Rn;
7376  bits<5> Zm;
7377  bits<5> Zt;
7378  let Inst{31-25} = 0b1100010;
7379  let Inst{24-23} = opc{3-2};
7380  let Inst{22}    = xs;
7381  let Inst{21}    = scaled;
7382  let Inst{20-16} = Zm;
7383  let Inst{15}    = lsl;
7384  let Inst{14-13} = opc{1-0};
7385  let Inst{12-10} = Pg;
7386  let Inst{9-5}   = Rn;
7387  let Inst{4-0}   = Zt;
7388
7389  let mayLoad = 1;
7390  let Defs = !if(!eq(opc{0}, 1), [FFR], []);
7391  let Uses = !if(!eq(opc{0}, 1), [FFR], []);
7392}
7393
7394multiclass sve_mem_64b_gld_sv_32_scaled<bits<4> opc, string asm,
7395                                        SDPatternOperator sxtw_op,
7396                                        SDPatternOperator uxtw_op,
7397                                        RegisterOperand sxtw_opnd,
7398                                        RegisterOperand uxtw_opnd,
7399                                        ValueType vt> {
7400  def _UXTW_SCALED_REAL : sve_mem_64b_gld_sv<opc, 0, 1, 0, asm, uxtw_opnd>;
7401  def _SXTW_SCALED_REAL : sve_mem_64b_gld_sv<opc, 1, 1, 0, asm, sxtw_opnd>;
7402
7403  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7404                  (!cast<Instruction>(NAME # _UXTW_SCALED_REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
7405  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7406                  (!cast<Instruction>(NAME # _SXTW_SCALED_REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
7407
7408  // We need a layer of indirection because early machine code passes balk at
7409  // physical register (i.e. FFR) uses that have no previous definition.
7410  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7411  def _UXTW_SCALED : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), []>,
7412                     PseudoInstExpansion<(!cast<Instruction>(NAME # _UXTW_SCALED_REAL) Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm)>;
7413  def _SXTW_SCALED : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), []>,
7414                     PseudoInstExpansion<(!cast<Instruction>(NAME # _SXTW_SCALED_REAL) Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm)>;
7415  }
7416
7417  def : Pat<(nxv2i64 (uxtw_op (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$indices), vt)),
7418            (!cast<Instruction>(NAME # _UXTW_SCALED) PPR:$gp, GPR64sp:$base, ZPR:$indices)>;
7419  def : Pat<(nxv2i64 (sxtw_op (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$indices), vt)),
7420            (!cast<Instruction>(NAME # _SXTW_SCALED) PPR:$gp, GPR64sp:$base, ZPR:$indices)>;
7421}
7422
7423multiclass sve_mem_64b_gld_vs_32_unscaled<bits<4> opc, string asm,
7424                                          SDPatternOperator sxtw_op,
7425                                          SDPatternOperator uxtw_op,
7426                                          RegisterOperand sxtw_opnd,
7427                                          RegisterOperand uxtw_opnd,
7428                                          ValueType vt> {
7429  def _UXTW_REAL : sve_mem_64b_gld_sv<opc, 0, 0, 0, asm, uxtw_opnd>;
7430  def _SXTW_REAL : sve_mem_64b_gld_sv<opc, 1, 0, 0, asm, sxtw_opnd>;
7431
7432  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7433                  (!cast<Instruction>(NAME # _UXTW_REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), 0>;
7434  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7435                  (!cast<Instruction>(NAME # _SXTW_REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), 0>;
7436
7437  // We need a layer of indirection because early machine code passes balk at
7438  // physical register (i.e. FFR) uses that have no previous definition.
7439  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7440  def _UXTW : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm), []>,
7441              PseudoInstExpansion<(!cast<Instruction>(NAME # _UXTW_REAL) Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm)>;
7442  def _SXTW : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm), []>,
7443              PseudoInstExpansion<(!cast<Instruction>(NAME # _SXTW_REAL) Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm)>;
7444  }
7445
7446  def : Pat<(nxv2i64 (uxtw_op (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt)),
7447            (!cast<Instruction>(NAME # _UXTW) PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
7448  def : Pat<(nxv2i64 (sxtw_op (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt)),
7449            (!cast<Instruction>(NAME # _SXTW) PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
7450}
7451
7452multiclass sve_mem_64b_gld_sv2_64_scaled<bits<4> opc, string asm,
7453                                         SDPatternOperator op,
7454                                         RegisterOperand zprext, ValueType vt> {
7455  def _SCALED_REAL : sve_mem_64b_gld_sv<opc, 1, 1, 1, asm, zprext>;
7456
7457  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7458                  (!cast<Instruction>(NAME # _SCALED_REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm), 0>;
7459
7460  // We need a layer of indirection because early machine code passes balk at
7461  // physical register (i.e. FFR) uses that have no previous definition.
7462  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7463  def _SCALED : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm), []>,
7464                PseudoInstExpansion<(!cast<Instruction>(NAME # _SCALED_REAL) Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm)>;
7465  }
7466
7467  def : Pat<(nxv2i64 (op (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$indices), vt)),
7468                     (!cast<Instruction>(NAME # _SCALED) PPR:$gp, GPR64sp:$base, ZPR:$indices)>;
7469}
7470
7471multiclass sve_mem_64b_gld_vs2_64_unscaled<bits<4> opc, string asm,
7472                                           SDPatternOperator op, ValueType vt> {
7473  def _REAL : sve_mem_64b_gld_sv<opc, 1, 0, 1, asm, ZPR64ExtLSL8>;
7474
7475  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Zm]",
7476                  (!cast<Instruction>(NAME # _REAL) ZPR64:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, ZPR64ExtLSL8:$Zm), 0>;
7477
7478  // We need a layer of indirection because early machine code passes balk at
7479  // physical register (i.e. FFR) uses that have no previous definition.
7480  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7481  def "" : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, ZPR64ExtLSL8:$Zm), []>,
7482           PseudoInstExpansion<(!cast<Instruction>(NAME # _REAL) Z_d:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, ZPR64ExtLSL8:$Zm)>;
7483  }
7484
7485  def : Pat<(nxv2i64 (op (nxv2i1 PPR:$gp), GPR64sp:$base, (nxv2i64 ZPR:$offsets), vt)),
7486            (!cast<Instruction>(NAME) PPR:$gp, GPR64sp:$base, ZPR:$offsets)>;
7487}
7488
7489class sve_mem_64b_gld_vi<bits<4> opc, string asm, Operand imm_ty>
7490: I<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, ZPR64:$Zn, imm_ty:$imm5),
7491  asm, "\t$Zt, $Pg/z, [$Zn, $imm5]",
7492  "",
7493  []>, Sched<[]> {
7494  bits<3> Pg;
7495  bits<5> Zn;
7496  bits<5> Zt;
7497  bits<5> imm5;
7498  let Inst{31-25} = 0b1100010;
7499  let Inst{24-23} = opc{3-2};
7500  let Inst{22-21} = 0b01;
7501  let Inst{20-16} = imm5;
7502  let Inst{15}    = 0b1;
7503  let Inst{14-13} = opc{1-0};
7504  let Inst{12-10} = Pg;
7505  let Inst{9-5}   = Zn;
7506  let Inst{4-0}   = Zt;
7507
7508  let mayLoad = 1;
7509  let Defs = !if(!eq(opc{0}, 1), [FFR], []);
7510  let Uses = !if(!eq(opc{0}, 1), [FFR], []);
7511}
7512
7513multiclass sve_mem_64b_gld_vi_64_ptrs<bits<4> opc, string asm, Operand imm_ty,
7514                                      SDPatternOperator op, ValueType vt> {
7515  def _IMM_REAL : sve_mem_64b_gld_vi<opc, asm, imm_ty>;
7516
7517  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7518                  (!cast<Instruction>(NAME # _IMM_REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, 0), 0>;
7519  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn, $imm5]",
7520                 (!cast<Instruction>(NAME # _IMM_REAL) ZPR64:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, imm_ty:$imm5), 0>;
7521  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Zn]",
7522                  (!cast<Instruction>(NAME # _IMM_REAL) Z_d:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, 0), 1>;
7523
7524  // We need a layer of indirection because early machine code passes balk at
7525  // physical register (i.e. FFR) uses that have no previous definition.
