ARMDisassembler.cpp source code [llvm_projects/llvm/lib/Target/ARM/Disassembler/ARMDisassembler.cpp]

1	//===- ARMDisassembler.cpp - Disassembler for ARM/Thumb ISA ---------------===//
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	#include "ARMBaseInstrInfo.h"
10	#include "MCTargetDesc/ARMAddressingModes.h"
11	#include "MCTargetDesc/ARMBaseInfo.h"
12	#include "MCTargetDesc/ARMMCTargetDesc.h"
13	#include "TargetInfo/ARMTargetInfo.h"
14	#include "Utils/ARMBaseInfo.h"
15	#include "llvm/MC/MCContext.h"
16	#include "llvm/MC/MCDecoderOps.h"
17	#include "llvm/MC/MCDisassembler/MCDisassembler.h"
18	#include "llvm/MC/MCInst.h"
19	#include "llvm/MC/MCInstrDesc.h"
20	#include "llvm/MC/MCInstrInfo.h"
21	#include "llvm/MC/MCSubtargetInfo.h"
22	#include "llvm/MC/TargetRegistry.h"
23	#include "llvm/Support/Compiler.h"
24	#include "llvm/Support/ErrorHandling.h"
25	#include "llvm/Support/MathExtras.h"
26	#include "llvm/Support/raw_ostream.h"
27	#include "llvm/TargetParser/SubtargetFeature.h"
28	#include <algorithm>
29	#include <cassert>
30	#include <cstdint>
31	#include <vector>
32
33	using namespace llvm;
34
35	#define DEBUG_TYPE "arm-disassembler"
36
37	using DecodeStatus = MCDisassembler::DecodeStatus;
38
39	namespace {
40
41	// Handles the condition code status of instructions in IT blocks
42	class ITStatus
43	{
44	public:
45	// Returns the condition code for instruction in IT block
46	unsigned getITCC() {
47	unsigned CC = ARMCC::AL;
48	if (instrInITBlock())
49	CC = ITStates.back();
50	return CC;
51	}
52
53	// Advances the IT block state to the next T or E
54	void advanceITState() {
55	ITStates.pop_back();
56	}
57
58	// Returns true if the current instruction is in an IT block
59	bool instrInITBlock() {
60	return !ITStates.empty();
61	}
62
63	// Returns true if current instruction is the last instruction in an IT block
64	bool instrLastInITBlock() {
65	return ITStates.size() == `1`;
66	}
67
68	// Called when decoding an IT instruction. Sets the IT state for
69	// the following instructions that for the IT block. Firstcond
70	// corresponds to the field in the IT instruction encoding; Mask
71	// is in the MCOperand format in which 1 means 'else' and 0 'then'.
72	void setITState(char Firstcond, char Mask) {
73	// (3 - the number of trailing zeros) is the number of then / else.
74	unsigned NumTZ = llvm::countr_zero<uint8_t>(Val: Mask);
75	unsigned char CCBits = static_cast<unsigned char>(Firstcond & `0xf`);
76	assert(NumTZ <= `3` && "Invalid IT mask!");
77	// push condition codes onto the stack the correct order for the pops
78	for (unsigned Pos = NumTZ+`1`; Pos <= `3`; ++Pos) {
79	unsigned Else = (Mask >> Pos) & `1`;
80	ITStates.push_back(x: CCBits ^ Else);
81	}
82	ITStates.push_back(x: CCBits);
83	}
84
85	private:
86	std::vector<unsigned char> ITStates;
87	};
88
89	class VPTStatus
90	{
91	public:
92	unsigned getVPTPred() {
93	unsigned Pred = ARMVCC::None;
94	if (instrInVPTBlock())
95	Pred = VPTStates.back();
96	return Pred;
97	}
98
99	void advanceVPTState() {
100	VPTStates.pop_back();
101	}
102
103	bool instrInVPTBlock() {
104	return !VPTStates.empty();
105	}
106
107	bool instrLastInVPTBlock() {
108	return VPTStates.size() == `1`;
109	}
110
111	void setVPTState(char Mask) {
112	// (3 - the number of trailing zeros) is the number of then / else.
113	unsigned NumTZ = llvm::countr_zero<uint8_t>(Val: Mask);
114	assert(NumTZ <= `3` && "Invalid VPT mask!");
115	// push predicates onto the stack the correct order for the pops
116	for (unsigned Pos = NumTZ+`1`; Pos <= `3`; ++Pos) {
117	bool T = ((Mask >> Pos) & `1`) == `0`;
118	if (T)
119	VPTStates.push_back(Elt: ARMVCC::Then);
120	else
121	VPTStates.push_back(Elt: ARMVCC::Else);
122	}
123	VPTStates.push_back(Elt: ARMVCC::Then);
124	}
125
126	private:
127	SmallVector<unsigned char, `4`> VPTStates;
128	};
129
130	/// ARM disassembler for all ARM platforms.
131	class ARMDisassembler : public MCDisassembler {
132	public:
133	std::unique_ptr<const MCInstrInfo> MCII;
134
135	ARMDisassembler(const MCSubtargetInfo &STI, MCContext &Ctx,
136	const MCInstrInfo *MCII)
137	: MCDisassembler (STI, Ctx), MCII (MCII) {
138	InstructionEndianness = STI.hasFeature(Feature: ARM::ModeBigEndianInstructions)
139	? llvm::endianness::big
140	: llvm::endianness::little;
141	}
142
143	~ARMDisassembler() override = default;
144
145	DecodeStatus getInstruction(MCInst &Instr, uint64_t &Size,
146	ArrayRef<uint8_t> Bytes, uint64_t Address,
147	raw_ostream &CStream) const override;
148
149	uint64_t suggestBytesToSkip(ArrayRef<uint8_t> Bytes,
150	uint64_t Address) const override;
151
152	private:
153	DecodeStatus getARMInstruction(MCInst &Instr, uint64_t &Size,
154	ArrayRef<uint8_t> Bytes, uint64_t Address,
155	raw_ostream &CStream) const;
156
157	DecodeStatus getThumbInstruction(MCInst &Instr, uint64_t &Size,
158	ArrayRef<uint8_t> Bytes, uint64_t Address,
159	raw_ostream &CStream) const;
160
161	mutable ITStatus ITBlock;
162	mutable VPTStatus VPTBlock;
163
164	void AddThumb1SBit(MCInst &MI, bool InITBlock) const;
165	bool isVectorPredicable(const MCInst &MI) const;
166	DecodeStatus AddThumbPredicate(MCInst&) const;
167	void UpdateThumbVFPPredicate(DecodeStatus &, MCInst&) const;
168
169	llvm::endianness InstructionEndianness;
170	};
171
172	} // end anonymous namespace
173
174	// Forward declare these because the autogenerated code will reference them.
175	// Definitions are further down.
176	static DecodeStatus DecodeGPRRegisterClass(MCInst &Inst, unsigned RegNo,
177	uint64_t Address,
178	const MCDisassembler *Decoder);
179	static DecodeStatus DecodeCLRMGPRRegisterClass(MCInst &Inst, unsigned RegNo,
180	uint64_t Address,
181	const MCDisassembler *Decoder);
182	static DecodeStatus DecodetGPROddRegisterClass(MCInst &Inst, unsigned RegNo,
183	uint64_t Address,
184	const MCDisassembler *Decoder);
185	static DecodeStatus DecodetGPREvenRegisterClass(MCInst &Inst, unsigned RegNo,
186	uint64_t Address,
187	const MCDisassembler *Decoder);
188	static DecodeStatus
189	DecodeGPRwithAPSR_NZCVnospRegisterClass(MCInst &Inst, unsigned RegNo,
190	uint64_t Address,
191	const MCDisassembler *Decoder);
192	static DecodeStatus DecodeGPRnopcRegisterClass(MCInst &Inst, unsigned RegNo,
193	uint64_t Address,
194	const MCDisassembler *Decoder);
195	static DecodeStatus DecodeGPRnospRegisterClass(MCInst &Inst, unsigned RegNo,
196	uint64_t Address,
197	const MCDisassembler *Decoder);
198	static DecodeStatus
199	DecodeGPRwithAPSRRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
200	const MCDisassembler *Decoder);
201	static DecodeStatus DecodeGPRwithZRRegisterClass(MCInst &Inst, unsigned RegNo,
202	uint64_t Address,
203	const MCDisassembler *Decoder);
204	static DecodeStatus
205	DecodeGPRwithZRnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
206	const MCDisassembler *Decoder);
207	static DecodeStatus DecodetGPRRegisterClass(MCInst &Inst, unsigned RegNo,
208	uint64_t Address,
209	const MCDisassembler *Decoder);
210	static DecodeStatus DecodetcGPRRegisterClass(MCInst &Inst, unsigned RegNo,
211	uint64_t Address,
212	const MCDisassembler *Decoder);
213	static DecodeStatus DecoderGPRRegisterClass(MCInst &Inst, unsigned RegNo,
214	uint64_t Address,
215	const MCDisassembler *Decoder);
216	static DecodeStatus DecodeGPRPairRegisterClass(MCInst &Inst, unsigned RegNo,
217	uint64_t Address,
218	const MCDisassembler *Decoder);
219	static DecodeStatus
220	DecodeGPRPairnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
221	const MCDisassembler *Decoder);
222	static DecodeStatus DecodeGPRspRegisterClass(MCInst &Inst, unsigned RegNo,
223	uint64_t Address,
224	const MCDisassembler *Decoder);
225	static DecodeStatus DecodeHPRRegisterClass(MCInst &Inst, unsigned RegNo,
226	uint64_t Address,
227	const MCDisassembler *Decoder);
228	static DecodeStatus DecodeSPRRegisterClass(MCInst &Inst, unsigned RegNo,
229	uint64_t Address,
230	const MCDisassembler *Decoder);
231	static DecodeStatus DecodeDPRRegisterClass(MCInst &Inst, unsigned RegNo,
232	uint64_t Address,
233	const MCDisassembler *Decoder);
234	static DecodeStatus DecodeDPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
235	uint64_t Address,
236	const MCDisassembler *Decoder);
237	static DecodeStatus DecodeSPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
238	uint64_t Address,
239	const MCDisassembler *Decoder);
240	static DecodeStatus DecodeDPR_VFP2RegisterClass(MCInst &Inst, unsigned RegNo,
241	uint64_t Address,
242	const MCDisassembler *Decoder);
243	static DecodeStatus DecodeQPRRegisterClass(MCInst &Inst, unsigned RegNo,
244	uint64_t Address,
245	const MCDisassembler *Decoder);
246	static DecodeStatus DecodeMQPRRegisterClass(MCInst &Inst, unsigned RegNo,
247	uint64_t Address,
248	const MCDisassembler *Decoder);
249	static DecodeStatus DecodeMQQPRRegisterClass(MCInst &Inst, unsigned RegNo,
250	uint64_t Address,
251	const MCDisassembler *Decoder);
252	static DecodeStatus DecodeMQQQQPRRegisterClass(MCInst &Inst, unsigned RegNo,
253	uint64_t Address,
254	const MCDisassembler *Decoder);
255	static DecodeStatus DecodeDPairRegisterClass(MCInst &Inst, unsigned RegNo,
256	uint64_t Address,
257	const MCDisassembler *Decoder);
258	static DecodeStatus
259	DecodeDPairSpacedRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
260	const MCDisassembler *Decoder);
261
262	static DecodeStatus DecodePredicateOperand(MCInst &Inst, unsigned Val,
263	uint64_t Address,
264	const MCDisassembler *Decoder);
265	static DecodeStatus DecodeCCOutOperand(MCInst &Inst, unsigned Val,
266	uint64_t Address,
267	const MCDisassembler *Decoder);
268	static DecodeStatus DecodeRegListOperand(MCInst &Inst, unsigned Val,
269	uint64_t Address,
270	const MCDisassembler *Decoder);
271	static DecodeStatus DecodeSPRRegListOperand(MCInst &Inst, unsigned Val,
272	uint64_t Address,
273	const MCDisassembler *Decoder);
274	static DecodeStatus DecodeDPRRegListOperand(MCInst &Inst, unsigned Val,
275	uint64_t Address,
276	const MCDisassembler *Decoder);
277
278	static DecodeStatus DecodeBitfieldMaskOperand(MCInst &Inst, unsigned Insn,
279	uint64_t Address,
280	const MCDisassembler *Decoder);
281	static DecodeStatus DecodeCopMemInstruction(MCInst &Inst, unsigned Insn,
282	uint64_t Address,
283	const MCDisassembler *Decoder);
284	static DecodeStatus
285	DecodeAddrMode2IdxInstruction(MCInst &Inst, unsigned Insn, uint64_t Address,
286	const MCDisassembler *Decoder);
287	static DecodeStatus DecodeSORegMemOperand(MCInst &Inst, unsigned Insn,
288	uint64_t Address,
289	const MCDisassembler *Decoder);
290	static DecodeStatus DecodeAddrMode3Instruction(MCInst &Inst, unsigned Insn,
291	uint64_t Address,
292	const MCDisassembler *Decoder);
293	static DecodeStatus DecodeTSBInstruction(MCInst &Inst, unsigned Insn,
294	uint64_t Address,
295	const MCDisassembler *Decoder);
296	static DecodeStatus DecodeSORegImmOperand(MCInst &Inst, unsigned Insn,
297	uint64_t Address,
298	const MCDisassembler *Decoder);
299	static DecodeStatus DecodeSORegRegOperand(MCInst &Inst, unsigned Insn,
300	uint64_t Address,
301	const MCDisassembler *Decoder);
302
303	static DecodeStatus
304	DecodeMemMultipleWritebackInstruction(MCInst &Inst, unsigned Insn,
305	uint64_t Adddress,
306	const MCDisassembler *Decoder);
307	static DecodeStatus DecodeT2MOVTWInstruction(MCInst &Inst, unsigned Insn,
308	uint64_t Address,
309	const MCDisassembler *Decoder);
310	static DecodeStatus DecodeArmMOVTWInstruction(MCInst &Inst, unsigned Insn,
311	uint64_t Address,
312	const MCDisassembler *Decoder);
313	static DecodeStatus DecodeSMLAInstruction(MCInst &Inst, unsigned Insn,
314	uint64_t Address,
315	const MCDisassembler *Decoder);
316	static DecodeStatus DecodeHINTInstruction(MCInst &Inst, unsigned Insn,
317	uint64_t Address,
318	const MCDisassembler *Decoder);
319	static DecodeStatus DecodeCPSInstruction(MCInst &Inst, unsigned Insn,
320	uint64_t Address,
321	const MCDisassembler *Decoder);
322	static DecodeStatus DecodeTSTInstruction(MCInst &Inst, unsigned Insn,
323	uint64_t Address,
324	const MCDisassembler *Decoder);
325	static DecodeStatus DecodeSETPANInstruction(MCInst &Inst, unsigned Insn,
326	uint64_t Address,
327	const MCDisassembler *Decoder);
328	static DecodeStatus DecodeT2CPSInstruction(MCInst &Inst, unsigned Insn,
329	uint64_t Address,
330	const MCDisassembler *Decoder);
331	static DecodeStatus DecodeT2HintSpaceInstruction(MCInst &Inst, unsigned Insn,
332	uint64_t Address,
333	const MCDisassembler *Decoder);
334	static DecodeStatus DecodeAddrModeImm12Operand(MCInst &Inst, unsigned Val,
335	uint64_t Address,
336	const MCDisassembler *Decoder);
337	static DecodeStatus DecodeAddrMode5Operand(MCInst &Inst, unsigned Val,
338	uint64_t Address,
339	const MCDisassembler *Decoder);
340	static DecodeStatus DecodeAddrMode5FP16Operand(MCInst &Inst, unsigned Val,
341	uint64_t Address,
342	const MCDisassembler *Decoder);
343	static DecodeStatus DecodeAddrMode7Operand(MCInst &Inst, unsigned Val,
344	uint64_t Address,
345	const MCDisassembler *Decoder);
346	static DecodeStatus DecodeT2BInstruction(MCInst &Inst, unsigned Insn,
347	uint64_t Address,
348	const MCDisassembler *Decoder);
349	static DecodeStatus DecodeBranchImmInstruction(MCInst &Inst, unsigned Insn,
350	uint64_t Address,
351	const MCDisassembler *Decoder);
352	static DecodeStatus DecodeAddrMode6Operand(MCInst &Inst, unsigned Val,
353	uint64_t Address,
354	const MCDisassembler *Decoder);
355	static DecodeStatus DecodeVLDST1Instruction(MCInst &Inst, unsigned Val,
356	uint64_t Address,
357	const MCDisassembler *Decoder);
358	static DecodeStatus DecodeVLDST2Instruction(MCInst &Inst, unsigned Val,
359	uint64_t Address,
360	const MCDisassembler *Decoder);
361	static DecodeStatus DecodeVLDST3Instruction(MCInst &Inst, unsigned Val,
362	uint64_t Address,
363	const MCDisassembler *Decoder);
364	static DecodeStatus DecodeVLDST4Instruction(MCInst &Inst, unsigned Val,
365	uint64_t Address,
366	const MCDisassembler *Decoder);
367	static DecodeStatus DecodeVLDInstruction(MCInst &Inst, unsigned Val,
368	uint64_t Address,
369	const MCDisassembler *Decoder);
370	static DecodeStatus DecodeVSTInstruction(MCInst &Inst, unsigned Val,
371	uint64_t Address,
372	const MCDisassembler *Decoder);
373	static DecodeStatus DecodeVLD1DupInstruction(MCInst &Inst, unsigned Val,
374	uint64_t Address,
375	const MCDisassembler *Decoder);
376	static DecodeStatus DecodeVLD2DupInstruction(MCInst &Inst, unsigned Val,
377	uint64_t Address,
378	const MCDisassembler *Decoder);
379	static DecodeStatus DecodeVLD3DupInstruction(MCInst &Inst, unsigned Val,
380	uint64_t Address,
381	const MCDisassembler *Decoder);
382	static DecodeStatus DecodeVLD4DupInstruction(MCInst &Inst, unsigned Val,
383	uint64_t Address,
384	const MCDisassembler *Decoder);
385	static DecodeStatus DecodeVMOVModImmInstruction(MCInst &Inst, unsigned Val,
386	uint64_t Address,
387	const MCDisassembler *Decoder);
388	static DecodeStatus DecodeMVEModImmInstruction(MCInst &Inst, unsigned Val,
389	uint64_t Address,
390	const MCDisassembler *Decoder);
391	static DecodeStatus DecodeMVEVADCInstruction(MCInst &Inst, unsigned Insn,
392	uint64_t Address,
393	const MCDisassembler *Decoder);
394	static DecodeStatus DecodeVSHLMaxInstruction(MCInst &Inst, unsigned Val,
395	uint64_t Address,
396	const MCDisassembler *Decoder);
397	static DecodeStatus DecodeShiftRight8Imm(MCInst &Inst, unsigned Val,
398	uint64_t Address,
399	const MCDisassembler *Decoder);
400	static DecodeStatus DecodeShiftRight16Imm(MCInst &Inst, unsigned Val,
401	uint64_t Address,
402	const MCDisassembler *Decoder);
403	static DecodeStatus DecodeShiftRight32Imm(MCInst &Inst, unsigned Val,
404	uint64_t Address,
405	const MCDisassembler *Decoder);
406	static DecodeStatus DecodeShiftRight64Imm(MCInst &Inst, unsigned Val,
407	uint64_t Address,
408	const MCDisassembler *Decoder);
409	static DecodeStatus DecodeTBLInstruction(MCInst &Inst, unsigned Insn,
410	uint64_t Address,
411	const MCDisassembler *Decoder);
412	static DecodeStatus DecodePostIdxReg(MCInst &Inst, unsigned Insn,
413	uint64_t Address,
414	const MCDisassembler *Decoder);
415	static DecodeStatus DecodeMveAddrModeRQ(MCInst &Inst, unsigned Insn,
416	uint64_t Address,
417	const MCDisassembler *Decoder);
418	template <int shift>
419	static DecodeStatus DecodeMveAddrModeQ(MCInst &Inst, unsigned Insn,
420	uint64_t Address,
421	const MCDisassembler *Decoder);
422	static DecodeStatus DecodeCoprocessor(MCInst &Inst, unsigned Insn,
423	uint64_t Address,
424	const MCDisassembler *Decoder);
425	static DecodeStatus DecodeMemBarrierOption(MCInst &Inst, unsigned Insn,
426	uint64_t Address,
427	const MCDisassembler *Decoder);
428	static DecodeStatus DecodeInstSyncBarrierOption(MCInst &Inst, unsigned Insn,
429	uint64_t Address,
430	const MCDisassembler *Decoder);
431	static DecodeStatus DecodeMSRMask(MCInst &Inst, unsigned Insn, uint64_t Address,
432	const MCDisassembler *Decoder);
433	static DecodeStatus DecodeBankedReg(MCInst &Inst, unsigned Insn,
434	uint64_t Address,
435	const MCDisassembler *Decoder);
436	static DecodeStatus DecodeDoubleRegLoad(MCInst &Inst, unsigned Insn,
437	uint64_t Address,
438	const MCDisassembler *Decoder);
439	static DecodeStatus DecodeDoubleRegStore(MCInst &Inst, unsigned Insn,
440	uint64_t Address,
441	const MCDisassembler *Decoder);
442	static DecodeStatus DecodeLDRPreImm(MCInst &Inst, unsigned Insn,
443	uint64_t Address,
444	const MCDisassembler *Decoder);
445	static DecodeStatus DecodeLDRPreReg(MCInst &Inst, unsigned Insn,
446	uint64_t Address,
447	const MCDisassembler *Decoder);
448	static DecodeStatus DecodeSTRPreImm(MCInst &Inst, unsigned Insn,
449	uint64_t Address,
450	const MCDisassembler *Decoder);
451	static DecodeStatus DecodeSTRPreReg(MCInst &Inst, unsigned Insn,
452	uint64_t Address,
453	const MCDisassembler *Decoder);
454	static DecodeStatus DecodeVLD1LN(MCInst &Inst, unsigned Insn, uint64_t Address,
455	const MCDisassembler *Decoder);
456	static DecodeStatus DecodeVLD2LN(MCInst &Inst, unsigned Insn, uint64_t Address,
457	const MCDisassembler *Decoder);
458	static DecodeStatus DecodeVLD3LN(MCInst &Inst, unsigned Insn, uint64_t Address,
459	const MCDisassembler *Decoder);
460	static DecodeStatus DecodeVLD4LN(MCInst &Inst, unsigned Insn, uint64_t Address,
461	const MCDisassembler *Decoder);
462	static DecodeStatus DecodeVST1LN(MCInst &Inst, unsigned Insn, uint64_t Address,
463	const MCDisassembler *Decoder);
464	static DecodeStatus DecodeVST2LN(MCInst &Inst, unsigned Insn, uint64_t Address,
465	const MCDisassembler *Decoder);
466	static DecodeStatus DecodeVST3LN(MCInst &Inst, unsigned Insn, uint64_t Address,
467	const MCDisassembler *Decoder);
468	static DecodeStatus DecodeVST4LN(MCInst &Inst, unsigned Insn, uint64_t Address,
469	const MCDisassembler *Decoder);
470	static DecodeStatus DecodeVMOVSRR(MCInst &Inst, unsigned Insn, uint64_t Address,
471	const MCDisassembler *Decoder);
472	static DecodeStatus DecodeVMOVRRS(MCInst &Inst, unsigned Insn, uint64_t Address,
473	const MCDisassembler *Decoder);
474	static DecodeStatus DecodeSwap(MCInst &Inst, unsigned Insn, uint64_t Address,
475	const MCDisassembler *Decoder);
476	static DecodeStatus DecodeVCVTD(MCInst &Inst, unsigned Insn, uint64_t Address,
477	const MCDisassembler *Decoder);
478	static DecodeStatus DecodeVCVTQ(MCInst &Inst, unsigned Insn, uint64_t Address,
479	const MCDisassembler *Decoder);
480	static DecodeStatus DecodeVCVTImmOperand(MCInst &Inst, unsigned Insn,
481	uint64_t Address,
482	const MCDisassembler *Decoder);
483	static DecodeStatus
484	DecodeNEONComplexLane64Instruction(MCInst &Inst, unsigned Val, uint64_t Address,
485	const MCDisassembler *Decoder);
486
487	static DecodeStatus DecodeThumbAddSpecialReg(MCInst &Inst, uint16_t Insn,
488	uint64_t Address,
489	const MCDisassembler *Decoder);
490	static DecodeStatus DecodeThumbBROperand(MCInst &Inst, unsigned Val,
491	uint64_t Address,
492	const MCDisassembler *Decoder);
493	static DecodeStatus DecodeT2BROperand(MCInst &Inst, unsigned Val,
494	uint64_t Address,
495	const MCDisassembler *Decoder);
496	static DecodeStatus DecodeThumbCmpBROperand(MCInst &Inst, unsigned Val,
497	uint64_t Address,
498	const MCDisassembler *Decoder);
499	static DecodeStatus DecodeThumbAddrModeRR(MCInst &Inst, unsigned Val,
500	uint64_t Address,
501	const MCDisassembler *Decoder);
502	static DecodeStatus DecodeThumbAddrModeIS(MCInst &Inst, unsigned Val,
503	uint64_t Address,
504	const MCDisassembler *Decoder);
505	static DecodeStatus DecodeThumbAddrModePC(MCInst &Inst, unsigned Val,
506	uint64_t Address,
507	const MCDisassembler *Decoder);
508	static DecodeStatus DecodeThumbAddrModeSP(MCInst &Inst, unsigned Val,
509	uint64_t Address,
510	const MCDisassembler *Decoder);
511	static DecodeStatus DecodeT2AddrModeSOReg(MCInst &Inst, unsigned Val,
512	uint64_t Address,
513	const MCDisassembler *Decoder);
514	static DecodeStatus DecodeT2LoadShift(MCInst &Inst, unsigned Val,
515	uint64_t Address,
516	const MCDisassembler *Decoder);
517	static DecodeStatus DecodeT2LoadImm8(MCInst &Inst, unsigned Insn,
518	uint64_t Address,
519	const MCDisassembler *Decoder);
520	static DecodeStatus DecodeT2LoadImm12(MCInst &Inst, unsigned Insn,
521	uint64_t Address,
522	const MCDisassembler *Decoder);
523	static DecodeStatus DecodeT2LoadT(MCInst &Inst, unsigned Insn, uint64_t Address,
524	const MCDisassembler *Decoder);
525	static DecodeStatus DecodeT2LoadLabel(MCInst &Inst, unsigned Insn,
526	uint64_t Address,
527	const MCDisassembler *Decoder);
528	static DecodeStatus DecodeT2Imm8S4(MCInst &Inst, unsigned Val, uint64_t Address,
529	const MCDisassembler *Decoder);
530	static DecodeStatus DecodeT2Imm7S4(MCInst &Inst, unsigned Val, uint64_t Address,
531	const MCDisassembler *Decoder);
532	static DecodeStatus DecodeT2AddrModeImm8s4(MCInst &Inst, unsigned Val,
533	uint64_t Address,
534	const MCDisassembler *Decoder);
535	static DecodeStatus DecodeT2AddrModeImm7s4(MCInst &Inst, unsigned Val,
536	uint64_t Address,
537	const MCDisassembler *Decoder);
538	static DecodeStatus DecodeT2AddrModeImm0_1020s4(MCInst &Inst, unsigned Val,
539	uint64_t Address,
540	const MCDisassembler *Decoder);
541	static DecodeStatus DecodeT2Imm8(MCInst &Inst, unsigned Val, uint64_t Address,
542	const MCDisassembler *Decoder);
543	template <int shift>
544	static DecodeStatus DecodeT2Imm7(MCInst &Inst, unsigned Val, uint64_t Address,
545	const MCDisassembler *Decoder);
546	static DecodeStatus DecodeT2AddrModeImm8(MCInst &Inst, unsigned Val,
547	uint64_t Address,
548	const MCDisassembler *Decoder);
549	template <int shift>
550	static DecodeStatus DecodeTAddrModeImm7(MCInst &Inst, unsigned Val,
551	uint64_t Address,
552	const MCDisassembler *Decoder);
553	template <int shift, int WriteBack>
554	static DecodeStatus DecodeT2AddrModeImm7(MCInst &Inst, unsigned Val,
555	uint64_t Address,
556	const MCDisassembler *Decoder);
557	static DecodeStatus DecodeThumbAddSPImm(MCInst &Inst, uint16_t Val,
558	uint64_t Address,
559	const MCDisassembler *Decoder);
560	static DecodeStatus DecodeThumbAddSPReg(MCInst &Inst, uint16_t Insn,
561	uint64_t Address,
562	const MCDisassembler *Decoder);
563	static DecodeStatus DecodeThumbCPS(MCInst &Inst, uint16_t Insn,
564	uint64_t Address,
565	const MCDisassembler *Decoder);
566	static DecodeStatus DecodeQADDInstruction(MCInst &Inst, unsigned Insn,
567	uint64_t Address,
568	const MCDisassembler *Decoder);
569	static DecodeStatus DecodeThumbBLXOffset(MCInst &Inst, unsigned Insn,
570	uint64_t Address,
571	const MCDisassembler *Decoder);
572	static DecodeStatus DecodeT2AddrModeImm12(MCInst &Inst, unsigned Val,
573	uint64_t Address,
574	const MCDisassembler *Decoder);
575	static DecodeStatus DecodeThumbTableBranch(MCInst &Inst, unsigned Val,
576	uint64_t Address,
577	const MCDisassembler *Decoder);
578	static DecodeStatus DecodeThumb2BCCInstruction(MCInst &Inst, unsigned Val,
579	uint64_t Address,
580	const MCDisassembler *Decoder);
581	static DecodeStatus DecodeT2SOImm(MCInst &Inst, unsigned Val, uint64_t Address,
582	const MCDisassembler *Decoder);
583	static DecodeStatus DecodeThumbBCCTargetOperand(MCInst &Inst, unsigned Val,
584	uint64_t Address,
585	const MCDisassembler *Decoder);
586	static DecodeStatus DecodeThumbBLTargetOperand(MCInst &Inst, unsigned Val,
587	uint64_t Address,
588	const MCDisassembler *Decoder);
589	static DecodeStatus DecodeIT(MCInst &Inst, unsigned Val, uint64_t Address,
590	const MCDisassembler *Decoder);
591	static DecodeStatus DecodeT2LDRDPreInstruction(MCInst &Inst, unsigned Insn,
592	uint64_t Address,
593	const MCDisassembler *Decoder);
594	static DecodeStatus DecodeT2STRDPreInstruction(MCInst &Inst, unsigned Insn,
595	uint64_t Address,
596	const MCDisassembler *Decoder);
597	static DecodeStatus DecodeT2Adr(MCInst &Inst, unsigned Val, uint64_t Address,
598	const MCDisassembler *Decoder);
599	static DecodeStatus DecodeT2LdStPre(MCInst &Inst, unsigned Val,
600	uint64_t Address,
601	const MCDisassembler *Decoder);
602	static DecodeStatus DecodeT2ShifterImmOperand(MCInst &Inst, unsigned Val,
603	uint64_t Address,
604	const MCDisassembler *Decoder);
605
606	static DecodeStatus DecodeLDR(MCInst &Inst, unsigned Val, uint64_t Address,
607	const MCDisassembler *Decoder);
608	static DecodeStatus DecoderForMRRC2AndMCRR2(MCInst &Inst, unsigned Val,
609	uint64_t Address,
610	const MCDisassembler *Decoder);
611	static DecodeStatus DecodeForVMRSandVMSR(MCInst &Inst, unsigned Val,
612	uint64_t Address,
613	const MCDisassembler *Decoder);
614
615	template <bool isSigned, bool isNeg, bool zeroPermitted, int size>
616	static DecodeStatus DecodeBFLabelOperand(MCInst &Inst, unsigned val,
617	uint64_t Address,
618	const MCDisassembler *Decoder);
619	static DecodeStatus DecodeBFAfterTargetOperand(MCInst &Inst, unsigned val,
620	uint64_t Address,
621	const MCDisassembler *Decoder);
622	static DecodeStatus DecodePredNoALOperand(MCInst &Inst, unsigned Val,
623	uint64_t Address,
624	const MCDisassembler *Decoder);
625	static DecodeStatus DecodeLOLoop(MCInst &Inst, unsigned Insn, uint64_t Address,
626	const MCDisassembler *Decoder);
627	static DecodeStatus DecodeLongShiftOperand(MCInst &Inst, unsigned Val,
628	uint64_t Address,
629	const MCDisassembler *Decoder);
630	static DecodeStatus DecodeVSCCLRM(MCInst &Inst, unsigned Insn, uint64_t Address,
631	const MCDisassembler *Decoder);
632	static DecodeStatus DecodeVPTMaskOperand(MCInst &Inst, unsigned Val,
633	uint64_t Address,
634	const MCDisassembler *Decoder);
635	static DecodeStatus DecodeVpredROperand(MCInst &Inst, unsigned Val,
636	uint64_t Address,
637	const MCDisassembler *Decoder);
638	static DecodeStatus DecodeVpredNOperand(MCInst &Inst, unsigned Val,
639	uint64_t Address,
640	const MCDisassembler *Decoder);
641	static DecodeStatus
642	DecodeRestrictedIPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
643	const MCDisassembler *Decoder);
644	static DecodeStatus
645	DecodeRestrictedSPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
646	const MCDisassembler *Decoder);
647	static DecodeStatus
648	DecodeRestrictedUPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
649	const MCDisassembler *Decoder);
650	static DecodeStatus
651	DecodeRestrictedFPPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
652	const MCDisassembler *Decoder);
653	template <bool Writeback>
654	static DecodeStatus DecodeVSTRVLDR_SYSREG(MCInst &Inst, unsigned Insn,
655	uint64_t Address,
656	const MCDisassembler *Decoder);
657	template <int shift>
658	static DecodeStatus DecodeMVE_MEM_1_pre(MCInst &Inst, unsigned Val,
659	uint64_t Address,
660	const MCDisassembler *Decoder);
661	template <int shift>
662	static DecodeStatus DecodeMVE_MEM_2_pre(MCInst &Inst, unsigned Val,
663	uint64_t Address,
664	const MCDisassembler *Decoder);
665	template <int shift>
666	static DecodeStatus DecodeMVE_MEM_3_pre(MCInst &Inst, unsigned Val,
667	uint64_t Address,
668	const MCDisassembler *Decoder);
669	template <unsigned MinLog, unsigned MaxLog>
670	static DecodeStatus DecodePowerTwoOperand(MCInst &Inst, unsigned Val,
671	uint64_t Address,
672	const MCDisassembler *Decoder);
673	template <unsigned start>
674	static DecodeStatus
675	DecodeMVEPairVectorIndexOperand(MCInst &Inst, unsigned Val, uint64_t Address,
676	const MCDisassembler *Decoder);
677	static DecodeStatus DecodeMVEVMOVQtoDReg(MCInst &Inst, unsigned Insn,
678	uint64_t Address,
679	const MCDisassembler *Decoder);
680	static DecodeStatus DecodeMVEVMOVDRegtoQ(MCInst &Inst, unsigned Insn,
681	uint64_t Address,
682	const MCDisassembler *Decoder);
683	static DecodeStatus DecodeMVEVCVTt1fp(MCInst &Inst, unsigned Insn,
684	uint64_t Address,
685	const MCDisassembler *Decoder);
686	typedef DecodeStatus OperandDecoder(MCInst &Inst, unsigned Val,
687	uint64_t Address,
688	const MCDisassembler *Decoder);
689	template <bool scalar, OperandDecoder predicate_decoder>
690	static DecodeStatus DecodeMVEVCMP(MCInst &Inst, unsigned Insn, uint64_t Address,
691	const MCDisassembler *Decoder);
692	static DecodeStatus DecodeMveVCTP(MCInst &Inst, unsigned Insn, uint64_t Address,
693	const MCDisassembler *Decoder);
694	static DecodeStatus DecodeMVEVPNOT(MCInst &Inst, unsigned Insn,
695	uint64_t Address,
696	const MCDisassembler *Decoder);
697	static DecodeStatus
698	DecodeMVEOverlappingLongShift(MCInst &Inst, unsigned Insn, uint64_t Address,
699	const MCDisassembler *Decoder);
700	static DecodeStatus DecodeT2AddSubSPImm(MCInst &Inst, unsigned Insn,
701	uint64_t Address,
702	const MCDisassembler *Decoder);
703	static DecodeStatus DecodeLazyLoadStoreMul(MCInst &Inst, unsigned Insn,
704	uint64_t Address,
705	const MCDisassembler *Decoder);
706
707	#include "ARMGenDisassemblerTables.inc"
708
709	static MCDisassembler createARMDisassembler(const* Target &T,
710	const MCSubtargetInfo &STI,
711	MCContext &Ctx) {
712	return new ARMDisassembler (STI, Ctx, T.createMCInstrInfo());
713	}
714
715	// Post-decoding checks
716	static DecodeStatus checkDecodedInstruction(MCInst &MI, uint64_t &Size,
717	uint64_t Address, raw_ostream &CS,
718	uint32_t Insn,
719	DecodeStatus Result) {
720	switch (MI.getOpcode()) {
721	case ARM::HVC: {
722	// HVC is undefined if condition = 0xf otherwise upredictable
723	// if condition != 0xe
724	uint32_t Cond = (Insn >> `28`) & `0xF`;
725	if (Cond == `0xF`)
726	return MCDisassembler::Fail;
727	if (Cond != `0xE`)
728	return MCDisassembler::SoftFail;
729	return Result;
730	}
731	case ARM::t2ADDri:
732	case ARM::t2ADDri12:
733	case ARM::t2ADDrr:
734	case ARM::t2ADDrs:
735	case ARM::t2SUBri:
736	case ARM::t2SUBri12:
737	case ARM::t2SUBrr:
738	case ARM::t2SUBrs:
739	if (MI.getOperand(i: `0`).getReg() == ARM::SP &&
740	MI.getOperand(i: `1`).getReg() != ARM::SP)
741	return MCDisassembler::SoftFail;
742	return Result;
743	default: return Result;
744	}
745	}
746
747	uint64_t ARMDisassembler::suggestBytesToSkip(ArrayRef<uint8_t> Bytes,
748	uint64_t Address) const {
749	// In Arm state, instructions are always 4 bytes wide, so there's no
750	// point in skipping any smaller number of bytes if an instruction
751	// can't be decoded.
