1 //==-- AArch64InstPrinter.cpp - Convert AArch64 MCInst to assembly syntax --==//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 //
10 // This class prints an AArch64 MCInst to a .s file.
11 //
12 //===----------------------------------------------------------------------===//
13
14 #include "AArch64InstPrinter.h"
15 #include "MCTargetDesc/AArch64AddressingModes.h"
16 #include "Utils/AArch64BaseInfo.h"
17 #include "llvm/ADT/STLExtras.h"
18 #include "llvm/ADT/StringExtras.h"
19 #include "llvm/MC/MCExpr.h"
20 #include "llvm/MC/MCInst.h"
21 #include "llvm/MC/MCRegisterInfo.h"
22 #include "llvm/Support/Format.h"
23 #include "llvm/Support/raw_ostream.h"
24 using namespace llvm;
25
26 #define DEBUG_TYPE "asm-printer"
27
28 #define GET_INSTRUCTION_NAME
29 #define PRINT_ALIAS_INSTR
30 #include "AArch64GenAsmWriter.inc"
31 #define GET_INSTRUCTION_NAME
32 #define PRINT_ALIAS_INSTR
33 #include "AArch64GenAsmWriter1.inc"
34
AArch64InstPrinter(const MCAsmInfo & MAI,const MCInstrInfo & MII,const MCRegisterInfo & MRI,const MCSubtargetInfo & STI)35 AArch64InstPrinter::AArch64InstPrinter(const MCAsmInfo &MAI,
36 const MCInstrInfo &MII,
37 const MCRegisterInfo &MRI,
38 const MCSubtargetInfo &STI)
39 : MCInstPrinter(MAI, MII, MRI) {
40 // Initialize the set of available features.
41 setAvailableFeatures(STI.getFeatureBits());
42 }
43
AArch64AppleInstPrinter(const MCAsmInfo & MAI,const MCInstrInfo & MII,const MCRegisterInfo & MRI,const MCSubtargetInfo & STI)44 AArch64AppleInstPrinter::AArch64AppleInstPrinter(const MCAsmInfo &MAI,
45 const MCInstrInfo &MII,
46 const MCRegisterInfo &MRI,
47 const MCSubtargetInfo &STI)
48 : AArch64InstPrinter(MAI, MII, MRI, STI) {}
49
printRegName(raw_ostream & OS,unsigned RegNo) const50 void AArch64InstPrinter::printRegName(raw_ostream &OS, unsigned RegNo) const {
51 // This is for .cfi directives.
52 OS << getRegisterName(RegNo);
53 }
54
printInst(const MCInst * MI,raw_ostream & O,StringRef Annot)55 void AArch64InstPrinter::printInst(const MCInst *MI, raw_ostream &O,
56 StringRef Annot) {
57 // Check for special encodings and print the canonical alias instead.
58
59 unsigned Opcode = MI->getOpcode();
60
61 if (Opcode == AArch64::SYSxt)
62 if (printSysAlias(MI, O)) {
63 printAnnotation(O, Annot);
64 return;
65 }
66
67 // SBFM/UBFM should print to a nicer aliased form if possible.
68 if (Opcode == AArch64::SBFMXri || Opcode == AArch64::SBFMWri ||
69 Opcode == AArch64::UBFMXri || Opcode == AArch64::UBFMWri) {
70 const MCOperand &Op0 = MI->getOperand(0);
71 const MCOperand &Op1 = MI->getOperand(1);
72 const MCOperand &Op2 = MI->getOperand(2);
73 const MCOperand &Op3 = MI->getOperand(3);
74
75 bool IsSigned = (Opcode == AArch64::SBFMXri || Opcode == AArch64::SBFMWri);
76 bool Is64Bit = (Opcode == AArch64::SBFMXri || Opcode == AArch64::UBFMXri);
77 if (Op2.isImm() && Op2.getImm() == 0 && Op3.isImm()) {
78 const char *AsmMnemonic = nullptr;
79
80 switch (Op3.getImm()) {
81 default:
82 break;
83 case 7:
84 if (IsSigned)
85 AsmMnemonic = "sxtb";
86 else if (!Is64Bit)
87 AsmMnemonic = "uxtb";
88 break;
89 case 15:
90 if (IsSigned)
91 AsmMnemonic = "sxth";
92 else if (!Is64Bit)
93 AsmMnemonic = "uxth";
94 break;
95 case 31:
96 // *xtw is only valid for signed 64-bit operations.
97 if (Is64Bit && IsSigned)
98 AsmMnemonic = "sxtw";
99 break;
100 }
101
102 if (AsmMnemonic) {
103 O << '\t' << AsmMnemonic << '\t' << getRegisterName(Op0.getReg())
104 << ", " << getRegisterName(getWRegFromXReg(Op1.getReg()));
105 printAnnotation(O, Annot);
106 return;
107 }
108 }
109
110 // All immediate shifts are aliases, implemented using the Bitfield
111 // instruction. In all cases the immediate shift amount shift must be in
112 // the range 0 to (reg.size -1).
113 if (Op2.isImm() && Op3.isImm()) {
114 const char *AsmMnemonic = nullptr;
115 int shift = 0;
116 int64_t immr = Op2.getImm();
117 int64_t imms = Op3.getImm();
118 if (Opcode == AArch64::UBFMWri && imms != 0x1F && ((imms + 1) == immr)) {
119 AsmMnemonic = "lsl";
120 shift = 31 - imms;
121 } else if (Opcode == AArch64::UBFMXri && imms != 0x3f &&
122 ((imms + 1 == immr))) {
123 AsmMnemonic = "lsl";
124 shift = 63 - imms;
125 } else if (Opcode == AArch64::UBFMWri && imms == 0x1f) {
126 AsmMnemonic = "lsr";
127 shift = immr;
128 } else if (Opcode == AArch64::UBFMXri && imms == 0x3f) {
129 AsmMnemonic = "lsr";
130 shift = immr;
131 } else if (Opcode == AArch64::SBFMWri && imms == 0x1f) {
132 AsmMnemonic = "asr";
133 shift = immr;
134 } else if (Opcode == AArch64::SBFMXri && imms == 0x3f) {
135 AsmMnemonic = "asr";
136 shift = immr;
137 }
138 if (AsmMnemonic) {
139 O << '\t' << AsmMnemonic << '\t' << getRegisterName(Op0.getReg())
140 << ", " << getRegisterName(Op1.getReg()) << ", #" << shift;
141 printAnnotation(O, Annot);
142 return;
143 }
144 }
145
146 // SBFIZ/UBFIZ aliases
147 if (Op2.getImm() > Op3.getImm()) {
148 O << '\t' << (IsSigned ? "sbfiz" : "ubfiz") << '\t'
149 << getRegisterName(Op0.getReg()) << ", " << getRegisterName(Op1.getReg())
150 << ", #" << (Is64Bit ? 64 : 32) - Op2.getImm() << ", #" << Op3.getImm() + 1;
151 printAnnotation(O, Annot);
152 return;
153 }
154
155 // Otherwise SBFX/UBFX is the preferred form
156 O << '\t' << (IsSigned ? "sbfx" : "ubfx") << '\t'
157 << getRegisterName(Op0.getReg()) << ", " << getRegisterName(Op1.getReg())
158 << ", #" << Op2.getImm() << ", #" << Op3.getImm() - Op2.getImm() + 1;
159 printAnnotation(O, Annot);
160 return;
161 }
162
163 if (Opcode == AArch64::BFMXri || Opcode == AArch64::BFMWri) {
164 const MCOperand &Op0 = MI->getOperand(0); // Op1 == Op0
165 const MCOperand &Op2 = MI->getOperand(2);
166 int ImmR = MI->getOperand(3).getImm();
167 int ImmS = MI->getOperand(4).getImm();
168
169 // BFI alias
170 if (ImmS < ImmR) {
171 int BitWidth = Opcode == AArch64::BFMXri ? 64 : 32;
172 int LSB = (BitWidth - ImmR) % BitWidth;
173 int Width = ImmS + 1;
174 O << "\tbfi\t" << getRegisterName(Op0.getReg()) << ", "
175 << getRegisterName(Op2.getReg()) << ", #" << LSB << ", #" << Width;
176 printAnnotation(O, Annot);
177 return;
178 }
179
180 int LSB = ImmR;
181 int Width = ImmS - ImmR + 1;
182 // Otherwise BFXIL the preferred form
183 O << "\tbfxil\t"
184 << getRegisterName(Op0.getReg()) << ", " << getRegisterName(Op2.getReg())
185 << ", #" << LSB << ", #" << Width;
186 printAnnotation(O, Annot);
187 return;
188 }
189
190 // Symbolic operands for MOVZ, MOVN and MOVK already imply a shift
191 // (e.g. :gottprel_g1: is always going to be "lsl #16") so it should not be
192 // printed.