7526  let hasSideEffects = 1, hasNoSchedulingInfo = 1 in {
7527  def _IMM : Pseudo<(outs Z_d:$Zt), (ins PPR3bAny:$Pg, ZPR64:$Zn, imm_ty:$imm5), []>,
7528                  PseudoInstExpansion<(!cast<Instruction>(NAME # _IMM_REAL) Z_d:$Zt, PPR3bAny:$Pg, ZPR64:$Zn, imm_ty:$imm5)>;
7529  }
7530
7531  def : Pat<(nxv2i64 (op (nxv2i1 PPR:$gp), (nxv2i64 ZPR:$ptrs), imm_ty:$index, vt)),
7532            (!cast<Instruction>(NAME # _IMM) PPR:$gp, ZPR:$ptrs, imm_ty:$index)>;
7533}
7534
7535// bit lsl is '0' if the offsets are extended (uxtw/sxtw), '1' if shifted (lsl)
7536class sve_mem_64b_prfm_sv<bits<2> msz, bit xs, bit lsl, string asm,
7537                          RegisterOperand zprext>
7538: I<(outs), (ins sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm),
7539  asm, "\t$prfop, $Pg, [$Rn, $Zm]",
7540  "",
7541  []>, Sched<[]> {
7542  bits<3> Pg;
7543  bits<5> Rn;
7544  bits<5> Zm;
7545  bits<4> prfop;
7546  let Inst{31-23} = 0b110001000;
7547  let Inst{22}    = xs;
7548  let Inst{21}    = 0b1;
7549  let Inst{20-16} = Zm;
7550  let Inst{15}    = lsl;
7551  let Inst{14-13} = msz;
7552  let Inst{12-10} = Pg;
7553  let Inst{9-5}   = Rn;
7554  let Inst{4}     = 0b0;
7555  let Inst{3-0}   = prfop;
7556
7557  let hasSideEffects = 1;
7558}
7559
7560multiclass sve_mem_64b_prfm_sv_ext_scaled<bits<2> msz, string asm,
7561                                          RegisterOperand sxtw_opnd,
7562                                          RegisterOperand uxtw_opnd,
7563                                          SDPatternOperator op_sxtw,
7564                                          SDPatternOperator op_uxtw> {
7565  def _UXTW_SCALED : sve_mem_64b_prfm_sv<msz, 0, 0, asm, uxtw_opnd>;
7566  def _SXTW_SCALED : sve_mem_64b_prfm_sv<msz, 1, 0, asm, sxtw_opnd>;
7567
7568  def : Pat<(op_uxtw (nxv2i1 PPR3bAny:$Pg), (i64 GPR64sp:$Rn), (nxv2i64 uxtw_opnd:$Zm), (i32 sve_prfop:$prfop)),
7569            (!cast<Instruction>(NAME # _UXTW_SCALED) sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, uxtw_opnd:$Zm)>;
7570
7571  def : Pat<(op_sxtw (nxv2i1 PPR3bAny:$Pg), (i64 GPR64sp:$Rn), (nxv2i64 sxtw_opnd:$Zm), (i32 sve_prfop:$prfop)),
7572            (!cast<Instruction>(NAME # _SXTW_SCALED) sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, sxtw_opnd:$Zm)>;
7573
7574}
7575
7576multiclass sve_mem_64b_prfm_sv_lsl_scaled<bits<2> msz, string asm,
7577                                          RegisterOperand zprext, SDPatternOperator frag> {
7578  def NAME : sve_mem_64b_prfm_sv<msz, 1, 1, asm, zprext>;
7579
7580  def : Pat<(frag (nxv2i1 PPR3bAny:$Pg), (i64 GPR64sp:$Rn), (nxv2i64 zprext:$Zm), (i32 sve_prfop:$prfop)),
7581            (!cast<Instruction>(NAME) sve_prfop:$prfop, PPR3bAny:$Pg, GPR64sp:$Rn, zprext:$Zm)>;
7582
7583}
7584
7585class sve_mem_64b_prfm_vi<bits<2> msz, string asm, Operand imm_ty>
7586: I<(outs), (ins sve_prfop:$prfop, PPR3bAny:$Pg, ZPR64:$Zn, imm_ty:$imm5),
7587  asm, "\t$prfop, $Pg, [$Zn, $imm5]",
7588  "",
7589  []>, Sched<[]> {
7590  bits<3> Pg;
7591  bits<5> Zn;
7592  bits<5> imm5;
7593  bits<4> prfop;
7594  let Inst{31-25} = 0b1100010;
7595  let Inst{24-23} = msz;
7596  let Inst{22-21} = 0b00;
7597  let Inst{20-16} = imm5;
7598  let Inst{15-13} = 0b111;
7599  let Inst{12-10} = Pg;
7600  let Inst{9-5}   = Zn;
7601  let Inst{4}     = 0b0;
7602  let Inst{3-0}   = prfop;
7603
7604  let hasSideEffects = 1;
7605}
7606
7607multiclass sve_mem_64b_prfm_vi<bits<2> msz, string asm, Operand imm_ty, SDPatternOperator op> {
7608  def NAME : sve_mem_64b_prfm_vi<msz, asm, imm_ty>;
7609
7610  def : InstAlias<asm # "\t$prfop, $Pg, [$Zn]",
7611                  (!cast<Instruction>(NAME) sve_prfop:$prfop, PPR3bAny:$Pg, ZPR64:$Zn, 0), 1>;
7612
7613  def : Pat<(op (nxv2i1 PPR_3b:$Pg), (nxv2i64 ZPR32:$Zn), (i64 imm_ty:$imm), (i32 sve_prfop:$prfop)),
7614            (!cast<Instruction>(NAME) sve_prfop:$prfop, PPR_3b:$Pg, ZPR32:$Zn, imm_ty:$imm)>;
7615}
7616
7617//===----------------------------------------------------------------------===//
7618// SVE Compute Vector Address Group
7619//===----------------------------------------------------------------------===//
7620
7621class sve_int_bin_cons_misc_0_a<bits<2> opc, bits<2> msz, string asm,
7622                                ZPRRegOp zprty, RegisterOperand zprext>
7623: I<(outs zprty:$Zd), (ins zprty:$Zn, zprext:$Zm),
7624  asm, "\t$Zd, [$Zn, $Zm]",
7625  "",
7626  []>, Sched<[]> {
7627  bits<5> Zd;
7628  bits<5> Zn;
7629  bits<5> Zm;
7630  let Inst{31-24} = 0b00000100;
7631  let Inst{23-22} = opc;
7632  let Inst{21}    = 0b1;
7633  let Inst{20-16} = Zm;
7634  let Inst{15-12} = 0b1010;
7635  let Inst{11-10} = msz;
7636  let Inst{9-5}   = Zn;
7637  let Inst{4-0}   = Zd;
7638}
7639
7640multiclass sve_int_bin_cons_misc_0_a_uxtw<bits<2> opc, string asm> {
7641  def _0 : sve_int_bin_cons_misc_0_a<opc, 0b00, asm, ZPR64, ZPR64ExtUXTW8>;
7642  def _1 : sve_int_bin_cons_misc_0_a<opc, 0b01, asm, ZPR64, ZPR64ExtUXTW16>;
7643  def _2 : sve_int_bin_cons_misc_0_a<opc, 0b10, asm, ZPR64, ZPR64ExtUXTW32>;
7644  def _3 : sve_int_bin_cons_misc_0_a<opc, 0b11, asm, ZPR64, ZPR64ExtUXTW64>;
7645}
7646
7647multiclass sve_int_bin_cons_misc_0_a_sxtw<bits<2> opc, string asm> {
7648  def _0 : sve_int_bin_cons_misc_0_a<opc, 0b00, asm, ZPR64, ZPR64ExtSXTW8>;
7649  def _1 : sve_int_bin_cons_misc_0_a<opc, 0b01, asm, ZPR64, ZPR64ExtSXTW16>;
7650  def _2 : sve_int_bin_cons_misc_0_a<opc, 0b10, asm, ZPR64, ZPR64ExtSXTW32>;
7651  def _3 : sve_int_bin_cons_misc_0_a<opc, 0b11, asm, ZPR64, ZPR64ExtSXTW64>;
7652}
7653
7654multiclass sve_int_bin_cons_misc_0_a_32_lsl<bits<2> opc, string asm> {
7655  def _0 : sve_int_bin_cons_misc_0_a<opc, 0b00, asm, ZPR32, ZPR32ExtLSL8>;
7656  def _1 : sve_int_bin_cons_misc_0_a<opc, 0b01, asm, ZPR32, ZPR32ExtLSL16>;
7657  def _2 : sve_int_bin_cons_misc_0_a<opc, 0b10, asm, ZPR32, ZPR32ExtLSL32>;
7658  def _3 : sve_int_bin_cons_misc_0_a<opc, 0b11, asm, ZPR32, ZPR32ExtLSL64>;
7659}
7660
7661multiclass sve_int_bin_cons_misc_0_a_64_lsl<bits<2> opc, string asm> {
7662  def _0 : sve_int_bin_cons_misc_0_a<opc, 0b00, asm, ZPR64, ZPR64ExtLSL8>;
7663  def _1 : sve_int_bin_cons_misc_0_a<opc, 0b01, asm, ZPR64, ZPR64ExtLSL16>;