752	if (!STI.hasFeature(Feature: ARM::ModeThumb))
753	return `4`;
754
755	// In a Thumb instruction stream, a halfword is a standalone 2-byte
756	// instruction if and only if its value is less than 0xE800.
757	// Otherwise, it's the first halfword of a 4-byte instruction.
758	//
759	// So, if we can see the upcoming halfword, we can judge on that
760	// basis, and maybe skip a whole 4-byte instruction that we don't
761	// know how to decode, without accidentally trying to interpret its
762	// second half as something else.
763	//
764	// If we don't have the instruction data available, we just have to
765	// recommend skipping the minimum sensible distance, which is 2
766	// bytes.
767	if (Bytes.size() < `2`)
768	return `2`;
769
770	uint16_t Insn16 = llvm::support::endian::read<uint16_t>(
771	memory: Bytes.data(), endian: InstructionEndianness);
772	return Insn16 < `0xE800` ? `2` : `4`;
773	}
774
775	DecodeStatus ARMDisassembler::getInstruction(MCInst &MI, uint64_t &Size,
776	ArrayRef<uint8_t> Bytes,
777	uint64_t Address,
778	raw_ostream &CS) const {
779	if (STI.hasFeature(Feature: ARM::ModeThumb))
780	return getThumbInstruction(Instr&: MI, Size, Bytes, Address, CStream&: CS);
781	return getARMInstruction(Instr&: MI, Size, Bytes, Address, CStream&: CS);
782	}
783
784	DecodeStatus ARMDisassembler::getARMInstruction(MCInst &MI, uint64_t &Size,
785	ArrayRef<uint8_t> Bytes,
786	uint64_t Address,
787	raw_ostream &CS) const {
788	CommentStream = &CS;
789
790	assert(!STI.hasFeature(ARM::ModeThumb) &&
791	"Asked to disassemble an ARM instruction but Subtarget is in Thumb "
792	"mode!");
793
794	// We want to read exactly 4 bytes of data.
795	if (Bytes.size() < `4`) {
796	Size = `0`;
797	return MCDisassembler::Fail;
798	}
799
800	// Encoded as a 32-bit word in the stream.
801	uint32_t Insn = llvm::support::endian::read<uint32_t>(memory: Bytes.data(),
802	endian: InstructionEndianness);
803
804	// Calling the auto-generated decoder function.
805	DecodeStatus Result =
806	decodeInstruction(DecodeTable: DecoderTableARM32, MI, insn: Insn, Address, DisAsm: this, STI);
807	if (Result != MCDisassembler::Fail) {
808	Size = `4`;
809	return checkDecodedInstruction(MI, Size, Address, CS, Insn, Result);
810	}
811
812	struct DecodeTable {
813	const uint8_t *P;
814	bool DecodePred;
815	};
816
817	const DecodeTable Tables[] = {
818	{.P: DecoderTableVFP32, .DecodePred: false}, {.P: DecoderTableVFPV832, .DecodePred: false},
819	{.P: DecoderTableNEONData32, .DecodePred: true}, {.P: DecoderTableNEONLoadStore32, .DecodePred: true},
820	{.P: DecoderTableNEONDup32, .DecodePred: true}, {.P: DecoderTablev8NEON32, .DecodePred: false},
821	{.P: DecoderTablev8Crypto32, .DecodePred: false},
822	};
823
824	for (auto Table : Tables) {
825	Result = decodeInstruction(DecodeTable: Table.P, MI, insn: Insn, Address, DisAsm: this, STI);
826	if (Result != MCDisassembler::Fail) {
827	Size = `4`;
828	// Add a fake predicate operand, because we share these instruction
829	// definitions with Thumb2 where these instructions are predicable.
830	if (Table.DecodePred && !DecodePredicateOperand(Inst&: MI, Val: `0xE`, Address, Decoder: this))
831	return MCDisassembler::Fail;
832	return Result;
833	}
834	}
835
836	Result =
837	decodeInstruction(DecodeTable: DecoderTableCoProc32, MI, insn: Insn, Address, DisAsm: this, STI);
838	if (Result != MCDisassembler::Fail) {
839	Size = `4`;
840	return checkDecodedInstruction(MI, Size, Address, CS, Insn, Result);
841	}
842
843	Size = `4`;
844	return MCDisassembler::Fail;
845	}
846
847	/// tryAddingSymbolicOperand - trys to add a symbolic operand in place of the
848	/// immediate Value in the MCInst. The immediate Value has had any PC
849	/// adjustment made by the caller. If the instruction is a branch instruction
850	/// then isBranch is true, else false. If the getOpInfo() function was set as
851	/// part of the setupForSymbolicDisassembly() call then that function is called
852	/// to get any symbolic information at the Address for this instruction. If
853	/// that returns non-zero then the symbolic information it returns is used to
854	/// create an MCExpr and that is added as an operand to the MCInst. If
855	/// getOpInfo() returns zero and isBranch is true then a symbol look up for
856	/// Value is done and if a symbol is found an MCExpr is created with that, else
857	/// an MCExpr with Value is created. This function returns true if it adds an
858	/// operand to the MCInst and false otherwise.
859	static bool tryAddingSymbolicOperand(uint64_t Address, int32_t Value,
860	bool isBranch, uint64_t InstSize,
861	MCInst &MI,
862	const MCDisassembler *Decoder) {
863	// FIXME: Does it make sense for value to be negative?
864	return Decoder->tryAddingSymbolicOperand(Inst&: MI, Value: (uint32_t)Value, Address,
865	IsBranch: isBranch, /Offset=/`0`, /OpSize=/`0`,
866	InstSize);
867	}
868
869	/// tryAddingPcLoadReferenceComment - trys to add a comment as to what is being
870	/// referenced by a load instruction with the base register that is the Pc.
871	/// These can often be values in a literal pool near the Address of the
872	/// instruction. The Address of the instruction and its immediate Value are
873	/// used as a possible literal pool entry. The SymbolLookUp call back will
874	/// return the name of a symbol referenced by the literal pool's entry if
875	/// the referenced address is that of a symbol. Or it will return a pointer to
876	/// a literal 'C' string if the referenced address of the literal pool's entry
877	/// is an address into a section with 'C' string literals.
878	static void tryAddingPcLoadReferenceComment(uint64_t Address, int Value,
879	const MCDisassembler *Decoder) {
880	const MCDisassembler Dis = static_cast<const* MCDisassembler*>(Decoder);
881	Dis->tryAddingPcLoadReferenceComment(Value, Address);
882	}
883
884	// Thumb1 instructions don't have explicit S bits. Rather, they
885	// implicitly set CPSR. Since it's not represented in the encoding, the
886	// auto-generated decoder won't inject the CPSR operand. We need to fix
887	// that as a post-pass.
888	void ARMDisassembler::AddThumb1SBit(MCInst &MI, bool InITBlock) const {
889	const MCInstrDesc &MCID = MCII ->get(Opcode: MI.getOpcode());
890	MCInst::iterator I = MI.begin();
891	for (unsigned i = `0`; i < MCID.NumOperands; ++i, ++I) {
892	if (I == MI.end()) break;
893	if (MCID.operands()[i].isOptionalDef() &&
894	MCID.operands()[i].RegClass == ARM::CCRRegClassID) {
895	if (i > `0` && MCID.operands()[i - `1`].isPredicate())
896	continue;
897	MI.insert(I, Op: MCOperand::createReg(Reg: InITBlock ? `0` : ARM::CPSR));
898	return;
899	}
900	}
901
902	MI.insert(I, Op: MCOperand::createReg(Reg: InITBlock ? `0` : ARM::CPSR));
903	}
904
905	bool ARMDisassembler::isVectorPredicable(const MCInst &MI) const {
906	const MCInstrDesc &MCID = MCII ->get(Opcode: MI.getOpcode());
907	for (unsigned i = `0`; i < MCID.NumOperands; ++i) {
908	if (ARM::isVpred(op: MCID.operands()[i].OperandType))
909	return true;
910	}
911	return false;
912	}
913
914	// Most Thumb instructions don't have explicit predicates in the
915	// encoding, but rather get their predicates from IT context. We need
916	// to fix up the predicate operands using this context information as a
917	// post-pass.
918	MCDisassembler::DecodeStatus
919	ARMDisassembler::AddThumbPredicate(MCInst &MI) const {
920	MCDisassembler::DecodeStatus S = Success;
921
922	const FeatureBitset &FeatureBits = getSubtargetInfo().getFeatureBits();
923
924	// A few instructions actually have predicates encoded in them. Don't
925	// try to overwrite it if we're seeing one of those.
926	switch (MI.getOpcode()) {
927	case ARM::tBcc:
928	case ARM::t2Bcc:
929	case ARM::tCBZ:
930	case ARM::tCBNZ:
931	case ARM::tCPS:
932	case ARM::t2CPS3p:
933	case ARM::t2CPS2p:
934	case ARM::t2CPS1p:
935	case ARM::t2CSEL:
936	case ARM::t2CSINC:
937	case ARM::t2CSINV:
938	case ARM::t2CSNEG:
939	case ARM::tMOVSr:
940	case ARM::tSETEND:
941	// Some instructions (mostly conditional branches) are not
942	// allowed in IT blocks.
943	if (ITBlock.instrInITBlock())
944	S = SoftFail;
945	else
946	return Success;
947	break;
948	case ARM::t2HINT:
949	if (MI.getOperand(i: `0`).getImm() == `0x10` && (FeatureBits [ARM::FeatureRAS]) != `0`)
950	S = SoftFail;
951	break;
952	case ARM::tB:
953	case ARM::t2B:
954	case ARM::t2TBB:
955	case ARM::t2TBH:
956	// Some instructions (mostly unconditional branches) can
957	// only appears at the end of, or outside of, an IT.
958	if (ITBlock.instrInITBlock() && !ITBlock.instrLastInITBlock())
959	S = SoftFail;
960	break;
961	default:
962	break;
963	}
964
965	// Warn on non-VPT predicable instruction in a VPT block and a VPT
966	// predicable instruction in an IT block
967	if ((!isVectorPredicable(MI) && VPTBlock.instrInVPTBlock()) \|\|
968	(isVectorPredicable(MI) && ITBlock.instrInITBlock()))
969	S = SoftFail;
970
971	// If we're in an IT/VPT block, base the predicate on that. Otherwise,
972	// assume a predicate of AL.
973	unsigned CC = ARMCC::AL;
974	unsigned VCC = ARMVCC::None;
975	if (ITBlock.instrInITBlock()) {
976	CC = ITBlock.getITCC();
977	ITBlock.advanceITState();
978	} else if (VPTBlock.instrInVPTBlock()) {
979	VCC = VPTBlock.getVPTPred();
980	VPTBlock.advanceVPTState();
981	}
982
983	const MCInstrDesc &MCID = MCII ->get(Opcode: MI.getOpcode());
984
985	MCInst::iterator CCI = MI.begin();
986	for (unsigned i = `0`; i < MCID.NumOperands; ++i, ++CCI) {
987	if (MCID.operands()[i].isPredicate() \|\| CCI == MI.end())
988	break;
989	}
990
991	if (MCID.isPredicable()) {
992	CCI = MI.insert(I: CCI, Op: MCOperand::createImm(Val: CC));
993	++CCI;
994	if (CC == ARMCC::AL)
995	MI.insert(I: CCI, Op: MCOperand::createReg(Reg: `0`));
996	else
997	MI.insert(I: CCI, Op: MCOperand::createReg(Reg: ARM::CPSR));
998	} else if (CC != ARMCC::AL) {
999	Check(Out&: S, In: SoftFail);
1000	}
1001
1002	MCInst::iterator VCCI = MI.begin();
1003	unsigned VCCPos;
1004	for (VCCPos = `0`; VCCPos < MCID.NumOperands; ++VCCPos, ++VCCI) {
1005	if (ARM::isVpred(op: MCID.operands()[VCCPos].OperandType) \|\| VCCI == MI.end())
1006	break;
1007	}
1008
1009	if (isVectorPredicable(MI)) {
1010	VCCI = MI.insert(I: VCCI, Op: MCOperand::createImm(Val: VCC));
1011	++VCCI;
1012	if (VCC == ARMVCC::None)
1013	VCCI = MI.insert(I: VCCI, Op: MCOperand::createReg(Reg: `0`));
1014	else
1015	VCCI = MI.insert(I: VCCI, Op: MCOperand::createReg(Reg: ARM::P0));
1016	++VCCI;
1017	VCCI = MI.insert(I: VCCI, Op: MCOperand::createReg(Reg: `0`));
1018	++VCCI;
1019	if (MCID.operands()[VCCPos].OperandType == ARM::OPERAND_VPRED_R) {
1020	int TiedOp = MCID.getOperandConstraint(OpNum: VCCPos + `3`, Constraint: MCOI::TIED_TO);
1021	assert(TiedOp >= `0` &&
1022	"Inactive register in vpred_r is not tied to an output!");
1023	// Copy the operand to ensure it's not invalidated when MI grows.
1024	MI.insert(I: VCCI, Op: MCOperand (MI.getOperand(i: TiedOp)));
1025	}
1026	} else if (VCC != ARMVCC::None) {
1027	Check(Out&: S, In: SoftFail);
1028	}
1029
1030	return S;
1031	}
1032
1033	// Thumb VFP instructions are a special case. Because we share their
1034	// encodings between ARM and Thumb modes, and they are predicable in ARM
1035	// mode, the auto-generated decoder will give them an (incorrect)
1036	// predicate operand. We need to rewrite these operands based on the IT
1037	// context as a post-pass.
1038	void ARMDisassembler::UpdateThumbVFPPredicate(
1039	DecodeStatus &S, MCInst &MI) const {
1040	unsigned CC;
1041	CC = ITBlock.getITCC();
1042	if (CC == `0xF`)
1043	CC = ARMCC::AL;
1044	if (ITBlock.instrInITBlock())
1045	ITBlock.advanceITState();
1046	else if (VPTBlock.instrInVPTBlock()) {
1047	CC = VPTBlock.getVPTPred();
1048	VPTBlock.advanceVPTState();
1049	}
1050
1051	const MCInstrDesc &MCID = MCII ->get(Opcode: MI.getOpcode());
1052	ArrayRef<MCOperandInfo> OpInfo = MCID.operands();
1053	MCInst::iterator I = MI.begin();
1054	unsigned short NumOps = MCID.NumOperands;
1055	for (unsigned i = `0`; i < NumOps; ++i, ++I) {
1056	if (OpInfo [i].isPredicate() ) {
1057	if (CC != ARMCC::AL && !MCID.isPredicable())
1058	Check(Out&: S, In: SoftFail);
1059	I->setImm(CC);
1060	++I;
1061	if (CC == ARMCC::AL)
1062	I->setReg(`0`);
1063	else
1064	I->setReg(ARM::CPSR);
1065	return;
1066	}
1067	}
1068	}
1069
1070	DecodeStatus ARMDisassembler::getThumbInstruction(MCInst &MI, uint64_t &Size,
1071	ArrayRef<uint8_t> Bytes,
1072	uint64_t Address,
1073	raw_ostream &CS) const {
1074	CommentStream = &CS;
1075
1076	assert(STI.hasFeature(ARM::ModeThumb) &&
1077	"Asked to disassemble in Thumb mode but Subtarget is in ARM mode!");
1078
1079	// We want to read exactly 2 bytes of data.
1080	if (Bytes.size() < `2`) {
1081	Size = `0`;
1082	return MCDisassembler::Fail;
1083	}
1084
1085	uint16_t Insn16 = llvm::support::endian::read<uint16_t>(
1086	memory: Bytes.data(), endian: InstructionEndianness);
1087	DecodeStatus Result =
1088	decodeInstruction(DecodeTable: DecoderTableThumb16, MI, insn: Insn16, Address, DisAsm: this, STI);
1089	if (Result != MCDisassembler::Fail) {
1090	Size = `2`;
1091	Check(Out&: Result, In: AddThumbPredicate(MI));
1092	return Result;
1093	}
1094
1095	Result = decodeInstruction(DecodeTable: DecoderTableThumbSBit16, MI, insn: Insn16, Address, DisAsm: this,
1096	STI);
1097	if (Result) {
1098	Size = `2`;
1099	bool InITBlock = ITBlock.instrInITBlock();
1100	Check(Out&: Result, In: AddThumbPredicate(MI));
1101	AddThumb1SBit(MI, InITBlock);
1102	return Result;
1103	}
1104
1105	Result =
1106	decodeInstruction(DecodeTable: DecoderTableThumb216, MI, insn: Insn16, Address, DisAsm: this, STI);
1107	if (Result != MCDisassembler::Fail) {
1108	Size = `2`;
1109
1110	// Nested IT blocks are UNPREDICTABLE. Must be checked before we add
1111	// the Thumb predicate.
1112	if (MI.getOpcode() == ARM::t2IT && ITBlock.instrInITBlock())
1113	Result = MCDisassembler::SoftFail;
1114
1115	Check(Out&: Result, In: AddThumbPredicate(MI));
1116
1117	// If we find an IT instruction, we need to parse its condition
1118	// code and mask operands so that we can apply them correctly
1119	// to the subsequent instructions.
1120	if (MI.getOpcode() == ARM::t2IT) {
1121	unsigned Firstcond = MI.getOperand(i: `0`).getImm();
1122	unsigned Mask = MI.getOperand(i: `1`).getImm();
1123	ITBlock.setITState(Firstcond, Mask);
1124
1125	// An IT instruction that would give a 'NV' predicate is unpredictable.
1126	if (Firstcond == ARMCC::AL && !isPowerOf2_32(Value: Mask))
1127	CS << "unpredictable IT predicate sequence";
1128	}
1129
1130	return Result;
1131	}
1132
1133	// We want to read exactly 4 bytes of data.
1134	if (Bytes.size() < `4`) {
1135	Size = `0`;
1136	return MCDisassembler::Fail;
1137	}
1138
1139	uint32_t Insn32 =
1140	(uint32_t(Insn16) << `16`) \| llvm::support::endian::read<uint16_t>(
1141	memory: Bytes.data() + `2`, endian: InstructionEndianness);
1142
1143	Result =
1144	decodeInstruction(DecodeTable: DecoderTableMVE32, MI, insn: Insn32, Address, DisAsm: this, STI);
1145	if (Result != MCDisassembler::Fail) {
1146	Size = `4`;
1147
1148	// Nested VPT blocks are UNPREDICTABLE. Must be checked before we add
1149	// the VPT predicate.