193 if ((Opcode == AArch64::MOVZXi || Opcode == AArch64::MOVZWi ||
194 Opcode == AArch64::MOVNXi || Opcode == AArch64::MOVNWi) &&
195 MI->getOperand(1).isExpr()) {
196 if (Opcode == AArch64::MOVZXi || Opcode == AArch64::MOVZWi)
197 O << "\tmovz\t";
198 else
199 O << "\tmovn\t";
200
201 O << getRegisterName(MI->getOperand(0).getReg()) << ", #"
202 << *MI->getOperand(1).getExpr();
203 return;
204 }
205
206 if ((Opcode == AArch64::MOVKXi || Opcode == AArch64::MOVKWi) &&
207 MI->getOperand(2).isExpr()) {
208 O << "\tmovk\t" << getRegisterName(MI->getOperand(0).getReg()) << ", #"
209 << *MI->getOperand(2).getExpr();
210 return;
211 }
212
213 if (!printAliasInstr(MI, O))
214 printInstruction(MI, O);
215
216 printAnnotation(O, Annot);
217 }
218
isTblTbxInstruction(unsigned Opcode,StringRef & Layout,bool & IsTbx)219 static bool isTblTbxInstruction(unsigned Opcode, StringRef &Layout,
220 bool &IsTbx) {
221 switch (Opcode) {
222 case AArch64::TBXv8i8One:
223 case AArch64::TBXv8i8Two:
224 case AArch64::TBXv8i8Three:
225 case AArch64::TBXv8i8Four:
226 IsTbx = true;
227 Layout = ".8b";
228 return true;
229 case AArch64::TBLv8i8One:
230 case AArch64::TBLv8i8Two:
231 case AArch64::TBLv8i8Three:
232 case AArch64::TBLv8i8Four:
233 IsTbx = false;
234 Layout = ".8b";
235 return true;
236 case AArch64::TBXv16i8One:
237 case AArch64::TBXv16i8Two:
238 case AArch64::TBXv16i8Three:
239 case AArch64::TBXv16i8Four:
240 IsTbx = true;
241 Layout = ".16b";
242 return true;
243 case AArch64::TBLv16i8One:
244 case AArch64::TBLv16i8Two:
245 case AArch64::TBLv16i8Three:
246 case AArch64::TBLv16i8Four:
247 IsTbx = false;
248 Layout = ".16b";
249 return true;
250 default:
251 return false;
252 }
253 }
254
255 struct LdStNInstrDesc {
256 unsigned Opcode;
257 const char *Mnemonic;
258 const char *Layout;
259 int ListOperand;
260 bool HasLane;
261 int NaturalOffset;
262 };
263
264 static LdStNInstrDesc LdStNInstInfo[] = {
265 { AArch64::LD1i8, "ld1", ".b", 1, true, 0 },
266 { AArch64::LD1i16, "ld1", ".h", 1, true, 0 },
267 { AArch64::LD1i32, "ld1", ".s", 1, true, 0 },
268 { AArch64::LD1i64, "ld1", ".d", 1, true, 0 },
269 { AArch64::LD1i8_POST, "ld1", ".b", 2, true, 1 },
270 { AArch64::LD1i16_POST, "ld1", ".h", 2, true, 2 },
271 { AArch64::LD1i32_POST, "ld1", ".s", 2, true, 4 },
272 { AArch64::LD1i64_POST, "ld1", ".d", 2, true, 8 },
273 { AArch64::LD1Rv16b, "ld1r", ".16b", 0, false, 0 },
274 { AArch64::LD1Rv8h, "ld1r", ".8h", 0, false, 0 },
275 { AArch64::LD1Rv4s, "ld1r", ".4s", 0, false, 0 },
276 { AArch64::LD1Rv2d, "ld1r", ".2d", 0, false, 0 },
277 { AArch64::LD1Rv8b, "ld1r", ".8b", 0, false, 0 },
278 { AArch64::LD1Rv4h, "ld1r", ".4h", 0, false, 0 },
279 { AArch64::LD1Rv2s, "ld1r", ".2s", 0, false, 0 },
280 { AArch64::LD1Rv1d, "ld1r", ".1d", 0, false, 0 },
281 { AArch64::LD1Rv16b_POST, "ld1r", ".16b", 1, false, 1 },
282 { AArch64::LD1Rv8h_POST, "ld1r", ".8h", 1, false, 2 },
283 { AArch64::LD1Rv4s_POST, "ld1r", ".4s", 1, false, 4 },
284 { AArch64::LD1Rv2d_POST, "ld1r", ".2d", 1, false, 8 },
285 { AArch64::LD1Rv8b_POST, "ld1r", ".8b", 1, false, 1 },
286 { AArch64::LD1Rv4h_POST, "ld1r", ".4h", 1, false, 2 },
287 { AArch64::LD1Rv2s_POST, "ld1r", ".2s", 1, false, 4 },
288 { AArch64::LD1Rv1d_POST, "ld1r", ".1d", 1, false, 8 },
289 { AArch64::LD1Onev16b, "ld1", ".16b", 0, false, 0 },
290 { AArch64::LD1Onev8h, "ld1", ".8h", 0, false, 0 },
291 { AArch64::LD1Onev4s, "ld1", ".4s", 0, false, 0 },
292 { AArch64::LD1Onev2d, "ld1", ".2d", 0, false, 0 },
293 { AArch64::LD1Onev8b, "ld1", ".8b", 0, false, 0 },
294 { AArch64::LD1Onev4h, "ld1", ".4h", 0, false, 0 },
295 { AArch64::LD1Onev2s, "ld1", ".2s", 0, false, 0 },
296 { AArch64::LD1Onev1d, "ld1", ".1d", 0, false, 0 },
297 { AArch64::LD1Onev16b_POST, "ld1", ".16b", 1, false, 16 },
298 { AArch64::LD1Onev8h_POST, "ld1", ".8h", 1, false, 16 },
299 { AArch64::LD1Onev4s_POST, "ld1", ".4s", 1, false, 16 },
300 { AArch64::LD1Onev2d_POST, "ld1", ".2d", 1, false, 16 },
301 { AArch64::LD1Onev8b_POST, "ld1", ".8b", 1, false, 8 },
302 { AArch64::LD1Onev4h_POST, "ld1", ".4h", 1, false, 8 },
303 { AArch64::LD1Onev2s_POST, "ld1", ".2s", 1, false, 8 },
304 { AArch64::LD1Onev1d_POST, "ld1", ".1d", 1, false, 8 },
305 { AArch64::LD1Twov16b, "ld1", ".16b", 0, false, 0 },
306 { AArch64::LD1Twov8h, "ld1", ".8h", 0, false, 0 },
307 { AArch64::LD1Twov4s, "ld1", ".4s", 0, false, 0 },
308 { AArch64::LD1Twov2d, "ld1", ".2d", 0, false, 0 },
309 { AArch64::LD1Twov8b, "ld1", ".8b", 0, false, 0 },
310 { AArch64::LD1Twov4h, "ld1", ".4h", 0, false, 0 },
311 { AArch64::LD1Twov2s, "ld1", ".2s", 0, false, 0 },
312 { AArch64::LD1Twov1d, "ld1", ".1d", 0, false, 0 },
313 { AArch64::LD1Twov16b_POST, "ld1", ".16b", 1, false, 32 },
314 { AArch64::LD1Twov8h_POST, "ld1", ".8h", 1, false, 32 },
315 { AArch64::LD1Twov4s_POST, "ld1", ".4s", 1, false, 32 },
316 { AArch64::LD1Twov2d_POST, "ld1", ".2d", 1, false, 32 },
317 { AArch64::LD1Twov8b_POST, "ld1", ".8b", 1, false, 16 },
318 { AArch64::LD1Twov4h_POST, "ld1", ".4h", 1, false, 16 },
319 { AArch64::LD1Twov2s_POST, "ld1", ".2s", 1, false, 16 },
320 { AArch64::LD1Twov1d_POST, "ld1", ".1d", 1, false, 16 },
321 { AArch64::LD1Threev16b, "ld1", ".16b", 0, false, 0 },
322 { AArch64::LD1Threev8h, "ld1", ".8h", 0, false, 0 },
323 { AArch64::LD1Threev4s, "ld1", ".4s", 0, false, 0 },
324 { AArch64::LD1Threev2d, "ld1", ".2d", 0, false, 0 },
325 { AArch64::LD1Threev8b, "ld1", ".8b", 0, false, 0 },
326 { AArch64::LD1Threev4h, "ld1", ".4h", 0, false, 0 },
327 { AArch64::LD1Threev2s, "ld1", ".2s", 0, false, 0 },
328 { AArch64::LD1Threev1d, "ld1", ".1d", 0, false, 0 },
329 { AArch64::LD1Threev16b_POST, "ld1", ".16b", 1, false, 48 },
330 { AArch64::LD1Threev8h_POST, "ld1", ".8h", 1, false, 48 },
331 { AArch64::LD1Threev4s_POST, "ld1", ".4s", 1, false, 48 },