7664  def _2 : sve_int_bin_cons_misc_0_a<opc, 0b10, asm, ZPR64, ZPR64ExtLSL32>;
7665  def _3 : sve_int_bin_cons_misc_0_a<opc, 0b11, asm, ZPR64, ZPR64ExtLSL64>;
7666}
7667
7668//===----------------------------------------------------------------------===//
7669// SVE Integer Misc - Unpredicated Group
7670//===----------------------------------------------------------------------===//
7671
7672class sve_int_bin_cons_misc_0_b<bits<2> sz, string asm, ZPRRegOp zprty>
7673: I<(outs zprty:$Zd), (ins zprty:$Zn, zprty:$Zm),
7674  asm, "\t$Zd, $Zn, $Zm",
7675  "",
7676  []>, Sched<[]> {
7677  bits<5> Zd;
7678  bits<5> Zm;
7679  bits<5> Zn;
7680  let Inst{31-24} = 0b00000100;
7681  let Inst{23-22} = sz;
7682  let Inst{21}    = 0b1;
7683  let Inst{20-16} = Zm;
7684  let Inst{15-10} = 0b101100;
7685  let Inst{9-5}   = Zn;
7686  let Inst{4-0}   = Zd;
7687}
7688
7689multiclass sve_int_bin_cons_misc_0_b<string asm, SDPatternOperator op> {
7690  def _H : sve_int_bin_cons_misc_0_b<0b01, asm, ZPR16>;
7691  def _S : sve_int_bin_cons_misc_0_b<0b10, asm, ZPR32>;
7692  def _D : sve_int_bin_cons_misc_0_b<0b11, asm, ZPR64>;
7693
7694  def : SVE_2_Op_Pat<nxv8f16, op, nxv8f16, nxv8i16, !cast<Instruction>(NAME # _H)>;
7695  def : SVE_2_Op_Pat<nxv4f32, op, nxv4f32, nxv4i32, !cast<Instruction>(NAME # _S)>;
7696  def : SVE_2_Op_Pat<nxv2f64, op, nxv2f64, nxv2i64, !cast<Instruction>(NAME # _D)>;
7697}
7698
7699class sve_int_bin_cons_misc_0_c<bits<8> opc, string asm, ZPRRegOp zprty>
7700: I<(outs zprty:$Zd), (ins zprty:$Zn),
7701  asm, "\t$Zd, $Zn",
7702  "",
7703  []>, Sched<[]> {
7704  bits<5> Zd;
7705  bits<5> Zn;
7706  let Inst{31-24} = 0b00000100;
7707  let Inst{23-22} = opc{7-6};
7708  let Inst{21}    = 0b1;
7709  let Inst{20-16} = opc{5-1};
7710  let Inst{15-11} = 0b10111;
7711  let Inst{10}    = opc{0};
7712  let Inst{9-5}   = Zn;
7713  let Inst{4-0}   = Zd;
7714}
7715
7716multiclass sve_int_bin_cons_misc_0_c_fexpa<string asm, SDPatternOperator op> {
7717  def _H : sve_int_bin_cons_misc_0_c<0b01000000, asm, ZPR16>;
7718  def _S : sve_int_bin_cons_misc_0_c<0b10000000, asm, ZPR32>;
7719  def _D : sve_int_bin_cons_misc_0_c<0b11000000, asm, ZPR64>;
7720
7721  def : SVE_1_Op_Pat<nxv8f16, op, nxv8i16, !cast<Instruction>(NAME # _H)>;
7722  def : SVE_1_Op_Pat<nxv4f32, op, nxv4i32, !cast<Instruction>(NAME # _S)>;
7723  def : SVE_1_Op_Pat<nxv2f64, op, nxv2i64, !cast<Instruction>(NAME # _D)>;
7724}
7725
7726//===----------------------------------------------------------------------===//
7727// SVE Integer Reduction Group
7728//===----------------------------------------------------------------------===//
7729
7730class sve_int_reduce<bits<2> sz8_32, bits<2> fmt, bits<3> opc, string asm,
7731                     ZPRRegOp zprty, FPRasZPROperand dstOpType>
7732: I<(outs dstOpType:$Vd), (ins PPR3bAny:$Pg, zprty:$Zn),
7733  asm, "\t$Vd, $Pg, $Zn",
7734  "",
7735  []>, Sched<[]> {
7736  bits<3> Pg;
7737  bits<5> Vd;
7738  bits<5> Zn;
7739  let Inst{31-24} = 0b00000100;
7740  let Inst{23-22} = sz8_32;
7741  let Inst{21}    = 0b0;
7742  let Inst{20-19} = fmt;
7743  let Inst{18-16} = opc;
7744  let Inst{15-13} = 0b001;
7745  let Inst{12-10} = Pg;
7746  let Inst{9-5}   = Zn;
7747  let Inst{4-0}   = Vd;
7748}
7749
7750multiclass sve_int_reduce_0_saddv<bits<3> opc, string asm,
7751                                  SDPatternOperator op> {
7752  def _B : sve_int_reduce<0b00, 0b00, opc, asm, ZPR8, FPR64asZPR>;
7753  def _H : sve_int_reduce<0b01, 0b00, opc, asm, ZPR16, FPR64asZPR>;
7754  def _S : sve_int_reduce<0b10, 0b00, opc, asm, ZPR32, FPR64asZPR>;
7755
7756  def : SVE_2_Op_Pat<nxv2i64, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
7757  def : SVE_2_Op_Pat<nxv2i64, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
7758  def : SVE_2_Op_Pat<nxv2i64, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
7759}
7760
7761multiclass sve_int_reduce_0_uaddv<bits<3> opc, string asm,
7762                                  SDPatternOperator op> {
7763  def _B : sve_int_reduce<0b00, 0b00, opc, asm, ZPR8, FPR64asZPR>;
7764  def _H : sve_int_reduce<0b01, 0b00, opc, asm, ZPR16, FPR64asZPR>;
7765  def _S : sve_int_reduce<0b10, 0b00, opc, asm, ZPR32, FPR64asZPR>;
7766  def _D : sve_int_reduce<0b11, 0b00, opc, asm, ZPR64, FPR64asZPR>;
7767
7768  def : SVE_2_Op_Pat<nxv2i64, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
7769  def : SVE_2_Op_Pat<nxv2i64, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
7770  def : SVE_2_Op_Pat<nxv2i64, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
7771  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
7772}
7773
7774multiclass sve_int_reduce_1<bits<3> opc, string asm,
7775                            SDPatternOperator op> {
7776  def _B : sve_int_reduce<0b00, 0b01, opc, asm, ZPR8, FPR8asZPR>;
7777  def _H : sve_int_reduce<0b01, 0b01, opc, asm, ZPR16, FPR16asZPR>;
7778  def _S : sve_int_reduce<0b10, 0b01, opc, asm, ZPR32, FPR32asZPR>;
7779  def _D : sve_int_reduce<0b11, 0b01, opc, asm, ZPR64, FPR64asZPR>;
7780
7781  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
7782  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
7783  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
7784  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
7785}
7786
7787multiclass sve_int_reduce_2<bits<3> opc, string asm,
7788                            SDPatternOperator op> {
7789  def _B : sve_int_reduce<0b00, 0b11, opc, asm, ZPR8, FPR8asZPR>;
7790  def _H : sve_int_reduce<0b01, 0b11, opc, asm, ZPR16, FPR16asZPR>;
7791  def _S : sve_int_reduce<0b10, 0b11, opc, asm, ZPR32, FPR32asZPR>;
7792  def _D : sve_int_reduce<0b11, 0b11, opc, asm, ZPR64, FPR64asZPR>;
7793
7794  def : SVE_2_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, !cast<Instruction>(NAME # _B)>;
7795  def : SVE_2_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, !cast<Instruction>(NAME # _H)>;
7796  def : SVE_2_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, !cast<Instruction>(NAME # _S)>;
7797  def : SVE_2_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, !cast<Instruction>(NAME # _D)>;
7798}
7799
7800class sve_int_movprfx_pred<bits<2> sz8_32, bits<3> opc, string asm,