1150	if (isVPTOpcode(Opc: MI.getOpcode()) && VPTBlock.instrInVPTBlock())
1151	Result = MCDisassembler::SoftFail;
1152
1153	Check(Out&: Result, In: AddThumbPredicate(MI));
1154
1155	if (isVPTOpcode(Opc: MI.getOpcode())) {
1156	unsigned Mask = MI.getOperand(i: `0`).getImm();
1157	VPTBlock.setVPTState(Mask);
1158	}
1159
1160	return Result;
1161	}
1162
1163	Result =
1164	decodeInstruction(DecodeTable: DecoderTableThumb32, MI, insn: Insn32, Address, DisAsm: this, STI);
1165	if (Result != MCDisassembler::Fail) {
1166	Size = `4`;
1167	bool InITBlock = ITBlock.instrInITBlock();
1168	Check(Out&: Result, In: AddThumbPredicate(MI));
1169	AddThumb1SBit(MI, InITBlock);
1170	return Result;
1171	}
1172
1173	Result =
1174	decodeInstruction(DecodeTable: DecoderTableThumb232, MI, insn: Insn32, Address, DisAsm: this, STI);
1175	if (Result != MCDisassembler::Fail) {
1176	Size = `4`;
1177	Check(Out&: Result, In: AddThumbPredicate(MI));
1178	return checkDecodedInstruction(MI, Size, Address, CS, Insn: Insn32, Result);
1179	}
1180
1181	if (fieldFromInstruction(insn: Insn32, startBit: `28`, numBits: `4`) == `0xE`) {
1182	Result =
1183	decodeInstruction(DecodeTable: DecoderTableVFP32, MI, insn: Insn32, Address, DisAsm: this, STI);
1184	if (Result != MCDisassembler::Fail) {
1185	Size = `4`;
1186	UpdateThumbVFPPredicate(S&: Result, MI);
1187	return Result;
1188	}
1189	}
1190
1191	Result =
1192	decodeInstruction(DecodeTable: DecoderTableVFPV832, MI, insn: Insn32, Address, DisAsm: this, STI);
1193	if (Result != MCDisassembler::Fail) {
1194	Size = `4`;
1195	return Result;
1196	}
1197
1198	if (fieldFromInstruction(insn: Insn32, startBit: `28`, numBits: `4`) == `0xE`) {
1199	Result = decodeInstruction(DecodeTable: DecoderTableNEONDup32, MI, insn: Insn32, Address, DisAsm: this,
1200	STI);
1201	if (Result != MCDisassembler::Fail) {
1202	Size = `4`;
1203	Check(Out&: Result, In: AddThumbPredicate(MI));
1204	return Result;
1205	}
1206	}
1207
1208	if (fieldFromInstruction(insn: Insn32, startBit: `24`, numBits: `8`) == `0xF9`) {
1209	uint32_t NEONLdStInsn = Insn32;
1210	NEONLdStInsn &= `0xF0FFFFFF`;
1211	NEONLdStInsn \|= `0x04000000`;
1212	Result = decodeInstruction(DecodeTable: DecoderTableNEONLoadStore32, MI, insn: NEONLdStInsn,
1213	Address, DisAsm: this, STI);
1214	if (Result != MCDisassembler::Fail) {
1215	Size = `4`;
1216	Check(Out&: Result, In: AddThumbPredicate(MI));
1217	return Result;
1218	}
1219	}
1220
1221	if (fieldFromInstruction(insn: Insn32, startBit: `24`, numBits: `4`) == `0xF`) {
1222	uint32_t NEONDataInsn = Insn32;
1223	NEONDataInsn &= `0xF0FFFFFF`; // Clear bits 27-24
1224	NEONDataInsn \|= (NEONDataInsn & `0x10000000`) >> `4`; // Move bit 28 to bit 24
1225	NEONDataInsn \|= `0x12000000`; // Set bits 28 and 25
1226	Result = decodeInstruction(DecodeTable: DecoderTableNEONData32, MI, insn: NEONDataInsn,
1227	Address, DisAsm: this, STI);
1228	if (Result != MCDisassembler::Fail) {
1229	Size = `4`;
1230	Check(Out&: Result, In: AddThumbPredicate(MI));
1231	return Result;
1232	}
1233
1234	uint32_t NEONCryptoInsn = Insn32;
1235	NEONCryptoInsn &= `0xF0FFFFFF`; // Clear bits 27-24
1236	NEONCryptoInsn \|= (NEONCryptoInsn & `0x10000000`) >> `4`; // Move bit 28 to bit 24
1237	NEONCryptoInsn \|= `0x12000000`; // Set bits 28 and 25
1238	Result = decodeInstruction(DecodeTable: DecoderTablev8Crypto32, MI, insn: NEONCryptoInsn,
1239	Address, DisAsm: this, STI);
1240	if (Result != MCDisassembler::Fail) {
1241	Size = `4`;
1242	return Result;
1243	}
1244
1245	uint32_t NEONv8Insn = Insn32;
1246	NEONv8Insn &= `0xF3FFFFFF`; // Clear bits 27-26
1247	Result = decodeInstruction(DecodeTable: DecoderTablev8NEON32, MI, insn: NEONv8Insn, Address,
1248	DisAsm: this, STI);
1249	if (Result != MCDisassembler::Fail) {
1250	Size = `4`;
1251	return Result;
1252	}
1253	}
1254
1255	uint32_t Coproc = fieldFromInstruction(insn: Insn32, startBit: `8`, numBits: `4`);
1256	const uint8_t *DecoderTable = ARM::isCDECoproc(Coproc, STI)
1257	? DecoderTableThumb2CDE32
1258	: DecoderTableThumb2CoProc32;
1259	Result =
1260	decodeInstruction(DecodeTable: DecoderTable, MI, insn: Insn32, Address, DisAsm: this, STI);
1261	if (Result != MCDisassembler::Fail) {
1262	Size = `4`;
1263	Check(Out&: Result, In: AddThumbPredicate(MI));
1264	return Result;
1265	}
1266
1267	Size = `0`;
1268	return MCDisassembler::Fail;
1269	}
1270
1271	extern "C" LLVM_EXTERNAL_VISIBILITY void LLVMInitializeARMDisassembler() {
1272	TargetRegistry::RegisterMCDisassembler(T&: getTheARMLETarget(),
1273	Fn: createARMDisassembler);
1274	TargetRegistry::RegisterMCDisassembler(T&: getTheARMBETarget(),
1275	Fn: createARMDisassembler);
1276	TargetRegistry::RegisterMCDisassembler(T&: getTheThumbLETarget(),
1277	Fn: createARMDisassembler);
1278	TargetRegistry::RegisterMCDisassembler(T&: getTheThumbBETarget(),
1279	Fn: createARMDisassembler);
1280	}
1281
1282	static const uint16_t GPRDecoderTable[] = {
1283	ARM::R0, ARM::R1, ARM::R2, ARM::R3,
1284	ARM::R4, ARM::R5, ARM::R6, ARM::R7,
1285	ARM::R8, ARM::R9, ARM::R10, ARM::R11,
1286	ARM::R12, ARM::SP, ARM::LR, ARM::PC
1287	};
1288
1289	static const uint16_t CLRMGPRDecoderTable[] = {
1290	ARM::R0, ARM::R1, ARM::R2, ARM::R3,
1291	ARM::R4, ARM::R5, ARM::R6, ARM::R7,
1292	ARM::R8, ARM::R9, ARM::R10, ARM::R11,
1293	ARM::R12, `0`, ARM::LR, ARM::APSR
1294	};
1295
1296	static DecodeStatus DecodeGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1297	uint64_t Address,
1298	const MCDisassembler *Decoder) {
1299	if (RegNo > `15`)
1300	return MCDisassembler::Fail;
1301
1302	unsigned Register = GPRDecoderTable[RegNo];
1303	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1304	return MCDisassembler::Success;
1305	}
1306
1307	static DecodeStatus DecodeCLRMGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1308	uint64_t Address,
1309	const MCDisassembler *Decoder) {
1310	if (RegNo > `15`)
1311	return MCDisassembler::Fail;
1312
1313	unsigned Register = CLRMGPRDecoderTable[RegNo];
1314	if (Register == `0`)
1315	return MCDisassembler::Fail;
1316
1317	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1318	return MCDisassembler::Success;
1319	}
1320
1321	static DecodeStatus DecodeGPRnopcRegisterClass(MCInst &Inst, unsigned RegNo,
1322	uint64_t Address,
1323	const MCDisassembler *Decoder) {
1324	DecodeStatus S = MCDisassembler::Success;
1325
1326	if (RegNo == `15`)
1327	S = MCDisassembler::SoftFail;
1328
1329	Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1330
1331	return S;
1332	}
1333
1334	static DecodeStatus DecodeGPRnospRegisterClass(MCInst &Inst, unsigned RegNo,
1335	uint64_t Address,
1336	const MCDisassembler *Decoder) {
1337	DecodeStatus S = MCDisassembler::Success;
1338
1339	if (RegNo == `13`)
1340	S = MCDisassembler::SoftFail;
1341
1342	Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1343
1344	return S;
1345	}
1346
1347	static DecodeStatus
1348	DecodeGPRwithAPSRRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1349	const MCDisassembler *Decoder) {
1350	DecodeStatus S = MCDisassembler::Success;
1351
1352	if (RegNo == `15`)
1353	{
1354	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::APSR_NZCV));
1355	return MCDisassembler::Success;
1356	}
1357
1358	Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1359	return S;
1360	}
1361
1362	static DecodeStatus
1363	DecodeGPRwithZRRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1364	const MCDisassembler *Decoder) {
1365	DecodeStatus S = MCDisassembler::Success;
1366
1367	if (RegNo == `15`)
1368	{
1369	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::ZR));
1370	return MCDisassembler::Success;
1371	}
1372
1373	if (RegNo == `13`)
1374	Check(Out&: S, In: MCDisassembler::SoftFail);
1375
1376	Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1377	return S;
1378	}
1379
1380	static DecodeStatus
1381	DecodeGPRwithZRnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1382	const MCDisassembler *Decoder) {
1383	DecodeStatus S = MCDisassembler::Success;
1384	if (RegNo == `13`)
1385	return MCDisassembler::Fail;
1386	Check(Out&: S, In: DecodeGPRwithZRRegisterClass(Inst, RegNo, Address, Decoder));
1387	return S;
1388	}
1389
1390	static DecodeStatus DecodetGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1391	uint64_t Address,
1392	const MCDisassembler *Decoder) {
1393	if (RegNo > `7`)
1394	return MCDisassembler::Fail;
1395	return DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder);
1396	}
1397
1398	static const uint16_t GPRPairDecoderTable[] = {
1399	ARM::R0_R1, ARM::R2_R3, ARM::R4_R5, ARM::R6_R7,
1400	ARM::R8_R9, ARM::R10_R11, ARM::R12_SP
1401	};
1402
1403	static DecodeStatus DecodeGPRPairRegisterClass(MCInst &Inst, unsigned RegNo,
1404	uint64_t Address,
1405	const MCDisassembler *Decoder) {
1406	DecodeStatus S = MCDisassembler::Success;
1407
1408	// According to the Arm ARM RegNo = 14 is undefined, but we return fail
1409	// rather than SoftFail as there is no GPRPair table entry for index 7.
1410	if (RegNo > `13`)
1411	return MCDisassembler::Fail;
1412
1413	if (RegNo & `1`)
1414	S = MCDisassembler::SoftFail;
1415
1416	unsigned RegisterPair = GPRPairDecoderTable[RegNo/`2`];
1417	Inst.addOperand(Op: MCOperand::createReg(Reg: RegisterPair));
1418	return S;
1419	}
1420
1421	static DecodeStatus
1422	DecodeGPRPairnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1423	const MCDisassembler *Decoder) {
1424	if (RegNo > `13`)
1425	return MCDisassembler::Fail;
1426
1427	unsigned RegisterPair = GPRPairDecoderTable[RegNo/`2`];
1428	Inst.addOperand(Op: MCOperand::createReg(Reg: RegisterPair));
1429
1430	if ((RegNo & `1`) \|\| RegNo > `10`)
1431	return MCDisassembler::SoftFail;
1432	return MCDisassembler::Success;
1433	}
1434
1435	static DecodeStatus DecodeGPRspRegisterClass(MCInst &Inst, unsigned RegNo,
1436	uint64_t Address,
1437	const MCDisassembler *Decoder) {
1438	if (RegNo != `13`)
1439	return MCDisassembler::Fail;
1440
1441	unsigned Register = GPRDecoderTable[RegNo];
1442	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1443	return MCDisassembler::Success;
1444	}
1445
1446	static DecodeStatus DecodetcGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1447	uint64_t Address,
1448	const MCDisassembler *Decoder) {
1449	unsigned Register = `0`;
1450	switch (RegNo) {
1451	case `0`:
1452	Register = ARM::R0;
1453	break;
1454	case `1`:
1455	Register = ARM::R1;
1456	break;
1457	case `2`:
1458	Register = ARM::R2;
1459	break;
1460	case `3`:
1461	Register = ARM::R3;
1462	break;
1463	case `9`:
1464	Register = ARM::R9;
1465	break;
1466	case `12`:
1467	Register = ARM::R12;
1468	break;
1469	default:
1470	return MCDisassembler::Fail;
1471	}
1472
1473	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1474	return MCDisassembler::Success;
1475	}
1476
1477	static DecodeStatus DecoderGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1478	uint64_t Address,
1479	const MCDisassembler *Decoder) {
1480	DecodeStatus S = MCDisassembler::Success;
1481
1482	const FeatureBitset &featureBits =
1483	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
1484
1485	if ((RegNo == `13` && !featureBits [ARM::HasV8Ops]) \|\| RegNo == `15`)
1486	S = MCDisassembler::SoftFail;
1487
1488	Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1489	return S;
1490	}
1491
1492	static const uint16_t SPRDecoderTable[] = {
1493	ARM::S0, ARM::S1, ARM::S2, ARM::S3,
1494	ARM::S4, ARM::S5, ARM::S6, ARM::S7,
1495	ARM::S8, ARM::S9, ARM::S10, ARM::S11,
1496	ARM::S12, ARM::S13, ARM::S14, ARM::S15,
1497	ARM::S16, ARM::S17, ARM::S18, ARM::S19,
1498	ARM::S20, ARM::S21, ARM::S22, ARM::S23,
1499	ARM::S24, ARM::S25, ARM::S26, ARM::S27,
1500	ARM::S28, ARM::S29, ARM::S30, ARM::S31
1501	};
1502
1503	static DecodeStatus DecodeSPRRegisterClass(MCInst &Inst, unsigned RegNo,
1504	uint64_t Address,
1505	const MCDisassembler *Decoder) {
1506	if (RegNo > `31`)
1507	return MCDisassembler::Fail;
1508
1509	unsigned Register = SPRDecoderTable[RegNo];
1510	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1511	return MCDisassembler::Success;
1512	}
1513
1514	static DecodeStatus DecodeHPRRegisterClass(MCInst &Inst, unsigned RegNo,
1515	uint64_t Address,
1516	const MCDisassembler *Decoder) {
1517	return DecodeSPRRegisterClass(Inst, RegNo, Address, Decoder);
1518	}
1519
1520	static const uint16_t DPRDecoderTable[] = {
1521	ARM::D0, ARM::D1, ARM::D2, ARM::D3,
1522	ARM::D4, ARM::D5, ARM::D6, ARM::D7,
1523	ARM::D8, ARM::D9, ARM::D10, ARM::D11,
1524	ARM::D12, ARM::D13, ARM::D14, ARM::D15,
1525	ARM::D16, ARM::D17, ARM::D18, ARM::D19,
1526	ARM::D20, ARM::D21, ARM::D22, ARM::D23,
1527	ARM::D24, ARM::D25, ARM::D26, ARM::D27,
1528	ARM::D28, ARM::D29, ARM::D30, ARM::D31
1529	};
1530
1531	static DecodeStatus DecodeDPRRegisterClass(MCInst &Inst, unsigned RegNo,
1532	uint64_t Address,
1533	const MCDisassembler *Decoder) {
1534	const FeatureBitset &featureBits =
1535	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
1536
1537	bool hasD32 = featureBits [ARM::FeatureD32];
1538
1539	if (RegNo > `31` \|\| (!hasD32 && RegNo > `15`))
1540	return MCDisassembler::Fail;
1541
1542	unsigned Register = DPRDecoderTable[RegNo];
1543	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1544	return MCDisassembler::Success;
1545	}
1546
1547	static DecodeStatus DecodeDPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
1548	uint64_t Address,
1549	const MCDisassembler *Decoder) {
1550	if (RegNo > `7`)
1551	return MCDisassembler::Fail;
1552	return DecodeDPRRegisterClass(Inst, RegNo, Address, Decoder);
1553	}
1554
1555	static DecodeStatus DecodeSPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
1556	uint64_t Address,
1557	const MCDisassembler *Decoder) {
1558	if (RegNo > `15`)
1559	return MCDisassembler::Fail;
1560	return DecodeSPRRegisterClass(Inst, RegNo, Address, Decoder);
1561	}
1562
1563	static DecodeStatus DecodeDPR_VFP2RegisterClass(MCInst &Inst, unsigned RegNo,
1564	uint64_t Address,
1565	const MCDisassembler *Decoder) {
1566	if (RegNo > `15`)
1567	return MCDisassembler::Fail;
1568	return DecodeDPRRegisterClass(Inst, RegNo, Address, Decoder);
1569	}
1570
1571	static const uint16_t QPRDecoderTable[] = {
1572	ARM::Q0, ARM::Q1, ARM::Q2, ARM::Q3,
1573	ARM::Q4, ARM::Q5, ARM::Q6, ARM::Q7,
1574	ARM::Q8, ARM::Q9, ARM::Q10, ARM::Q11,
1575	ARM::Q12, ARM::Q13, ARM::Q14, ARM::Q15
1576	};
1577
1578	static DecodeStatus DecodeQPRRegisterClass(MCInst &Inst, unsigned RegNo,
1579	uint64_t Address,
1580	const MCDisassembler *Decoder) {
1581	if (RegNo > `31` \|\| (RegNo & `1`) != `0`)
1582	return MCDisassembler::Fail;
1583	RegNo >>= `1`;
1584
1585	unsigned Register = QPRDecoderTable[RegNo];
1586	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1587	return MCDisassembler::Success;
1588	}
1589
1590	static const uint16_t DPairDecoderTable[] = {
1591	ARM::Q0, ARM::D1_D2, ARM::Q1, ARM::D3_D4, ARM::Q2, ARM::D5_D6,
1592	ARM::Q3, ARM::D7_D8, ARM::Q4, ARM::D9_D10, ARM::Q5, ARM::D11_D12,
1593	ARM::Q6, ARM::D13_D14, ARM::Q7, ARM::D15_D16, ARM::Q8, ARM::D17_D18,
1594	ARM::Q9, ARM::D19_D20, ARM::Q10, ARM::D21_D22, ARM::Q11, ARM::D23_D24,
1595	ARM::Q12, ARM::D25_D26, ARM::Q13, ARM::D27_D28, ARM::Q14, ARM::D29_D30,
1596	ARM::Q15
1597	};
1598
1599	static DecodeStatus DecodeDPairRegisterClass(MCInst &Inst, unsigned RegNo,
1600	uint64_t Address,
1601	const MCDisassembler *Decoder) {
1602	if (RegNo > `30`)
1603	return MCDisassembler::Fail;
1604
1605	unsigned Register = DPairDecoderTable[RegNo];
1606	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1607	return MCDisassembler::Success;
1608	}
1609
1610	static const uint16_t DPairSpacedDecoderTable[] = {
1611	ARM::D0_D2, ARM::D1_D3, ARM::D2_D4, ARM::D3_D5,
1612	ARM::D4_D6, ARM::D5_D7, ARM::D6_D8, ARM::D7_D9,
1613	ARM::D8_D10, ARM::D9_D11, ARM::D10_D12, ARM::D11_D13,
1614	ARM::D12_D14, ARM::D13_D15, ARM::D14_D16, ARM::D15_D17,
1615	ARM::D16_D18, ARM::D17_D19, ARM::D18_D20, ARM::D19_D21,
1616	ARM::D20_D22, ARM::D21_D23, ARM::D22_D24, ARM::D23_D25,
1617	ARM::D24_D26, ARM::D25_D27, ARM::D26_D28, ARM::D27_D29,
1618	ARM::D28_D30, ARM::D29_D31
1619	};
1620
1621	static DecodeStatus
1622	DecodeDPairSpacedRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1623	const MCDisassembler *Decoder) {
1624	if (RegNo > `29`)
1625	return MCDisassembler::Fail;
1626
1627	unsigned Register = DPairSpacedDecoderTable[RegNo];
1628	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
1629	return MCDisassembler::Success;
1630	}
1631
1632	static DecodeStatus DecodePredicateOperand(MCInst &Inst, unsigned Val,
1633	uint64_t Address,
1634	const MCDisassembler *Decoder) {
1635	DecodeStatus S = MCDisassembler::Success;
1636	if (Val == `0xF`) return MCDisassembler::Fail;
1637	// AL predicate is not allowed on Thumb1 branches.
1638	if (Inst.getOpcode() == ARM::tBcc && Val == `0xE`)
1639	return MCDisassembler::Fail;
1640	const MCInstrInfo *MCII =
1641	static_cast<const ARMDisassembler *>(Decoder)->MCII.get();
1642	if (Val != ARMCC::AL && !MCII->get(Opcode: Inst.getOpcode()).isPredicable())
1643	Check(Out&: S, In: MCDisassembler::SoftFail);
1644	Inst.addOperand(Op: MCOperand::createImm(Val));
1645	if (Val == ARMCC::AL) {
1646	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
1647	} else
1648	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::CPSR));
1649	return S;
1650	}
1651
1652	static DecodeStatus DecodeCCOutOperand(MCInst &Inst, unsigned Val,
1653	uint64_t Address,
1654	const MCDisassembler *Decoder) {
1655	if (Val)
1656	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::CPSR));
1657	else
1658	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
1659	return MCDisassembler::Success;
1660	}
1661
1662	static DecodeStatus DecodeSORegImmOperand(MCInst &Inst, unsigned Val,
1663	uint64_t Address,
1664	const MCDisassembler *Decoder) {
1665	DecodeStatus S = MCDisassembler::Success;
1666
1667	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `4`);
1668	unsigned type = fieldFromInstruction(insn: Val, startBit: `5`, numBits: `2`);
1669	unsigned imm = fieldFromInstruction(insn: Val, startBit: `7`, numBits: `5`);
1670
1671	// Register-immediate
1672	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
1673	return MCDisassembler::Fail;
1674
1675	ARM_AM::ShiftOpc Shift = ARM_AM::lsl;
1676	switch (type) {
1677	case `0`:
1678	Shift = ARM_AM::lsl;
1679	break;
1680	case `1`:
1681	Shift = ARM_AM::lsr;
1682	break;
1683	case `2`:
1684	Shift = ARM_AM::asr;
1685	break;
1686	case `3`:
1687	Shift = ARM_AM::ror;
1688	break;
1689	}
1690
1691	if (Shift == ARM_AM::ror && imm == `0`)
1692	Shift = ARM_AM::rrx;
1693
1694	unsigned Op = Shift \| (imm << `3`);
1695	Inst.addOperand(Op: MCOperand::createImm(Val: Op));
1696
1697	return S;
1698	}
1699
1700	static DecodeStatus DecodeSORegRegOperand(MCInst &Inst, unsigned Val,
1701	uint64_t Address,
1702	const MCDisassembler *Decoder) {
1703	DecodeStatus S = MCDisassembler::Success;
1704
1705	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `4`);
1706	unsigned type = fieldFromInstruction(insn: Val, startBit: `5`, numBits: `2`);
1707	unsigned Rs = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `4`);
1708
1709	// Register-register
1710	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
1711	return MCDisassembler::Fail;
1712	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rs, Address, Decoder)))
1713	return MCDisassembler::Fail;
1714
1715	ARM_AM::ShiftOpc Shift = ARM_AM::lsl;
1716	switch (type) {
1717	case `0`:
1718	Shift = ARM_AM::lsl;
1719	break;
1720	case `1`:
1721	Shift = ARM_AM::lsr;
1722	break;
1723	case `2`:
1724	Shift = ARM_AM::asr;
1725	break;
1726	case `3`:
1727	Shift = ARM_AM::ror;
1728	break;
1729	}
1730
1731	Inst.addOperand(Op: MCOperand::createImm(Val: Shift));
1732
1733	return S;
1734	}
1735
1736	static DecodeStatus DecodeRegListOperand(MCInst &Inst, unsigned Val,
1737	uint64_t Address,
1738	const MCDisassembler *Decoder) {
1739	DecodeStatus S = MCDisassembler::Success;
1740
1741	bool NeedDisjointWriteback = false;
1742	unsigned WritebackReg = `0`;
1743	bool CLRM = false;
1744	switch (Inst.getOpcode()) {
1745	default:
1746	break;
1747	case ARM::LDMIA_UPD:
1748	case ARM::LDMDB_UPD:
1749	case ARM::LDMIB_UPD:
1750	case ARM::LDMDA_UPD:
1751	case ARM::t2LDMIA_UPD:
1752	case ARM::t2LDMDB_UPD:
1753	case ARM::t2STMIA_UPD:
1754	case ARM::t2STMDB_UPD:
1755	NeedDisjointWriteback = true;
1756	WritebackReg = Inst.getOperand(i: `0`).getReg();
1757	break;
1758	case ARM::t2CLRM:
1759	CLRM = true;
1760	break;
1761	}
1762
1763	// Empty register lists are not allowed.
1764	if (Val == `0`) return MCDisassembler::Fail;
1765	for (unsigned i = `0`; i < `16`; ++i) {
1766	if (Val & (`1` << i)) {
1767	if (CLRM) {
1768	if (!Check(Out&: S, In: DecodeCLRMGPRRegisterClass(Inst, RegNo: i, Address, Decoder))) {
1769	return MCDisassembler::Fail;
1770	}
1771	} else {
1772	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: i, Address, Decoder)))
1773	return MCDisassembler::Fail;
1774	// Writeback not allowed if Rn is in the target list.
1775	if (NeedDisjointWriteback && WritebackReg == Inst.end()[-`1`].getReg())
1776	Check(Out&: S, In: MCDisassembler::SoftFail);
1777	}
1778	}
1779	}
1780
1781	return S;
1782	}
1783
1784	static DecodeStatus DecodeSPRRegListOperand(MCInst &Inst, unsigned Val,
1785	uint64_t Address,
1786	const MCDisassembler *Decoder) {
1787	DecodeStatus S = MCDisassembler::Success;
1788
1789	unsigned Vd = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `5`);
1790	unsigned regs = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
1791
1792	// In case of unpredictable encoding, tweak the operands.
1793	if (regs == `0` \|\| (Vd + regs) > `32`) {
1794	regs = Vd + regs > `32` ? `32` - Vd : regs;
1795	regs = std::max( a: `1u`, b: regs);
1796	S = MCDisassembler::SoftFail;
1797	}
1798
1799	if (!Check(Out&: S, In: DecodeSPRRegisterClass(Inst, RegNo: Vd, Address, Decoder)))
1800	return MCDisassembler::Fail;
1801	for (unsigned i = `0`; i < (regs - `1`); ++i) {
1802	if (!Check(Out&: S, In: DecodeSPRRegisterClass(Inst, RegNo: ++Vd, Address, Decoder)))
1803	return MCDisassembler::Fail;
1804	}
1805
1806	return S;
1807	}
1808
1809	static DecodeStatus DecodeDPRRegListOperand(MCInst &Inst, unsigned Val,
1810	uint64_t Address,
1811	const MCDisassembler *Decoder) {
1812	DecodeStatus S = MCDisassembler::Success;
1813
1814	unsigned Vd = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `5`);
1815	unsigned regs = fieldFromInstruction(insn: Val, startBit: `1`, numBits: `7`);
1816
1817	// In case of unpredictable encoding, tweak the operands.
1818	if (regs == `0` \|\| regs > `16` \|\| (Vd + regs) > `32`) {
1819	regs = Vd + regs > `32` ? `32` - Vd : regs;
1820	regs = std::max( a: `1u`, b: regs);
1821	regs = std::min(a: `16u`, b: regs);
1822	S = MCDisassembler::SoftFail;
1823	}
1824
1825	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Vd, Address, Decoder)))
1826	return MCDisassembler::Fail;
1827	for (unsigned i = `0`; i < (regs - `1`); ++i) {
1828	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: ++Vd, Address, Decoder)))
1829	return MCDisassembler::Fail;
1830	}
1831
1832	return S;
1833	}
1834
1835	static DecodeStatus DecodeBitfieldMaskOperand(MCInst &Inst, unsigned Val,
1836	uint64_t Address,
1837	const MCDisassembler *Decoder) {
1838	// This operand encodes a mask of contiguous zeros between a specified MSB
1839	// and LSB. To decode it, we create the mask of all bits MSB-and-lower,
1840	// the mask of all bits LSB-and-lower, and then xor them to create
1841	// the mask of that's all ones on [msb, lsb]. Finally we not it to
1842	// create the final mask.
1843	unsigned msb = fieldFromInstruction(insn: Val, startBit: `5`, numBits: `5`);
1844	unsigned lsb = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `5`);
1845
1846	DecodeStatus S = MCDisassembler::Success;
1847	if (lsb > msb) {
1848	Check(Out&: S, In: MCDisassembler::SoftFail);
1849	// The check above will cause the warning for the "potentially undefined
1850	// instruction encoding" but we can't build a bad MCOperand value here
1851	// with a lsb > msb or else printing the MCInst will cause a crash.