332 { AArch64::LD1Threev2d_POST, "ld1", ".2d", 1, false, 48 },
333 { AArch64::LD1Threev8b_POST, "ld1", ".8b", 1, false, 24 },
334 { AArch64::LD1Threev4h_POST, "ld1", ".4h", 1, false, 24 },
335 { AArch64::LD1Threev2s_POST, "ld1", ".2s", 1, false, 24 },
336 { AArch64::LD1Threev1d_POST, "ld1", ".1d", 1, false, 24 },
337 { AArch64::LD1Fourv16b, "ld1", ".16b", 0, false, 0 },
338 { AArch64::LD1Fourv8h, "ld1", ".8h", 0, false, 0 },
339 { AArch64::LD1Fourv4s, "ld1", ".4s", 0, false, 0 },
340 { AArch64::LD1Fourv2d, "ld1", ".2d", 0, false, 0 },
341 { AArch64::LD1Fourv8b, "ld1", ".8b", 0, false, 0 },
342 { AArch64::LD1Fourv4h, "ld1", ".4h", 0, false, 0 },
343 { AArch64::LD1Fourv2s, "ld1", ".2s", 0, false, 0 },
344 { AArch64::LD1Fourv1d, "ld1", ".1d", 0, false, 0 },
345 { AArch64::LD1Fourv16b_POST, "ld1", ".16b", 1, false, 64 },
346 { AArch64::LD1Fourv8h_POST, "ld1", ".8h", 1, false, 64 },
347 { AArch64::LD1Fourv4s_POST, "ld1", ".4s", 1, false, 64 },
348 { AArch64::LD1Fourv2d_POST, "ld1", ".2d", 1, false, 64 },
349 { AArch64::LD1Fourv8b_POST, "ld1", ".8b", 1, false, 32 },
350 { AArch64::LD1Fourv4h_POST, "ld1", ".4h", 1, false, 32 },
351 { AArch64::LD1Fourv2s_POST, "ld1", ".2s", 1, false, 32 },
352 { AArch64::LD1Fourv1d_POST, "ld1", ".1d", 1, false, 32 },
353 { AArch64::LD2i8, "ld2", ".b", 1, true, 0 },
354 { AArch64::LD2i16, "ld2", ".h", 1, true, 0 },
355 { AArch64::LD2i32, "ld2", ".s", 1, true, 0 },
356 { AArch64::LD2i64, "ld2", ".d", 1, true, 0 },
357 { AArch64::LD2i8_POST, "ld2", ".b", 2, true, 2 },
358 { AArch64::LD2i16_POST, "ld2", ".h", 2, true, 4 },
359 { AArch64::LD2i32_POST, "ld2", ".s", 2, true, 8 },
360 { AArch64::LD2i64_POST, "ld2", ".d", 2, true, 16 },
361 { AArch64::LD2Rv16b, "ld2r", ".16b", 0, false, 0 },
362 { AArch64::LD2Rv8h, "ld2r", ".8h", 0, false, 0 },
363 { AArch64::LD2Rv4s, "ld2r", ".4s", 0, false, 0 },
364 { AArch64::LD2Rv2d, "ld2r", ".2d", 0, false, 0 },
365 { AArch64::LD2Rv8b, "ld2r", ".8b", 0, false, 0 },
366 { AArch64::LD2Rv4h, "ld2r", ".4h", 0, false, 0 },
367 { AArch64::LD2Rv2s, "ld2r", ".2s", 0, false, 0 },
368 { AArch64::LD2Rv1d, "ld2r", ".1d", 0, false, 0 },
369 { AArch64::LD2Rv16b_POST, "ld2r", ".16b", 1, false, 2 },
370 { AArch64::LD2Rv8h_POST, "ld2r", ".8h", 1, false, 4 },
371 { AArch64::LD2Rv4s_POST, "ld2r", ".4s", 1, false, 8 },
372 { AArch64::LD2Rv2d_POST, "ld2r", ".2d", 1, false, 16 },
373 { AArch64::LD2Rv8b_POST, "ld2r", ".8b", 1, false, 2 },
374 { AArch64::LD2Rv4h_POST, "ld2r", ".4h", 1, false, 4 },
375 { AArch64::LD2Rv2s_POST, "ld2r", ".2s", 1, false, 8 },
376 { AArch64::LD2Rv1d_POST, "ld2r", ".1d", 1, false, 16 },
377 { AArch64::LD2Twov16b, "ld2", ".16b", 0, false, 0 },
378 { AArch64::LD2Twov8h, "ld2", ".8h", 0, false, 0 },
379 { AArch64::LD2Twov4s, "ld2", ".4s", 0, false, 0 },
380 { AArch64::LD2Twov2d, "ld2", ".2d", 0, false, 0 },
381 { AArch64::LD2Twov8b, "ld2", ".8b", 0, false, 0 },
382 { AArch64::LD2Twov4h, "ld2", ".4h", 0, false, 0 },
383 { AArch64::LD2Twov2s, "ld2", ".2s", 0, false, 0 },
384 { AArch64::LD2Twov16b_POST, "ld2", ".16b", 1, false, 32 },
385 { AArch64::LD2Twov8h_POST, "ld2", ".8h", 1, false, 32 },
386 { AArch64::LD2Twov4s_POST, "ld2", ".4s", 1, false, 32 },
387 { AArch64::LD2Twov2d_POST, "ld2", ".2d", 1, false, 32 },
388 { AArch64::LD2Twov8b_POST, "ld2", ".8b", 1, false, 16 },
389 { AArch64::LD2Twov4h_POST, "ld2", ".4h", 1, false, 16 },
390 { AArch64::LD2Twov2s_POST, "ld2", ".2s", 1, false, 16 },
391 { AArch64::LD3i8, "ld3", ".b", 1, true, 0 },
392 { AArch64::LD3i16, "ld3", ".h", 1, true, 0 },
393 { AArch64::LD3i32, "ld3", ".s", 1, true, 0 },
394 { AArch64::LD3i64, "ld3", ".d", 1, true, 0 },
395 { AArch64::LD3i8_POST, "ld3", ".b", 2, true, 3 },
396 { AArch64::LD3i16_POST, "ld3", ".h", 2, true, 6 },
397 { AArch64::LD3i32_POST, "ld3", ".s", 2, true, 12 },
398 { AArch64::LD3i64_POST, "ld3", ".d", 2, true, 24 },
399 { AArch64::LD3Rv16b, "ld3r", ".16b", 0, false, 0 },
400 { AArch64::LD3Rv8h, "ld3r", ".8h", 0, false, 0 },
401 { AArch64::LD3Rv4s, "ld3r", ".4s", 0, false, 0 },
402 { AArch64::LD3Rv2d, "ld3r", ".2d", 0, false, 0 },
403 { AArch64::LD3Rv8b, "ld3r", ".8b", 0, false, 0 },
404 { AArch64::LD3Rv4h, "ld3r", ".4h", 0, false, 0 },
405 { AArch64::LD3Rv2s, "ld3r", ".2s", 0, false, 0 },
406 { AArch64::LD3Rv1d, "ld3r", ".1d", 0, false, 0 },
407 { AArch64::LD3Rv16b_POST, "ld3r", ".16b", 1, false, 3 },
408 { AArch64::LD3Rv8h_POST, "ld3r", ".8h", 1, false, 6 },
409 { AArch64::LD3Rv4s_POST, "ld3r", ".4s", 1, false, 12 },
410 { AArch64::LD3Rv2d_POST, "ld3r", ".2d", 1, false, 24 },
411 { AArch64::LD3Rv8b_POST, "ld3r", ".8b", 1, false, 3 },
412 { AArch64::LD3Rv4h_POST, "ld3r", ".4h", 1, false, 6 },
413 { AArch64::LD3Rv2s_POST, "ld3r", ".2s", 1, false, 12 },
414 { AArch64::LD3Rv1d_POST, "ld3r", ".1d", 1, false, 24 },
415 { AArch64::LD3Threev16b, "ld3", ".16b", 0, false, 0 },
416 { AArch64::LD3Threev8h, "ld3", ".8h", 0, false, 0 },
417 { AArch64::LD3Threev4s, "ld3", ".4s", 0, false, 0 },
418 { AArch64::LD3Threev2d, "ld3", ".2d", 0, false, 0 },
419 { AArch64::LD3Threev8b, "ld3", ".8b", 0, false, 0 },
420 { AArch64::LD3Threev4h, "ld3", ".4h", 0, false, 0 },
421 { AArch64::LD3Threev2s, "ld3", ".2s", 0, false, 0 },
422 { AArch64::LD3Threev16b_POST, "ld3", ".16b", 1, false, 48 },
423 { AArch64::LD3Threev8h_POST, "ld3", ".8h", 1, false, 48 },
424 { AArch64::LD3Threev4s_POST, "ld3", ".4s", 1, false, 48 },
425 { AArch64::LD3Threev2d_POST, "ld3", ".2d", 1, false, 48 },
426 { AArch64::LD3Threev8b_POST, "ld3", ".8b", 1, false, 24 },
427 { AArch64::LD3Threev4h_POST, "ld3", ".4h", 1, false, 24 },
428 { AArch64::LD3Threev2s_POST, "ld3", ".2s", 1, false, 24 },
429 { AArch64::LD4i8, "ld4", ".b", 1, true, 0 },
430 { AArch64::LD4i16, "ld4", ".h", 1, true, 0 },
431 { AArch64::LD4i32, "ld4", ".s", 1, true, 0 },
432 { AArch64::LD4i64, "ld4", ".d", 1, true, 0 },