7801                           ZPRRegOp zprty, string pg_suffix, dag iops>
7802: I<(outs zprty:$Zd), iops,
7803  asm, "\t$Zd, $Pg"#pg_suffix#", $Zn",
7804  "",
7805  []>, Sched<[]> {
7806  bits<3> Pg;
7807  bits<5> Zd;
7808  bits<5> Zn;
7809  let Inst{31-24} = 0b00000100;
7810  let Inst{23-22} = sz8_32;
7811  let Inst{21-19} = 0b010;
7812  let Inst{18-16} = opc;
7813  let Inst{15-13} = 0b001;
7814  let Inst{12-10} = Pg;
7815  let Inst{9-5}   = Zn;
7816  let Inst{4-0}   = Zd;
7817
7818  let ElementSize = zprty.ElementSize;
7819}
7820
7821multiclass sve_int_movprfx_pred_merge<bits<3> opc, string asm> {
7822let Constraints = "$Zd = $_Zd" in {
7823  def _B : sve_int_movprfx_pred<0b00, opc, asm, ZPR8, "/m",
7824                                (ins ZPR8:$_Zd, PPR3bAny:$Pg, ZPR8:$Zn)>;
7825  def _H : sve_int_movprfx_pred<0b01, opc, asm, ZPR16, "/m",
7826                                (ins ZPR16:$_Zd, PPR3bAny:$Pg, ZPR16:$Zn)>;
7827  def _S : sve_int_movprfx_pred<0b10, opc, asm, ZPR32, "/m",
7828                                (ins ZPR32:$_Zd, PPR3bAny:$Pg, ZPR32:$Zn)>;
7829  def _D : sve_int_movprfx_pred<0b11, opc, asm, ZPR64, "/m",
7830                                (ins ZPR64:$_Zd, PPR3bAny:$Pg, ZPR64:$Zn)>;
7831}
7832}
7833
7834multiclass sve_int_movprfx_pred_zero<bits<3> opc, string asm> {
7835  def _B : sve_int_movprfx_pred<0b00, opc, asm, ZPR8, "/z",
7836                                (ins PPR3bAny:$Pg, ZPR8:$Zn)>;
7837  def _H : sve_int_movprfx_pred<0b01, opc, asm, ZPR16, "/z",
7838                                (ins PPR3bAny:$Pg, ZPR16:$Zn)>;
7839  def _S : sve_int_movprfx_pred<0b10, opc, asm, ZPR32, "/z",
7840                                (ins PPR3bAny:$Pg, ZPR32:$Zn)>;
7841  def _D : sve_int_movprfx_pred<0b11, opc, asm, ZPR64, "/z",
7842                                (ins PPR3bAny:$Pg, ZPR64:$Zn)>;
7843}
7844
7845//===----------------------------------------------------------------------===//
7846// SVE Propagate Break Group
7847//===----------------------------------------------------------------------===//
7848
7849class sve_int_brkp<bits<2> opc, string asm>
7850: I<(outs PPR8:$Pd), (ins PPRAny:$Pg, PPR8:$Pn, PPR8:$Pm),
7851  asm, "\t$Pd, $Pg/z, $Pn, $Pm",
7852  "",
7853  []>, Sched<[]> {
7854  bits<4> Pd;
7855  bits<4> Pg;
7856  bits<4> Pm;
7857  bits<4> Pn;
7858  let Inst{31-24} = 0b00100101;
7859  let Inst{23}    = 0b0;
7860  let Inst{22}    = opc{1};
7861  let Inst{21-20} = 0b00;
7862  let Inst{19-16} = Pm;
7863  let Inst{15-14} = 0b11;
7864  let Inst{13-10} = Pg;
7865  let Inst{9}     = 0b0;
7866  let Inst{8-5}   = Pn;
7867  let Inst{4}     = opc{0};
7868  let Inst{3-0}   = Pd;
7869
7870  let Defs = !if(!eq (opc{1}, 1), [NZCV], []);
7871}
7872
7873multiclass sve_int_brkp<bits<2> opc, string asm, SDPatternOperator op> {
7874  def NAME : sve_int_brkp<opc, asm>;
7875
7876  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, nxv16i1, !cast<Instruction>(NAME)>;
7877}
7878
7879
7880//===----------------------------------------------------------------------===//
7881// SVE Partition Break Group
7882//===----------------------------------------------------------------------===//
7883
7884class sve_int_brkn<bit S, string asm>
7885: I<(outs PPR8:$Pdm), (ins PPRAny:$Pg, PPR8:$Pn, PPR8:$_Pdm),
7886  asm, "\t$Pdm, $Pg/z, $Pn, $_Pdm",
7887  "",
7888  []>, Sched<[]> {
7889  bits<4> Pdm;
7890  bits<4> Pg;
7891  bits<4> Pn;
7892  let Inst{31-23} = 0b001001010;
7893  let Inst{22}    = S;
7894  let Inst{21-14} = 0b01100001;
7895  let Inst{13-10} = Pg;
7896  let Inst{9}     = 0b0;
7897  let Inst{8-5}   = Pn;
7898  let Inst{4}     = 0b0;
7899  let Inst{3-0}   = Pdm;
7900
7901  let Constraints = "$Pdm = $_Pdm";
7902  let Defs = !if(S, [NZCV], []);
7903}
7904
7905multiclass sve_int_brkn<bits<1> opc, string asm, SDPatternOperator op> {
7906  def NAME : sve_int_brkn<opc, asm>;
7907
7908  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, nxv16i1, !cast<Instruction>(NAME)>;
7909}
7910
7911class sve_int_break<bits<3> opc, string asm, string suffix, dag iops>
7912: I<(outs PPR8:$Pd), iops,
7913  asm, "\t$Pd, $Pg"#suffix#", $Pn",
7914  "",
7915  []>, Sched<[]> {
7916  bits<4> Pd;
7917  bits<4> Pg;
7918  bits<4> Pn;
7919  let Inst{31-24} = 0b00100101;
7920  let Inst{23-22} = opc{2-1};
7921  let Inst{21-14} = 0b01000001;
7922  let Inst{13-10} = Pg;
7923  let Inst{9}     = 0b0;
7924  let Inst{8-5}   = Pn;
7925  let Inst{4}     = opc{0};
7926  let Inst{3-0}   = Pd;
7927
7928  let Constraints = !if(!eq (opc{0}, 1), "$Pd = $_Pd", "");
7929  let Defs = !if(!eq (opc{1}, 1), [NZCV], []);
7930
7931}
7932
7933multiclass sve_int_break_m<bits<3> opc, string asm, SDPatternOperator op> {
7934  def NAME : sve_int_break<opc, asm, "/m", (ins PPR8:$_Pd, PPRAny:$Pg, PPR8:$Pn)>;
7935
7936  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, nxv16i1, !cast<Instruction>(NAME)>;
7937}
7938
7939multiclass sve_int_break_z<bits<3> opc, string asm, SDPatternOperator op> {
7940  def NAME : sve_int_break<opc, asm, "/z", (ins PPRAny:$Pg, PPR8:$Pn)>;
7941
7942  def : SVE_2_Op_Pat<nxv16i1, op, nxv16i1, nxv16i1, !cast<Instruction>(NAME)>;
7943}
7944
7945//===----------------------------------------------------------------------===//
7946// SVE2 String Processing Group
7947//===----------------------------------------------------------------------===//
7948
7949class sve2_char_match<bit sz, bit opc, string asm,
7950                      PPRRegOp pprty, ZPRRegOp zprty>
7951: I<(outs pprty:$Pd), (ins PPR3bAny:$Pg, zprty:$Zn, zprty:$Zm),
7952  asm, "\t$Pd, $Pg/z, $Zn, $Zm",
7953  "",
7954  []>, Sched<[]> {
7955  bits<4> Pd;
7956  bits<3> Pg;
7957  bits<5> Zm;
7958  bits<5> Zn;
7959  let Inst{31-23} = 0b010001010;
7960  let Inst{22}    = sz;
7961  let Inst{21}    = 0b1;
7962  let Inst{20-16} = Zm;
7963  let Inst{15-13} = 0b100;
7964  let Inst{12-10} = Pg;
7965  let Inst{9-5}   = Zn;
7966  let Inst{4}     = opc;
7967  let Inst{3-0}   = Pd;
7968
7969  let Defs = [NZCV];
7970  let isPTestLike = 1;
7971}
7972
7973multiclass sve2_char_match<bit opc, string asm, SDPatternOperator op> {
7974  def _B : sve2_char_match<0b0, opc, asm, PPR8, ZPR8>;