1852	lsb = msb;
1853	}
1854
1855	uint32_t msb_mask = `0xFFFFFFFF`;
1856	if (msb != `31`) msb_mask = (`1U` << (msb+`1`)) - `1`;
1857	uint32_t lsb_mask = (`1U` << lsb) - `1`;
1858
1859	Inst.addOperand(Op: MCOperand::createImm(Val: ~(msb_mask ^ lsb_mask)));
1860	return S;
1861	}
1862
1863	static DecodeStatus DecodeCopMemInstruction(MCInst &Inst, unsigned Insn,
1864	uint64_t Address,
1865	const MCDisassembler *Decoder) {
1866	DecodeStatus S = MCDisassembler::Success;
1867
1868	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
1869	unsigned CRd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
1870	unsigned coproc = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
1871	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
1872	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
1873	unsigned U = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`);
1874	const FeatureBitset &featureBits =
1875	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
1876
1877	switch (Inst.getOpcode()) {
1878	case ARM::LDC_OFFSET:
1879	case ARM::LDC_PRE:
1880	case ARM::LDC_POST:
1881	case ARM::LDC_OPTION:
1882	case ARM::LDCL_OFFSET:
1883	case ARM::LDCL_PRE:
1884	case ARM::LDCL_POST:
1885	case ARM::LDCL_OPTION:
1886	case ARM::STC_OFFSET:
1887	case ARM::STC_PRE:
1888	case ARM::STC_POST:
1889	case ARM::STC_OPTION:
1890	case ARM::STCL_OFFSET:
1891	case ARM::STCL_PRE:
1892	case ARM::STCL_POST:
1893	case ARM::STCL_OPTION:
1894	case ARM::t2LDC_OFFSET:
1895	case ARM::t2LDC_PRE:
1896	case ARM::t2LDC_POST:
1897	case ARM::t2LDC_OPTION:
1898	case ARM::t2LDCL_OFFSET:
1899	case ARM::t2LDCL_PRE:
1900	case ARM::t2LDCL_POST:
1901	case ARM::t2LDCL_OPTION:
1902	case ARM::t2STC_OFFSET:
1903	case ARM::t2STC_PRE:
1904	case ARM::t2STC_POST:
1905	case ARM::t2STC_OPTION:
1906	case ARM::t2STCL_OFFSET:
1907	case ARM::t2STCL_PRE:
1908	case ARM::t2STCL_POST:
1909	case ARM::t2STCL_OPTION:
1910	case ARM::t2LDC2_OFFSET:
1911	case ARM::t2LDC2L_OFFSET:
1912	case ARM::t2LDC2_PRE:
1913	case ARM::t2LDC2L_PRE:
1914	case ARM::t2STC2_OFFSET:
1915	case ARM::t2STC2L_OFFSET:
1916	case ARM::t2STC2_PRE:
1917	case ARM::t2STC2L_PRE:
1918	case ARM::LDC2_OFFSET:
1919	case ARM::LDC2L_OFFSET:
1920	case ARM::LDC2_PRE:
1921	case ARM::LDC2L_PRE:
1922	case ARM::STC2_OFFSET:
1923	case ARM::STC2L_OFFSET:
1924	case ARM::STC2_PRE:
1925	case ARM::STC2L_PRE:
1926	case ARM::t2LDC2_OPTION:
1927	case ARM::t2STC2_OPTION:
1928	case ARM::t2LDC2_POST:
1929	case ARM::t2LDC2L_POST:
1930	case ARM::t2STC2_POST:
1931	case ARM::t2STC2L_POST:
1932	case ARM::LDC2_POST:
1933	case ARM::LDC2L_POST:
1934	case ARM::STC2_POST:
1935	case ARM::STC2L_POST:
1936	if (coproc == `0xA` \|\| coproc == `0xB` \|\|
1937	(featureBits [ARM::HasV8_1MMainlineOps] &&
1938	(coproc == `0x8` \|\| coproc == `0x9` \|\| coproc == `0xA` \|\| coproc == `0xB` \|\|
1939	coproc == `0xE` \|\| coproc == `0xF`)))
1940	return MCDisassembler::Fail;
1941	break;
1942	default:
1943	break;
1944	}
1945
1946	if (featureBits [ARM::HasV8Ops] && (coproc != `14`))
1947	return MCDisassembler::Fail;
1948
1949	Inst.addOperand(Op: MCOperand::createImm(Val: coproc));
1950	Inst.addOperand(Op: MCOperand::createImm(Val: CRd));
1951	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
1952	return MCDisassembler::Fail;
1953
1954	switch (Inst.getOpcode()) {
1955	case ARM::t2LDC2_OFFSET:
1956	case ARM::t2LDC2L_OFFSET:
1957	case ARM::t2LDC2_PRE:
1958	case ARM::t2LDC2L_PRE:
1959	case ARM::t2STC2_OFFSET:
1960	case ARM::t2STC2L_OFFSET:
1961	case ARM::t2STC2_PRE:
1962	case ARM::t2STC2L_PRE:
1963	case ARM::LDC2_OFFSET:
1964	case ARM::LDC2L_OFFSET:
1965	case ARM::LDC2_PRE:
1966	case ARM::LDC2L_PRE:
1967	case ARM::STC2_OFFSET:
1968	case ARM::STC2L_OFFSET:
1969	case ARM::STC2_PRE:
1970	case ARM::STC2L_PRE:
1971	case ARM::t2LDC_OFFSET:
1972	case ARM::t2LDCL_OFFSET:
1973	case ARM::t2LDC_PRE:
1974	case ARM::t2LDCL_PRE:
1975	case ARM::t2STC_OFFSET:
1976	case ARM::t2STCL_OFFSET:
1977	case ARM::t2STC_PRE:
1978	case ARM::t2STCL_PRE:
1979	case ARM::LDC_OFFSET:
1980	case ARM::LDCL_OFFSET:
1981	case ARM::LDC_PRE:
1982	case ARM::LDCL_PRE:
1983	case ARM::STC_OFFSET:
1984	case ARM::STCL_OFFSET:
1985	case ARM::STC_PRE:
1986	case ARM::STCL_PRE:
1987	imm = ARM_AM::getAM5Opc(Opc: U ? ARM_AM::add : ARM_AM::sub, Offset: imm);
1988	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
1989	break;
1990	case ARM::t2LDC2_POST:
1991	case ARM::t2LDC2L_POST:
1992	case ARM::t2STC2_POST:
1993	case ARM::t2STC2L_POST:
1994	case ARM::LDC2_POST:
1995	case ARM::LDC2L_POST:
1996	case ARM::STC2_POST:
1997	case ARM::STC2L_POST:
1998	case ARM::t2LDC_POST:
1999	case ARM::t2LDCL_POST:
2000	case ARM::t2STC_POST:
2001	case ARM::t2STCL_POST:
2002	case ARM::LDC_POST:
2003	case ARM::LDCL_POST:
2004	case ARM::STC_POST:
2005	case ARM::STCL_POST:
2006	imm \|= U << `8`;
2007	[[fallthrough]];
2008	default:
2009	// The 'option' variant doesn't encode 'U' in the immediate since
2010	// the immediate is unsigned [0,255].
2011	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2012	break;
2013	}
2014
2015	switch (Inst.getOpcode()) {
2016	case ARM::LDC_OFFSET:
2017	case ARM::LDC_PRE:
2018	case ARM::LDC_POST:
2019	case ARM::LDC_OPTION:
2020	case ARM::LDCL_OFFSET:
2021	case ARM::LDCL_PRE:
2022	case ARM::LDCL_POST:
2023	case ARM::LDCL_OPTION:
2024	case ARM::STC_OFFSET:
2025	case ARM::STC_PRE:
2026	case ARM::STC_POST:
2027	case ARM::STC_OPTION:
2028	case ARM::STCL_OFFSET:
2029	case ARM::STCL_PRE:
2030	case ARM::STCL_POST:
2031	case ARM::STCL_OPTION:
2032	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2033	return MCDisassembler::Fail;
2034	break;
2035	default:
2036	break;
2037	}
2038
2039	return S;
2040	}
2041
2042	static DecodeStatus
2043	DecodeAddrMode2IdxInstruction(MCInst &Inst, unsigned Insn, uint64_t Address,
2044	const MCDisassembler *Decoder) {
2045	DecodeStatus S = MCDisassembler::Success;
2046
2047	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2048	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
2049	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
2050	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
2051	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2052	unsigned reg = fieldFromInstruction(insn: Insn, startBit: `25`, numBits: `1`);
2053	unsigned P = fieldFromInstruction(insn: Insn, startBit: `24`, numBits: `1`);
2054	unsigned W = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
2055
2056	// On stores, the writeback operand precedes Rt.
2057	switch (Inst.getOpcode()) {
2058	case ARM::STR_POST_IMM:
2059	case ARM::STR_POST_REG:
2060	case ARM::STRB_POST_IMM:
2061	case ARM::STRB_POST_REG:
2062	case ARM::STRT_POST_REG:
2063	case ARM::STRT_POST_IMM:
2064	case ARM::STRBT_POST_REG:
2065	case ARM::STRBT_POST_IMM:
2066	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2067	return MCDisassembler::Fail;
2068	break;
2069	default:
2070	break;
2071	}
2072
2073	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
2074	return MCDisassembler::Fail;
2075
2076	// On loads, the writeback operand comes after Rt.
2077	switch (Inst.getOpcode()) {
2078	case ARM::LDR_POST_IMM:
2079	case ARM::LDR_POST_REG:
2080	case ARM::LDRB_POST_IMM:
2081	case ARM::LDRB_POST_REG:
2082	case ARM::LDRBT_POST_REG:
2083	case ARM::LDRBT_POST_IMM:
2084	case ARM::LDRT_POST_REG:
2085	case ARM::LDRT_POST_IMM:
2086	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2087	return MCDisassembler::Fail;
2088	break;
2089	default:
2090	break;
2091	}
2092
2093	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2094	return MCDisassembler::Fail;
2095
2096	ARM_AM::AddrOpc Op = ARM_AM::add;
2097	if (!fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`))
2098	Op = ARM_AM::sub;
2099
2100	bool writeback = (P == `0`) \|\| (W == `1`);
2101	unsigned idx_mode = `0`;
2102	if (P && writeback)
2103	idx_mode = ARMII::IndexModePre;
2104	else if (!P && writeback)
2105	idx_mode = ARMII::IndexModePost;
2106
2107	if (writeback && (Rn == `15` \|\| Rn == Rt))
2108	S = MCDisassembler::SoftFail; // UNPREDICTABLE
2109
2110	if (reg) {
2111	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2112	return MCDisassembler::Fail;
2113	ARM_AM::ShiftOpc Opc = ARM_AM::lsl;
2114	switch( fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `2`)) {
2115	case `0`:
2116	Opc = ARM_AM::lsl;
2117	break;
2118	case `1`:
2119	Opc = ARM_AM::lsr;
2120	break;
2121	case `2`:
2122	Opc = ARM_AM::asr;
2123	break;
2124	case `3`:
2125	Opc = ARM_AM::ror;
2126	break;
2127	default:
2128	return MCDisassembler::Fail;
2129	}
2130	unsigned amt = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `5`);
2131	if (Opc == ARM_AM::ror && amt == `0`)
2132	Opc = ARM_AM::rrx;
2133	unsigned imm = ARM_AM::getAM2Opc(Opc: Op, Imm12: amt, SO: Opc, IdxMode: idx_mode);
2134
2135	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2136	} else {
2137	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
2138	unsigned tmp = ARM_AM::getAM2Opc(Opc: Op, Imm12: imm, SO: ARM_AM::lsl, IdxMode: idx_mode);
2139	Inst.addOperand(Op: MCOperand::createImm(Val: tmp));
2140	}
2141
2142	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2143	return MCDisassembler::Fail;
2144
2145	return S;
2146	}
2147
2148	static DecodeStatus DecodeSORegMemOperand(MCInst &Inst, unsigned Val,
2149	uint64_t Address,
2150	const MCDisassembler *Decoder) {
2151	DecodeStatus S = MCDisassembler::Success;
2152
2153	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `13`, numBits: `4`);
2154	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `4`);
2155	unsigned type = fieldFromInstruction(insn: Val, startBit: `5`, numBits: `2`);
2156	unsigned imm = fieldFromInstruction(insn: Val, startBit: `7`, numBits: `5`);
2157	unsigned U = fieldFromInstruction(insn: Val, startBit: `12`, numBits: `1`);
2158
2159	ARM_AM::ShiftOpc ShOp = ARM_AM::lsl;
2160	switch (type) {
2161	case `0`:
2162	ShOp = ARM_AM::lsl;
2163	break;
2164	case `1`:
2165	ShOp = ARM_AM::lsr;
2166	break;
2167	case `2`:
2168	ShOp = ARM_AM::asr;
2169	break;
2170	case `3`:
2171	ShOp = ARM_AM::ror;
2172	break;
2173	}
2174
2175	if (ShOp == ARM_AM::ror && imm == `0`)
2176	ShOp = ARM_AM::rrx;
2177
2178	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2179	return MCDisassembler::Fail;
2180	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2181	return MCDisassembler::Fail;
2182	unsigned shift;
2183	if (U)
2184	shift = ARM_AM::getAM2Opc(Opc: ARM_AM::add, Imm12: imm, SO: ShOp);
2185	else
2186	shift = ARM_AM::getAM2Opc(Opc: ARM_AM::sub, Imm12: imm, SO: ShOp);
2187	Inst.addOperand(Op: MCOperand::createImm(Val: shift));
2188
2189	return S;
2190	}
2191
2192	static DecodeStatus DecodeTSBInstruction(MCInst &Inst, unsigned Insn,
2193	uint64_t Address,
2194	const MCDisassembler *Decoder) {
2195	if (Inst.getOpcode() != ARM::TSB && Inst.getOpcode() != ARM::t2TSB)
2196	return MCDisassembler::Fail;
2197
2198	// The "csync" operand is not encoded into the "tsb" instruction (as this is
2199	// the only available operand), but LLVM expects the instruction to have one
2200	// operand, so we need to add the csync when decoding.
2201	Inst.addOperand(Op: MCOperand::createImm(Val: ARM_TSB::CSYNC));
2202	return MCDisassembler::Success;
2203	}
2204
2205	static DecodeStatus DecodeAddrMode3Instruction(MCInst &Inst, unsigned Insn,
2206	uint64_t Address,
2207	const MCDisassembler *Decoder) {
2208	DecodeStatus S = MCDisassembler::Success;
2209
2210	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
2211	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2212	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
2213	unsigned type = fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`);
2214	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
2215	unsigned U = ((~fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`)) & `1`) << `8`;
2216	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2217	unsigned W = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
2218	unsigned P = fieldFromInstruction(insn: Insn, startBit: `24`, numBits: `1`);
2219	unsigned Rt2 = Rt + `1`;
2220
2221	bool writeback = (W == `1`) \| (P == `0`);
2222
2223	// For {LD,ST}RD, Rt must be even, else undefined.
2224	switch (Inst.getOpcode()) {
2225	case ARM::STRD:
2226	case ARM::STRD_PRE:
2227	case ARM::STRD_POST:
2228	case ARM::LDRD:
2229	case ARM::LDRD_PRE:
2230	case ARM::LDRD_POST:
2231	if (Rt & `0x1`) S = MCDisassembler::SoftFail;
2232	break;
2233	default:
2234	break;
2235	}
2236	switch (Inst.getOpcode()) {
2237	case ARM::STRD:
2238	case ARM::STRD_PRE:
2239	case ARM::STRD_POST:
2240	if (P == `0` && W == `1`)
2241	S = MCDisassembler::SoftFail;
2242
2243	if (writeback && (Rn == `15` \|\| Rn == Rt \|\| Rn == Rt2))
2244	S = MCDisassembler::SoftFail;
2245	if (type && Rm == `15`)
2246	S = MCDisassembler::SoftFail;
2247	if (Rt2 == `15`)
2248	S = MCDisassembler::SoftFail;
2249	if (!type && fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`))
2250	S = MCDisassembler::SoftFail;
2251	break;
2252	case ARM::STRH:
2253	case ARM::STRH_PRE:
2254	case ARM::STRH_POST:
2255	if (Rt == `15`)
2256	S = MCDisassembler::SoftFail;
2257	if (writeback && (Rn == `15` \|\| Rn == Rt))
2258	S = MCDisassembler::SoftFail;
2259	if (!type && Rm == `15`)
2260	S = MCDisassembler::SoftFail;
2261	break;
2262	case ARM::LDRD:
2263	case ARM::LDRD_PRE:
2264	case ARM::LDRD_POST:
2265	if (type && Rn == `15`) {
2266	if (Rt2 == `15`)
2267	S = MCDisassembler::SoftFail;
2268	break;
2269	}
2270	if (P == `0` && W == `1`)
2271	S = MCDisassembler::SoftFail;
2272	if (!type && (Rt2 == `15` \|\| Rm == `15` \|\| Rm == Rt \|\| Rm == Rt2))
2273	S = MCDisassembler::SoftFail;
2274	if (!type && writeback && Rn == `15`)
2275	S = MCDisassembler::SoftFail;
2276	if (writeback && (Rn == Rt \|\| Rn == Rt2))
2277	S = MCDisassembler::SoftFail;
2278	break;
2279	case ARM::LDRH:
2280	case ARM::LDRH_PRE:
2281	case ARM::LDRH_POST:
2282	if (type && Rn == `15`) {
2283	if (Rt == `15`)
2284	S = MCDisassembler::SoftFail;
2285	break;
2286	}
2287	if (Rt == `15`)
2288	S = MCDisassembler::SoftFail;
2289	if (!type && Rm == `15`)
2290	S = MCDisassembler::SoftFail;
2291	if (!type && writeback && (Rn == `15` \|\| Rn == Rt))
2292	S = MCDisassembler::SoftFail;
2293	break;
2294	case ARM::LDRSH:
2295	case ARM::LDRSH_PRE:
2296	case ARM::LDRSH_POST:
2297	case ARM::LDRSB:
2298	case ARM::LDRSB_PRE:
2299	case ARM::LDRSB_POST:
2300	if (type && Rn == `15`) {
2301	if (Rt == `15`)
2302	S = MCDisassembler::SoftFail;
2303	break;
2304	}
2305	if (type && (Rt == `15` \|\| (writeback && Rn == Rt)))
2306	S = MCDisassembler::SoftFail;
2307	if (!type && (Rt == `15` \|\| Rm == `15`))
2308	S = MCDisassembler::SoftFail;
2309	if (!type && writeback && (Rn == `15` \|\| Rn == Rt))
2310	S = MCDisassembler::SoftFail;
2311	break;
2312	default:
2313	break;
2314	}
2315
2316	if (writeback) { // Writeback
2317	if (P)
2318	U \|= ARMII::IndexModePre << `9`;
2319	else
2320	U \|= ARMII::IndexModePost << `9`;
2321
2322	// On stores, the writeback operand precedes Rt.
2323	switch (Inst.getOpcode()) {
2324	case ARM::STRD:
2325	case ARM::STRD_PRE:
2326	case ARM::STRD_POST:
2327	case ARM::STRH:
2328	case ARM::STRH_PRE:
2329	case ARM::STRH_POST:
2330	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2331	return MCDisassembler::Fail;
2332	break;
2333	default:
2334	break;
2335	}
2336	}
2337
2338	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
2339	return MCDisassembler::Fail;
2340	switch (Inst.getOpcode()) {
2341	case ARM::STRD:
2342	case ARM::STRD_PRE:
2343	case ARM::STRD_POST:
2344	case ARM::LDRD:
2345	case ARM::LDRD_PRE:
2346	case ARM::LDRD_POST:
2347	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt+`1`, Address, Decoder)))
2348	return MCDisassembler::Fail;
2349	break;
2350	default:
2351	break;
2352	}
2353
2354	if (writeback) {
2355	// On loads, the writeback operand comes after Rt.
2356	switch (Inst.getOpcode()) {
2357	case ARM::LDRD:
2358	case ARM::LDRD_PRE:
2359	case ARM::LDRD_POST:
2360	case ARM::LDRH:
2361	case ARM::LDRH_PRE:
2362	case ARM::LDRH_POST:
2363	case ARM::LDRSH:
2364	case ARM::LDRSH_PRE:
2365	case ARM::LDRSH_POST:
2366	case ARM::LDRSB:
2367	case ARM::LDRSB_PRE:
2368	case ARM::LDRSB_POST:
2369	case ARM::LDRHTr:
2370	case ARM::LDRSBTr:
2371	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2372	return MCDisassembler::Fail;
2373	break;
2374	default:
2375	break;
2376	}
2377	}
2378
2379	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2380	return MCDisassembler::Fail;
2381
2382	if (type) {
2383	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
2384	Inst.addOperand(Op: MCOperand::createImm(Val: U \| (imm << `4`) \| Rm));
2385	} else {
2386	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2387	return MCDisassembler::Fail;
2388	Inst.addOperand(Op: MCOperand::createImm(Val: U));
2389	}
2390
2391	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2392	return MCDisassembler::Fail;
2393
2394	return S;
2395	}
2396
2397	static DecodeStatus DecodeRFEInstruction(MCInst &Inst, unsigned Insn,
2398	uint64_t Address,
2399	const MCDisassembler *Decoder) {
2400	DecodeStatus S = MCDisassembler::Success;
2401
2402	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2403	unsigned mode = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `2`);
2404
2405	switch (mode) {
2406	case `0`:
2407	mode = ARM_AM::da;
2408	break;
2409	case `1`:
2410	mode = ARM_AM::ia;
2411	break;
2412	case `2`:
2413	mode = ARM_AM::db;
2414	break;
2415	case `3`:
2416	mode = ARM_AM::ib;
2417	break;
2418	}
2419
2420	Inst.addOperand(Op: MCOperand::createImm(Val: mode));
2421	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2422	return MCDisassembler::Fail;
2423
2424	return S;
2425	}
2426
2427	static DecodeStatus DecodeQADDInstruction(MCInst &Inst, unsigned Insn,
2428	uint64_t Address,
2429	const MCDisassembler *Decoder) {
2430	DecodeStatus S = MCDisassembler::Success;
2431
2432	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
2433	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
2434	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2435	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2436
2437	if (pred == `0xF`)
2438	return DecodeCPSInstruction(Inst, Insn, Address, Decoder);
2439
2440	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2441	return MCDisassembler::Fail;
2442	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2443	return MCDisassembler::Fail;
2444	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2445	return MCDisassembler::Fail;
2446	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2447	return MCDisassembler::Fail;
2448	return S;
2449	}
2450
2451	static DecodeStatus
2452	DecodeMemMultipleWritebackInstruction(MCInst &Inst, unsigned Insn,
2453	uint64_t Address,
2454	const MCDisassembler *Decoder) {
2455	DecodeStatus S = MCDisassembler::Success;
2456
2457	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2458	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2459	unsigned reglist = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `16`);
2460
2461	if (pred == `0xF`) {
2462	// Ambiguous with RFE and SRS
2463	switch (Inst.getOpcode()) {
2464	case ARM::LDMDA:
2465	Inst.setOpcode(ARM::RFEDA);
2466	break;
2467	case ARM::LDMDA_UPD:
2468	Inst.setOpcode(ARM::RFEDA_UPD);
2469	break;
2470	case ARM::LDMDB:
2471	Inst.setOpcode(ARM::RFEDB);
2472	break;
2473	case ARM::LDMDB_UPD:
2474	Inst.setOpcode(ARM::RFEDB_UPD);
2475	break;
2476	case ARM::LDMIA:
2477	Inst.setOpcode(ARM::RFEIA);
2478	break;
2479	case ARM::LDMIA_UPD:
2480	Inst.setOpcode(ARM::RFEIA_UPD);
2481	break;
2482	case ARM::LDMIB:
2483	Inst.setOpcode(ARM::RFEIB);
2484	break;
2485	case ARM::LDMIB_UPD:
2486	Inst.setOpcode(ARM::RFEIB_UPD);
2487	break;
2488	case ARM::STMDA:
2489	Inst.setOpcode(ARM::SRSDA);
2490	break;
2491	case ARM::STMDA_UPD:
2492	Inst.setOpcode(ARM::SRSDA_UPD);
2493	break;
2494	case ARM::STMDB:
2495	Inst.setOpcode(ARM::SRSDB);
2496	break;
2497	case ARM::STMDB_UPD:
2498	Inst.setOpcode(ARM::SRSDB_UPD);
2499	break;
2500	case ARM::STMIA:
2501	Inst.setOpcode(ARM::SRSIA);
2502	break;
2503	case ARM::STMIA_UPD:
2504	Inst.setOpcode(ARM::SRSIA_UPD);
2505	break;
2506	case ARM::STMIB:
2507	Inst.setOpcode(ARM::SRSIB);
2508	break;
2509	case ARM::STMIB_UPD:
2510	Inst.setOpcode(ARM::SRSIB_UPD);
2511	break;
2512	default:
2513	return MCDisassembler::Fail;
2514	}
2515
2516	// For stores (which become SRS's, the only operand is the mode.
2517	if (fieldFromInstruction(insn: Insn, startBit: `20`, numBits: `1`) == `0`) {
2518	// Check SRS encoding constraints
2519	if (!(fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) == `1` &&
2520	fieldFromInstruction(insn: Insn, startBit: `20`, numBits: `1`) == `0`))
2521	return MCDisassembler::Fail;
2522
2523	Inst.addOperand(
2524	Op: MCOperand::createImm(Val: fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`)));
2525	return S;
2526	}
2527
2528	return DecodeRFEInstruction(Inst, Insn, Address, Decoder);
2529	}
2530
2531	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2532	return MCDisassembler::Fail;
2533	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2534	return MCDisassembler::Fail; // Tied
2535	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2536	return MCDisassembler::Fail;
2537	if (!Check(Out&: S, In: DecodeRegListOperand(Inst, Val: reglist, Address, Decoder)))
2538	return MCDisassembler::Fail;
2539
2540	return S;
2541	}
2542
2543	// Check for UNPREDICTABLE predicated ESB instruction
2544	static DecodeStatus DecodeHINTInstruction(MCInst &Inst, unsigned Insn,
2545	uint64_t Address,
2546	const MCDisassembler *Decoder) {
2547	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2548	unsigned imm8 = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
2549	const MCDisassembler Dis = static_cast<const* MCDisassembler*>(Decoder);
2550	const FeatureBitset &FeatureBits = Dis->getSubtargetInfo().getFeatureBits();
2551
2552	DecodeStatus S = MCDisassembler::Success;
2553
2554	Inst.addOperand(Op: MCOperand::createImm(Val: imm8));
2555
2556	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2557	return MCDisassembler::Fail;
2558
2559	// ESB is unpredictable if pred != AL. Without the RAS extension, it is a NOP,
2560	// so all predicates should be allowed.
2561	if (imm8 == `0x10` && pred != `0xe` && ((FeatureBits [ARM::FeatureRAS]) != `0`))
2562	S = MCDisassembler::SoftFail;
2563
2564	return S;
2565	}
2566
2567	static DecodeStatus DecodeCPSInstruction(MCInst &Inst, unsigned Insn,
2568	uint64_t Address,
2569	const MCDisassembler *Decoder) {
2570	unsigned imod = fieldFromInstruction(insn: Insn, startBit: `18`, numBits: `2`);
2571	unsigned M = fieldFromInstruction(insn: Insn, startBit: `17`, numBits: `1`);
2572	unsigned iflags = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `3`);
2573	unsigned mode = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `5`);
2574
2575	DecodeStatus S = MCDisassembler::Success;
2576
2577	// This decoder is called from multiple location that do not check
2578	// the full encoding is valid before they do.
2579	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) != `0` \|\|
2580	fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `1`) != `0` \|\|
2581	fieldFromInstruction(insn: Insn, startBit: `20`, numBits: `8`) != `0x10`)
2582	return MCDisassembler::Fail;
2583
2584	// imod == '01' --> UNPREDICTABLE
2585	// NOTE: Even though this is technically UNPREDICTABLE, we choose to
2586	// return failure here. The '01' imod value is unprintable, so there's
2587	// nothing useful we could do even if we returned UNPREDICTABLE.
2588
2589	if (imod == `1`) return MCDisassembler::Fail;
2590
2591	if (imod && M) {
2592	Inst.setOpcode(ARM::CPS3p);
2593	Inst.addOperand(Op: MCOperand::createImm(Val: imod));
2594	Inst.addOperand(Op: MCOperand::createImm(Val: iflags));
2595	Inst.addOperand(Op: MCOperand::createImm(Val: mode));
2596	} else if (imod && !M) {
2597	Inst.setOpcode(ARM::CPS2p);
2598	Inst.addOperand(Op: MCOperand::createImm(Val: imod));
2599	Inst.addOperand(Op: MCOperand::createImm(Val: iflags));
2600	if (mode) S = MCDisassembler::SoftFail;
2601	} else if (!imod && M) {
2602	Inst.setOpcode(ARM::CPS1p);
2603	Inst.addOperand(Op: MCOperand::createImm(Val: mode));
2604	if (iflags) S = MCDisassembler::SoftFail;
2605	} else {
2606	// imod == '00' && M == '0' --> UNPREDICTABLE
2607	Inst.setOpcode(ARM::CPS1p);
2608	Inst.addOperand(Op: MCOperand::createImm(Val: mode));
2609	S = MCDisassembler::SoftFail;
2610	}
2611
2612	return S;
2613	}
2614
2615	static DecodeStatus DecodeT2CPSInstruction(MCInst &Inst, unsigned Insn,
2616	uint64_t Address,
2617	const MCDisassembler *Decoder) {
2618	unsigned imod = fieldFromInstruction(insn: Insn, startBit: `9`, numBits: `2`);
2619	unsigned M = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `1`);
2620	unsigned iflags = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
2621	unsigned mode = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `5`);
2622
2623	DecodeStatus S = MCDisassembler::Success;
2624
2625	// imod == '01' --> UNPREDICTABLE
2626	// NOTE: Even though this is technically UNPREDICTABLE, we choose to
2627	// return failure here. The '01' imod value is unprintable, so there's
2628	// nothing useful we could do even if we returned UNPREDICTABLE.