433 { AArch64::LD4i8_POST, "ld4", ".b", 2, true, 4 },
434 { AArch64::LD4i16_POST, "ld4", ".h", 2, true, 8 },
435 { AArch64::LD4i32_POST, "ld4", ".s", 2, true, 16 },
436 { AArch64::LD4i64_POST, "ld4", ".d", 2, true, 32 },
437 { AArch64::LD4Rv16b, "ld4r", ".16b", 0, false, 0 },
438 { AArch64::LD4Rv8h, "ld4r", ".8h", 0, false, 0 },
439 { AArch64::LD4Rv4s, "ld4r", ".4s", 0, false, 0 },
440 { AArch64::LD4Rv2d, "ld4r", ".2d", 0, false, 0 },
441 { AArch64::LD4Rv8b, "ld4r", ".8b", 0, false, 0 },
442 { AArch64::LD4Rv4h, "ld4r", ".4h", 0, false, 0 },
443 { AArch64::LD4Rv2s, "ld4r", ".2s", 0, false, 0 },
444 { AArch64::LD4Rv1d, "ld4r", ".1d", 0, false, 0 },
445 { AArch64::LD4Rv16b_POST, "ld4r", ".16b", 1, false, 4 },
446 { AArch64::LD4Rv8h_POST, "ld4r", ".8h", 1, false, 8 },
447 { AArch64::LD4Rv4s_POST, "ld4r", ".4s", 1, false, 16 },
448 { AArch64::LD4Rv2d_POST, "ld4r", ".2d", 1, false, 32 },
449 { AArch64::LD4Rv8b_POST, "ld4r", ".8b", 1, false, 4 },
450 { AArch64::LD4Rv4h_POST, "ld4r", ".4h", 1, false, 8 },
451 { AArch64::LD4Rv2s_POST, "ld4r", ".2s", 1, false, 16 },
452 { AArch64::LD4Rv1d_POST, "ld4r", ".1d", 1, false, 32 },
453 { AArch64::LD4Fourv16b, "ld4", ".16b", 0, false, 0 },
454 { AArch64::LD4Fourv8h, "ld4", ".8h", 0, false, 0 },
455 { AArch64::LD4Fourv4s, "ld4", ".4s", 0, false, 0 },
456 { AArch64::LD4Fourv2d, "ld4", ".2d", 0, false, 0 },
457 { AArch64::LD4Fourv8b, "ld4", ".8b", 0, false, 0 },
458 { AArch64::LD4Fourv4h, "ld4", ".4h", 0, false, 0 },
459 { AArch64::LD4Fourv2s, "ld4", ".2s", 0, false, 0 },
460 { AArch64::LD4Fourv16b_POST, "ld4", ".16b", 1, false, 64 },
461 { AArch64::LD4Fourv8h_POST, "ld4", ".8h", 1, false, 64 },
462 { AArch64::LD4Fourv4s_POST, "ld4", ".4s", 1, false, 64 },
463 { AArch64::LD4Fourv2d_POST, "ld4", ".2d", 1, false, 64 },
464 { AArch64::LD4Fourv8b_POST, "ld4", ".8b", 1, false, 32 },
465 { AArch64::LD4Fourv4h_POST, "ld4", ".4h", 1, false, 32 },
466 { AArch64::LD4Fourv2s_POST, "ld4", ".2s", 1, false, 32 },
467 { AArch64::ST1i8, "st1", ".b", 0, true, 0 },
468 { AArch64::ST1i16, "st1", ".h", 0, true, 0 },
469 { AArch64::ST1i32, "st1", ".s", 0, true, 0 },
470 { AArch64::ST1i64, "st1", ".d", 0, true, 0 },
471 { AArch64::ST1i8_POST, "st1", ".b", 1, true, 1 },
472 { AArch64::ST1i16_POST, "st1", ".h", 1, true, 2 },
473 { AArch64::ST1i32_POST, "st1", ".s", 1, true, 4 },
474 { AArch64::ST1i64_POST, "st1", ".d", 1, true, 8 },
475 { AArch64::ST1Onev16b, "st1", ".16b", 0, false, 0 },
476 { AArch64::ST1Onev8h, "st1", ".8h", 0, false, 0 },
477 { AArch64::ST1Onev4s, "st1", ".4s", 0, false, 0 },
478 { AArch64::ST1Onev2d, "st1", ".2d", 0, false, 0 },
479 { AArch64::ST1Onev8b, "st1", ".8b", 0, false, 0 },
480 { AArch64::ST1Onev4h, "st1", ".4h", 0, false, 0 },
481 { AArch64::ST1Onev2s, "st1", ".2s", 0, false, 0 },
482 { AArch64::ST1Onev1d, "st1", ".1d", 0, false, 0 },
483 { AArch64::ST1Onev16b_POST, "st1", ".16b", 1, false, 16 },
484 { AArch64::ST1Onev8h_POST, "st1", ".8h", 1, false, 16 },
485 { AArch64::ST1Onev4s_POST, "st1", ".4s", 1, false, 16 },
486 { AArch64::ST1Onev2d_POST, "st1", ".2d", 1, false, 16 },
487 { AArch64::ST1Onev8b_POST, "st1", ".8b", 1, false, 8 },
488 { AArch64::ST1Onev4h_POST, "st1", ".4h", 1, false, 8 },
489 { AArch64::ST1Onev2s_POST, "st1", ".2s", 1, false, 8 },
490 { AArch64::ST1Onev1d_POST, "st1", ".1d", 1, false, 8 },
491 { AArch64::ST1Twov16b, "st1", ".16b", 0, false, 0 },
492 { AArch64::ST1Twov8h, "st1", ".8h", 0, false, 0 },
493 { AArch64::ST1Twov4s, "st1", ".4s", 0, false, 0 },
494 { AArch64::ST1Twov2d, "st1", ".2d", 0, false, 0 },
495 { AArch64::ST1Twov8b, "st1", ".8b", 0, false, 0 },
496 { AArch64::ST1Twov4h, "st1", ".4h", 0, false, 0 },
497 { AArch64::ST1Twov2s, "st1", ".2s", 0, false, 0 },
498 { AArch64::ST1Twov1d, "st1", ".1d", 0, false, 0 },
499 { AArch64::ST1Twov16b_POST, "st1", ".16b", 1, false, 32 },
500 { AArch64::ST1Twov8h_POST, "st1", ".8h", 1, false, 32 },
501 { AArch64::ST1Twov4s_POST, "st1", ".4s", 1, false, 32 },
502 { AArch64::ST1Twov2d_POST, "st1", ".2d", 1, false, 32 },
503 { AArch64::ST1Twov8b_POST, "st1", ".8b", 1, false, 16 },
504 { AArch64::ST1Twov4h_POST, "st1", ".4h", 1, false, 16 },
505 { AArch64::ST1Twov2s_POST, "st1", ".2s", 1, false, 16 },
506 { AArch64::ST1Twov1d_POST, "st1", ".1d", 1, false, 16 },
507 { AArch64::ST1Threev16b, "st1", ".16b", 0, false, 0 },
508 { AArch64::ST1Threev8h, "st1", ".8h", 0, false, 0 },
509 { AArch64::ST1Threev4s, "st1", ".4s", 0, false, 0 },
510 { AArch64::ST1Threev2d, "st1", ".2d", 0, false, 0 },
511 { AArch64::ST1Threev8b, "st1", ".8b", 0, false, 0 },
512 { AArch64::ST1Threev4h, "st1", ".4h", 0, false, 0 },
513 { AArch64::ST1Threev2s, "st1", ".2s", 0, false, 0 },
514 { AArch64::ST1Threev1d, "st1", ".1d", 0, false, 0 },
515 { AArch64::ST1Threev16b_POST, "st1", ".16b", 1, false, 48 },
516 { AArch64::ST1Threev8h_POST, "st1", ".8h", 1, false, 48 },
517 { AArch64::ST1Threev4s_POST, "st1", ".4s", 1, false, 48 },
518 { AArch64::ST1Threev2d_POST, "st1", ".2d", 1, false, 48 },
519 { AArch64::ST1Threev8b_POST, "st1", ".8b", 1, false, 24 },
520 { AArch64::ST1Threev4h_POST, "st1", ".4h", 1, false, 24 },
521 { AArch64::ST1Threev2s_POST, "st1", ".2s", 1, false, 24 },
522 { AArch64::ST1Threev1d_POST, "st1", ".1d", 1, false, 24 },
523 { AArch64::ST1Fourv16b, "st1", ".16b", 0, false, 0 },
524 { AArch64::ST1Fourv8h, "st1", ".8h", 0, false, 0 },
525 { AArch64::ST1Fourv4s, "st1", ".4s", 0, false, 0 },
526 { AArch64::ST1Fourv2d, "st1", ".2d", 0, false, 0 },
527 { AArch64::ST1Fourv8b, "st1", ".8b", 0, false, 0 },
528 { AArch64::ST1Fourv4h, "st1", ".4h", 0, false, 0 },
529 { AArch64::ST1Fourv2s, "st1", ".2s", 0, false, 0 },
530 { AArch64::ST1Fourv1d, "st1", ".1d", 0, false, 0 },
531 { AArch64::ST1Fourv16b_POST, "st1", ".16b", 1, false, 64 },