7975  def _H : sve2_char_match<0b1, opc, asm, PPR16, ZPR16>;
7976
7977  def : SVE_3_Op_Pat<nxv16i1, op, nxv16i1, nxv16i8, nxv16i8, !cast<Instruction>(NAME # _B)>;
7978  def : SVE_3_Op_Pat<nxv8i1,  op, nxv8i1,  nxv8i16, nxv8i16, !cast<Instruction>(NAME # _H)>;
7979}
7980
7981//===----------------------------------------------------------------------===//
7982// SVE2 Histogram Computation - Segment Group
7983//===----------------------------------------------------------------------===//
7984
7985class sve2_hist_gen_segment<string asm, SDPatternOperator op>
7986: I<(outs ZPR8:$Zd), (ins ZPR8:$Zn, ZPR8:$Zm),
7987  asm, "\t$Zd, $Zn, $Zm",
7988  "",
7989  [(set nxv16i8:$Zd, (op nxv16i8:$Zn, nxv16i8:$Zm))]>, Sched<[]> {
7990  bits<5> Zd;
7991  bits<5> Zn;
7992  bits<5> Zm;
7993  let Inst{31-21} = 0b01000101001;
7994  let Inst{20-16} = Zm;
7995  let Inst{15-10} = 0b101000;
7996  let Inst{9-5}   = Zn;
7997  let Inst{4-0}   = Zd;
7998}
7999
8000//===----------------------------------------------------------------------===//
8001// SVE2 Histogram Computation - Vector Group
8002//===----------------------------------------------------------------------===//
8003
8004class sve2_hist_gen_vector<bit sz, string asm, ZPRRegOp zprty>
8005: I<(outs zprty:$Zd), (ins PPR3bAny:$Pg, zprty:$Zn, zprty:$Zm),
8006  asm, "\t$Zd, $Pg/z, $Zn, $Zm",
8007  "",
8008  []>, Sched<[]> {
8009  bits<5> Zd;
8010  bits<5> Zn;
8011  bits<3> Pg;
8012  bits<5> Zm;
8013  let Inst{31-23} = 0b010001011;
8014  let Inst{22}    = sz;
8015  let Inst{21}    = 0b1;
8016  let Inst{20-16} = Zm;
8017  let Inst{15-13} = 0b110;
8018  let Inst{12-10} = Pg;
8019  let Inst{9-5}   = Zn;
8020  let Inst{4-0}   = Zd;
8021}
8022
8023multiclass sve2_hist_gen_vector<string asm, SDPatternOperator op> {
8024  def _S : sve2_hist_gen_vector<0b0, asm, ZPR32>;
8025  def _D : sve2_hist_gen_vector<0b1, asm, ZPR64>;
8026
8027  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Instruction>(NAME # _S)>;
8028  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Instruction>(NAME # _D)>;
8029}
8030
8031//===----------------------------------------------------------------------===//
8032// SVE2 Crypto Extensions Group
8033//===----------------------------------------------------------------------===//
8034
8035class sve2_crypto_cons_bin_op<bit opc, string asm, ZPRRegOp zprty>
8036: I<(outs zprty:$Zd), (ins zprty:$Zn, zprty:$Zm),
8037  asm, "\t$Zd, $Zn, $Zm",
8038  "",
8039  []>, Sched<[]> {
8040  bits<5> Zd;
8041  bits<5> Zn;
8042  bits<5> Zm;
8043  let Inst{31-21} = 0b01000101001;
8044  let Inst{20-16} = Zm;
8045  let Inst{15-11} = 0b11110;
8046  let Inst{10}    = opc;
8047  let Inst{9-5}   = Zn;
8048  let Inst{4-0}   = Zd;
8049}
8050
8051multiclass sve2_crypto_cons_bin_op<bit opc, string asm, ZPRRegOp zprty,
8052                                   SDPatternOperator op, ValueType vt> {
8053  def NAME : sve2_crypto_cons_bin_op<opc, asm, zprty>;
8054  def : SVE_2_Op_Pat<vt, op, vt, vt, !cast<Instruction>(NAME)>;
8055}
8056
8057class sve2_crypto_des_bin_op<bits<2> opc, string asm, ZPRRegOp zprty>
8058: I<(outs zprty:$Zdn), (ins zprty:$_Zdn, zprty:$Zm),
8059  asm, "\t$Zdn, $_Zdn, $Zm",
8060  "",
8061  []>, Sched<[]> {
8062  bits<5> Zdn;
8063  bits<5> Zm;
8064  let Inst{31-17} = 0b010001010010001;
8065  let Inst{16}    = opc{1};
8066  let Inst{15-11} = 0b11100;
8067  let Inst{10}    = opc{0};
8068  let Inst{9-5}   = Zm;
8069  let Inst{4-0}   = Zdn;
8070
8071  let Constraints = "$Zdn = $_Zdn";
8072}
8073
8074multiclass sve2_crypto_des_bin_op<bits<2> opc, string asm, ZPRRegOp zprty,
8075                                  SDPatternOperator op, ValueType vt> {
8076  def NAME : sve2_crypto_des_bin_op<opc, asm, zprty>;
8077  def : SVE_2_Op_Pat<vt, op, vt, vt, !cast<Instruction>(NAME)>;
8078}
8079
8080class sve2_crypto_unary_op<bit opc, string asm, ZPRRegOp zprty>
8081: I<(outs zprty:$Zdn), (ins zprty:$_Zdn),
8082  asm, "\t$Zdn, $_Zdn",
8083  "",
8084  []>, Sched<[]> {
8085  bits<5> Zdn;
8086  let Inst{31-11} = 0b010001010010000011100;
8087  let Inst{10}    = opc;
8088  let Inst{9-5}   = 0b00000;
8089  let Inst{4-0}   = Zdn;
8090
8091  let Constraints = "$Zdn = $_Zdn";
8092}
8093
8094multiclass sve2_crypto_unary_op<bit opc, string asm, SDPatternOperator op> {
8095  def NAME : sve2_crypto_unary_op<opc, asm, ZPR8>;
8096  def : SVE_1_Op_Pat<nxv16i8, op, nxv16i8, !cast<Instruction>(NAME)>;
8097}
8098
8099//===----------------------------------------------------------------------===//
8100// SVE BFloat16 Group
8101//===----------------------------------------------------------------------===//
8102
8103class sve_bfloat_dot_base<bits<2> opc, string asm, string ops, dag iops>
8104: I<(outs ZPR32:$Zda), iops, asm, ops, "", []>, Sched<[]> {
8105  bits<5> Zda;
8106  bits<5> Zn;
8107  let Inst{31-21} = 0b01100100011;
8108  let Inst{15-14} = opc;
8109  let Inst{13-10} = 0b0000;
8110  let Inst{9-5}   = Zn;
8111  let Inst{4-0}   = Zda;
8112
8113  let Constraints = "$Zda = $_Zda";
8114  let DestructiveInstType = DestructiveOther;
8115  let ElementSize = ElementSizeH;
8116}
8117
8118class sve_bfloat_dot<string asm>
8119: sve_bfloat_dot_base<0b10, asm, "\t$Zda, $Zn, $Zm",
8120  (ins ZPR32:$_Zda, ZPR16:$Zn, ZPR16:$Zm)> {
8121  bits<5> Zm;
8122  let Inst{20-16} = Zm;
8123}
8124
8125multiclass sve_bfloat_dot<string asm, SDPatternOperator op> {
8126  def NAME : sve_bfloat_dot<asm>;
8127  def : SVE_3_Op_Pat<nxv4f32, op, nxv4f32, nxv8bf16, nxv8bf16 ,!cast<Instruction>(NAME)>;
8128}
8129
8130class sve_bfloat_dot_indexed<string asm>
8131: sve_bfloat_dot_base<0b01, asm, "\t$Zda, $Zn, $Zm$iop",
8132  (ins ZPR32:$_Zda, ZPR16:$Zn, ZPR3b16:$Zm, VectorIndexS:$iop)> {
8133  bits<2> iop;
8134  bits<3> Zm;
8135  let Inst{20-19} = iop;
8136  let Inst{18-16} = Zm;
8137}
8138
8139multiclass sve_bfloat_dot_indexed<string asm, SDPatternOperator op> {
8140  def NAME : sve_bfloat_dot_indexed<asm>;
8141  def : SVE_4_Op_Imm_Pat<nxv4f32, op, nxv4f32, nxv8bf16, nxv8bf16, i64, VectorIndexS_timm, !cast<Instruction>(NAME)>;
8142}
8143
8144class sve_bfloat_matmul<string asm>
8145: I<(outs ZPR32:$Zda), (ins ZPR32:$_Zda, ZPR16:$Zn, ZPR16:$Zm),