2629
2630	if (imod == `1`) return MCDisassembler::Fail;
2631
2632	if (imod && M) {
2633	Inst.setOpcode(ARM::t2CPS3p);
2634	Inst.addOperand(Op: MCOperand::createImm(Val: imod));
2635	Inst.addOperand(Op: MCOperand::createImm(Val: iflags));
2636	Inst.addOperand(Op: MCOperand::createImm(Val: mode));
2637	} else if (imod && !M) {
2638	Inst.setOpcode(ARM::t2CPS2p);
2639	Inst.addOperand(Op: MCOperand::createImm(Val: imod));
2640	Inst.addOperand(Op: MCOperand::createImm(Val: iflags));
2641	if (mode) S = MCDisassembler::SoftFail;
2642	} else if (!imod && M) {
2643	Inst.setOpcode(ARM::t2CPS1p);
2644	Inst.addOperand(Op: MCOperand::createImm(Val: mode));
2645	if (iflags) S = MCDisassembler::SoftFail;
2646	} else {
2647	// imod == '00' && M == '0' --> this is a HINT instruction
2648	int imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
2649	// HINT are defined only for immediate in [0..4]
2650	if(imm > `4`) return MCDisassembler::Fail;
2651	Inst.setOpcode(ARM::t2HINT);
2652	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2653	}
2654
2655	return S;
2656	}
2657
2658	static DecodeStatus
2659	DecodeT2HintSpaceInstruction(MCInst &Inst, unsigned Insn, uint64_t Address,
2660	const MCDisassembler *Decoder) {
2661	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
2662
2663	unsigned Opcode = ARM::t2HINT;
2664
2665	if (imm == `0x0D`) {
2666	Opcode = ARM::t2PACBTI;
2667	} else if (imm == `0x1D`) {
2668	Opcode = ARM::t2PAC;
2669	} else if (imm == `0x2D`) {
2670	Opcode = ARM::t2AUT;
2671	} else if (imm == `0x0F`) {
2672	Opcode = ARM::t2BTI;
2673	}
2674
2675	Inst.setOpcode(Opcode);
2676	if (Opcode == ARM::t2HINT) {
2677	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2678	}
2679
2680	return MCDisassembler::Success;
2681	}
2682
2683	static DecodeStatus DecodeT2MOVTWInstruction(MCInst &Inst, unsigned Insn,
2684	uint64_t Address,
2685	const MCDisassembler *Decoder) {
2686	DecodeStatus S = MCDisassembler::Success;
2687
2688	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
2689	unsigned imm = `0`;
2690
2691	imm \|= (fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`) << `0`);
2692	imm \|= (fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `3`) << `8`);
2693	imm \|= (fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `12`);
2694	imm \|= (fieldFromInstruction(insn: Insn, startBit: `26`, numBits: `1`) << `11`);
2695
2696	if (Inst.getOpcode() == ARM::t2MOVTi16)
2697	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2698	return MCDisassembler::Fail;
2699	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2700	return MCDisassembler::Fail;
2701
2702	if (!tryAddingSymbolicOperand(Address, Value: imm, isBranch: false, InstSize: `4`, MI&: Inst, Decoder))
2703	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2704
2705	return S;
2706	}
2707
2708	static DecodeStatus DecodeArmMOVTWInstruction(MCInst &Inst, unsigned Insn,
2709	uint64_t Address,
2710	const MCDisassembler *Decoder) {
2711	DecodeStatus S = MCDisassembler::Success;
2712
2713	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
2714	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2715	unsigned imm = `0`;
2716
2717	imm \|= (fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`) << `0`);
2718	imm \|= (fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `12`);
2719
2720	if (Inst.getOpcode() == ARM::MOVTi16)
2721	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2722	return MCDisassembler::Fail;
2723
2724	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2725	return MCDisassembler::Fail;
2726
2727	if (!tryAddingSymbolicOperand(Address, Value: imm, isBranch: false, InstSize: `4`, MI&: Inst, Decoder))
2728	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2729
2730	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2731	return MCDisassembler::Fail;
2732
2733	return S;
2734	}
2735
2736	static DecodeStatus DecodeSMLAInstruction(MCInst &Inst, unsigned Insn,
2737	uint64_t Address,
2738	const MCDisassembler *Decoder) {
2739	DecodeStatus S = MCDisassembler::Success;
2740
2741	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2742	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
2743	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
2744	unsigned Ra = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
2745	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2746
2747	if (pred == `0xF`)
2748	return DecodeCPSInstruction(Inst, Insn, Address, Decoder);
2749
2750	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2751	return MCDisassembler::Fail;
2752	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2753	return MCDisassembler::Fail;
2754	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2755	return MCDisassembler::Fail;
2756	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Ra, Address, Decoder)))
2757	return MCDisassembler::Fail;
2758
2759	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2760	return MCDisassembler::Fail;
2761
2762	return S;
2763	}
2764
2765	static DecodeStatus DecodeTSTInstruction(MCInst &Inst, unsigned Insn,
2766	uint64_t Address,
2767	const MCDisassembler *Decoder) {
2768	DecodeStatus S = MCDisassembler::Success;
2769
2770	unsigned Pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2771	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2772	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
2773
2774	if (Pred == `0xF`)
2775	return DecodeSETPANInstruction(Inst, Insn, Address, Decoder);
2776
2777	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2778	return MCDisassembler::Fail;
2779	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2780	return MCDisassembler::Fail;
2781	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: Pred, Address, Decoder)))
2782	return MCDisassembler::Fail;
2783
2784	return S;
2785	}
2786
2787	static DecodeStatus DecodeSETPANInstruction(MCInst &Inst, unsigned Insn,
2788	uint64_t Address,
2789	const MCDisassembler *Decoder) {
2790	DecodeStatus S = MCDisassembler::Success;
2791
2792	unsigned Imm = fieldFromInstruction(insn: Insn, startBit: `9`, numBits: `1`);
2793
2794	const MCDisassembler Dis = static_cast<const* MCDisassembler*>(Decoder);
2795	const FeatureBitset &FeatureBits = Dis->getSubtargetInfo().getFeatureBits();
2796
2797	if (!FeatureBits [ARM::HasV8_1aOps] \|\|
2798	!FeatureBits [ARM::HasV8Ops])
2799	return MCDisassembler::Fail;
2800
2801	// Decoder can be called from DecodeTST, which does not check the full
2802	// encoding is valid.
2803	if (fieldFromInstruction(insn: Insn, startBit: `20`,numBits: `12`) != `0xf11` \|\|
2804	fieldFromInstruction(insn: Insn, startBit: `4`,numBits: `4`) != `0`)
2805	return MCDisassembler::Fail;
2806	if (fieldFromInstruction(insn: Insn, startBit: `10`,numBits: `10`) != `0` \|\|
2807	fieldFromInstruction(insn: Insn, startBit: `0`,numBits: `4`) != `0`)
2808	S = MCDisassembler::SoftFail;
2809
2810	Inst.setOpcode(ARM::SETPAN);
2811	Inst.addOperand(Op: MCOperand::createImm(Val: Imm));
2812
2813	return S;
2814	}
2815
2816	static DecodeStatus DecodeAddrModeImm12Operand(MCInst &Inst, unsigned Val,
2817	uint64_t Address,
2818	const MCDisassembler *Decoder) {
2819	DecodeStatus S = MCDisassembler::Success;
2820
2821	unsigned add = fieldFromInstruction(insn: Val, startBit: `12`, numBits: `1`);
2822	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `12`);
2823	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `13`, numBits: `4`);
2824
2825	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2826	return MCDisassembler::Fail;
2827
2828	if (!add) imm *= -`1`;
2829	if (imm == `0` && !add) imm = INT32_MIN;
2830	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
2831	if (Rn == `15`)
2832	tryAddingPcLoadReferenceComment(Address, Value: Address + imm + `8`, Decoder);
2833
2834	return S;
2835	}
2836
2837	static DecodeStatus DecodeAddrMode5Operand(MCInst &Inst, unsigned Val,
2838	uint64_t Address,
2839	const MCDisassembler *Decoder) {
2840	DecodeStatus S = MCDisassembler::Success;
2841
2842	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `9`, numBits: `4`);
2843	// U == 1 to add imm, 0 to subtract it.
2844	unsigned U = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `1`);
2845	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
2846
2847	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2848	return MCDisassembler::Fail;
2849
2850	if (U)
2851	Inst.addOperand(Op: MCOperand::createImm(Val: ARM_AM::getAM5Opc(Opc: ARM_AM::add, Offset: imm)));
2852	else
2853	Inst.addOperand(Op: MCOperand::createImm(Val: ARM_AM::getAM5Opc(Opc: ARM_AM::sub, Offset: imm)));
2854
2855	return S;
2856	}
2857
2858	static DecodeStatus DecodeAddrMode5FP16Operand(MCInst &Inst, unsigned Val,
2859	uint64_t Address,
2860	const MCDisassembler *Decoder) {
2861	DecodeStatus S = MCDisassembler::Success;
2862
2863	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `9`, numBits: `4`);
2864	// U == 1 to add imm, 0 to subtract it.
2865	unsigned U = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `1`);
2866	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
2867
2868	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
2869	return MCDisassembler::Fail;
2870
2871	if (U)
2872	Inst.addOperand(Op: MCOperand::createImm(Val: ARM_AM::getAM5FP16Opc(Opc: ARM_AM::add, Offset: imm)));
2873	else
2874	Inst.addOperand(Op: MCOperand::createImm(Val: ARM_AM::getAM5FP16Opc(Opc: ARM_AM::sub, Offset: imm)));
2875
2876	return S;
2877	}
2878
2879	static DecodeStatus DecodeAddrMode7Operand(MCInst &Inst, unsigned Val,
2880	uint64_t Address,
2881	const MCDisassembler *Decoder) {
2882	return DecodeGPRRegisterClass(Inst, RegNo: Val, Address, Decoder);
2883	}
2884
2885	static DecodeStatus DecodeT2BInstruction(MCInst &Inst, unsigned Insn,
2886	uint64_t Address,
2887	const MCDisassembler *Decoder) {
2888	DecodeStatus Status = MCDisassembler::Success;
2889
2890	// Note the J1 and J2 values are from the encoded instruction. So here
2891	// change them to I1 and I2 values via as documented:
2892	// I1 = NOT(J1 EOR S);
2893	// I2 = NOT(J2 EOR S);
2894	// and build the imm32 with one trailing zero as documented:
2895	// imm32 = SignExtend(S:I1:I2:imm10:imm11:'0', 32);
2896	unsigned S = fieldFromInstruction(insn: Insn, startBit: `26`, numBits: `1`);
2897	unsigned J1 = fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `1`);
2898	unsigned J2 = fieldFromInstruction(insn: Insn, startBit: `11`, numBits: `1`);
2899	unsigned I1 = !(J1 ^ S);
2900	unsigned I2 = !(J2 ^ S);
2901	unsigned imm10 = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `10`);
2902	unsigned imm11 = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `11`);
2903	unsigned tmp = (S << `23`) \| (I1 << `22`) \| (I2 << `21`) \| (imm10 << `11`) \| imm11;
2904	int imm32 = SignExtend32<`25`>(X: tmp << `1`);
2905	if (!tryAddingSymbolicOperand(Address, Value: Address + imm32 + `4`,
2906	isBranch: true, InstSize: `4`, MI&: Inst, Decoder))
2907	Inst.addOperand(Op: MCOperand::createImm(Val: imm32));
2908
2909	return Status;
2910	}
2911
2912	static DecodeStatus DecodeBranchImmInstruction(MCInst &Inst, unsigned Insn,
2913	uint64_t Address,
2914	const MCDisassembler *Decoder) {
2915	DecodeStatus S = MCDisassembler::Success;
2916
2917	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
2918	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `24`) << `2`;
2919
2920	if (pred == `0xF`) {
2921	Inst.setOpcode(ARM::BLXi);
2922	imm \|= fieldFromInstruction(insn: Insn, startBit: `24`, numBits: `1`) << `1`;
2923	if (!tryAddingSymbolicOperand(Address, Value: Address + SignExtend32<`26`>(X: imm) + `8`,
2924	isBranch: true, InstSize: `4`, MI&: Inst, Decoder))
2925	Inst.addOperand(Op: MCOperand::createImm(Val: SignExtend32<`26`>(X: imm)));
2926	return S;
2927	}
2928
2929	if (!tryAddingSymbolicOperand(Address, Value: Address + SignExtend32<`26`>(X: imm) + `8`,
2930	isBranch: true, InstSize: `4`, MI&: Inst, Decoder))
2931	Inst.addOperand(Op: MCOperand::createImm(Val: SignExtend32<`26`>(X: imm)));
2932
2933	// We already have BL_pred for BL w/ predicate, no need to add addition
2934	// predicate opreands for BL
2935	if (Inst.getOpcode() != ARM::BL)
2936	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
2937	return MCDisassembler::Fail;
2938
2939	return S;
2940	}
2941
2942	static DecodeStatus DecodeAddrMode6Operand(MCInst &Inst, unsigned Val,
2943	uint64_t Address,
2944	const MCDisassembler *Decoder) {
2945	DecodeStatus S = MCDisassembler::Success;
2946
2947	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `4`);
2948	unsigned align = fieldFromInstruction(insn: Val, startBit: `4`, numBits: `2`);
2949
2950	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
2951	return MCDisassembler::Fail;
2952	if (!align)
2953	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
2954	else
2955	Inst.addOperand(Op: MCOperand::createImm(Val: `4` << align));
2956
2957	return S;
2958	}
2959
2960	static DecodeStatus DecodeVLDInstruction(MCInst &Inst, unsigned Insn,
2961	uint64_t Address,
2962	const MCDisassembler *Decoder) {
2963	DecodeStatus S = MCDisassembler::Success;
2964
2965	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
2966	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
2967	unsigned wb = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2968	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
2969	Rn \|= fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`) << `4`;
2970	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
2971
2972	// First output register
2973	switch (Inst.getOpcode()) {
2974	case ARM::VLD1q16: case ARM::VLD1q32: case ARM::VLD1q64: case ARM::VLD1q8:
2975	case ARM::VLD1q16wb_fixed: case ARM::VLD1q16wb_register:
2976	case ARM::VLD1q32wb_fixed: case ARM::VLD1q32wb_register:
2977	case ARM::VLD1q64wb_fixed: case ARM::VLD1q64wb_register:
2978	case ARM::VLD1q8wb_fixed: case ARM::VLD1q8wb_register:
2979	case ARM::VLD2d16: case ARM::VLD2d32: case ARM::VLD2d8:
2980	case ARM::VLD2d16wb_fixed: case ARM::VLD2d16wb_register:
2981	case ARM::VLD2d32wb_fixed: case ARM::VLD2d32wb_register:
2982	case ARM::VLD2d8wb_fixed: case ARM::VLD2d8wb_register:
2983	if (!Check(Out&: S, In: DecodeDPairRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2984	return MCDisassembler::Fail;
2985	break;
2986	case ARM::VLD2b16:
2987	case ARM::VLD2b32:
2988	case ARM::VLD2b8:
2989	case ARM::VLD2b16wb_fixed:
2990	case ARM::VLD2b16wb_register:
2991	case ARM::VLD2b32wb_fixed:
2992	case ARM::VLD2b32wb_register:
2993	case ARM::VLD2b8wb_fixed:
2994	case ARM::VLD2b8wb_register:
2995	if (!Check(Out&: S, In: DecodeDPairSpacedRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
2996	return MCDisassembler::Fail;
2997	break;
2998	default:
2999	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3000	return MCDisassembler::Fail;
3001	}
3002
3003	// Second output register
3004	switch (Inst.getOpcode()) {
3005	case ARM::VLD3d8:
3006	case ARM::VLD3d16:
3007	case ARM::VLD3d32:
3008	case ARM::VLD3d8_UPD:
3009	case ARM::VLD3d16_UPD:
3010	case ARM::VLD3d32_UPD:
3011	case ARM::VLD4d8:
3012	case ARM::VLD4d16:
3013	case ARM::VLD4d32:
3014	case ARM::VLD4d8_UPD:
3015	case ARM::VLD4d16_UPD:
3016	case ARM::VLD4d32_UPD:
3017	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`1`)%`32`, Address, Decoder)))
3018	return MCDisassembler::Fail;
3019	break;
3020	case ARM::VLD3q8:
3021	case ARM::VLD3q16:
3022	case ARM::VLD3q32:
3023	case ARM::VLD3q8_UPD:
3024	case ARM::VLD3q16_UPD:
3025	case ARM::VLD3q32_UPD:
3026	case ARM::VLD4q8:
3027	case ARM::VLD4q16:
3028	case ARM::VLD4q32:
3029	case ARM::VLD4q8_UPD:
3030	case ARM::VLD4q16_UPD:
3031	case ARM::VLD4q32_UPD:
3032	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`2`)%`32`, Address, Decoder)))
3033	return MCDisassembler::Fail;
3034	break;
3035	default:
3036	break;
3037	}
3038
3039	// Third output register
3040	switch(Inst.getOpcode()) {
3041	case ARM::VLD3d8:
3042	case ARM::VLD3d16:
3043	case ARM::VLD3d32:
3044	case ARM::VLD3d8_UPD:
3045	case ARM::VLD3d16_UPD:
3046	case ARM::VLD3d32_UPD:
3047	case ARM::VLD4d8:
3048	case ARM::VLD4d16:
3049	case ARM::VLD4d32:
3050	case ARM::VLD4d8_UPD:
3051	case ARM::VLD4d16_UPD:
3052	case ARM::VLD4d32_UPD:
3053	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`2`)%`32`, Address, Decoder)))
3054	return MCDisassembler::Fail;
3055	break;
3056	case ARM::VLD3q8:
3057	case ARM::VLD3q16:
3058	case ARM::VLD3q32:
3059	case ARM::VLD3q8_UPD:
3060	case ARM::VLD3q16_UPD:
3061	case ARM::VLD3q32_UPD:
3062	case ARM::VLD4q8:
3063	case ARM::VLD4q16:
3064	case ARM::VLD4q32:
3065	case ARM::VLD4q8_UPD:
3066	case ARM::VLD4q16_UPD:
3067	case ARM::VLD4q32_UPD:
3068	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`4`)%`32`, Address, Decoder)))
3069	return MCDisassembler::Fail;
3070	break;
3071	default:
3072	break;
3073	}
3074
3075	// Fourth output register
3076	switch (Inst.getOpcode()) {
3077	case ARM::VLD4d8:
3078	case ARM::VLD4d16:
3079	case ARM::VLD4d32:
3080	case ARM::VLD4d8_UPD:
3081	case ARM::VLD4d16_UPD:
3082	case ARM::VLD4d32_UPD:
3083	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`3`)%`32`, Address, Decoder)))
3084	return MCDisassembler::Fail;
3085	break;
3086	case ARM::VLD4q8:
3087	case ARM::VLD4q16:
3088	case ARM::VLD4q32:
3089	case ARM::VLD4q8_UPD:
3090	case ARM::VLD4q16_UPD:
3091	case ARM::VLD4q32_UPD:
3092	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`6`)%`32`, Address, Decoder)))
3093	return MCDisassembler::Fail;
3094	break;
3095	default:
3096	break;
3097	}
3098
3099	// Writeback operand
3100	switch (Inst.getOpcode()) {
3101	case ARM::VLD1d8wb_fixed:
3102	case ARM::VLD1d16wb_fixed:
3103	case ARM::VLD1d32wb_fixed:
3104	case ARM::VLD1d64wb_fixed:
3105	case ARM::VLD1d8wb_register:
3106	case ARM::VLD1d16wb_register:
3107	case ARM::VLD1d32wb_register:
3108	case ARM::VLD1d64wb_register:
3109	case ARM::VLD1q8wb_fixed:
3110	case ARM::VLD1q16wb_fixed:
3111	case ARM::VLD1q32wb_fixed:
3112	case ARM::VLD1q64wb_fixed:
3113	case ARM::VLD1q8wb_register:
3114	case ARM::VLD1q16wb_register:
3115	case ARM::VLD1q32wb_register:
3116	case ARM::VLD1q64wb_register:
3117	case ARM::VLD1d8Twb_fixed:
3118	case ARM::VLD1d8Twb_register:
3119	case ARM::VLD1d16Twb_fixed:
3120	case ARM::VLD1d16Twb_register:
3121	case ARM::VLD1d32Twb_fixed:
3122	case ARM::VLD1d32Twb_register:
3123	case ARM::VLD1d64Twb_fixed:
3124	case ARM::VLD1d64Twb_register:
3125	case ARM::VLD1d8Qwb_fixed:
3126	case ARM::VLD1d8Qwb_register:
3127	case ARM::VLD1d16Qwb_fixed:
3128	case ARM::VLD1d16Qwb_register:
3129	case ARM::VLD1d32Qwb_fixed:
3130	case ARM::VLD1d32Qwb_register:
3131	case ARM::VLD1d64Qwb_fixed:
3132	case ARM::VLD1d64Qwb_register:
3133	case ARM::VLD2d8wb_fixed:
3134	case ARM::VLD2d16wb_fixed:
3135	case ARM::VLD2d32wb_fixed:
3136	case ARM::VLD2q8wb_fixed:
3137	case ARM::VLD2q16wb_fixed:
3138	case ARM::VLD2q32wb_fixed:
3139	case ARM::VLD2d8wb_register:
3140	case ARM::VLD2d16wb_register:
3141	case ARM::VLD2d32wb_register:
3142	case ARM::VLD2q8wb_register:
3143	case ARM::VLD2q16wb_register:
3144	case ARM::VLD2q32wb_register:
3145	case ARM::VLD2b8wb_fixed:
3146	case ARM::VLD2b16wb_fixed:
3147	case ARM::VLD2b32wb_fixed:
3148	case ARM::VLD2b8wb_register:
3149	case ARM::VLD2b16wb_register:
3150	case ARM::VLD2b32wb_register:
3151	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
3152	break;
3153	case ARM::VLD3d8_UPD:
3154	case ARM::VLD3d16_UPD:
3155	case ARM::VLD3d32_UPD:
3156	case ARM::VLD3q8_UPD:
3157	case ARM::VLD3q16_UPD:
3158	case ARM::VLD3q32_UPD:
3159	case ARM::VLD4d8_UPD:
3160	case ARM::VLD4d16_UPD:
3161	case ARM::VLD4d32_UPD:
3162	case ARM::VLD4q8_UPD:
3163	case ARM::VLD4q16_UPD:
3164	case ARM::VLD4q32_UPD:
3165	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: wb, Address, Decoder)))
3166	return MCDisassembler::Fail;
3167	break;
3168	default:
3169	break;
3170	}
3171
3172	// AddrMode6 Base (register+alignment)
3173	if (!Check(Out&: S, In: DecodeAddrMode6Operand(Inst, Val: Rn, Address, Decoder)))
3174	return MCDisassembler::Fail;
3175
3176	// AddrMode6 Offset (register)
3177	switch (Inst.getOpcode()) {
3178	default:
3179	// The below have been updated to have explicit am6offset split
3180	// between fixed and register offset. For those instructions not
3181	// yet updated, we need to add an additional reg0 operand for the
3182	// fixed variant.
3183	//
3184	// The fixed offset encodes as Rm == 0xd, so we check for that.
3185	if (Rm == `0xd`) {
3186	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
3187	break;
3188	}
3189	// Fall through to handle the register offset variant.
3190	[[fallthrough]];
3191	case ARM::VLD1d8wb_fixed:
3192	case ARM::VLD1d16wb_fixed:
3193	case ARM::VLD1d32wb_fixed:
3194	case ARM::VLD1d64wb_fixed:
3195	case ARM::VLD1d8Twb_fixed:
3196	case ARM::VLD1d16Twb_fixed:
3197	case ARM::VLD1d32Twb_fixed:
3198	case ARM::VLD1d64Twb_fixed:
3199	case ARM::VLD1d8Qwb_fixed:
3200	case ARM::VLD1d16Qwb_fixed:
3201	case ARM::VLD1d32Qwb_fixed:
3202	case ARM::VLD1d64Qwb_fixed:
3203	case ARM::VLD1d8wb_register:
3204	case ARM::VLD1d16wb_register:
3205	case ARM::VLD1d32wb_register:
3206	case ARM::VLD1d64wb_register:
3207	case ARM::VLD1q8wb_fixed:
3208	case ARM::VLD1q16wb_fixed:
3209	case ARM::VLD1q32wb_fixed:
3210	case ARM::VLD1q64wb_fixed:
3211	case ARM::VLD1q8wb_register:
3212	case ARM::VLD1q16wb_register:
3213	case ARM::VLD1q32wb_register:
3214	case ARM::VLD1q64wb_register:
3215	// The fixed offset post-increment encodes Rm == 0xd. The no-writeback
3216	// variant encodes Rm == 0xf. Anything else is a register offset post-
3217	// increment and we need to add the register operand to the instruction.