532 { AArch64::ST1Fourv8h_POST, "st1", ".8h", 1, false, 64 },
533 { AArch64::ST1Fourv4s_POST, "st1", ".4s", 1, false, 64 },
534 { AArch64::ST1Fourv2d_POST, "st1", ".2d", 1, false, 64 },
535 { AArch64::ST1Fourv8b_POST, "st1", ".8b", 1, false, 32 },
536 { AArch64::ST1Fourv4h_POST, "st1", ".4h", 1, false, 32 },
537 { AArch64::ST1Fourv2s_POST, "st1", ".2s", 1, false, 32 },
538 { AArch64::ST1Fourv1d_POST, "st1", ".1d", 1, false, 32 },
539 { AArch64::ST2i8, "st2", ".b", 0, true, 0 },
540 { AArch64::ST2i16, "st2", ".h", 0, true, 0 },
541 { AArch64::ST2i32, "st2", ".s", 0, true, 0 },
542 { AArch64::ST2i64, "st2", ".d", 0, true, 0 },
543 { AArch64::ST2i8_POST, "st2", ".b", 1, true, 2 },
544 { AArch64::ST2i16_POST, "st2", ".h", 1, true, 4 },
545 { AArch64::ST2i32_POST, "st2", ".s", 1, true, 8 },
546 { AArch64::ST2i64_POST, "st2", ".d", 1, true, 16 },
547 { AArch64::ST2Twov16b, "st2", ".16b", 0, false, 0 },
548 { AArch64::ST2Twov8h, "st2", ".8h", 0, false, 0 },
549 { AArch64::ST2Twov4s, "st2", ".4s", 0, false, 0 },
550 { AArch64::ST2Twov2d, "st2", ".2d", 0, false, 0 },
551 { AArch64::ST2Twov8b, "st2", ".8b", 0, false, 0 },
552 { AArch64::ST2Twov4h, "st2", ".4h", 0, false, 0 },
553 { AArch64::ST2Twov2s, "st2", ".2s", 0, false, 0 },
554 { AArch64::ST2Twov16b_POST, "st2", ".16b", 1, false, 32 },
555 { AArch64::ST2Twov8h_POST, "st2", ".8h", 1, false, 32 },
556 { AArch64::ST2Twov4s_POST, "st2", ".4s", 1, false, 32 },
557 { AArch64::ST2Twov2d_POST, "st2", ".2d", 1, false, 32 },
558 { AArch64::ST2Twov8b_POST, "st2", ".8b", 1, false, 16 },
559 { AArch64::ST2Twov4h_POST, "st2", ".4h", 1, false, 16 },
560 { AArch64::ST2Twov2s_POST, "st2", ".2s", 1, false, 16 },
561 { AArch64::ST3i8, "st3", ".b", 0, true, 0 },
562 { AArch64::ST3i16, "st3", ".h", 0, true, 0 },
563 { AArch64::ST3i32, "st3", ".s", 0, true, 0 },
564 { AArch64::ST3i64, "st3", ".d", 0, true, 0 },
565 { AArch64::ST3i8_POST, "st3", ".b", 1, true, 3 },
566 { AArch64::ST3i16_POST, "st3", ".h", 1, true, 6 },
567 { AArch64::ST3i32_POST, "st3", ".s", 1, true, 12 },
568 { AArch64::ST3i64_POST, "st3", ".d", 1, true, 24 },
569 { AArch64::ST3Threev16b, "st3", ".16b", 0, false, 0 },
570 { AArch64::ST3Threev8h, "st3", ".8h", 0, false, 0 },
571 { AArch64::ST3Threev4s, "st3", ".4s", 0, false, 0 },
572 { AArch64::ST3Threev2d, "st3", ".2d", 0, false, 0 },
573 { AArch64::ST3Threev8b, "st3", ".8b", 0, false, 0 },
574 { AArch64::ST3Threev4h, "st3", ".4h", 0, false, 0 },
575 { AArch64::ST3Threev2s, "st3", ".2s", 0, false, 0 },
576 { AArch64::ST3Threev16b_POST, "st3", ".16b", 1, false, 48 },
577 { AArch64::ST3Threev8h_POST, "st3", ".8h", 1, false, 48 },
578 { AArch64::ST3Threev4s_POST, "st3", ".4s", 1, false, 48 },
579 { AArch64::ST3Threev2d_POST, "st3", ".2d", 1, false, 48 },
580 { AArch64::ST3Threev8b_POST, "st3", ".8b", 1, false, 24 },
581 { AArch64::ST3Threev4h_POST, "st3", ".4h", 1, false, 24 },
582 { AArch64::ST3Threev2s_POST, "st3", ".2s", 1, false, 24 },
583 { AArch64::ST4i8, "st4", ".b", 0, true, 0 },
584 { AArch64::ST4i16, "st4", ".h", 0, true, 0 },
585 { AArch64::ST4i32, "st4", ".s", 0, true, 0 },
586 { AArch64::ST4i64, "st4", ".d", 0, true, 0 },
587 { AArch64::ST4i8_POST, "st4", ".b", 1, true, 4 },
588 { AArch64::ST4i16_POST, "st4", ".h", 1, true, 8 },
589 { AArch64::ST4i32_POST, "st4", ".s", 1, true, 16 },
590 { AArch64::ST4i64_POST, "st4", ".d", 1, true, 32 },
591 { AArch64::ST4Fourv16b, "st4", ".16b", 0, false, 0 },
592 { AArch64::ST4Fourv8h, "st4", ".8h", 0, false, 0 },
593 { AArch64::ST4Fourv4s, "st4", ".4s", 0, false, 0 },
594 { AArch64::ST4Fourv2d, "st4", ".2d", 0, false, 0 },
595 { AArch64::ST4Fourv8b, "st4", ".8b", 0, false, 0 },
596 { AArch64::ST4Fourv4h, "st4", ".4h", 0, false, 0 },
597 { AArch64::ST4Fourv2s, "st4", ".2s", 0, false, 0 },
598 { AArch64::ST4Fourv16b_POST, "st4", ".16b", 1, false, 64 },
599 { AArch64::ST4Fourv8h_POST, "st4", ".8h", 1, false, 64 },
600 { AArch64::ST4Fourv4s_POST, "st4", ".4s", 1, false, 64 },
601 { AArch64::ST4Fourv2d_POST, "st4", ".2d", 1, false, 64 },
602 { AArch64::ST4Fourv8b_POST, "st4", ".8b", 1, false, 32 },
603 { AArch64::ST4Fourv4h_POST, "st4", ".4h", 1, false, 32 },
604 { AArch64::ST4Fourv2s_POST, "st4", ".2s", 1, false, 32 },
605 };
606
getLdStNInstrDesc(unsigned Opcode)607 static LdStNInstrDesc *getLdStNInstrDesc(unsigned Opcode) {
608 unsigned Idx;
609 for (Idx = 0; Idx != array_lengthof(LdStNInstInfo); ++Idx)
610 if (LdStNInstInfo[Idx].Opcode == Opcode)
611 return &LdStNInstInfo[Idx];
612
613 return nullptr;
614 }
615
printInst(const MCInst * MI,raw_ostream & O,StringRef Annot)616 void AArch64AppleInstPrinter::printInst(const MCInst *MI, raw_ostream &O,
617 StringRef Annot) {
618 unsigned Opcode = MI->getOpcode();
619 StringRef Layout, Mnemonic;
620
621 bool IsTbx;
622 if (isTblTbxInstruction(MI->getOpcode(), Layout, IsTbx)) {
623 O << "\t" << (IsTbx ? "tbx" : "tbl") << Layout << '\t'
624 << getRegisterName(MI->getOperand(0).getReg(), AArch64::vreg) << ", ";
625
626 unsigned ListOpNum = IsTbx ? 2 : 1;
627 printVectorList(MI, ListOpNum, O, "");
628
629 O << ", "
630 << getRegisterName(MI->getOperand(ListOpNum + 1).getReg(), AArch64::vreg);
631 printAnnotation(O, Annot);
632 return;
633 }
634
635 if (LdStNInstrDesc *LdStDesc = getLdStNInstrDesc(Opcode)) {
636 O << "\t" << LdStDesc->Mnemonic << LdStDesc->Layout << '\t';
637
638 // Now onto the operands: first a vector list with possible lane
639 // specifier. E.g. { v0 }[2]
640 int OpNum = LdStDesc->ListOperand;
641 printVectorList(MI, OpNum++, O, "");
642
643 if (LdStDesc->HasLane)
644 O << '[' << MI->getOperand(OpNum++).getImm() << ']';
645
646 // Next the address: [xN]
647 unsigned AddrReg = MI->getOperand(OpNum++).getReg();
648 O << ", [" << getRegisterName(AddrReg) << ']';
649
650 // Finally, there might be a post-indexed offset.