8146  asm, "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
8147  bits<5> Zm;
8148  bits<5> Zda;
8149  bits<5> Zn;
8150  let Inst{31-21} = 0b01100100011;
8151  let Inst{20-16} = Zm;
8152  let Inst{15-10} = 0b111001;
8153  let Inst{9-5}   = Zn;
8154  let Inst{4-0}   = Zda;
8155
8156  let Constraints = "$Zda = $_Zda";
8157  let DestructiveInstType = DestructiveOther;
8158  let ElementSize = ElementSizeH;
8159}
8160
8161multiclass sve_bfloat_matmul<string asm, SDPatternOperator op> {
8162  def NAME : sve_bfloat_matmul<asm>;
8163  def : SVE_3_Op_Pat<nxv4f32, op, nxv4f32, nxv8bf16, nxv8bf16 ,!cast<Instruction>(NAME)>;
8164}
8165
8166class sve_bfloat_matmul_longvecl<bit BT, string asm>
8167: sve_bfloat_matmul<asm> {
8168  let Inst{23}    = 0b1;
8169  let Inst{14-13} = 0b00;
8170  let Inst{10}    = BT;
8171}
8172
8173multiclass sve_bfloat_matmul_longvecl<bit BT, string asm, SDPatternOperator op> {
8174  def NAME : sve_bfloat_matmul_longvecl<BT, asm>;
8175  def : SVE_3_Op_Pat<nxv4f32, op, nxv4f32, nxv8bf16, nxv8bf16 ,!cast<Instruction>(NAME)>;
8176}
8177
8178class sve_bfloat_matmul_longvecl_idx<bit BT, string asm>
8179: sve_bfloat_dot_base<0b01, asm, "\t$Zda, $Zn, $Zm$iop",
8180  (ins ZPR32:$_Zda, ZPR16:$Zn, ZPR3b16:$Zm, VectorIndexH:$iop)> {
8181  bits<3> iop;
8182  bits<3> Zm;
8183  let Inst{23}    = 0b1;
8184  let Inst{20-19} = iop{2-1};
8185  let Inst{18-16} = Zm;
8186  let Inst{11}    = iop{0};
8187  let Inst{10}    = BT;
8188}
8189
8190multiclass sve_bfloat_matmul_longvecl_idx<bit BT, string asm, SDPatternOperator op> {
8191  def NAME : sve_bfloat_matmul_longvecl_idx<BT, asm>;
8192  def : SVE_4_Op_Imm_Pat<nxv4f32, op, nxv4f32, nxv8bf16, nxv8bf16, i64, VectorIndexH_timm, !cast<Instruction>(NAME)>;
8193}
8194
8195class sve_bfloat_convert<bit N, string asm>
8196: I<(outs ZPR16:$Zd), (ins ZPR16:$_Zd, PPR3bAny:$Pg, ZPR32:$Zn),
8197  asm, "\t$Zd, $Pg/m, $Zn", "", []>, Sched<[]> {
8198  bits<5> Zd;
8199  bits<3> Pg;
8200  bits<5> Zn;
8201  let Inst{31-25} = 0b0110010;
8202  let Inst{24}    = N;
8203  let Inst{23-13} = 0b10001010101;
8204  let Inst{12-10} = Pg;
8205  let Inst{9-5}   = Zn;
8206  let Inst{4-0}   = Zd;
8207
8208  let Constraints = "$Zd = $_Zd";
8209  let DestructiveInstType = DestructiveOther;
8210  let hasSideEffects = 1;
8211  let ElementSize = ElementSizeS;
8212}
8213
8214multiclass sve_bfloat_convert<bit N, string asm, SDPatternOperator op> {
8215  def NAME : sve_bfloat_convert<N, asm>;
8216  def : SVE_3_Op_Pat<nxv8bf16, op, nxv8bf16, nxv8i1, nxv4f32, !cast<Instruction>(NAME)>;
8217}
8218
8219//===----------------------------------------------------------------------===//
8220// SVE Integer Matrix Multiply Group
8221//===----------------------------------------------------------------------===//
8222
8223class sve_int_matmul<bits<2> uns, string asm>
8224: I<(outs ZPR32:$Zda), (ins ZPR32:$_Zda, ZPR8:$Zn, ZPR8:$Zm), asm,
8225  "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
8226  bits<5> Zda;
8227  bits<5> Zn;
8228  bits<5> Zm;
8229  let Inst{31-24} = 0b01000101;
8230  let Inst{23-22} = uns;
8231  let Inst{21}    = 0;
8232  let Inst{20-16} = Zm;
8233  let Inst{15-10} = 0b100110;
8234  let Inst{9-5}   = Zn;
8235  let Inst{4-0}   = Zda;
8236
8237  let Constraints = "$Zda = $_Zda";
8238  let DestructiveInstType = DestructiveOther;
8239  let ElementSize = ZPR32.ElementSize;
8240}
8241
8242multiclass sve_int_matmul<bits<2> uns, string asm, SDPatternOperator op> {
8243  def NAME : sve_int_matmul<uns, asm>;
8244
8245  def : SVE_3_Op_Pat<nxv4i32, op , nxv4i32, nxv16i8, nxv16i8, !cast<Instruction>(NAME)>;
8246}
8247
8248//===----------------------------------------------------------------------===//
8249// SVE Integer Dot Product Mixed Sign Group
8250//===----------------------------------------------------------------------===//
8251
8252class sve_int_dot_mixed<string asm>
8253: I<(outs ZPR32:$Zda), (ins ZPR32:$_Zda, ZPR8:$Zn, ZPR8:$Zm), asm,
8254  "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
8255  bits<5> Zda;
8256  bits<5> Zn;
8257  bits<5> Zm;
8258  let Inst{31-21} = 0b01000100100;
8259  let Inst{20-16} = Zm;
8260  let Inst{15-10} = 0b011110;
8261  let Inst{9-5}   = Zn;
8262  let Inst{4-0}   = Zda;
8263
8264  let Constraints = "$Zda = $_Zda";
8265  let DestructiveInstType = DestructiveOther;
8266  let ElementSize = ZPR32.ElementSize;
8267}
8268
8269multiclass sve_int_dot_mixed<string asm, SDPatternOperator op> {
8270  def NAME : sve_int_dot_mixed<asm>;
8271
8272  def : SVE_3_Op_Pat<nxv4i32, op , nxv4i32, nxv16i8, nxv16i8, !cast<Instruction>(NAME)>;
8273}
8274
8275//===----------------------------------------------------------------------===//
8276// SVE Integer Dot Product Mixed Sign - Indexed Group
8277//===----------------------------------------------------------------------===//
8278
8279class sve_int_dot_mixed_indexed<bit U, string asm>
8280: I<(outs ZPR32:$Zda), (ins ZPR32:$_Zda, ZPR8:$Zn, ZPR3b8:$Zm, VectorIndexS32b:$idx),
8281    asm, "\t$Zda, $Zn, $Zm$idx", "", []>, Sched<[]> {
8282  bits<5> Zda;
8283  bits<5> Zn;
8284  bits<3> Zm;
8285  bits<2> idx;
8286  let Inst{31-21} = 0b01000100101;
8287  let Inst{20-19} = idx;
8288  let Inst{18-16} = Zm;
8289  let Inst{15-11} = 0b00011;
8290  let Inst{10}    = U;
8291  let Inst{9-5}   = Zn;
8292  let Inst{4-0}   = Zda;
8293
8294  let Constraints = "$Zda = $_Zda";
8295  let DestructiveInstType = DestructiveOther;
8296  let ElementSize = ZPR32.ElementSize;
8297}
8298
8299multiclass sve_int_dot_mixed_indexed<bit U, string asm, SDPatternOperator op> {
8300  def NAME : sve_int_dot_mixed_indexed<U, asm>;
8301
8302  def : SVE_4_Op_Imm_Pat<nxv4i32, op, nxv4i32, nxv16i8, nxv16i8, i32, VectorIndexS32b_timm, !cast<Instruction>(NAME)>;
8303}
8304
8305//===----------------------------------------------------------------------===//
8306// SVE Floating Point Matrix Multiply Accumulate Group
8307//===----------------------------------------------------------------------===//
8308
8309class sve_fp_matrix_mla<bit sz, string asm, ZPRRegOp zprty>
8310: I<(outs zprty:$Zda), (ins zprty:$_Zda, zprty:$Zn, zprty:$Zm),
8311    asm, "\t$Zda, $Zn, $Zm", "", []>, Sched<[]> {