3218	if (Rm != `0xD` && Rm != `0xF` &&
3219	!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3220	return MCDisassembler::Fail;
3221	break;
3222	case ARM::VLD2d8wb_fixed:
3223	case ARM::VLD2d16wb_fixed:
3224	case ARM::VLD2d32wb_fixed:
3225	case ARM::VLD2b8wb_fixed:
3226	case ARM::VLD2b16wb_fixed:
3227	case ARM::VLD2b32wb_fixed:
3228	case ARM::VLD2q8wb_fixed:
3229	case ARM::VLD2q16wb_fixed:
3230	case ARM::VLD2q32wb_fixed:
3231	break;
3232	}
3233
3234	return S;
3235	}
3236
3237	static DecodeStatus DecodeVLDST1Instruction(MCInst &Inst, unsigned Insn,
3238	uint64_t Address,
3239	const MCDisassembler *Decoder) {
3240	unsigned type = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
3241	unsigned align = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`);
3242	if (type == `6` && (align & `2`)) return MCDisassembler::Fail;
3243	if (type == `7` && (align & `2`)) return MCDisassembler::Fail;
3244	if (type == `10` && align == `3`) return MCDisassembler::Fail;
3245
3246	unsigned load = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
3247	return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3248	: DecodeVSTInstruction(Inst, Val: Insn, Address, Decoder);
3249	}
3250
3251	static DecodeStatus DecodeVLDST2Instruction(MCInst &Inst, unsigned Insn,
3252	uint64_t Address,
3253	const MCDisassembler *Decoder) {
3254	unsigned size = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
3255	if (size == `3`) return MCDisassembler::Fail;
3256
3257	unsigned type = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
3258	unsigned align = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`);
3259	if (type == `8` && align == `3`) return MCDisassembler::Fail;
3260	if (type == `9` && align == `3`) return MCDisassembler::Fail;
3261
3262	unsigned load = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
3263	return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3264	: DecodeVSTInstruction(Inst, Val: Insn, Address, Decoder);
3265	}
3266
3267	static DecodeStatus DecodeVLDST3Instruction(MCInst &Inst, unsigned Insn,
3268	uint64_t Address,
3269	const MCDisassembler *Decoder) {
3270	unsigned size = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
3271	if (size == `3`) return MCDisassembler::Fail;
3272
3273	unsigned align = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`);
3274	if (align & `2`) return MCDisassembler::Fail;
3275
3276	unsigned load = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
3277	return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3278	: DecodeVSTInstruction(Inst, Val: Insn, Address, Decoder);
3279	}
3280
3281	static DecodeStatus DecodeVLDST4Instruction(MCInst &Inst, unsigned Insn,
3282	uint64_t Address,
3283	const MCDisassembler *Decoder) {
3284	unsigned size = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
3285	if (size == `3`) return MCDisassembler::Fail;
3286
3287	unsigned load = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
3288	return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3289	: DecodeVSTInstruction(Inst, Val: Insn, Address, Decoder);
3290	}
3291
3292	static DecodeStatus DecodeVSTInstruction(MCInst &Inst, unsigned Insn,
3293	uint64_t Address,
3294	const MCDisassembler *Decoder) {
3295	DecodeStatus S = MCDisassembler::Success;
3296
3297	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3298	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3299	unsigned wb = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3300	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3301	Rn \|= fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`) << `4`;
3302	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3303
3304	// Writeback Operand
3305	switch (Inst.getOpcode()) {
3306	case ARM::VST1d8wb_fixed:
3307	case ARM::VST1d16wb_fixed:
3308	case ARM::VST1d32wb_fixed:
3309	case ARM::VST1d64wb_fixed:
3310	case ARM::VST1d8wb_register:
3311	case ARM::VST1d16wb_register:
3312	case ARM::VST1d32wb_register:
3313	case ARM::VST1d64wb_register:
3314	case ARM::VST1q8wb_fixed:
3315	case ARM::VST1q16wb_fixed:
3316	case ARM::VST1q32wb_fixed:
3317	case ARM::VST1q64wb_fixed:
3318	case ARM::VST1q8wb_register:
3319	case ARM::VST1q16wb_register:
3320	case ARM::VST1q32wb_register:
3321	case ARM::VST1q64wb_register:
3322	case ARM::VST1d8Twb_fixed:
3323	case ARM::VST1d16Twb_fixed:
3324	case ARM::VST1d32Twb_fixed:
3325	case ARM::VST1d64Twb_fixed:
3326	case ARM::VST1d8Twb_register:
3327	case ARM::VST1d16Twb_register:
3328	case ARM::VST1d32Twb_register:
3329	case ARM::VST1d64Twb_register:
3330	case ARM::VST1d8Qwb_fixed:
3331	case ARM::VST1d16Qwb_fixed:
3332	case ARM::VST1d32Qwb_fixed:
3333	case ARM::VST1d64Qwb_fixed:
3334	case ARM::VST1d8Qwb_register:
3335	case ARM::VST1d16Qwb_register:
3336	case ARM::VST1d32Qwb_register:
3337	case ARM::VST1d64Qwb_register:
3338	case ARM::VST2d8wb_fixed:
3339	case ARM::VST2d16wb_fixed:
3340	case ARM::VST2d32wb_fixed:
3341	case ARM::VST2d8wb_register:
3342	case ARM::VST2d16wb_register:
3343	case ARM::VST2d32wb_register:
3344	case ARM::VST2q8wb_fixed:
3345	case ARM::VST2q16wb_fixed:
3346	case ARM::VST2q32wb_fixed:
3347	case ARM::VST2q8wb_register:
3348	case ARM::VST2q16wb_register:
3349	case ARM::VST2q32wb_register:
3350	case ARM::VST2b8wb_fixed:
3351	case ARM::VST2b16wb_fixed:
3352	case ARM::VST2b32wb_fixed:
3353	case ARM::VST2b8wb_register:
3354	case ARM::VST2b16wb_register:
3355	case ARM::VST2b32wb_register:
3356	if (Rm == `0xF`)
3357	return MCDisassembler::Fail;
3358	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
3359	break;
3360	case ARM::VST3d8_UPD:
3361	case ARM::VST3d16_UPD:
3362	case ARM::VST3d32_UPD:
3363	case ARM::VST3q8_UPD:
3364	case ARM::VST3q16_UPD:
3365	case ARM::VST3q32_UPD:
3366	case ARM::VST4d8_UPD:
3367	case ARM::VST4d16_UPD:
3368	case ARM::VST4d32_UPD:
3369	case ARM::VST4q8_UPD:
3370	case ARM::VST4q16_UPD:
3371	case ARM::VST4q32_UPD:
3372	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: wb, Address, Decoder)))
3373	return MCDisassembler::Fail;
3374	break;
3375	default:
3376	break;
3377	}
3378
3379	// AddrMode6 Base (register+alignment)
3380	if (!Check(Out&: S, In: DecodeAddrMode6Operand(Inst, Val: Rn, Address, Decoder)))
3381	return MCDisassembler::Fail;
3382
3383	// AddrMode6 Offset (register)
3384	switch (Inst.getOpcode()) {
3385	default:
3386	if (Rm == `0xD`)
3387	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
3388	else if (Rm != `0xF`) {
3389	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3390	return MCDisassembler::Fail;
3391	}
3392	break;
3393	case ARM::VST1d8wb_fixed:
3394	case ARM::VST1d16wb_fixed:
3395	case ARM::VST1d32wb_fixed:
3396	case ARM::VST1d64wb_fixed:
3397	case ARM::VST1q8wb_fixed:
3398	case ARM::VST1q16wb_fixed:
3399	case ARM::VST1q32wb_fixed:
3400	case ARM::VST1q64wb_fixed:
3401	case ARM::VST1d8Twb_fixed:
3402	case ARM::VST1d16Twb_fixed:
3403	case ARM::VST1d32Twb_fixed:
3404	case ARM::VST1d64Twb_fixed:
3405	case ARM::VST1d8Qwb_fixed:
3406	case ARM::VST1d16Qwb_fixed:
3407	case ARM::VST1d32Qwb_fixed:
3408	case ARM::VST1d64Qwb_fixed:
3409	case ARM::VST2d8wb_fixed:
3410	case ARM::VST2d16wb_fixed:
3411	case ARM::VST2d32wb_fixed:
3412	case ARM::VST2q8wb_fixed:
3413	case ARM::VST2q16wb_fixed:
3414	case ARM::VST2q32wb_fixed:
3415	case ARM::VST2b8wb_fixed:
3416	case ARM::VST2b16wb_fixed:
3417	case ARM::VST2b32wb_fixed:
3418	break;
3419	}
3420
3421	// First input register
3422	switch (Inst.getOpcode()) {
3423	case ARM::VST1q16:
3424	case ARM::VST1q32:
3425	case ARM::VST1q64:
3426	case ARM::VST1q8:
3427	case ARM::VST1q16wb_fixed:
3428	case ARM::VST1q16wb_register:
3429	case ARM::VST1q32wb_fixed:
3430	case ARM::VST1q32wb_register:
3431	case ARM::VST1q64wb_fixed:
3432	case ARM::VST1q64wb_register:
3433	case ARM::VST1q8wb_fixed:
3434	case ARM::VST1q8wb_register:
3435	case ARM::VST2d16:
3436	case ARM::VST2d32:
3437	case ARM::VST2d8:
3438	case ARM::VST2d16wb_fixed:
3439	case ARM::VST2d16wb_register:
3440	case ARM::VST2d32wb_fixed:
3441	case ARM::VST2d32wb_register:
3442	case ARM::VST2d8wb_fixed:
3443	case ARM::VST2d8wb_register:
3444	if (!Check(Out&: S, In: DecodeDPairRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3445	return MCDisassembler::Fail;
3446	break;
3447	case ARM::VST2b16:
3448	case ARM::VST2b32:
3449	case ARM::VST2b8:
3450	case ARM::VST2b16wb_fixed:
3451	case ARM::VST2b16wb_register:
3452	case ARM::VST2b32wb_fixed:
3453	case ARM::VST2b32wb_register:
3454	case ARM::VST2b8wb_fixed:
3455	case ARM::VST2b8wb_register:
3456	if (!Check(Out&: S, In: DecodeDPairSpacedRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3457	return MCDisassembler::Fail;
3458	break;
3459	default:
3460	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3461	return MCDisassembler::Fail;
3462	}
3463
3464	// Second input register
3465	switch (Inst.getOpcode()) {
3466	case ARM::VST3d8:
3467	case ARM::VST3d16:
3468	case ARM::VST3d32:
3469	case ARM::VST3d8_UPD:
3470	case ARM::VST3d16_UPD:
3471	case ARM::VST3d32_UPD:
3472	case ARM::VST4d8:
3473	case ARM::VST4d16:
3474	case ARM::VST4d32:
3475	case ARM::VST4d8_UPD:
3476	case ARM::VST4d16_UPD:
3477	case ARM::VST4d32_UPD:
3478	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`1`)%`32`, Address, Decoder)))
3479	return MCDisassembler::Fail;
3480	break;
3481	case ARM::VST3q8:
3482	case ARM::VST3q16:
3483	case ARM::VST3q32:
3484	case ARM::VST3q8_UPD:
3485	case ARM::VST3q16_UPD:
3486	case ARM::VST3q32_UPD:
3487	case ARM::VST4q8:
3488	case ARM::VST4q16:
3489	case ARM::VST4q32:
3490	case ARM::VST4q8_UPD:
3491	case ARM::VST4q16_UPD:
3492	case ARM::VST4q32_UPD:
3493	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`2`)%`32`, Address, Decoder)))
3494	return MCDisassembler::Fail;
3495	break;
3496	default:
3497	break;
3498	}
3499
3500	// Third input register
3501	switch (Inst.getOpcode()) {
3502	case ARM::VST3d8:
3503	case ARM::VST3d16:
3504	case ARM::VST3d32:
3505	case ARM::VST3d8_UPD:
3506	case ARM::VST3d16_UPD:
3507	case ARM::VST3d32_UPD:
3508	case ARM::VST4d8:
3509	case ARM::VST4d16:
3510	case ARM::VST4d32:
3511	case ARM::VST4d8_UPD:
3512	case ARM::VST4d16_UPD:
3513	case ARM::VST4d32_UPD:
3514	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`2`)%`32`, Address, Decoder)))
3515	return MCDisassembler::Fail;
3516	break;
3517	case ARM::VST3q8:
3518	case ARM::VST3q16:
3519	case ARM::VST3q32:
3520	case ARM::VST3q8_UPD:
3521	case ARM::VST3q16_UPD:
3522	case ARM::VST3q32_UPD:
3523	case ARM::VST4q8:
3524	case ARM::VST4q16:
3525	case ARM::VST4q32:
3526	case ARM::VST4q8_UPD:
3527	case ARM::VST4q16_UPD:
3528	case ARM::VST4q32_UPD:
3529	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`4`)%`32`, Address, Decoder)))
3530	return MCDisassembler::Fail;
3531	break;
3532	default:
3533	break;
3534	}
3535
3536	// Fourth input register
3537	switch (Inst.getOpcode()) {
3538	case ARM::VST4d8:
3539	case ARM::VST4d16:
3540	case ARM::VST4d32:
3541	case ARM::VST4d8_UPD:
3542	case ARM::VST4d16_UPD:
3543	case ARM::VST4d32_UPD:
3544	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`3`)%`32`, Address, Decoder)))
3545	return MCDisassembler::Fail;
3546	break;
3547	case ARM::VST4q8:
3548	case ARM::VST4q16:
3549	case ARM::VST4q32:
3550	case ARM::VST4q8_UPD:
3551	case ARM::VST4q16_UPD:
3552	case ARM::VST4q32_UPD:
3553	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`6`)%`32`, Address, Decoder)))
3554	return MCDisassembler::Fail;
3555	break;
3556	default:
3557	break;
3558	}
3559
3560	return S;
3561	}
3562
3563	static DecodeStatus DecodeVLD1DupInstruction(MCInst &Inst, unsigned Insn,
3564	uint64_t Address,
3565	const MCDisassembler *Decoder) {
3566	DecodeStatus S = MCDisassembler::Success;
3567
3568	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3569	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3570	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3571	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3572	unsigned align = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`);
3573	unsigned size = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
3574
3575	if (size == `0` && align == `1`)
3576	return MCDisassembler::Fail;
3577	align *= (`1` << size);
3578
3579	switch (Inst.getOpcode()) {
3580	case ARM::VLD1DUPq16: case ARM::VLD1DUPq32: case ARM::VLD1DUPq8:
3581	case ARM::VLD1DUPq16wb_fixed: case ARM::VLD1DUPq16wb_register:
3582	case ARM::VLD1DUPq32wb_fixed: case ARM::VLD1DUPq32wb_register:
3583	case ARM::VLD1DUPq8wb_fixed: case ARM::VLD1DUPq8wb_register:
3584	if (!Check(Out&: S, In: DecodeDPairRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3585	return MCDisassembler::Fail;
3586	break;
3587	default:
3588	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3589	return MCDisassembler::Fail;
3590	break;
3591	}
3592	if (Rm != `0xF`) {
3593	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3594	return MCDisassembler::Fail;
3595	}
3596
3597	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3598	return MCDisassembler::Fail;
3599	Inst.addOperand(Op: MCOperand::createImm(Val: align));
3600
3601	// The fixed offset post-increment encodes Rm == 0xd. The no-writeback
3602	// variant encodes Rm == 0xf. Anything else is a register offset post-
3603	// increment and we need to add the register operand to the instruction.
3604	if (Rm != `0xD` && Rm != `0xF` &&
3605	!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3606	return MCDisassembler::Fail;
3607
3608	return S;
3609	}
3610
3611	static DecodeStatus DecodeVLD2DupInstruction(MCInst &Inst, unsigned Insn,
3612	uint64_t Address,
3613	const MCDisassembler *Decoder) {
3614	DecodeStatus S = MCDisassembler::Success;
3615
3616	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3617	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3618	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3619	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3620	unsigned align = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`);
3621	unsigned size = `1` << fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
3622	align = `2`size;
3623
3624	switch (Inst.getOpcode()) {
3625	case ARM::VLD2DUPd16: case ARM::VLD2DUPd32: case ARM::VLD2DUPd8:
3626	case ARM::VLD2DUPd16wb_fixed: case ARM::VLD2DUPd16wb_register:
3627	case ARM::VLD2DUPd32wb_fixed: case ARM::VLD2DUPd32wb_register:
3628	case ARM::VLD2DUPd8wb_fixed: case ARM::VLD2DUPd8wb_register:
3629	if (!Check(Out&: S, In: DecodeDPairRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3630	return MCDisassembler::Fail;
3631	break;
3632	case ARM::VLD2DUPd16x2: case ARM::VLD2DUPd32x2: case ARM::VLD2DUPd8x2:
3633	case ARM::VLD2DUPd16x2wb_fixed: case ARM::VLD2DUPd16x2wb_register:
3634	case ARM::VLD2DUPd32x2wb_fixed: case ARM::VLD2DUPd32x2wb_register:
3635	case ARM::VLD2DUPd8x2wb_fixed: case ARM::VLD2DUPd8x2wb_register:
3636	if (!Check(Out&: S, In: DecodeDPairSpacedRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3637	return MCDisassembler::Fail;
3638	break;
3639	default:
3640	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3641	return MCDisassembler::Fail;
3642	break;
3643	}
3644
3645	if (Rm != `0xF`)
3646	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
3647
3648	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3649	return MCDisassembler::Fail;
3650	Inst.addOperand(Op: MCOperand::createImm(Val: align));
3651
3652	if (Rm != `0xD` && Rm != `0xF`) {
3653	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3654	return MCDisassembler::Fail;
3655	}
3656
3657	return S;
3658	}
3659
3660	static DecodeStatus DecodeVLD3DupInstruction(MCInst &Inst, unsigned Insn,
3661	uint64_t Address,
3662	const MCDisassembler *Decoder) {
3663	DecodeStatus S = MCDisassembler::Success;
3664
3665	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3666	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3667	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3668	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3669	unsigned inc = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) + `1`;
3670
3671	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3672	return MCDisassembler::Fail;
3673	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+inc)%`32`, Address, Decoder)))
3674	return MCDisassembler::Fail;
3675	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`2`*inc)%`32`, Address, Decoder)))
3676	return MCDisassembler::Fail;
3677	if (Rm != `0xF`) {
3678	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3679	return MCDisassembler::Fail;
3680	}
3681
3682	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3683	return MCDisassembler::Fail;
3684	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
3685
3686	if (Rm == `0xD`)
3687	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
3688	else if (Rm != `0xF`) {
3689	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3690	return MCDisassembler::Fail;
3691	}
3692
3693	return S;
3694	}
3695
3696	static DecodeStatus DecodeVLD4DupInstruction(MCInst &Inst, unsigned Insn,
3697	uint64_t Address,
3698	const MCDisassembler *Decoder) {
3699	DecodeStatus S = MCDisassembler::Success;
3700
3701	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3702	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3703	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3704	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3705	unsigned size = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
3706	unsigned inc = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) + `1`;
3707	unsigned align = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`);
3708
3709	if (size == `0x3`) {
3710	if (align == `0`)
3711	return MCDisassembler::Fail;
3712	align = `16`;
3713	} else {
3714	if (size == `2`) {
3715	align *= `8`;
3716	} else {
3717	size = `1` << size;
3718	align = `4`size;
3719	}
3720	}
3721
3722	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3723	return MCDisassembler::Fail;
3724	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+inc)%`32`, Address, Decoder)))
3725	return MCDisassembler::Fail;
3726	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`2`*inc)%`32`, Address, Decoder)))
3727	return MCDisassembler::Fail;
3728	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: (Rd+`3`*inc)%`32`, Address, Decoder)))
3729	return MCDisassembler::Fail;
3730	if (Rm != `0xF`) {
3731	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3732	return MCDisassembler::Fail;
3733	}
3734
3735	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3736	return MCDisassembler::Fail;
3737	Inst.addOperand(Op: MCOperand::createImm(Val: align));
3738
3739	if (Rm == `0xD`)
3740	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
3741	else if (Rm != `0xF`) {
3742	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3743	return MCDisassembler::Fail;
3744	}
3745
3746	return S;
3747	}
3748
3749	static DecodeStatus DecodeVMOVModImmInstruction(MCInst &Inst, unsigned Insn,
3750	uint64_t Address,
3751	const MCDisassembler *Decoder) {
3752	DecodeStatus S = MCDisassembler::Success;
3753
3754	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3755	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3756	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3757	imm \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `3`) << `4`;
3758	imm \|= fieldFromInstruction(insn: Insn, startBit: `24`, numBits: `1`) << `7`;
3759	imm \|= fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`) << `8`;
3760	imm \|= fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `12`;
3761	unsigned Q = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`);
3762
3763	if (Q) {
3764	if (!Check(Out&: S, In: DecodeQPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3765	return MCDisassembler::Fail;
3766	} else {
3767	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3768	return MCDisassembler::Fail;
3769	}
3770
3771	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
3772
3773	switch (Inst.getOpcode()) {
3774	case ARM::VORRiv4i16:
3775	case ARM::VORRiv2i32:
3776	case ARM::VBICiv4i16:
3777	case ARM::VBICiv2i32:
3778	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3779	return MCDisassembler::Fail;
3780	break;
3781	case ARM::VORRiv8i16:
3782	case ARM::VORRiv4i32:
3783	case ARM::VBICiv8i16:
3784	case ARM::VBICiv4i32:
3785	if (!Check(Out&: S, In: DecodeQPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3786	return MCDisassembler::Fail;
3787	break;
3788	default:
3789	break;
3790	}
3791
3792	return S;
3793	}
3794
3795	static DecodeStatus DecodeMVEModImmInstruction(MCInst &Inst, unsigned Insn,
3796	uint64_t Address,
3797	const MCDisassembler *Decoder) {
3798	DecodeStatus S = MCDisassembler::Success;
3799
3800	unsigned Qd = ((fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `3`) \|
3801	fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `3`));
3802	unsigned cmode = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
3803	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3804	imm \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `3`) << `4`;
3805	imm \|= fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `1`) << `7`;
3806	imm \|= cmode << `8`;
3807	imm \|= fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `12`;
3808
3809	if (cmode == `0xF` && Inst.getOpcode() == ARM::MVE_VMVNimmi32)
3810	return MCDisassembler::Fail;
3811
3812	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
3813	return MCDisassembler::Fail;
3814
3815	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
3816
3817	Inst.addOperand(Op: MCOperand::createImm(Val: ARMVCC::None));
3818	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
3819	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
3820
3821	return S;
3822	}
3823
3824	static DecodeStatus DecodeMVEVADCInstruction(MCInst &Inst, unsigned Insn,
3825	uint64_t Address,
3826	const MCDisassembler *Decoder) {
3827	DecodeStatus S = MCDisassembler::Success;
3828
3829	unsigned Qd = fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `3`);
3830	Qd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `3`;
3831	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
3832	return MCDisassembler::Fail;
3833	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::FPSCR_NZCV));
3834
3835	unsigned Qn = fieldFromInstruction(insn: Insn, startBit: `17`, numBits: `3`);
3836	Qn \|= fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`) << `3`;
3837	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qn, Address, Decoder)))
3838	return MCDisassembler::Fail;
3839	unsigned Qm = fieldFromInstruction(insn: Insn, startBit: `1`, numBits: `3`);
3840	Qm \|= fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `3`;
3841	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qm, Address, Decoder)))
3842	return MCDisassembler::Fail;
3843	if (!fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `1`)) // I bit clear => need input FPSCR
3844	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::FPSCR_NZCV));
3845	Inst.addOperand(Op: MCOperand::createImm(Val: Qd));
3846
3847	return S;
3848	}
3849
3850	static DecodeStatus DecodeVSHLMaxInstruction(MCInst &Inst, unsigned Insn,
3851	uint64_t Address,
3852	const MCDisassembler *Decoder) {
3853	DecodeStatus S = MCDisassembler::Success;
3854
3855	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3856	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3857	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3858	Rm \|= fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `4`;
3859	unsigned size = fieldFromInstruction(insn: Insn, startBit: `18`, numBits: `2`);
3860
3861	if (!Check(Out&: S, In: DecodeQPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3862	return MCDisassembler::Fail;
3863	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3864	return MCDisassembler::Fail;
3865	Inst.addOperand(Op: MCOperand::createImm(Val: `8` << size));
3866
3867	return S;
3868	}
3869
3870	static DecodeStatus DecodeShiftRight8Imm(MCInst &Inst, unsigned Val,
3871	uint64_t Address,
3872	const MCDisassembler *Decoder) {
3873	Inst.addOperand(Op: MCOperand::createImm(Val: `8` - Val));
3874	return MCDisassembler::Success;
3875	}
3876
3877	static DecodeStatus DecodeShiftRight16Imm(MCInst &Inst, unsigned Val,
3878	uint64_t Address,
3879	const MCDisassembler *Decoder) {
3880	Inst.addOperand(Op: MCOperand::createImm(Val: `16` - Val));
3881	return MCDisassembler::Success;
3882	}
3883
3884	static DecodeStatus DecodeShiftRight32Imm(MCInst &Inst, unsigned Val,
3885	uint64_t Address,
3886	const MCDisassembler *Decoder) {
3887	Inst.addOperand(Op: MCOperand::createImm(Val: `32` - Val));
3888	return MCDisassembler::Success;
3889	}
3890
3891	static DecodeStatus DecodeShiftRight64Imm(MCInst &Inst, unsigned Val,
3892	uint64_t Address,
3893	const MCDisassembler *Decoder) {
3894	Inst.addOperand(Op: MCOperand::createImm(Val: `64` - Val));
3895	return MCDisassembler::Success;
3896	}
3897
3898	static DecodeStatus DecodeTBLInstruction(MCInst &Inst, unsigned Insn,
3899	uint64_t Address,
3900	const MCDisassembler *Decoder) {
3901	DecodeStatus S = MCDisassembler::Success;
3902
3903	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
3904	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
3905	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
3906	Rn \|= fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`) << `4`;
3907	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
3908	Rm \|= fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `4`;
3909	unsigned op = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`);
3910
3911	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3912	return MCDisassembler::Fail;
3913	if (op) {
3914	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
3915	return MCDisassembler::Fail; // Writeback
3916	}
3917
3918	switch (Inst.getOpcode()) {
3919	case ARM::VTBL2:
3920	case ARM::VTBX2:
3921	if (!Check(Out&: S, In: DecodeDPairRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3922	return MCDisassembler::Fail;
3923	break;
3924	default:
3925	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3926	return MCDisassembler::Fail;
3927	}
3928
3929	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3930	return MCDisassembler::Fail;
3931
3932	return S;
3933	}
3934
3935	static DecodeStatus DecodeThumbAddSpecialReg(MCInst &Inst, uint16_t Insn,
3936	uint64_t Address,
3937	const MCDisassembler *Decoder) {
3938	DecodeStatus S = MCDisassembler::Success;
3939
3940	unsigned dst = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `3`);
3941	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
3942
3943	if (!Check(Out&: S, In: DecodetGPRRegisterClass(Inst, RegNo: dst, Address, Decoder)))
3944	return MCDisassembler::Fail;
3945
3946	switch(Inst.getOpcode()) {
3947	default:
3948	return MCDisassembler::Fail;
3949	case ARM::tADR:
3950	break; // tADR does not explicitly represent the PC as an operand.
3951	case ARM::tADDrSPi:
3952	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
3953	break;
3954	}
3955
3956	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
3957	return S;
3958	}
3959
3960	static DecodeStatus DecodeThumbBROperand(MCInst &Inst, unsigned Val,
3961	uint64_t Address,
3962	const MCDisassembler *Decoder) {
3963	if (!tryAddingSymbolicOperand(Address, Value: Address + SignExtend32<`12`>(X: Val<<`1`) + `4`,
3964	isBranch: true, InstSize: `2`, MI&: Inst, Decoder))
3965	Inst.addOperand(Op: MCOperand::createImm(Val: SignExtend32<`12`>(X: Val << `1`)));
3966	return MCDisassembler::Success;
3967	}
3968
3969	static DecodeStatus DecodeT2BROperand(MCInst &Inst, unsigned Val,
3970	uint64_t Address,
3971	const MCDisassembler *Decoder) {
3972	if (!tryAddingSymbolicOperand(Address, Value: Address + SignExtend32<`21`>(X: Val) + `4`,
3973	isBranch: true, InstSize: `4`, MI&: Inst, Decoder))
3974	Inst.addOperand(Op: MCOperand::createImm(Val: SignExtend32<`21`>(X: Val)));
3975	return MCDisassembler::Success;
3976	}
3977
3978	static DecodeStatus DecodeThumbCmpBROperand(MCInst &Inst, unsigned Val,
3979	uint64_t Address,
3980	const MCDisassembler *Decoder) {
3981	if (!tryAddingSymbolicOperand(Address, Value: Address + (Val<<`1`) + `4`,
3982	isBranch: true, InstSize: `2`, MI&: Inst, Decoder))
3983	Inst.addOperand(Op: MCOperand::createImm(Val: Val << `1`));
3984	return MCDisassembler::Success;
3985	}
3986
3987	static DecodeStatus DecodeThumbAddrModeRR(MCInst &Inst, unsigned Val,
3988	uint64_t Address,
3989	const MCDisassembler *Decoder) {
3990	DecodeStatus S = MCDisassembler::Success;
3991
3992	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `3`);
3993	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `3`, numBits: `3`);
3994
3995	if (!Check(Out&: S, In: DecodetGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
3996	return MCDisassembler::Fail;
3997	if (!Check(Out&: S, In: DecodetGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
3998	return MCDisassembler::Fail;
3999
4000	return S;
4001	}
4002
4003	static DecodeStatus DecodeThumbAddrModeIS(MCInst &Inst, unsigned Val,
4004	uint64_t Address,
4005	const MCDisassembler *Decoder) {
4006	DecodeStatus S = MCDisassembler::Success;
4007
4008	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `3`);
4009	unsigned imm = fieldFromInstruction(insn: Val, startBit: `3`, numBits: `5`);
4010
4011	if (!Check(Out&: S, In: DecodetGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4012	return MCDisassembler::Fail;
4013	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4014
4015	return S;
4016	}
4017
4018	static DecodeStatus DecodeThumbAddrModePC(MCInst &Inst, unsigned Val,
4019	uint64_t Address,
4020	const MCDisassembler *Decoder) {
4021	unsigned imm = Val << `2`;
4022
4023	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4024	tryAddingPcLoadReferenceComment(Address, Value: (Address & ~`2u`) + imm + `4`, Decoder);
4025
4026	return MCDisassembler::Success;
4027	}
4028
4029	static DecodeStatus DecodeThumbAddrModeSP(MCInst &Inst, unsigned Val,
4030	uint64_t Address,
4031	const MCDisassembler *Decoder) {
4032	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
4033	Inst.addOperand(Op: MCOperand::createImm(Val));
4034
4035	return MCDisassembler::Success;
4036	}
4037
4038	static DecodeStatus DecodeT2AddrModeSOReg(MCInst &Inst, unsigned Val,
4039	uint64_t Address,
4040	const MCDisassembler *Decoder) {
4041	DecodeStatus S = MCDisassembler::Success;
4042
4043	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `6`, numBits: `4`);
4044	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `2`, numBits: `4`);
4045	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `2`);
4046
4047	// Thumb stores cannot use PC as dest register.