651 if (LdStDesc->NaturalOffset != 0) {
652 unsigned Reg = MI->getOperand(OpNum++).getReg();
653 if (Reg != AArch64::XZR)
654 O << ", " << getRegisterName(Reg);
655 else {
656 assert(LdStDesc->NaturalOffset && "no offset on post-inc instruction?");
657 O << ", #" << LdStDesc->NaturalOffset;
658 }
659 }
660
661 printAnnotation(O, Annot);
662 return;
663 }
664
665 AArch64InstPrinter::printInst(MI, O, Annot);
666 }
667
printSysAlias(const MCInst * MI,raw_ostream & O)668 bool AArch64InstPrinter::printSysAlias(const MCInst *MI, raw_ostream &O) {
669 #ifndef NDEBUG
670 unsigned Opcode = MI->getOpcode();
671 assert(Opcode == AArch64::SYSxt && "Invalid opcode for SYS alias!");
672 #endif
673
674 const char *Asm = nullptr;
675 const MCOperand &Op1 = MI->getOperand(0);
676 const MCOperand &Cn = MI->getOperand(1);
677 const MCOperand &Cm = MI->getOperand(2);
678 const MCOperand &Op2 = MI->getOperand(3);
679
680 unsigned Op1Val = Op1.getImm();
681 unsigned CnVal = Cn.getImm();
682 unsigned CmVal = Cm.getImm();
683 unsigned Op2Val = Op2.getImm();
684
685 if (CnVal == 7) {
686 switch (CmVal) {
687 default:
688 break;
689
690 // IC aliases
691 case 1:
692 if (Op1Val == 0 && Op2Val == 0)
693 Asm = "ic\tialluis";
694 break;
695 case 5:
696 if (Op1Val == 0 && Op2Val == 0)
697 Asm = "ic\tiallu";
698 else if (Op1Val == 3 && Op2Val == 1)
699 Asm = "ic\tivau";
700 break;
701
702 // DC aliases
703 case 4:
704 if (Op1Val == 3 && Op2Val == 1)
705 Asm = "dc\tzva";
706 break;
707 case 6:
708 if (Op1Val == 0 && Op2Val == 1)
709 Asm = "dc\tivac";
710 if (Op1Val == 0 && Op2Val == 2)
711 Asm = "dc\tisw";
712 break;
713 case 10:
714 if (Op1Val == 3 && Op2Val == 1)
715 Asm = "dc\tcvac";
716 else if (Op1Val == 0 && Op2Val == 2)
717 Asm = "dc\tcsw";
718 break;
719 case 11:
720 if (Op1Val == 3 && Op2Val == 1)
721 Asm = "dc\tcvau";
722 break;
723 case 14:
724 if (Op1Val == 3 && Op2Val == 1)
725 Asm = "dc\tcivac";
726 else if (Op1Val == 0 && Op2Val == 2)
727 Asm = "dc\tcisw";
728 break;
729
730 // AT aliases
731 case 8:
732 switch (Op1Val) {
733 default:
734 break;
735 case 0:
736 switch (Op2Val) {
737 default:
738 break;
739 case 0: Asm = "at\ts1e1r"; break;
740 case 1: Asm = "at\ts1e1w"; break;
741 case 2: Asm = "at\ts1e0r"; break;
742 case 3: Asm = "at\ts1e0w"; break;
743 }
744 break;
745 case 4:
746 switch (Op2Val) {
747 default:
748 break;
749 case 0: Asm = "at\ts1e2r"; break;
750 case 1: Asm = "at\ts1e2w"; break;
751 case 4: Asm = "at\ts12e1r"; break;
752 case 5: Asm = "at\ts12e1w"; break;
753 case 6: Asm = "at\ts12e0r"; break;
754 case 7: Asm = "at\ts12e0w"; break;
755 }
756 break;
757 case 6:
758 switch (Op2Val) {
759 default:
760 break;
761 case 0: Asm = "at\ts1e3r"; break;
762 case 1: Asm = "at\ts1e3w"; break;
763 }
764 break;
765 }
766 break;
767 }
768 } else if (CnVal == 8) {
769 // TLBI aliases
770 switch (CmVal) {
771 default:
772 break;
773 case 3:
774 switch (Op1Val) {
775 default:
776 break;
777 case 0:
778 switch (Op2Val) {
779 default:
780 break;
781 case 0: Asm = "tlbi\tvmalle1is"; break;
782 case 1: Asm = "tlbi\tvae1is"; break;
783 case 2: Asm = "tlbi\taside1is"; break;
784 case 3: Asm = "tlbi\tvaae1is"; break;
785 case 5: Asm = "tlbi\tvale1is"; break;
786 case 7: Asm = "tlbi\tvaale1is"; break;
787 }
788 break;
789 case 4:
790 switch (Op2Val) {
791 default:
792 break;
793 case 0: Asm = "tlbi\talle2is"; break;
794 case 1: Asm = "tlbi\tvae2is"; break;
795 case 4: Asm = "tlbi\talle1is"; break;
796 case 5: Asm = "tlbi\tvale2is"; break;
797 case 6: Asm = "tlbi\tvmalls12e1is"; break;
798 }
799 break;
800 case 6:
801 switch (Op2Val) {
802 default:
803 break;
804 case 0: Asm = "tlbi\talle3is"; break;
805 case 1: Asm = "tlbi\tvae3is"; break;
806 case 5: Asm = "tlbi\tvale3is"; break;
807 }
808 break;
809 }
810 break;
811 case 0:
812 switch (Op1Val) {
813 default:
814 break;
815 case 4:
816 switch (Op2Val) {
817 default:
818 break;
819 case 1: Asm = "tlbi\tipas2e1is"; break;
820 case 5: Asm = "tlbi\tipas2le1is"; break;
821 }
822 break;
823 }
824 break;
825 case 4:
826 switch (Op1Val) {
827 default:
828 break;
829 case 4:
830 switch (Op2Val) {
831 default:
832 break;
833 case 1: Asm = "tlbi\tipas2e1"; break;
834 case 5: Asm = "tlbi\tipas2le1"; break;
835 }
836 break;
837 }
838 break;
839 case 7:
840 switch (Op1Val) {
841 default:
842 break;
843 case 0:
844 switch (Op2Val) {
845 default:
846 break;
847 case 0: Asm = "tlbi\tvmalle1"; break;
848 case 1: Asm = "tlbi\tvae1"; break;
849 case 2: Asm = "tlbi\taside1"; break;
850 case 3: Asm = "tlbi\tvaae1"; break;
851 case 5: Asm = "tlbi\tvale1"; break;
852 case 7: Asm = "tlbi\tvaale1"; break;
853 }
854 break;
855 case 4:
856 switch (Op2Val) {
857 default:
858 break;
859 case 0: Asm = "tlbi\talle2"; break;
860 case 1: Asm = "tlbi\tvae2"; break;
861 case 4: Asm = "tlbi\talle1"; break;
862 case 5: Asm = "tlbi\tvale2"; break;
863 case 6: Asm = "tlbi\tvmalls12e1"; break;
864 }
865 break;
866 case 6:
867 switch (Op2Val) {
868 default:
869 break;
870 case 0: Asm = "tlbi\talle3"; break;
871 case 1: Asm = "tlbi\tvae3"; break;
872 case 5: Asm = "tlbi\tvale3"; break;
873 }
874 break;
875 }
876 break;
877 }
878 }
879
880 if (Asm) {
881 unsigned Reg = MI->getOperand(4).getReg();
882
883 O << '\t' << Asm;
884 if (StringRef(Asm).lower().find("all") == StringRef::npos)
885 O << ", " << getRegisterName(Reg);
886 }
887
888 return Asm != nullptr;
889 }
890
printOperand(const MCInst * MI,unsigned OpNo,raw_ostream & O)891 void AArch64InstPrinter::printOperand(const MCInst *MI, unsigned OpNo,
892 raw_ostream &O) {
893 const MCOperand &Op = MI->getOperand(OpNo);
894 if (Op.isReg()) {
895 unsigned Reg = Op.getReg();
896 O << getRegisterName(Reg);
897 } else if (Op.isImm()) {
898 O << '#' << Op.getImm();
899 } else {
900 assert(Op.isExpr() && "unknown operand kind in printOperand");
901 O << *Op.getExpr();
902 }
903 }
904
printHexImm(const MCInst * MI,unsigned OpNo,raw_ostream & O)905 void AArch64InstPrinter::printHexImm(const MCInst *MI, unsigned OpNo,
906 raw_ostream &O) {
907 const MCOperand &Op = MI->getOperand(OpNo);
908 O << format("#%#llx", Op.getImm());
909 }
910
printPostIncOperand(const MCInst * MI,unsigned OpNo,unsigned Imm,raw_ostream & O)911 void AArch64InstPrinter::printPostIncOperand(const MCInst *MI, unsigned OpNo,
912 unsigned Imm, raw_ostream &O) {
913 const MCOperand &Op = MI->getOperand(OpNo);
914 if (Op.isReg()) {
915 unsigned Reg = Op.getReg();
916 if (Reg == AArch64::XZR)
917 O << "#" << Imm;
918 else
919 O << getRegisterName(Reg);
920 } else
921 llvm_unreachable("unknown operand kind in printPostIncOperand64");
922 }
923
printVRegOperand(const MCInst * MI,unsigned OpNo,raw_ostream & O)924 void AArch64InstPrinter::printVRegOperand(const MCInst *MI, unsigned OpNo,
925 raw_ostream &O) {
926 const MCOperand &Op = MI->getOperand(OpNo);
927 assert(Op.isReg() && "Non-register vreg operand!");
928 unsigned Reg = Op.getReg();
929 O << getRegisterName(Reg, AArch64::vreg);
930 }
931
printSysCROperand(const MCInst * MI,unsigned OpNo,raw_ostream & O)932 void AArch64InstPrinter::printSysCROperand(const MCInst *MI, unsigned OpNo,
933 raw_ostream &O) {
934 const MCOperand &Op = MI->getOperand(OpNo);
935 assert(Op.isImm() && "System instruction C[nm] operands must be immediates!");
936 O << "c" << Op.getImm();
937 }
938
printAddSubImm(const MCInst * MI,unsigned OpNum,raw_ostream & O)939 void AArch64InstPrinter::printAddSubImm(const MCInst *MI, unsigned OpNum,
940 raw_ostream &O) {
941 const MCOperand &MO = MI->getOperand(OpNum);
942 if (MO.isImm()) {
943 unsigned Val = (MO.getImm() & 0xfff);
944 assert(Val == MO.getImm() && "Add/sub immediate out of range!");
945 unsigned Shift =
946 AArch64_AM::getShiftValue(MI->getOperand(OpNum + 1).getImm());
947 O << '#' << Val;
948 if (Shift != 0)
949 printShifter(MI, OpNum + 1, O);
950
951 if (CommentStream)
952 *CommentStream << '=' << (Val << Shift) << '\n';
953 } else {
954 assert(MO.isExpr() && "Unexpected operand type!");
955 O << *MO.getExpr();
956 printShifter(MI, OpNum + 1, O);
957 }
958 }
959
printLogicalImm32(const MCInst * MI,unsigned OpNum,raw_ostream & O)960 void AArch64InstPrinter::printLogicalImm32(const MCInst *MI, unsigned OpNum,
961 raw_ostream &O) {
962 uint64_t Val = MI->getOperand(OpNum).getImm();
963 O << "#0x";
964 O.write_hex(AArch64_AM::decodeLogicalImmediate(Val, 32));
965 }
966
printLogicalImm64(const MCInst * MI,unsigned OpNum,raw_ostream & O)967 void AArch64InstPrinter::printLogicalImm64(const MCInst *MI, unsigned OpNum,
968 raw_ostream &O) {
969 uint64_t Val = MI->getOperand(OpNum).getImm();
970 O << "#0x";
971 O.write_hex(AArch64_AM::decodeLogicalImmediate(Val, 64));
972 }
973
printShifter(const MCInst * MI,unsigned OpNum,raw_ostream & O)974 void AArch64InstPrinter::printShifter(const MCInst *MI, unsigned OpNum,
975 raw_ostream &O) {
976 unsigned Val = MI->getOperand(OpNum).getImm();
977 // LSL #0 should not be printed.