8312  bits<5> Zda;
8313  bits<5> Zn;
8314  bits<5> Zm;
8315  let Inst{31-23} = 0b011001001;
8316  let Inst{22}    = sz;
8317  let Inst{21}    = 1;
8318  let Inst{20-16} = Zm;
8319  let Inst{15-10} = 0b111001;
8320  let Inst{9-5}   = Zn;
8321  let Inst{4-0}   = Zda;
8322
8323  let Constraints = "$Zda = $_Zda";
8324  let DestructiveInstType = DestructiveOther;
8325  let ElementSize = zprty.ElementSize;
8326}
8327
8328multiclass sve_fp_matrix_mla<bit sz, string asm, ZPRRegOp zprty, SDPatternOperator op, ValueType vt> {
8329  def NAME : sve_fp_matrix_mla<sz, asm, zprty>;
8330
8331  def : SVE_3_Op_Pat<vt, op , vt, vt, vt, !cast<Instruction>(NAME)>;
8332}
8333
8334//===----------------------------------------------------------------------===//
8335// SVE Memory - Contiguous Load And Replicate 256-bit Group
8336//===----------------------------------------------------------------------===//
8337
8338class sve_mem_ldor_si<bits<2> sz, string asm, RegisterOperand VecList>
8339: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, simm4s32:$imm4),
8340  asm, "\t$Zt, $Pg/z, [$Rn, $imm4]", "", []>, Sched<[]> {
8341  bits<5> Zt;
8342  bits<5> Rn;
8343  bits<3> Pg;
8344  bits<4> imm4;
8345  let Inst{31-25} = 0b1010010;
8346  let Inst{24-23} = sz;
8347  let Inst{22-20} = 0b010;
8348  let Inst{19-16} = imm4;
8349  let Inst{15-13} = 0b001;
8350  let Inst{12-10} = Pg;
8351  let Inst{9-5}   = Rn;
8352  let Inst{4-0}   = Zt;
8353
8354  let mayLoad = 1;
8355}
8356
8357multiclass sve_mem_ldor_si<bits<2> sz, string asm, RegisterOperand listty,
8358                           ZPRRegOp zprty, ValueType Ty, ValueType PredTy, SDNode Ld1ro> {
8359  def NAME : sve_mem_ldor_si<sz, asm, listty>;
8360  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
8361                  (!cast<Instruction>(NAME) listty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 1>;
8362  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn]",
8363                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, 0), 0>;
8364  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $imm4]",
8365                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, simm4s32:$imm4), 0>;
8366
8367  // Base addressing mode
8368  def : Pat<(Ty (Ld1ro (PredTy PPR3bAny:$Pg), GPR64sp:$base)),
8369            (!cast<Instruction>(NAME) PPR3bAny:$Pg, GPR64sp:$base, (i64 0))>;
8370  let AddedComplexity = 2 in {
8371    // Reg + Imm addressing mode
8372    def : Pat<(Ty (Ld1ro (PredTy PPR3bAny:$Pg), (add GPR64:$base, (i64 simm4s32:$imm)))),
8373              (!cast<Instruction>(NAME) $Pg, $base, simm4s32:$imm)>;
8374  }
8375}
8376
8377class sve_mem_ldor_ss<bits<2> sz, string asm, RegisterOperand VecList,
8378                      RegisterOperand gprty>
8379: I<(outs VecList:$Zt), (ins PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm),
8380  asm, "\t$Zt, $Pg/z, [$Rn, $Rm]", "", []>, Sched<[]> {
8381  bits<5> Zt;
8382  bits<3> Pg;
8383  bits<5> Rn;
8384  bits<5> Rm;
8385  let Inst{31-25} = 0b1010010;
8386  let Inst{24-23} = sz;
8387  let Inst{22-21} = 0b01;
8388  let Inst{20-16} = Rm;
8389  let Inst{15-13} = 0;
8390  let Inst{12-10} = Pg;
8391  let Inst{9-5}   = Rn;
8392  let Inst{4-0}   = Zt;
8393
8394  let mayLoad = 1;
8395}
8396
8397multiclass sve_mem_ldor_ss<bits<2> sz, string asm, RegisterOperand listty,
8398                           ZPRRegOp zprty, RegisterOperand gprty, ValueType Ty,
8399                           ValueType PredTy, SDNode Ld1ro, ComplexPattern AddrCP> {
8400  def NAME : sve_mem_ldor_ss<sz, asm, listty, gprty>;
8401
8402  def : InstAlias<asm # "\t$Zt, $Pg/z, [$Rn, $Rm]",
8403                  (!cast<Instruction>(NAME) zprty:$Zt, PPR3bAny:$Pg, GPR64sp:$Rn, gprty:$Rm), 0>;
8404
8405  def : Pat<(Ty (Ld1ro (PredTy PPR3bAny:$gp), (AddrCP GPR64sp:$base, gprty:$offset))),
8406            (!cast<Instruction>(NAME) PPR3bAny:$gp, GPR64sp:$base, gprty:$offset)>;
8407}
8408
8409//===----------------------------------------------------------------------===//
8410// SVE Interleave 128-bit Elements Group
8411//===----------------------------------------------------------------------===//
8412
8413class sve_int_perm_bin_perm_128_zz<bits<2> opc, bit P, string asm>
8414: I<(outs ZPR128:$Zd), (ins ZPR128:$Zn, ZPR128:$Zm),
8415  asm, "\t$Zd, $Zn, $Zm",
8416  "",
8417  []>, Sched<[]> {
8418  bits<5> Zd;
8419  bits<5> Zm;
8420  bits<5> Zn;
8421  let Inst{31-21} = 0b00000101101;
8422  let Inst{20-16} = Zm;
8423  let Inst{15-13} = 0b000;
8424  let Inst{12-11} = opc;
8425  let Inst{10}    = P;
8426  let Inst{9-5}   = Zn;
8427  let Inst{4-0}   = Zd;
8428}
8429
8430multiclass sve_int_perm_bin_perm_128_zz<bits<2> opc, bit P, string asm, SDPatternOperator op> {
8431  def NAME : sve_int_perm_bin_perm_128_zz<opc, P, asm>;
8432
8433  def : SVE_2_Op_Pat<nxv16i8,  op, nxv16i8,  nxv16i8,  !cast<Instruction>(NAME)>;
8434  def : SVE_2_Op_Pat<nxv8i16,  op, nxv8i16,  nxv8i16,  !cast<Instruction>(NAME)>;
8435  def : SVE_2_Op_Pat<nxv8f16,  op, nxv8f16,  nxv8f16,  !cast<Instruction>(NAME)>;
8436  def : SVE_2_Op_Pat<nxv4i32,  op, nxv4i32,  nxv4i32,  !cast<Instruction>(NAME)>;
8437  def : SVE_2_Op_Pat<nxv4f32,  op, nxv4f32,  nxv4f32,  !cast<Instruction>(NAME)>;
8438  def : SVE_2_Op_Pat<nxv2i64,  op, nxv2i64,  nxv2i64,  !cast<Instruction>(NAME)>;
8439  def : SVE_2_Op_Pat<nxv2f64,  op, nxv2f64,  nxv2f64,  !cast<Instruction>(NAME)>;
8440  def : SVE_2_Op_Pat<nxv8bf16, op, nxv8bf16, nxv8bf16, !cast<Instruction>(NAME)>;
8441}
8442
8443/// Addressing modes
8444def am_sve_indexed_s4 :ComplexPattern<iPTR, 2, "SelectAddrModeIndexedSVE<-8,7>", [], [SDNPWantRoot]>;
8445def am_sve_indexed_s6 :ComplexPattern<iPTR, 2, "SelectAddrModeIndexedSVE<-32,31>", [], [SDNPWantRoot]>;
8446
8447def am_sve_regreg_lsl0 : ComplexPattern<iPTR, 2, "SelectSVERegRegAddrMode<0>", []>;
8448def am_sve_regreg_lsl1 : ComplexPattern<iPTR, 2, "SelectSVERegRegAddrMode<1>", []>;
8449def am_sve_regreg_lsl2 : ComplexPattern<iPTR, 2, "SelectSVERegRegAddrMode<2>", []>;
8450def am_sve_regreg_lsl3 : ComplexPattern<iPTR, 2, "SelectSVERegRegAddrMode<3>", []>;
8451
8452// Predicated pseudo floating point two operand instructions.