4048	switch (Inst.getOpcode()) {
4049	case ARM::t2STRHs:
4050	case ARM::t2STRBs:
4051	case ARM::t2STRs:
4052	if (Rn == `15`)
4053	return MCDisassembler::Fail;
4054	break;
4055	default:
4056	break;
4057	}
4058
4059	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4060	return MCDisassembler::Fail;
4061	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
4062	return MCDisassembler::Fail;
4063	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4064
4065	return S;
4066	}
4067
4068	static DecodeStatus DecodeT2LoadShift(MCInst &Inst, unsigned Insn,
4069	uint64_t Address,
4070	const MCDisassembler *Decoder) {
4071	DecodeStatus S = MCDisassembler::Success;
4072
4073	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
4074	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
4075
4076	const FeatureBitset &featureBits =
4077	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4078
4079	bool hasMP = featureBits [ARM::FeatureMP];
4080	bool hasV7Ops = featureBits [ARM::HasV7Ops];
4081
4082	if (Rn == `15`) {
4083	switch (Inst.getOpcode()) {
4084	case ARM::t2LDRBs:
4085	Inst.setOpcode(ARM::t2LDRBpci);
4086	break;
4087	case ARM::t2LDRHs:
4088	Inst.setOpcode(ARM::t2LDRHpci);
4089	break;
4090	case ARM::t2LDRSHs:
4091	Inst.setOpcode(ARM::t2LDRSHpci);
4092	break;
4093	case ARM::t2LDRSBs:
4094	Inst.setOpcode(ARM::t2LDRSBpci);
4095	break;
4096	case ARM::t2LDRs:
4097	Inst.setOpcode(ARM::t2LDRpci);
4098	break;
4099	case ARM::t2PLDs:
4100	Inst.setOpcode(ARM::t2PLDpci);
4101	break;
4102	case ARM::t2PLIs:
4103	Inst.setOpcode(ARM::t2PLIpci);
4104	break;
4105	default:
4106	return MCDisassembler::Fail;
4107	}
4108
4109	return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4110	}
4111
4112	if (Rt == `15`) {
4113	switch (Inst.getOpcode()) {
4114	case ARM::t2LDRSHs:
4115	return MCDisassembler::Fail;
4116	case ARM::t2LDRHs:
4117	Inst.setOpcode(ARM::t2PLDWs);
4118	break;
4119	case ARM::t2LDRSBs:
4120	Inst.setOpcode(ARM::t2PLIs);
4121	break;
4122	default:
4123	break;
4124	}
4125	}
4126
4127	switch (Inst.getOpcode()) {
4128	case ARM::t2PLDs:
4129	break;
4130	case ARM::t2PLIs:
4131	if (!hasV7Ops)
4132	return MCDisassembler::Fail;
4133	break;
4134	case ARM::t2PLDWs:
4135	if (!hasV7Ops \|\| !hasMP)
4136	return MCDisassembler::Fail;
4137	break;
4138	default:
4139	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
4140	return MCDisassembler::Fail;
4141	}
4142
4143	unsigned addrmode = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`);
4144	addrmode \|= fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`) << `2`;
4145	addrmode \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `6`;
4146	if (!Check(Out&: S, In: DecodeT2AddrModeSOReg(Inst, Val: addrmode, Address, Decoder)))
4147	return MCDisassembler::Fail;
4148
4149	return S;
4150	}
4151
4152	static DecodeStatus DecodeT2LoadImm8(MCInst &Inst, unsigned Insn,
4153	uint64_t Address,
4154	const MCDisassembler *Decoder) {
4155	DecodeStatus S = MCDisassembler::Success;
4156
4157	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
4158	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
4159	unsigned U = fieldFromInstruction(insn: Insn, startBit: `9`, numBits: `1`);
4160	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
4161	imm \|= (U << `8`);
4162	imm \|= (Rn << `9`);
4163	unsigned add = fieldFromInstruction(insn: Insn, startBit: `9`, numBits: `1`);
4164
4165	const FeatureBitset &featureBits =
4166	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4167
4168	bool hasMP = featureBits [ARM::FeatureMP];
4169	bool hasV7Ops = featureBits [ARM::HasV7Ops];
4170
4171	if (Rn == `15`) {
4172	switch (Inst.getOpcode()) {
4173	case ARM::t2LDRi8:
4174	Inst.setOpcode(ARM::t2LDRpci);
4175	break;
4176	case ARM::t2LDRBi8:
4177	Inst.setOpcode(ARM::t2LDRBpci);
4178	break;
4179	case ARM::t2LDRSBi8:
4180	Inst.setOpcode(ARM::t2LDRSBpci);
4181	break;
4182	case ARM::t2LDRHi8:
4183	Inst.setOpcode(ARM::t2LDRHpci);
4184	break;
4185	case ARM::t2LDRSHi8:
4186	Inst.setOpcode(ARM::t2LDRSHpci);
4187	break;
4188	case ARM::t2PLDi8:
4189	Inst.setOpcode(ARM::t2PLDpci);
4190	break;
4191	case ARM::t2PLIi8:
4192	Inst.setOpcode(ARM::t2PLIpci);
4193	break;
4194	default:
4195	return MCDisassembler::Fail;
4196	}
4197	return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4198	}
4199
4200	if (Rt == `15`) {
4201	switch (Inst.getOpcode()) {
4202	case ARM::t2LDRSHi8:
4203	return MCDisassembler::Fail;
4204	case ARM::t2LDRHi8:
4205	if (!add)
4206	Inst.setOpcode(ARM::t2PLDWi8);
4207	break;
4208	case ARM::t2LDRSBi8:
4209	Inst.setOpcode(ARM::t2PLIi8);
4210	break;
4211	default:
4212	break;
4213	}
4214	}
4215
4216	switch (Inst.getOpcode()) {
4217	case ARM::t2PLDi8:
4218	break;
4219	case ARM::t2PLIi8:
4220	if (!hasV7Ops)
4221	return MCDisassembler::Fail;
4222	break;
4223	case ARM::t2PLDWi8:
4224	if (!hasV7Ops \|\| !hasMP)
4225	return MCDisassembler::Fail;
4226	break;
4227	default:
4228	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
4229	return MCDisassembler::Fail;
4230	}
4231
4232	if (!Check(Out&: S, In: DecodeT2AddrModeImm8(Inst, Val: imm, Address, Decoder)))
4233	return MCDisassembler::Fail;
4234	return S;
4235	}
4236
4237	static DecodeStatus DecodeT2LoadImm12(MCInst &Inst, unsigned Insn,
4238	uint64_t Address,
4239	const MCDisassembler *Decoder) {
4240	DecodeStatus S = MCDisassembler::Success;
4241
4242	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
4243	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
4244	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
4245	imm \|= (Rn << `13`);
4246
4247	const FeatureBitset &featureBits =
4248	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4249
4250	bool hasMP = featureBits [ARM::FeatureMP];
4251	bool hasV7Ops = featureBits [ARM::HasV7Ops];
4252
4253	if (Rn == `15`) {
4254	switch (Inst.getOpcode()) {
4255	case ARM::t2LDRi12:
4256	Inst.setOpcode(ARM::t2LDRpci);
4257	break;
4258	case ARM::t2LDRHi12:
4259	Inst.setOpcode(ARM::t2LDRHpci);
4260	break;
4261	case ARM::t2LDRSHi12:
4262	Inst.setOpcode(ARM::t2LDRSHpci);
4263	break;
4264	case ARM::t2LDRBi12:
4265	Inst.setOpcode(ARM::t2LDRBpci);
4266	break;
4267	case ARM::t2LDRSBi12:
4268	Inst.setOpcode(ARM::t2LDRSBpci);
4269	break;
4270	case ARM::t2PLDi12:
4271	Inst.setOpcode(ARM::t2PLDpci);
4272	break;
4273	case ARM::t2PLIi12:
4274	Inst.setOpcode(ARM::t2PLIpci);
4275	break;
4276	default:
4277	return MCDisassembler::Fail;
4278	}
4279	return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4280	}
4281
4282	if (Rt == `15`) {
4283	switch (Inst.getOpcode()) {
4284	case ARM::t2LDRSHi12:
4285	return MCDisassembler::Fail;
4286	case ARM::t2LDRHi12:
4287	Inst.setOpcode(ARM::t2PLDWi12);
4288	break;
4289	case ARM::t2LDRSBi12:
4290	Inst.setOpcode(ARM::t2PLIi12);
4291	break;
4292	default:
4293	break;
4294	}
4295	}
4296
4297	switch (Inst.getOpcode()) {
4298	case ARM::t2PLDi12:
4299	break;
4300	case ARM::t2PLIi12:
4301	if (!hasV7Ops)
4302	return MCDisassembler::Fail;
4303	break;
4304	case ARM::t2PLDWi12:
4305	if (!hasV7Ops \|\| !hasMP)
4306	return MCDisassembler::Fail;
4307	break;
4308	default:
4309	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
4310	return MCDisassembler::Fail;
4311	}
4312
4313	if (!Check(Out&: S, In: DecodeT2AddrModeImm12(Inst, Val: imm, Address, Decoder)))
4314	return MCDisassembler::Fail;
4315	return S;
4316	}
4317
4318	static DecodeStatus DecodeT2LoadT(MCInst &Inst, unsigned Insn, uint64_t Address,
4319	const MCDisassembler *Decoder) {
4320	DecodeStatus S = MCDisassembler::Success;
4321
4322	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
4323	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
4324	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
4325	imm \|= (Rn << `9`);
4326
4327	if (Rn == `15`) {
4328	switch (Inst.getOpcode()) {
4329	case ARM::t2LDRT:
4330	Inst.setOpcode(ARM::t2LDRpci);
4331	break;
4332	case ARM::t2LDRBT:
4333	Inst.setOpcode(ARM::t2LDRBpci);
4334	break;
4335	case ARM::t2LDRHT:
4336	Inst.setOpcode(ARM::t2LDRHpci);
4337	break;
4338	case ARM::t2LDRSBT:
4339	Inst.setOpcode(ARM::t2LDRSBpci);
4340	break;
4341	case ARM::t2LDRSHT:
4342	Inst.setOpcode(ARM::t2LDRSHpci);
4343	break;
4344	default:
4345	return MCDisassembler::Fail;
4346	}
4347	return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4348	}
4349
4350	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
4351	return MCDisassembler::Fail;
4352	if (!Check(Out&: S, In: DecodeT2AddrModeImm8(Inst, Val: imm, Address, Decoder)))
4353	return MCDisassembler::Fail;
4354	return S;
4355	}
4356
4357	static DecodeStatus DecodeT2LoadLabel(MCInst &Inst, unsigned Insn,
4358	uint64_t Address,
4359	const MCDisassembler *Decoder) {
4360	DecodeStatus S = MCDisassembler::Success;
4361
4362	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
4363	unsigned U = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`);
4364	int imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
4365
4366	const FeatureBitset &featureBits =
4367	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4368
4369	bool hasV7Ops = featureBits [ARM::HasV7Ops];
4370
4371	if (Rt == `15`) {
4372	switch (Inst.getOpcode()) {
4373	case ARM::t2LDRBpci:
4374	case ARM::t2LDRHpci:
4375	Inst.setOpcode(ARM::t2PLDpci);
4376	break;
4377	case ARM::t2LDRSBpci:
4378	Inst.setOpcode(ARM::t2PLIpci);
4379	break;
4380	case ARM::t2LDRSHpci:
4381	return MCDisassembler::Fail;
4382	default:
4383	break;
4384	}
4385	}
4386
4387	switch(Inst.getOpcode()) {
4388	case ARM::t2PLDpci:
4389	break;
4390	case ARM::t2PLIpci:
4391	if (!hasV7Ops)
4392	return MCDisassembler::Fail;
4393	break;
4394	default:
4395	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
4396	return MCDisassembler::Fail;
4397	}
4398
4399	if (!U) {
4400	// Special case for #-0.
4401	if (imm == `0`)
4402	imm = INT32_MIN;
4403	else
4404	imm = -imm;
4405	}
4406	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4407
4408	return S;
4409	}
4410
4411	static DecodeStatus DecodeT2Imm8S4(MCInst &Inst, unsigned Val, uint64_t Address,
4412	const MCDisassembler *Decoder) {
4413	if (Val == `0`)
4414	Inst.addOperand(Op: MCOperand::createImm(INT32_MIN));
4415	else {
4416	int imm = Val & `0xFF`;
4417
4418	if (!(Val & `0x100`)) imm *= -`1`;
4419	Inst.addOperand(Op: MCOperand::createImm(Val: imm * `4`));
4420	}
4421
4422	return MCDisassembler::Success;
4423	}
4424
4425	static DecodeStatus DecodeT2Imm7S4(MCInst &Inst, unsigned Val, uint64_t Address,
4426	const MCDisassembler *Decoder) {
4427	if (Val == `0`)
4428	Inst.addOperand(Op: MCOperand::createImm(INT32_MIN));
4429	else {
4430	int imm = Val & `0x7F`;
4431
4432	if (!(Val & `0x80`))
4433	imm *= -`1`;
4434	Inst.addOperand(Op: MCOperand::createImm(Val: imm * `4`));
4435	}
4436
4437	return MCDisassembler::Success;
4438	}
4439
4440	static DecodeStatus DecodeT2AddrModeImm8s4(MCInst &Inst, unsigned Val,
4441	uint64_t Address,
4442	const MCDisassembler *Decoder) {
4443	DecodeStatus S = MCDisassembler::Success;
4444
4445	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `9`, numBits: `4`);
4446	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `9`);
4447
4448	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4449	return MCDisassembler::Fail;
4450	if (!Check(Out&: S, In: DecodeT2Imm8S4(Inst, Val: imm, Address, Decoder)))
4451	return MCDisassembler::Fail;
4452
4453	return S;
4454	}
4455
4456	static DecodeStatus DecodeT2AddrModeImm7s4(MCInst &Inst, unsigned Val,
4457	uint64_t Address,
4458	const MCDisassembler *Decoder) {
4459	DecodeStatus S = MCDisassembler::Success;
4460
4461	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `4`);
4462	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
4463
4464	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4465	return MCDisassembler::Fail;
4466	if (!Check(Out&: S, In: DecodeT2Imm7S4(Inst, Val: imm, Address, Decoder)))
4467	return MCDisassembler::Fail;
4468
4469	return S;
4470	}
4471
4472	static DecodeStatus DecodeT2AddrModeImm0_1020s4(MCInst &Inst, unsigned Val,
4473	uint64_t Address,
4474	const MCDisassembler *Decoder) {
4475	DecodeStatus S = MCDisassembler::Success;
4476
4477	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `4`);
4478	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
4479
4480	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4481	return MCDisassembler::Fail;
4482
4483	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4484
4485	return S;
4486	}
4487
4488	static DecodeStatus DecodeT2Imm8(MCInst &Inst, unsigned Val, uint64_t Address,
4489	const MCDisassembler *Decoder) {
4490	int imm = Val & `0xFF`;
4491	if (Val == `0`)
4492	imm = INT32_MIN;
4493	else if (!(Val & `0x100`))
4494	imm *= -`1`;
4495	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4496
4497	return MCDisassembler::Success;
4498	}
4499
4500	template <int shift>
4501	static DecodeStatus DecodeT2Imm7(MCInst &Inst, unsigned Val, uint64_t Address,
4502	const MCDisassembler *Decoder) {
4503	int imm = Val & `0x7F`;
4504	if (Val == `0`)
4505	imm = INT32_MIN;
4506	else if (!(Val & `0x80`))
4507	imm *= -`1`;
4508	if (imm != INT32_MIN)
4509	imm *= (`1U` << shift);
4510	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4511
4512	return MCDisassembler::Success;
4513	}
4514
4515	static DecodeStatus DecodeT2AddrModeImm8(MCInst &Inst, unsigned Val,
4516	uint64_t Address,
4517	const MCDisassembler *Decoder) {
4518	DecodeStatus S = MCDisassembler::Success;
4519
4520	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `9`, numBits: `4`);
4521	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `9`);
4522
4523	// Thumb stores cannot use PC as dest register.
4524	switch (Inst.getOpcode()) {
4525	case ARM::t2STRT:
4526	case ARM::t2STRBT:
4527	case ARM::t2STRHT:
4528	case ARM::t2STRi8:
4529	case ARM::t2STRHi8:
4530	case ARM::t2STRBi8:
4531	if (Rn == `15`)
4532	return MCDisassembler::Fail;
4533	break;
4534	default:
4535	break;
4536	}
4537
4538	// Some instructions always use an additive offset.
4539	switch (Inst.getOpcode()) {
4540	case ARM::t2LDRT:
4541	case ARM::t2LDRBT:
4542	case ARM::t2LDRHT:
4543	case ARM::t2LDRSBT:
4544	case ARM::t2LDRSHT:
4545	case ARM::t2STRT:
4546	case ARM::t2STRBT:
4547	case ARM::t2STRHT:
4548	imm \|= `0x100`;
4549	break;
4550	default:
4551	break;
4552	}
4553
4554	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4555	return MCDisassembler::Fail;
4556	if (!Check(Out&: S, In: DecodeT2Imm8(Inst, Val: imm, Address, Decoder)))
4557	return MCDisassembler::Fail;
4558
4559	return S;
4560	}
4561
4562	template <int shift>
4563	static DecodeStatus DecodeTAddrModeImm7(MCInst &Inst, unsigned Val,
4564	uint64_t Address,
4565	const MCDisassembler *Decoder) {
4566	DecodeStatus S = MCDisassembler::Success;
4567
4568	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `3`);
4569	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
4570
4571	if (!Check(Out&: S, In: DecodetGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4572	return MCDisassembler::Fail;
4573	if (!Check(S, DecodeT2Imm7<shift>(Inst, imm, Address, Decoder)))
4574	return MCDisassembler::Fail;
4575
4576	return S;
4577	}
4578
4579	template <int shift, int WriteBack>
4580	static DecodeStatus DecodeT2AddrModeImm7(MCInst &Inst, unsigned Val,
4581	uint64_t Address,
4582	const MCDisassembler *Decoder) {
4583	DecodeStatus S = MCDisassembler::Success;
4584
4585	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `4`);
4586	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
4587	if (WriteBack) {
4588	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4589	return MCDisassembler::Fail;
4590	} else if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4591	return MCDisassembler::Fail;
4592	if (!Check(S, DecodeT2Imm7<shift>(Inst, imm, Address, Decoder)))
4593	return MCDisassembler::Fail;
4594
4595	return S;
4596	}
4597
4598	static DecodeStatus DecodeT2LdStPre(MCInst &Inst, unsigned Insn,
4599	uint64_t Address,
4600	const MCDisassembler *Decoder) {
4601	DecodeStatus S = MCDisassembler::Success;
4602
4603	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
4604	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
4605	unsigned addr = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
4606	addr \|= fieldFromInstruction(insn: Insn, startBit: `9`, numBits: `1`) << `8`;
4607	addr \|= Rn << `9`;
4608	unsigned load = fieldFromInstruction(insn: Insn, startBit: `20`, numBits: `1`);
4609
4610	if (Rn == `15`) {
4611	switch (Inst.getOpcode()) {
4612	case ARM::t2LDR_PRE:
4613	case ARM::t2LDR_POST:
4614	Inst.setOpcode(ARM::t2LDRpci);
4615	break;
4616	case ARM::t2LDRB_PRE:
4617	case ARM::t2LDRB_POST:
4618	Inst.setOpcode(ARM::t2LDRBpci);
4619	break;
4620	case ARM::t2LDRH_PRE:
4621	case ARM::t2LDRH_POST:
4622	Inst.setOpcode(ARM::t2LDRHpci);
4623	break;
4624	case ARM::t2LDRSB_PRE:
4625	case ARM::t2LDRSB_POST:
4626	if (Rt == `15`)
4627	Inst.setOpcode(ARM::t2PLIpci);
4628	else
4629	Inst.setOpcode(ARM::t2LDRSBpci);
4630	break;
4631	case ARM::t2LDRSH_PRE:
4632	case ARM::t2LDRSH_POST:
4633	Inst.setOpcode(ARM::t2LDRSHpci);
4634	break;
4635	default:
4636	return MCDisassembler::Fail;
4637	}
4638	return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4639	}
4640
4641	if (!load) {
4642	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4643	return MCDisassembler::Fail;
4644	}
4645
4646	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
4647	return MCDisassembler::Fail;
4648
4649	if (load) {
4650	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4651	return MCDisassembler::Fail;
4652	}
4653
4654	if (!Check(Out&: S, In: DecodeT2AddrModeImm8(Inst, Val: addr, Address, Decoder)))
4655	return MCDisassembler::Fail;
4656
4657	return S;
4658	}
4659
4660	static DecodeStatus DecodeT2AddrModeImm12(MCInst &Inst, unsigned Val,
4661	uint64_t Address,
4662	const MCDisassembler *Decoder) {
4663	DecodeStatus S = MCDisassembler::Success;
4664
4665	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `13`, numBits: `4`);
4666	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `12`);
4667
4668	// Thumb stores cannot use PC as dest register.
4669	switch (Inst.getOpcode()) {
4670	case ARM::t2STRi12:
4671	case ARM::t2STRBi12:
4672	case ARM::t2STRHi12:
4673	if (Rn == `15`)
4674	return MCDisassembler::Fail;
4675	break;
4676	default:
4677	break;
4678	}
4679
4680	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4681	return MCDisassembler::Fail;
4682	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4683
4684	return S;
4685	}
4686
4687	static DecodeStatus DecodeThumbAddSPImm(MCInst &Inst, uint16_t Insn,
4688	uint64_t Address,
4689	const MCDisassembler *Decoder) {
4690	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `7`);
4691
4692	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
4693	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
4694	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4695
4696	return MCDisassembler::Success;
4697	}
4698
4699	static DecodeStatus DecodeThumbAddSPReg(MCInst &Inst, uint16_t Insn,
4700	uint64_t Address,
4701	const MCDisassembler *Decoder) {
4702	DecodeStatus S = MCDisassembler::Success;
4703
4704	if (Inst.getOpcode() == ARM::tADDrSP) {
4705	unsigned Rdm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `3`);
4706	Rdm \|= fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`) << `3`;
4707
4708	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rdm, Address, Decoder)))
4709	return MCDisassembler::Fail;
4710	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
4711	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rdm, Address, Decoder)))
4712	return MCDisassembler::Fail;
4713	} else if (Inst.getOpcode() == ARM::tADDspr) {
4714	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `3`, numBits: `4`);
4715
4716	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
4717	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::SP));
4718	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
4719	return MCDisassembler::Fail;
4720	}
4721
4722	return S;
4723	}
4724
4725	static DecodeStatus DecodeThumbCPS(MCInst &Inst, uint16_t Insn,
4726	uint64_t Address,
4727	const MCDisassembler *Decoder) {
4728	unsigned imod = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`) \| `0x2`;
4729	unsigned flags = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `3`);
4730
4731	Inst.addOperand(Op: MCOperand::createImm(Val: imod));
4732	Inst.addOperand(Op: MCOperand::createImm(Val: flags));
4733
4734	return MCDisassembler::Success;
4735	}
4736
4737	static DecodeStatus DecodePostIdxReg(MCInst &Inst, unsigned Insn,
4738	uint64_t Address,
4739	const MCDisassembler *Decoder) {
4740	DecodeStatus S = MCDisassembler::Success;
4741	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
4742	unsigned add = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`);
4743
4744	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
4745	return MCDisassembler::Fail;
4746	Inst.addOperand(Op: MCOperand::createImm(Val: add));
4747
4748	return S;
4749	}
4750
4751	static DecodeStatus DecodeMveAddrModeRQ(MCInst &Inst, unsigned Insn,
4752	uint64_t Address,
4753	const MCDisassembler *Decoder) {
4754	DecodeStatus S = MCDisassembler::Success;
4755	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `3`, numBits: `4`);
4756	unsigned Qm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `3`);
4757
4758	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4759	return MCDisassembler::Fail;
4760	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qm, Address, Decoder)))
4761	return MCDisassembler::Fail;
4762
4763	return S;
4764	}
4765
4766	template <int shift>
4767	static DecodeStatus DecodeMveAddrModeQ(MCInst &Inst, unsigned Insn,
4768	uint64_t Address,
4769	const MCDisassembler *Decoder) {
4770	DecodeStatus S = MCDisassembler::Success;
4771	unsigned Qm = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `3`);
4772	int imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `7`);
4773
4774	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qm, Address, Decoder)))
4775	return MCDisassembler::Fail;
4776
4777	if(!fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`)) {
4778	if (imm == `0`)
4779	imm = INT32_MIN; // indicate -0
4780	else
4781	imm *= -`1`;
4782	}
4783	if (imm != INT32_MIN)
4784	imm *= (`1U` << shift);
4785	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4786
4787	return S;
4788	}
4789
4790	static DecodeStatus DecodeThumbBLXOffset(MCInst &Inst, unsigned Val,
4791	uint64_t Address,
4792	const MCDisassembler *Decoder) {
4793	// Val is passed in as S:J1:J2:imm10H:imm10L:'0'
4794	// Note only one trailing zero not two. Also the J1 and J2 values are from
4795	// the encoded instruction. So here change to I1 and I2 values via:
4796	// I1 = NOT(J1 EOR S);
4797	// I2 = NOT(J2 EOR S);
4798	// and build the imm32 with two trailing zeros as documented:
4799	// imm32 = SignExtend(S:I1:I2:imm10H:imm10L:'00', 32);
4800	unsigned S = (Val >> `23`) & `1`;
4801	unsigned J1 = (Val >> `22`) & `1`;
4802	unsigned J2 = (Val >> `21`) & `1`;
4803	unsigned I1 = !(J1 ^ S);
4804	unsigned I2 = !(J2 ^ S);
4805	unsigned tmp = (Val & ~`0x600000`) \| (I1 << `22`) \| (I2 << `21`);
4806	int imm32 = SignExtend32<`25`>(X: tmp << `1`);
4807
4808	if (!tryAddingSymbolicOperand(Address,
4809	Value: (Address & ~`2u`) + imm32 + `4`,
4810	isBranch: true, InstSize: `4`, MI&: Inst, Decoder))
4811	Inst.addOperand(Op: MCOperand::createImm(Val: imm32));
4812	return MCDisassembler::Success;
4813	}
4814
4815	static DecodeStatus DecodeCoprocessor(MCInst &Inst, unsigned Val,
4816	uint64_t Address,
4817	const MCDisassembler *Decoder) {
4818	if (Val == `0xA` \|\| Val == `0xB`)
4819	return MCDisassembler::Fail;
4820
4821	const FeatureBitset &featureBits =
4822	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4823
4824	if (!isValidCoprocessorNumber(Num: Val, featureBits))
4825	return MCDisassembler::Fail;
4826
4827	Inst.addOperand(Op: MCOperand::createImm(Val));
4828	return MCDisassembler::Success;
4829	}
4830
4831	static DecodeStatus DecodeThumbTableBranch(MCInst &Inst, unsigned Insn,
4832	uint64_t Address,
4833	const MCDisassembler *Decoder) {
4834	const FeatureBitset &FeatureBits =
4835	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4836	DecodeStatus S = MCDisassembler::Success;
4837
4838	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
4839	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
4840
4841	if (Rn == `13` && !FeatureBits [ARM::HasV8Ops]) S = MCDisassembler::SoftFail;
4842	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
4843	return MCDisassembler::Fail;
4844	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
4845	return MCDisassembler::Fail;
4846	return S;
4847	}
4848
4849	static DecodeStatus DecodeThumb2BCCInstruction(MCInst &Inst, unsigned Insn,
4850	uint64_t Address,
4851	const MCDisassembler *Decoder) {
4852	DecodeStatus S = MCDisassembler::Success;
4853
4854	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `4`);
4855	if (pred == `0xE` \|\| pred == `0xF`) {
4856	unsigned opc = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `28`);
4857	switch (opc) {
4858	default:
4859	return MCDisassembler::Fail;
4860	case `0xf3bf8f4`:
4861	Inst.setOpcode(ARM::t2DSB);
4862	break;
4863	case `0xf3bf8f5`:
4864	Inst.setOpcode(ARM::t2DMB);
4865	break;
4866	case `0xf3bf8f6`:
4867	Inst.setOpcode(ARM::t2ISB);
4868	break;
4869	}
4870
4871	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
4872	return DecodeMemBarrierOption(Inst, Insn: imm, Address, Decoder);
4873	}
4874
4875	unsigned brtarget = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `11`) << `1`;
4876	brtarget \|= fieldFromInstruction(insn: Insn, startBit: `11`, numBits: `1`) << `19`;
4877	brtarget \|= fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `1`) << `18`;
4878	brtarget \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `6`) << `12`;
4879	brtarget \|= fieldFromInstruction(insn: Insn, startBit: `26`, numBits: `1`) << `20`;
4880
4881	if (!Check(Out&: S, In: DecodeT2BROperand(Inst, Val: brtarget, Address, Decoder)))
4882	return MCDisassembler::Fail;
4883	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
4884	return MCDisassembler::Fail;
4885
4886	return S;
4887	}
4888
4889	// Decode a shifted immediate operand. These basically consist
4890	// of an 8-bit value, and a 4-bit directive that specifies either
4891	// a splat operation or a rotation.
4892	static DecodeStatus DecodeT2SOImm(MCInst &Inst, unsigned Val, uint64_t Address,
4893	const MCDisassembler *Decoder) {
4894	unsigned ctrl = fieldFromInstruction(insn: Val, startBit: `10`, numBits: `2`);
4895	if (ctrl == `0`) {
4896	unsigned byte = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `2`);
4897	unsigned imm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `8`);
4898	switch (byte) {
4899	case `0`:
4900	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4901	break;
4902	case `1`:
4903	Inst.addOperand(Op: MCOperand::createImm(Val: (imm << `16`) \| imm));
4904	break;
4905	case `2`:
4906	Inst.addOperand(Op: MCOperand::createImm(Val: (imm << `24`) \| (imm << `8`)));
4907	break;
4908	case `3`:
4909	Inst.addOperand(Op: MCOperand::createImm(Val: (imm << `24`) \| (imm << `16`) \|
4910	(imm << `8`) \| imm));
4911	break;
4912	}
4913	} else {
4914	unsigned unrot = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `7`) \| `0x80`;
4915	unsigned rot = fieldFromInstruction(insn: Val, startBit: `7`, numBits: `5`);
4916	unsigned imm = llvm::rotr<uint32_t>(V: unrot, R: rot);
4917	Inst.addOperand(Op: MCOperand::createImm(Val: imm));
4918	}
4919
4920	return MCDisassembler::Success;
4921	}
4922
4923	static DecodeStatus DecodeThumbBCCTargetOperand(MCInst &Inst, unsigned Val,
4924	uint64_t Address,
4925	const MCDisassembler *Decoder) {
4926	if (!tryAddingSymbolicOperand(Address, Value: Address + SignExtend32<`9`>(X: Val<<`1`) + `4`,
4927	isBranch: true, InstSize: `2`, MI&: Inst, Decoder))
4928	Inst.addOperand(Op: MCOperand::createImm(Val: SignExtend32<`9`>(X: Val << `1`)));
4929	return MCDisassembler::Success;
4930	}
4931
4932	static DecodeStatus DecodeThumbBLTargetOperand(MCInst &Inst, unsigned Val,
4933	uint64_t Address,
4934	const MCDisassembler *Decoder) {
4935	// Val is passed in as S:J1:J2:imm10:imm11
4936	// Note no trailing zero after imm11. Also the J1 and J2 values are from
4937	// the encoded instruction. So here change to I1 and I2 values via:
4938	// I1 = NOT(J1 EOR S);
4939	// I2 = NOT(J2 EOR S);
4940	// and build the imm32 with one trailing zero as documented:
4941	// imm32 = SignExtend(S:I1:I2:imm10:imm11:'0', 32);
4942	unsigned S = (Val >> `23`) & `1`;
4943	unsigned J1 = (Val >> `22`) & `1`;
4944	unsigned J2 = (Val >> `21`) & `1`;
4945	unsigned I1 = !(J1 ^ S);
4946	unsigned I2 = !(J2 ^ S);
4947	unsigned tmp = (Val & ~`0x600000`) \| (I1 << `22`) \| (I2 << `21`);
4948	int imm32 = SignExtend32<`25`>(X: tmp << `1`);
4949
4950	if (!tryAddingSymbolicOperand(Address, Value: Address + imm32 + `4`,
4951	isBranch: true, InstSize: `4`, MI&: Inst, Decoder))
4952	Inst.addOperand(Op: MCOperand::createImm(Val: imm32));
4953	return MCDisassembler::Success;
4954	}
4955
4956	static DecodeStatus DecodeMemBarrierOption(MCInst &Inst, unsigned Val,
4957	uint64_t Address,
4958	const MCDisassembler *Decoder) {
4959	if (Val & ~`0xf`)
4960	return MCDisassembler::Fail;
4961
4962	Inst.addOperand(Op: MCOperand::createImm(Val));
4963	return MCDisassembler::Success;
4964	}
4965
4966	static DecodeStatus DecodeInstSyncBarrierOption(MCInst &Inst, unsigned Val,
4967	uint64_t Address,
4968	const MCDisassembler *Decoder) {
4969	if (Val & ~`0xf`)
4970	return MCDisassembler::Fail;
4971
4972	Inst.addOperand(Op: MCOperand::createImm(Val));
4973	return MCDisassembler::Success;
4974	}
4975
4976	static DecodeStatus DecodeMSRMask(MCInst &Inst, unsigned Val, uint64_t Address,
4977	const MCDisassembler *Decoder) {
4978	DecodeStatus S = MCDisassembler::Success;
4979	const FeatureBitset &FeatureBits =
4980	((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4981
4982	if (FeatureBits [ARM::FeatureMClass]) {
4983	unsigned ValLow = Val & `0xff`;
4984
4985	// Validate the SYSm value first.
4986	switch (ValLow) {
4987	case `0`: // apsr
4988	case `1`: // iapsr
4989	case `2`: // eapsr
4990	case `3`: // xpsr
4991	case `5`: // ipsr
4992	case `6`: // epsr
4993	case `7`: // iepsr
4994	case `8`: // msp
4995	case `9`: // psp
4996	case `16`: // primask
4997	case `20`: // control
4998	break;
4999	case `17`: // basepri
5000	case `18`: // basepri_max
5001	case `19`: // faultmask
5002	if (!(FeatureBits [ARM::HasV7Ops]))
5003	// Values basepri, basepri_max and faultmask are only valid for v7m.