978 if (AArch64_AM::getShiftType(Val) == AArch64_AM::LSL &&
979 AArch64_AM::getShiftValue(Val) == 0)
980 return;
981 O << ", " << AArch64_AM::getShiftExtendName(AArch64_AM::getShiftType(Val))
982 << " #" << AArch64_AM::getShiftValue(Val);
983 }
984
printShiftedRegister(const MCInst * MI,unsigned OpNum,raw_ostream & O)985 void AArch64InstPrinter::printShiftedRegister(const MCInst *MI, unsigned OpNum,
986 raw_ostream &O) {
987 O << getRegisterName(MI->getOperand(OpNum).getReg());
988 printShifter(MI, OpNum + 1, O);
989 }
990
printExtendedRegister(const MCInst * MI,unsigned OpNum,raw_ostream & O)991 void AArch64InstPrinter::printExtendedRegister(const MCInst *MI, unsigned OpNum,
992 raw_ostream &O) {
993 O << getRegisterName(MI->getOperand(OpNum).getReg());
994 printArithExtend(MI, OpNum + 1, O);
995 }
996
printArithExtend(const MCInst * MI,unsigned OpNum,raw_ostream & O)997 void AArch64InstPrinter::printArithExtend(const MCInst *MI, unsigned OpNum,
998 raw_ostream &O) {
999 unsigned Val = MI->getOperand(OpNum).getImm();
1000 AArch64_AM::ShiftExtendType ExtType = AArch64_AM::getArithExtendType(Val);
1001 unsigned ShiftVal = AArch64_AM::getArithShiftValue(Val);
1002
1003 // If the destination or first source register operand is [W]SP, print
1004 // UXTW/UXTX as LSL, and if the shift amount is also zero, print nothing at
1005 // all.
1006 if (ExtType == AArch64_AM::UXTW || ExtType == AArch64_AM::UXTX) {
1007 unsigned Dest = MI->getOperand(0).getReg();
1008 unsigned Src1 = MI->getOperand(1).getReg();
1009 if ( ((Dest == AArch64::SP || Src1 == AArch64::SP) &&
1010 ExtType == AArch64_AM::UXTX) ||
1011 ((Dest == AArch64::WSP || Src1 == AArch64::WSP) &&
1012 ExtType == AArch64_AM::UXTW) ) {
1013 if (ShiftVal != 0)
1014 O << ", lsl #" << ShiftVal;
1015 return;
1016 }
1017 }
1018 O << ", " << AArch64_AM::getShiftExtendName(ExtType);
1019 if (ShiftVal != 0)
1020 O << " #" << ShiftVal;
1021 }
1022
printMemExtend(const MCInst * MI,unsigned OpNum,raw_ostream & O,char SrcRegKind,unsigned Width)1023 void AArch64InstPrinter::printMemExtend(const MCInst *MI, unsigned OpNum,
1024 raw_ostream &O, char SrcRegKind,
1025 unsigned Width) {
1026 unsigned SignExtend = MI->getOperand(OpNum).getImm();
1027 unsigned DoShift = MI->getOperand(OpNum + 1).getImm();
1028
1029 // sxtw, sxtx, uxtw or lsl (== uxtx)
1030 bool IsLSL = !SignExtend && SrcRegKind == 'x';
1031 if (IsLSL)
1032 O << "lsl";
1033 else
1034 O << (SignExtend ? 's' : 'u') << "xt" << SrcRegKind;
1035
1036 if (DoShift || IsLSL)
1037 O << " #" << Log2_32(Width / 8);
1038 }
1039
printCondCode(const MCInst * MI,unsigned OpNum,raw_ostream & O)1040 void AArch64InstPrinter::printCondCode(const MCInst *MI, unsigned OpNum,
1041 raw_ostream &O) {
1042 AArch64CC::CondCode CC = (AArch64CC::CondCode)MI->getOperand(OpNum).getImm();
1043 O << AArch64CC::getCondCodeName(CC);
1044 }
1045
printInverseCondCode(const MCInst * MI,unsigned OpNum,raw_ostream & O)1046 void AArch64InstPrinter::printInverseCondCode(const MCInst *MI, unsigned OpNum,
1047 raw_ostream &O) {
1048 AArch64CC::CondCode CC = (AArch64CC::CondCode)MI->getOperand(OpNum).getImm();
1049 O << AArch64CC::getCondCodeName(AArch64CC::getInvertedCondCode(CC));
1050 }
1051
printAMNoIndex(const MCInst * MI,unsigned OpNum,raw_ostream & O)1052 void AArch64InstPrinter::printAMNoIndex(const MCInst *MI, unsigned OpNum,
1053 raw_ostream &O) {
1054 O << '[' << getRegisterName(MI->getOperand(OpNum).getReg()) << ']';
1055 }
1056
1057 template<int Scale>
printImmScale(const MCInst * MI,unsigned OpNum,raw_ostream & O)1058 void AArch64InstPrinter::printImmScale(const MCInst *MI, unsigned OpNum,
1059 raw_ostream &O) {
1060 O << '#' << Scale * MI->getOperand(OpNum).getImm();
1061 }
1062
printUImm12Offset(const MCInst * MI,unsigned OpNum,unsigned Scale,raw_ostream & O)1063 void AArch64InstPrinter::printUImm12Offset(const MCInst *MI, unsigned OpNum,
1064 unsigned Scale, raw_ostream &O) {
1065 const MCOperand MO = MI->getOperand(OpNum);
1066 if (MO.isImm()) {
1067 O << "#" << (MO.getImm() * Scale);
1068 } else {
1069 assert(MO.isExpr() && "Unexpected operand type!");
1070 O << *MO.getExpr();
1071 }
1072 }
1073
printAMIndexedWB(const MCInst * MI,unsigned OpNum,unsigned Scale,raw_ostream & O)1074 void AArch64InstPrinter::printAMIndexedWB(const MCInst *MI, unsigned OpNum,
1075 unsigned Scale, raw_ostream &O) {
1076 const MCOperand MO1 = MI->getOperand(OpNum + 1);
1077 O << '[' << getRegisterName(MI->getOperand(OpNum).getReg());
1078 if (MO1.isImm()) {
1079 O << ", #" << (MO1.getImm() * Scale);
1080 } else {
1081 assert(MO1.isExpr() && "Unexpected operand type!");
1082 O << ", " << *MO1.getExpr();
1083 }
1084 O << ']';
1085 }
1086
printPrefetchOp(const MCInst * MI,unsigned OpNum,raw_ostream & O)1087 void AArch64InstPrinter::printPrefetchOp(const MCInst *MI, unsigned OpNum,
1088 raw_ostream &O) {
1089 unsigned prfop = MI->getOperand(OpNum).getImm();
1090 bool Valid;
1091 StringRef Name = AArch64PRFM::PRFMMapper().toString(prfop, Valid);
1092 if (Valid)
1093 O << Name;
1094 else
1095 O << '#' << prfop;
1096 }
1097
printFPImmOperand(const MCInst * MI,unsigned OpNum,raw_ostream & O)1098 void AArch64InstPrinter::printFPImmOperand(const MCInst *MI, unsigned OpNum,
1099 raw_ostream &O) {
1100 const MCOperand &MO = MI->getOperand(OpNum);
1101 float FPImm =
1102 MO.isFPImm() ? MO.getFPImm() : AArch64_AM::getFPImmFloat(MO.getImm());
1103
1104 // 8 decimal places are enough to perfectly represent permitted floats.
1105 O << format("#%.8f", FPImm);
1106 }
1107
getNextVectorRegister(unsigned Reg,unsigned Stride=1)1108 static unsigned getNextVectorRegister(unsigned Reg, unsigned Stride = 1) {
1109 while (Stride--) {
1110 switch (Reg) {
1111 default:
1112 llvm_unreachable("Vector register expected!");
1113 case AArch64::Q0: Reg = AArch64::Q1; break;
1114 case AArch64::Q1: Reg = AArch64::Q2; break;
1115 case AArch64::Q2: Reg = AArch64::Q3; break;
1116 case AArch64::Q3: Reg = AArch64::Q4; break;
1117 case AArch64::Q4: Reg = AArch64::Q5; break;
1118 case AArch64::Q5: Reg = AArch64::Q6; break;
1119 case AArch64::Q6: Reg = AArch64::Q7; break;
1120 case AArch64::Q7: Reg = AArch64::Q8; break;
1121 case AArch64::Q8: Reg = AArch64::Q9; break;
1122 case AArch64::Q9: Reg = AArch64::Q10; break;
1123 case AArch64::Q10: Reg = AArch64::Q11; break;
1124 case AArch64::Q11: Reg = AArch64::Q12; break;
1125 case AArch64::Q12: Reg = AArch64::Q13; break;
1126 case AArch64::Q13: Reg = AArch64::Q14; break;
1127 case AArch64::Q14: Reg = AArch64::Q15; break;
1128 case AArch64::Q15: Reg = AArch64::Q16; break;
1129 case AArch64::Q16: Reg = AArch64::Q17; break;
1130 case AArch64::Q17: Reg = AArch64::Q18; break;
1131 case AArch64::Q18: Reg = AArch64::Q19; break;
1132 case AArch64::Q19: Reg = AArch64::Q20; break;
1133 case AArch64::Q20: Reg = AArch64::Q21; break;
1134 case AArch64::Q21: Reg = AArch64::Q22; break;
1135 case AArch64::Q22: Reg = AArch64::Q23; break;
1136 case AArch64::Q23: Reg = AArch64::Q24; break;
1137 case AArch64::Q24: Reg = AArch64::Q25; break;
1138 case AArch64::Q25: Reg = AArch64::Q26; break;
1139 case AArch64::Q26: Reg = AArch64::Q27; break;
1140 case AArch64::Q27: Reg = AArch64::Q28; break;
1141 case AArch64::Q28: Reg = AArch64::Q29; break;
1142 case AArch64::Q29: Reg = AArch64::Q30; break;
1143 case AArch64::Q30: Reg = AArch64::Q31; break;
1144 // Vector lists can wrap around.