8453multiclass sve_fp_bin_pred_hfd<SDPatternOperator op> {
8454  def _UNDEF_H : PredTwoOpPseudo<NAME # _H, ZPR16, FalseLanesUndef>;
8455  def _UNDEF_S : PredTwoOpPseudo<NAME # _S, ZPR32, FalseLanesUndef>;
8456  def _UNDEF_D : PredTwoOpPseudo<NAME # _D, ZPR64, FalseLanesUndef>;
8457
8458  def : SVE_3_Op_Pat<nxv8f16, op, nxv8i1, nxv8f16, nxv8f16, !cast<Pseudo>(NAME # _UNDEF_H)>;
8459  def : SVE_3_Op_Pat<nxv4f16, op, nxv4i1, nxv4f16, nxv4f16, !cast<Pseudo>(NAME # _UNDEF_H)>;
8460  def : SVE_3_Op_Pat<nxv2f16, op, nxv2i1, nxv2f16, nxv2f16, !cast<Pseudo>(NAME # _UNDEF_H)>;
8461  def : SVE_3_Op_Pat<nxv4f32, op, nxv4i1, nxv4f32, nxv4f32, !cast<Pseudo>(NAME # _UNDEF_S)>;
8462  def : SVE_3_Op_Pat<nxv2f32, op, nxv2i1, nxv2f32, nxv2f32, !cast<Pseudo>(NAME # _UNDEF_S)>;
8463  def : SVE_3_Op_Pat<nxv2f64, op, nxv2i1, nxv2f64, nxv2f64, !cast<Pseudo>(NAME # _UNDEF_D)>;
8464}
8465
8466// Predicated pseudo integer two operand instructions.
8467multiclass sve_int_bin_pred_bhsd<SDPatternOperator op> {
8468  def _UNDEF_B : PredTwoOpPseudo<NAME # _B, ZPR8, FalseLanesUndef>;
8469  def _UNDEF_H : PredTwoOpPseudo<NAME # _H, ZPR16, FalseLanesUndef>;
8470  def _UNDEF_S : PredTwoOpPseudo<NAME # _S, ZPR32, FalseLanesUndef>;
8471  def _UNDEF_D : PredTwoOpPseudo<NAME # _D, ZPR64, FalseLanesUndef>;
8472
8473  def : SVE_3_Op_Pat<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Pseudo>(NAME # _UNDEF_B)>;
8474  def : SVE_3_Op_Pat<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Pseudo>(NAME # _UNDEF_H)>;
8475  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
8476  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Pseudo>(NAME # _UNDEF_D)>;
8477}
8478
8479// As sve_int_bin_pred but when only i32 and i64 vector types are required.
8480multiclass sve_int_bin_pred_sd<SDPatternOperator op> {
8481  def _UNDEF_S : PredTwoOpPseudo<NAME # _S, ZPR32, FalseLanesUndef>;
8482  def _UNDEF_D : PredTwoOpPseudo<NAME # _D, ZPR64, FalseLanesUndef>;
8483
8484  def : SVE_3_Op_Pat<nxv4i32, op, nxv4i1, nxv4i32, nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
8485  def : SVE_3_Op_Pat<nxv2i64, op, nxv2i1, nxv2i64, nxv2i64, !cast<Pseudo>(NAME # _UNDEF_D)>;
8486}
8487
8488// Predicated pseudo integer two operand instructions. Second operand is an
8489// immediate specified by imm_[bhsd].
8490multiclass sve_int_shift_pred_bhsd<SDPatternOperator op,
8491                                   ComplexPattern imm_b, ComplexPattern imm_h,
8492                                   ComplexPattern imm_s, ComplexPattern imm_d> {
8493  def _UNDEF_B : PredTwoOpImmPseudo<NAME # _B, ZPR8,  Operand<i32>, FalseLanesUndef>;
8494  def _UNDEF_H : PredTwoOpImmPseudo<NAME # _H, ZPR16, Operand<i32>, FalseLanesUndef>;
8495  def _UNDEF_S : PredTwoOpImmPseudo<NAME # _S, ZPR32, Operand<i32>, FalseLanesUndef>;
8496  def _UNDEF_D : PredTwoOpImmPseudo<NAME # _D, ZPR64, Operand<i32>, FalseLanesUndef>;
8497
8498  def : SVE_Shift_DupImm_Pred_Pat<nxv16i8, op, nxv16i1, i32, imm_b, !cast<Instruction>(NAME # _UNDEF_B)>;
8499  def : SVE_Shift_DupImm_Pred_Pat<nxv8i16, op, nxv8i1,  i32, imm_h, !cast<Instruction>(NAME # _UNDEF_H)>;
8500  def : SVE_Shift_DupImm_Pred_Pat<nxv4i32, op, nxv4i1,  i32, imm_s, !cast<Instruction>(NAME # _UNDEF_S)>;
8501  def : SVE_Shift_DupImm_Pred_Pat<nxv2i64, op, nxv2i1,  i64, imm_d, !cast<Instruction>(NAME # _UNDEF_D)>;
8502}
8503
8504multiclass sve_int_bin_pred_all_active_bhsd<SDPatternOperator op> {
8505  def _UNDEF_B : PredTwoOpPseudo<NAME # _B, ZPR8, FalseLanesUndef>;
8506  def _UNDEF_H : PredTwoOpPseudo<NAME # _H, ZPR16, FalseLanesUndef>;
8507  def _UNDEF_S : PredTwoOpPseudo<NAME # _S, ZPR32, FalseLanesUndef>;
8508  def _UNDEF_D : PredTwoOpPseudo<NAME # _D, ZPR64, FalseLanesUndef>;
8509
8510  def : SVE_2_Op_Pred_All_Active_Pt<nxv16i8, op, nxv16i1, nxv16i8, nxv16i8, !cast<Pseudo>(NAME # _UNDEF_B)>;
8511  def : SVE_2_Op_Pred_All_Active_Pt<nxv8i16, op, nxv8i1,  nxv8i16, nxv8i16, !cast<Pseudo>(NAME # _UNDEF_H)>;
8512  def : SVE_2_Op_Pred_All_Active_Pt<nxv4i32, op, nxv4i1,  nxv4i32, nxv4i32, !cast<Pseudo>(NAME # _UNDEF_S)>;
8513  def : SVE_2_Op_Pred_All_Active_Pt<nxv2i64, op, nxv2i1,  nxv2i64, nxv2i64, !cast<Pseudo>(NAME # _UNDEF_D)>;
8514}
8515
8516