1145 case AArch64::Q31:
1146 Reg = AArch64::Q0;
1147 break;
1148 }
1149 }
1150 return Reg;
1151 }
1152
printVectorList(const MCInst * MI,unsigned OpNum,raw_ostream & O,StringRef LayoutSuffix)1153 void AArch64InstPrinter::printVectorList(const MCInst *MI, unsigned OpNum,
1154 raw_ostream &O,
1155 StringRef LayoutSuffix) {
1156 unsigned Reg = MI->getOperand(OpNum).getReg();
1157
1158 O << "{ ";
1159
1160 // Work out how many registers there are in the list (if there is an actual
1161 // list).
1162 unsigned NumRegs = 1;
1163 if (MRI.getRegClass(AArch64::DDRegClassID).contains(Reg) ||
1164 MRI.getRegClass(AArch64::QQRegClassID).contains(Reg))
1165 NumRegs = 2;
1166 else if (MRI.getRegClass(AArch64::DDDRegClassID).contains(Reg) ||
1167 MRI.getRegClass(AArch64::QQQRegClassID).contains(Reg))
1168 NumRegs = 3;
1169 else if (MRI.getRegClass(AArch64::DDDDRegClassID).contains(Reg) ||
1170 MRI.getRegClass(AArch64::QQQQRegClassID).contains(Reg))
1171 NumRegs = 4;
1172
1173 // Now forget about the list and find out what the first register is.
1174 if (unsigned FirstReg = MRI.getSubReg(Reg, AArch64::dsub0))
1175 Reg = FirstReg;
1176 else if (unsigned FirstReg = MRI.getSubReg(Reg, AArch64::qsub0))
1177 Reg = FirstReg;
1178
1179 // If it's a D-reg, we need to promote it to the equivalent Q-reg before
1180 // printing (otherwise getRegisterName fails).
1181 if (MRI.getRegClass(AArch64::FPR64RegClassID).contains(Reg)) {
1182 const MCRegisterClass &FPR128RC =
1183 MRI.getRegClass(AArch64::FPR128RegClassID);
1184 Reg = MRI.getMatchingSuperReg(Reg, AArch64::dsub, &FPR128RC);
1185 }
1186
1187 for (unsigned i = 0; i < NumRegs; ++i, Reg = getNextVectorRegister(Reg)) {
1188 O << getRegisterName(Reg, AArch64::vreg) << LayoutSuffix;
1189 if (i + 1 != NumRegs)
1190 O << ", ";
1191 }
1192
1193 O << " }";
1194 }
1195
printImplicitlyTypedVectorList(const MCInst * MI,unsigned OpNum,raw_ostream & O)1196 void AArch64InstPrinter::printImplicitlyTypedVectorList(const MCInst *MI,
1197 unsigned OpNum,
1198 raw_ostream &O) {
1199 printVectorList(MI, OpNum, O, "");
1200 }
1201
1202 template <unsigned NumLanes, char LaneKind>
printTypedVectorList(const MCInst * MI,unsigned OpNum,raw_ostream & O)1203 void AArch64InstPrinter::printTypedVectorList(const MCInst *MI, unsigned OpNum,
1204 raw_ostream &O) {
1205 std::string Suffix(".");
1206 if (NumLanes)
1207 Suffix += itostr(NumLanes) + LaneKind;
1208 else
1209 Suffix += LaneKind;
1210
1211 printVectorList(MI, OpNum, O, Suffix);
1212 }
1213
printVectorIndex(const MCInst * MI,unsigned OpNum,raw_ostream & O)1214 void AArch64InstPrinter::printVectorIndex(const MCInst *MI, unsigned OpNum,
1215 raw_ostream &O) {
1216 O << "[" << MI->getOperand(OpNum).getImm() << "]";
1217 }
1218
printAlignedLabel(const MCInst * MI,unsigned OpNum,raw_ostream & O)1219 void AArch64InstPrinter::printAlignedLabel(const MCInst *MI, unsigned OpNum,
1220 raw_ostream &O) {
1221 const MCOperand &Op = MI->getOperand(OpNum);
1222
1223 // If the label has already been resolved to an immediate offset (say, when
1224 // we're running the disassembler), just print the immediate.
1225 if (Op.isImm()) {
1226 O << "#" << (Op.getImm() * 4);
1227 return;
1228 }
1229
1230 // If the branch target is simply an address then print it in hex.
1231 const MCConstantExpr *BranchTarget =
1232 dyn_cast<MCConstantExpr>(MI->getOperand(OpNum).getExpr());
1233 int64_t Address;
1234 if (BranchTarget && BranchTarget->EvaluateAsAbsolute(Address)) {
1235 O << "0x";
1236 O.write_hex(Address);
1237 } else {
1238 // Otherwise, just print the expression.
1239 O << *MI->getOperand(OpNum).getExpr();
1240 }
1241 }
1242
printAdrpLabel(const MCInst * MI,unsigned OpNum,raw_ostream & O)1243 void AArch64InstPrinter::printAdrpLabel(const MCInst *MI, unsigned OpNum,
1244 raw_ostream &O) {
1245 const MCOperand &Op = MI->getOperand(OpNum);
1246
1247 // If the label has already been resolved to an immediate offset (say, when
1248 // we're running the disassembler), just print the immediate.
1249 if (Op.isImm()) {
1250 O << "#" << (Op.getImm() * (1 << 12));
1251 return;
1252 }
1253
1254 // Otherwise, just print the expression.
1255 O << *MI->getOperand(OpNum).getExpr();
1256 }
1257
printBarrierOption(const MCInst * MI,unsigned OpNo,raw_ostream & O)1258 void AArch64InstPrinter::printBarrierOption(const MCInst *MI, unsigned OpNo,
1259 raw_ostream &O) {
1260 unsigned Val = MI->getOperand(OpNo).getImm();
1261 unsigned Opcode = MI->getOpcode();
1262
1263 bool Valid;
1264 StringRef Name;
1265 if (Opcode == AArch64::ISB)
1266 Name = AArch64ISB::ISBMapper().toString(Val, Valid);
1267 else
1268 Name = AArch64DB::DBarrierMapper().toString(Val, Valid);
1269 if (Valid)
1270 O << Name;
1271 else
1272 O << "#" << Val;
1273 }
1274
printMRSSystemRegister(const MCInst * MI,unsigned OpNo,raw_ostream & O)1275 void AArch64InstPrinter::printMRSSystemRegister(const MCInst *MI, unsigned OpNo,
1276 raw_ostream &O) {
1277 unsigned Val = MI->getOperand(OpNo).getImm();
1278
1279 auto Mapper = AArch64SysReg::MRSMapper(getAvailableFeatures());
1280 std::string Name = Mapper.toString(Val);
1281
1282 O << StringRef(Name).upper();
1283 }
1284
printMSRSystemRegister(const MCInst * MI,unsigned OpNo,raw_ostream & O)1285 void AArch64InstPrinter::printMSRSystemRegister(const MCInst *MI, unsigned OpNo,
1286 raw_ostream &O) {
1287 unsigned Val = MI->getOperand(OpNo).getImm();
1288
1289 auto Mapper = AArch64SysReg::MSRMapper(getAvailableFeatures());
1290 std::string Name = Mapper.toString(Val);
1291
1292 O << StringRef(Name).upper();
1293 }
1294
printSystemPStateField(const MCInst * MI,unsigned OpNo,raw_ostream & O)1295 void AArch64InstPrinter::printSystemPStateField(const MCInst *MI, unsigned OpNo,
1296 raw_ostream &O) {
1297 unsigned Val = MI->getOperand(OpNo).getImm();
1298
1299 bool Valid;
1300 StringRef Name = AArch64PState::PStateMapper().toString(Val, Valid);
1301 if (Valid)
1302 O << StringRef(Name.str()).upper();
1303 else
1304 O << "#" << Val;
1305 }
1306
printSIMDType10Operand(const MCInst * MI,unsigned OpNo,raw_ostream & O)1307 void AArch64InstPrinter::printSIMDType10Operand(const MCInst *MI, unsigned OpNo,
1308 raw_ostream &O) {
1309 unsigned RawVal = MI->getOperand(OpNo).getImm();
1310 uint64_t Val = AArch64_AM::decodeAdvSIMDModImmType10(RawVal);
1311 O << format("#%#016llx", Val);
1312 }
1313