5004	return MCDisassembler::Fail;
5005	break;
5006	case `0x8a`: // msplim_ns
5007	case `0x8b`: // psplim_ns
5008	case `0x91`: // basepri_ns
5009	case `0x93`: // faultmask_ns
5010	if (!(FeatureBits [ARM::HasV8MMainlineOps]))
5011	return MCDisassembler::Fail;
5012	[[fallthrough]];
5013	case `10`: // msplim
5014	case `11`: // psplim
5015	case `0x88`: // msp_ns
5016	case `0x89`: // psp_ns
5017	case `0x90`: // primask_ns
5018	case `0x94`: // control_ns
5019	case `0x98`: // sp_ns
5020	if (!(FeatureBits [ARM::Feature8MSecExt]))
5021	return MCDisassembler::Fail;
5022	break;
5023	case `0x20`: // pac_key_p_0
5024	case `0x21`: // pac_key_p_1
5025	case `0x22`: // pac_key_p_2
5026	case `0x23`: // pac_key_p_3
5027	case `0x24`: // pac_key_u_0
5028	case `0x25`: // pac_key_u_1
5029	case `0x26`: // pac_key_u_2
5030	case `0x27`: // pac_key_u_3
5031	case `0xa0`: // pac_key_p_0_ns
5032	case `0xa1`: // pac_key_p_1_ns
5033	case `0xa2`: // pac_key_p_2_ns
5034	case `0xa3`: // pac_key_p_3_ns
5035	case `0xa4`: // pac_key_u_0_ns
5036	case `0xa5`: // pac_key_u_1_ns
5037	case `0xa6`: // pac_key_u_2_ns
5038	case `0xa7`: // pac_key_u_3_ns
5039	if (!(FeatureBits [ARM::FeaturePACBTI]))
5040	return MCDisassembler::Fail;
5041	break;
5042	default:
5043	// Architecturally defined as unpredictable
5044	S = MCDisassembler::SoftFail;
5045	break;
5046	}
5047
5048	if (Inst.getOpcode() == ARM::t2MSR_M) {
5049	unsigned Mask = fieldFromInstruction(insn: Val, startBit: `10`, numBits: `2`);
5050	if (!(FeatureBits [ARM::HasV7Ops])) {
5051	// The ARMv6-M MSR bits {11-10} can be only 0b10, other values are
5052	// unpredictable.
5053	if (Mask != `2`)
5054	S = MCDisassembler::SoftFail;
5055	}
5056	else {
5057	// The ARMv7-M architecture stores an additional 2-bit mask value in
5058	// MSR bits {11-10}. The mask is used only with apsr, iapsr, eapsr and
5059	// xpsr, it has to be 0b10 in other cases. Bit mask{1} indicates if
5060	// the NZCVQ bits should be moved by the instruction. Bit mask{0}
5061	// indicates the move for the GE{3:0} bits, the mask{0} bit can be set
5062	// only if the processor includes the DSP extension.
5063	if (Mask == `0` \|\| (Mask != `2` && ValLow > `3`) \|\|
5064	(!(FeatureBits [ARM::FeatureDSP]) && (Mask & `1`)))
5065	S = MCDisassembler::SoftFail;
5066	}
5067	}
5068	} else {
5069	// A/R class
5070	if (Val == `0`)
5071	return MCDisassembler::Fail;
5072	}
5073	Inst.addOperand(Op: MCOperand::createImm(Val));
5074	return S;
5075	}
5076
5077	static DecodeStatus DecodeBankedReg(MCInst &Inst, unsigned Val,
5078	uint64_t Address,
5079	const MCDisassembler *Decoder) {
5080	unsigned R = fieldFromInstruction(insn: Val, startBit: `5`, numBits: `1`);
5081	unsigned SysM = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `5`);
5082
5083	// The table of encodings for these banked registers comes from B9.2.3 of the
5084	// ARM ARM. There are patterns, but nothing regular enough to make this logic
5085	// neater. So by fiat, these values are UNPREDICTABLE:
5086	if (!ARMBankedReg::lookupBankedRegByEncoding(Encoding: (R << `5`) \| SysM))
5087	return MCDisassembler::Fail;
5088
5089	Inst.addOperand(Op: MCOperand::createImm(Val));
5090	return MCDisassembler::Success;
5091	}
5092
5093	static DecodeStatus DecodeDoubleRegLoad(MCInst &Inst, unsigned Insn,
5094	uint64_t Address,
5095	const MCDisassembler *Decoder) {
5096	DecodeStatus S = MCDisassembler::Success;
5097
5098	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5099	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5100	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5101
5102	if (Rn == `0xF`)
5103	S = MCDisassembler::SoftFail;
5104
5105	if (!Check(Out&: S, In: DecodeGPRPairRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5106	return MCDisassembler::Fail;
5107	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5108	return MCDisassembler::Fail;
5109	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5110	return MCDisassembler::Fail;
5111
5112	return S;
5113	}
5114
5115	static DecodeStatus DecodeDoubleRegStore(MCInst &Inst, unsigned Insn,
5116	uint64_t Address,
5117	const MCDisassembler *Decoder) {
5118	DecodeStatus S = MCDisassembler::Success;
5119
5120	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5121	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5122	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5123	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5124
5125	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5126	return MCDisassembler::Fail;
5127
5128	if (Rn == `0xF` \|\| Rd == Rn \|\| Rd == Rt \|\| Rd == Rt+`1`)
5129	S = MCDisassembler::SoftFail;
5130
5131	if (!Check(Out&: S, In: DecodeGPRPairRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5132	return MCDisassembler::Fail;
5133	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5134	return MCDisassembler::Fail;
5135	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5136	return MCDisassembler::Fail;
5137
5138	return S;
5139	}
5140
5141	static DecodeStatus DecodeLDRPreImm(MCInst &Inst, unsigned Insn,
5142	uint64_t Address,
5143	const MCDisassembler *Decoder) {
5144	DecodeStatus S = MCDisassembler::Success;
5145
5146	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5147	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5148	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
5149	imm \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `13`;
5150	imm \|= fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`) << `12`;
5151	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5152
5153	if (Rn == `0xF` \|\| Rn == Rt) S = MCDisassembler::SoftFail;
5154
5155	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5156	return MCDisassembler::Fail;
5157	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5158	return MCDisassembler::Fail;
5159	if (!Check(Out&: S, In: DecodeAddrModeImm12Operand(Inst, Val: imm, Address, Decoder)))
5160	return MCDisassembler::Fail;
5161	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5162	return MCDisassembler::Fail;
5163
5164	return S;
5165	}
5166
5167	static DecodeStatus DecodeLDRPreReg(MCInst &Inst, unsigned Insn,
5168	uint64_t Address,
5169	const MCDisassembler *Decoder) {
5170	DecodeStatus S = MCDisassembler::Success;
5171
5172	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5173	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5174	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
5175	imm \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `13`;
5176	imm \|= fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`) << `12`;
5177	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5178	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5179
5180	if (Rn == `0xF` \|\| Rn == Rt) S = MCDisassembler::SoftFail;
5181	if (Rm == `0xF`) S = MCDisassembler::SoftFail;
5182
5183	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5184	return MCDisassembler::Fail;
5185	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5186	return MCDisassembler::Fail;
5187	if (!Check(Out&: S, In: DecodeSORegMemOperand(Inst, Val: imm, Address, Decoder)))
5188	return MCDisassembler::Fail;
5189	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5190	return MCDisassembler::Fail;
5191
5192	return S;
5193	}
5194
5195	static DecodeStatus DecodeSTRPreImm(MCInst &Inst, unsigned Insn,
5196	uint64_t Address,
5197	const MCDisassembler *Decoder) {
5198	DecodeStatus S = MCDisassembler::Success;
5199
5200	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5201	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5202	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
5203	imm \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `13`;
5204	imm \|= fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`) << `12`;
5205	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5206
5207	if (Rn == `0xF` \|\| Rn == Rt) S = MCDisassembler::SoftFail;
5208
5209	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5210	return MCDisassembler::Fail;
5211	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5212	return MCDisassembler::Fail;
5213	if (!Check(Out&: S, In: DecodeAddrModeImm12Operand(Inst, Val: imm, Address, Decoder)))
5214	return MCDisassembler::Fail;
5215	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5216	return MCDisassembler::Fail;
5217
5218	return S;
5219	}
5220
5221	static DecodeStatus DecodeSTRPreReg(MCInst &Inst, unsigned Insn,
5222	uint64_t Address,
5223	const MCDisassembler *Decoder) {
5224	DecodeStatus S = MCDisassembler::Success;
5225
5226	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5227	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5228	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `12`);
5229	imm \|= fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `13`;
5230	imm \|= fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`) << `12`;
5231	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5232
5233	if (Rn == `0xF` \|\| Rn == Rt) S = MCDisassembler::SoftFail;
5234
5235	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5236	return MCDisassembler::Fail;
5237	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5238	return MCDisassembler::Fail;
5239	if (!Check(Out&: S, In: DecodeSORegMemOperand(Inst, Val: imm, Address, Decoder)))
5240	return MCDisassembler::Fail;
5241	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5242	return MCDisassembler::Fail;
5243
5244	return S;
5245	}
5246
5247	static DecodeStatus DecodeVLD1LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5248	const MCDisassembler *Decoder) {
5249	DecodeStatus S = MCDisassembler::Success;
5250
5251	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5252	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5253	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5254	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5255	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5256
5257	unsigned align = `0`;
5258	unsigned index = `0`;
5259	switch (size) {
5260	default:
5261	return MCDisassembler::Fail;
5262	case `0`:
5263	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5264	return MCDisassembler::Fail; // UNDEFINED
5265	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5266	break;
5267	case `1`:
5268	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5269	return MCDisassembler::Fail; // UNDEFINED
5270	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5271	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5272	align = `2`;
5273	break;
5274	case `2`:
5275	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5276	return MCDisassembler::Fail; // UNDEFINED
5277	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5278
5279	switch (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`)) {
5280	case `0` :
5281	align = `0`; break;
5282	case `3`:
5283	align = `4`; break;
5284	default:
5285	return MCDisassembler::Fail;
5286	}
5287	break;
5288	}
5289
5290	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5291	return MCDisassembler::Fail;
5292	if (Rm != `0xF`) { // Writeback
5293	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5294	return MCDisassembler::Fail;
5295	}
5296	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5297	return MCDisassembler::Fail;
5298	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5299	if (Rm != `0xF`) {
5300	if (Rm != `0xD`) {
5301	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5302	return MCDisassembler::Fail;
5303	} else
5304	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5305	}
5306
5307	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5308	return MCDisassembler::Fail;
5309	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5310
5311	return S;
5312	}
5313
5314	static DecodeStatus DecodeVST1LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5315	const MCDisassembler *Decoder) {
5316	DecodeStatus S = MCDisassembler::Success;
5317
5318	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5319	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5320	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5321	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5322	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5323
5324	unsigned align = `0`;
5325	unsigned index = `0`;
5326	switch (size) {
5327	default:
5328	return MCDisassembler::Fail;
5329	case `0`:
5330	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5331	return MCDisassembler::Fail; // UNDEFINED
5332	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5333	break;
5334	case `1`:
5335	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5336	return MCDisassembler::Fail; // UNDEFINED
5337	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5338	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5339	align = `2`;
5340	break;
5341	case `2`:
5342	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5343	return MCDisassembler::Fail; // UNDEFINED
5344	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5345
5346	switch (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`)) {
5347	case `0`:
5348	align = `0`; break;
5349	case `3`:
5350	align = `4`; break;
5351	default:
5352	return MCDisassembler::Fail;
5353	}
5354	break;
5355	}
5356
5357	if (Rm != `0xF`) { // Writeback
5358	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5359	return MCDisassembler::Fail;
5360	}
5361	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5362	return MCDisassembler::Fail;
5363	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5364	if (Rm != `0xF`) {
5365	if (Rm != `0xD`) {
5366	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5367	return MCDisassembler::Fail;
5368	} else
5369	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5370	}
5371
5372	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5373	return MCDisassembler::Fail;
5374	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5375
5376	return S;
5377	}
5378
5379	static DecodeStatus DecodeVLD2LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5380	const MCDisassembler *Decoder) {
5381	DecodeStatus S = MCDisassembler::Success;
5382
5383	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5384	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5385	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5386	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5387	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5388
5389	unsigned align = `0`;
5390	unsigned index = `0`;
5391	unsigned inc = `1`;
5392	switch (size) {
5393	default:
5394	return MCDisassembler::Fail;
5395	case `0`:
5396	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5397	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5398	align = `2`;
5399	break;
5400	case `1`:
5401	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5402	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5403	align = `4`;
5404	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5405	inc = `2`;
5406	break;
5407	case `2`:
5408	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5409	return MCDisassembler::Fail; // UNDEFINED
5410	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5411	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`) != `0`)
5412	align = `8`;
5413	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5414	inc = `2`;
5415	break;
5416	}
5417
5418	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5419	return MCDisassembler::Fail;
5420	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5421	return MCDisassembler::Fail;
5422	if (Rm != `0xF`) { // Writeback
5423	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5424	return MCDisassembler::Fail;
5425	}
5426	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5427	return MCDisassembler::Fail;
5428	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5429	if (Rm != `0xF`) {
5430	if (Rm != `0xD`) {
5431	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5432	return MCDisassembler::Fail;
5433	} else
5434	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5435	}
5436
5437	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5438	return MCDisassembler::Fail;
5439	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5440	return MCDisassembler::Fail;
5441	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5442
5443	return S;
5444	}
5445
5446	static DecodeStatus DecodeVST2LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5447	const MCDisassembler *Decoder) {
5448	DecodeStatus S = MCDisassembler::Success;
5449
5450	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5451	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5452	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5453	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5454	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5455
5456	unsigned align = `0`;
5457	unsigned index = `0`;
5458	unsigned inc = `1`;
5459	switch (size) {
5460	default:
5461	return MCDisassembler::Fail;
5462	case `0`:
5463	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5464	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5465	align = `2`;
5466	break;
5467	case `1`:
5468	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5469	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5470	align = `4`;
5471	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5472	inc = `2`;
5473	break;
5474	case `2`:
5475	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5476	return MCDisassembler::Fail; // UNDEFINED
5477	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5478	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`) != `0`)
5479	align = `8`;
5480	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5481	inc = `2`;
5482	break;
5483	}
5484
5485	if (Rm != `0xF`) { // Writeback
5486	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5487	return MCDisassembler::Fail;
5488	}
5489	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5490	return MCDisassembler::Fail;
5491	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5492	if (Rm != `0xF`) {
5493	if (Rm != `0xD`) {
5494	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5495	return MCDisassembler::Fail;
5496	} else
5497	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5498	}
5499
5500	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5501	return MCDisassembler::Fail;
5502	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5503	return MCDisassembler::Fail;
5504	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5505
5506	return S;
5507	}
5508
5509	static DecodeStatus DecodeVLD3LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5510	const MCDisassembler *Decoder) {
5511	DecodeStatus S = MCDisassembler::Success;
5512
5513	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5514	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5515	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5516	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5517	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5518
5519	unsigned align = `0`;
5520	unsigned index = `0`;
5521	unsigned inc = `1`;
5522	switch (size) {
5523	default:
5524	return MCDisassembler::Fail;
5525	case `0`:
5526	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5527	return MCDisassembler::Fail; // UNDEFINED
5528	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5529	break;
5530	case `1`:
5531	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5532	return MCDisassembler::Fail; // UNDEFINED
5533	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5534	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5535	inc = `2`;
5536	break;
5537	case `2`:
5538	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`))
5539	return MCDisassembler::Fail; // UNDEFINED
5540	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5541	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5542	inc = `2`;
5543	break;
5544	}
5545
5546	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5547	return MCDisassembler::Fail;
5548	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5549	return MCDisassembler::Fail;
5550	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`2`*inc, Address, Decoder)))
5551	return MCDisassembler::Fail;
5552
5553	if (Rm != `0xF`) { // Writeback
5554	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5555	return MCDisassembler::Fail;
5556	}
5557	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5558	return MCDisassembler::Fail;
5559	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5560	if (Rm != `0xF`) {
5561	if (Rm != `0xD`) {
5562	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5563	return MCDisassembler::Fail;
5564	} else
5565	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5566	}
5567
5568	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5569	return MCDisassembler::Fail;
5570	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5571	return MCDisassembler::Fail;
5572	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`2`*inc, Address, Decoder)))
5573	return MCDisassembler::Fail;
5574	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5575
5576	return S;
5577	}
5578
5579	static DecodeStatus DecodeVST3LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5580	const MCDisassembler *Decoder) {
5581	DecodeStatus S = MCDisassembler::Success;
5582
5583	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5584	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5585	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5586	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5587	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5588
5589	unsigned align = `0`;
5590	unsigned index = `0`;
5591	unsigned inc = `1`;
5592	switch (size) {
5593	default:
5594	return MCDisassembler::Fail;
5595	case `0`:
5596	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5597	return MCDisassembler::Fail; // UNDEFINED
5598	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5599	break;
5600	case `1`:
5601	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5602	return MCDisassembler::Fail; // UNDEFINED
5603	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5604	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5605	inc = `2`;
5606	break;
5607	case `2`:
5608	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`))
5609	return MCDisassembler::Fail; // UNDEFINED
5610	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5611	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5612	inc = `2`;
5613	break;
5614	}
5615
5616	if (Rm != `0xF`) { // Writeback
5617	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5618	return MCDisassembler::Fail;
5619	}
5620	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5621	return MCDisassembler::Fail;
5622	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5623	if (Rm != `0xF`) {
5624	if (Rm != `0xD`) {
5625	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5626	return MCDisassembler::Fail;
5627	} else
5628	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5629	}
5630
5631	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5632	return MCDisassembler::Fail;
5633	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5634	return MCDisassembler::Fail;
5635	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`2`*inc, Address, Decoder)))
5636	return MCDisassembler::Fail;
5637	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5638
5639	return S;
5640	}
5641
5642	static DecodeStatus DecodeVLD4LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5643	const MCDisassembler *Decoder) {
5644	DecodeStatus S = MCDisassembler::Success;
5645
5646	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5647	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5648	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5649	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5650	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5651
5652	unsigned align = `0`;
5653	unsigned index = `0`;
5654	unsigned inc = `1`;
5655	switch (size) {
5656	default:
5657	return MCDisassembler::Fail;
5658	case `0`:
5659	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5660	align = `4`;
5661	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5662	break;
5663	case `1`:
5664	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5665	align = `8`;
5666	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5667	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5668	inc = `2`;
5669	break;
5670	case `2`:
5671	switch (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`)) {
5672	case `0`:
5673	align = `0`; break;
5674	case `3`:
5675	return MCDisassembler::Fail;
5676	default:
5677	align = `4` << fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`); break;
5678	}
5679
5680	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5681	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5682	inc = `2`;
5683	break;
5684	}
5685
5686	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5687	return MCDisassembler::Fail;
5688	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5689	return MCDisassembler::Fail;
5690	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`2`*inc, Address, Decoder)))
5691	return MCDisassembler::Fail;
5692	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`3`*inc, Address, Decoder)))
5693	return MCDisassembler::Fail;
5694
5695	if (Rm != `0xF`) { // Writeback
5696	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5697	return MCDisassembler::Fail;
5698	}
5699	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5700	return MCDisassembler::Fail;
5701	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5702	if (Rm != `0xF`) {
5703	if (Rm != `0xD`) {
5704	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5705	return MCDisassembler::Fail;
5706	} else
5707	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5708	}
5709
5710	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5711	return MCDisassembler::Fail;
5712	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5713	return MCDisassembler::Fail;
5714	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`2`*inc, Address, Decoder)))
5715	return MCDisassembler::Fail;
5716	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`3`*inc, Address, Decoder)))
5717	return MCDisassembler::Fail;
5718	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5719
5720	return S;
5721	}
5722
5723	static DecodeStatus DecodeVST4LN(MCInst &Inst, unsigned Insn, uint64_t Address,
5724	const MCDisassembler *Decoder) {
5725	DecodeStatus S = MCDisassembler::Success;
5726
5727	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5728	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5729	unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5730	Rd \|= fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`;
5731	unsigned size = fieldFromInstruction(insn: Insn, startBit: `10`, numBits: `2`);
5732
5733	unsigned align = `0`;
5734	unsigned index = `0`;
5735	unsigned inc = `1`;
5736	switch (size) {
5737	default:
5738	return MCDisassembler::Fail;
5739	case `0`:
5740	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5741	align = `4`;
5742	index = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `3`);
5743	break;
5744	case `1`:
5745	if (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`))
5746	align = `8`;
5747	index = fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `2`);
5748	if (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`))
5749	inc = `2`;
5750	break;
5751	case `2`:
5752	switch (fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`)) {
5753	case `0`:
5754	align = `0`; break;
5755	case `3`:
5756	return MCDisassembler::Fail;
5757	default:
5758	align = `4` << fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `2`); break;
5759	}
5760
5761	index = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
5762	if (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`))
5763	inc = `2`;
5764	break;
5765	}
5766
5767	if (Rm != `0xF`) { // Writeback
5768	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5769	return MCDisassembler::Fail;
5770	}
5771	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5772	return MCDisassembler::Fail;
5773	Inst.addOperand(Op: MCOperand::createImm(Val: align));
5774	if (Rm != `0xF`) {
5775	if (Rm != `0xD`) {
5776	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
5777	return MCDisassembler::Fail;
5778	} else
5779	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
5780	}
5781
5782	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd, Address, Decoder)))
5783	return MCDisassembler::Fail;
5784	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+inc, Address, Decoder)))
5785	return MCDisassembler::Fail;
5786	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`2`*inc, Address, Decoder)))
5787	return MCDisassembler::Fail;
5788	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Rd+`3`*inc, Address, Decoder)))
5789	return MCDisassembler::Fail;
5790	Inst.addOperand(Op: MCOperand::createImm(Val: index));
5791
5792	return S;
5793	}
5794
5795	static DecodeStatus DecodeVMOVSRR(MCInst &Inst, unsigned Insn, uint64_t Address,
5796	const MCDisassembler *Decoder) {
5797	DecodeStatus S = MCDisassembler::Success;
5798	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5799	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5800	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`);
5801	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5802	Rm \|= fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`) << `1`;
5803
5804	if (Rt == `0xF` \|\| Rt2 == `0xF` \|\| Rm == `0x1F`)
5805	S = MCDisassembler::SoftFail;
5806
5807	if (!Check(Out&: S, In: DecodeSPRRegisterClass(Inst, RegNo: Rm , Address, Decoder)))
5808	return MCDisassembler::Fail;
5809	if (!Check(Out&: S, In: DecodeSPRRegisterClass(Inst, RegNo: Rm+`1`, Address, Decoder)))
5810	return MCDisassembler::Fail;
5811	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt , Address, Decoder)))
5812	return MCDisassembler::Fail;
5813	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt2 , Address, Decoder)))
5814	return MCDisassembler::Fail;
5815	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5816	return MCDisassembler::Fail;
5817
5818	return S;
5819	}
5820
5821	static DecodeStatus DecodeVMOVRRS(MCInst &Inst, unsigned Insn, uint64_t Address,
5822	const MCDisassembler *Decoder) {
5823	DecodeStatus S = MCDisassembler::Success;
5824	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5825	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5826	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`);
5827	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5828	Rm \|= fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`) << `1`;
5829
5830	if (Rt == `0xF` \|\| Rt2 == `0xF` \|\| Rm == `0x1F`)
5831	S = MCDisassembler::SoftFail;
5832
5833	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt , Address, Decoder)))
5834	return MCDisassembler::Fail;
5835	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt2 , Address, Decoder)))
5836	return MCDisassembler::Fail;
5837	if (!Check(Out&: S, In: DecodeSPRRegisterClass(Inst, RegNo: Rm , Address, Decoder)))
5838	return MCDisassembler::Fail;
5839	if (!Check(Out&: S, In: DecodeSPRRegisterClass(Inst, RegNo: Rm+`1`, Address, Decoder)))
5840	return MCDisassembler::Fail;
5841	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
5842	return MCDisassembler::Fail;
5843
5844	return S;
5845	}
5846
5847	static DecodeStatus DecodeIT(MCInst &Inst, unsigned Insn, uint64_t Address,
5848	const MCDisassembler *Decoder) {
5849	DecodeStatus S = MCDisassembler::Success;
5850	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `4`);
5851	unsigned mask = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5852
5853	if (pred == `0xF`) {
5854	pred = `0xE`;
5855	S = MCDisassembler::SoftFail;
5856	}
5857
5858	if (mask == `0x0`)
5859	return MCDisassembler::Fail;
5860
5861	// IT masks are encoded as a sequence of replacement low-order bits
5862	// for the condition code. So if the low bit of the starting
5863	// condition code is 1, then we have to flip all the bits above the
5864	// terminating bit (which is the lowest 1 bit).
5865	if (pred & `1`) {
5866	unsigned LowBit = mask & -mask;
5867	unsigned BitsAboveLowBit = `0xF` & (-LowBit << `1`);
5868	mask ^= BitsAboveLowBit;
5869	}
5870
5871	Inst.addOperand(Op: MCOperand::createImm(Val: pred));
5872	Inst.addOperand(Op: MCOperand::createImm(Val: mask));
5873	return S;
5874	}
5875
5876	static DecodeStatus DecodeT2LDRDPreInstruction(MCInst &Inst, unsigned Insn,
5877	uint64_t Address,
5878	const MCDisassembler *Decoder) {
5879	DecodeStatus S = MCDisassembler::Success;
5880
5881	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5882	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
5883	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5884	unsigned addr = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
5885	unsigned W = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
5886	unsigned U = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`);
5887	unsigned P = fieldFromInstruction(insn: Insn, startBit: `24`, numBits: `1`);
5888	bool writeback = (W == `1`) \| (P == `0`);
5889
5890	addr \|= (U << `8`) \| (Rn << `9`);
5891
5892	if (writeback && (Rn == Rt \|\| Rn == Rt2))
5893	Check(Out&: S, In: MCDisassembler::SoftFail);
5894	if (Rt == Rt2)
5895	Check(Out&: S, In: MCDisassembler::SoftFail);
5896
5897	// Rt
5898	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5899	return MCDisassembler::Fail;
5900	// Rt2
5901	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
5902	return MCDisassembler::Fail;
5903	// Writeback operand
5904	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5905	return MCDisassembler::Fail;
5906	// addr
5907	if (!Check(Out&: S, In: DecodeT2AddrModeImm8s4(Inst, Val: addr, Address, Decoder)))
5908	return MCDisassembler::Fail;
5909
5910	return S;
5911	}
5912
5913	static DecodeStatus DecodeT2STRDPreInstruction(MCInst &Inst, unsigned Insn,
5914	uint64_t Address,
5915	const MCDisassembler *Decoder) {
5916	DecodeStatus S = MCDisassembler::Success;
5917
5918	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5919	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
5920	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5921	unsigned addr = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
5922	unsigned W = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
5923	unsigned U = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`);
5924	unsigned P = fieldFromInstruction(insn: Insn, startBit: `24`, numBits: `1`);
5925	bool writeback = (W == `1`) \| (P == `0`);
5926
5927	addr \|= (U << `8`) \| (Rn << `9`);
5928
5929	if (writeback && (Rn == Rt \|\| Rn == Rt2))
5930	Check(Out&: S, In: MCDisassembler::SoftFail);
5931
5932	// Writeback operand
5933	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
5934	return MCDisassembler::Fail;
5935	// Rt
5936	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
5937	return MCDisassembler::Fail;
5938	// Rt2
5939	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
5940	return MCDisassembler::Fail;
5941	// addr
5942	if (!Check(Out&: S, In: DecodeT2AddrModeImm8s4(Inst, Val: addr, Address, Decoder)))
5943	return MCDisassembler::Fail;
5944
5945	return S;
5946	}
5947
5948	static DecodeStatus DecodeT2Adr(MCInst &Inst, uint32_t Insn, uint64_t Address,
5949	const MCDisassembler *Decoder) {
5950	unsigned sign1 = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
5951	unsigned sign2 = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`);
5952	if (sign1 != sign2) return MCDisassembler::Fail;
5953	const unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
5954	assert(Inst.getNumOperands() == `0` && "We should receive an empty Inst");
5955	DecodeStatus S = DecoderGPRRegisterClass(Inst, RegNo: Rd, Address, Decoder);
5956
5957	unsigned Val = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
5958	Val \|= fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `3`) << `8`;
5959	Val \|= fieldFromInstruction(insn: Insn, startBit: `26`, numBits: `1`) << `11`;
5960	// If sign, then it is decreasing the address.
5961	if (sign1) {
5962	// Following ARMv7 Architecture Manual, when the offset
5963	// is zero, it is decoded as a subw, not as a adr.w
5964	if (!Val) {
5965	Inst.setOpcode(ARM::t2SUBri12);
5966	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::PC));
5967	} else
5968	Val = -Val;
5969	}
5970	Inst.addOperand(Op: MCOperand::createImm(Val));
5971	return S;
5972	}
5973
5974	static DecodeStatus DecodeT2ShifterImmOperand(MCInst &Inst, uint32_t Val,
5975	uint64_t Address,
5976	const MCDisassembler *Decoder) {
5977	DecodeStatus S = MCDisassembler::Success;
5978
5979	// Shift of "asr #32" is not allowed in Thumb2 mode.
5980	if (Val == `0x20`) S = MCDisassembler::Fail;
5981	Inst.addOperand(Op: MCOperand::createImm(Val));
5982	return S;
5983	}
5984
5985	static DecodeStatus DecodeSwap(MCInst &Inst, unsigned Insn, uint64_t Address,
5986	const MCDisassembler *Decoder) {
5987	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
5988	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
5989	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
5990	unsigned pred = fieldFromInstruction(insn: Insn, startBit: `28`, numBits: `4`);
5991
5992	if (pred == `0xF`)
5993	return DecodeCPSInstruction(Inst, Insn, Address, Decoder);
5994
5995	DecodeStatus S = MCDisassembler::Success;
5996
5997	if (Rt == Rn \|\| Rn == Rt2)
5998	S = MCDisassembler::SoftFail;
5999
6000	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
6001	return MCDisassembler::Fail;
6002	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
6003	return MCDisassembler::Fail;
6004	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
6005	return MCDisassembler::Fail;
6006	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
6007	return MCDisassembler::Fail;
6008
6009	return S;
6010	}
6011
6012	static DecodeStatus DecodeVCVTD(MCInst &Inst, unsigned Insn, uint64_t Address,
6013	const MCDisassembler *Decoder) {
6014	const FeatureBitset &featureBits =
6015	((const MCDisassembler *)Decoder)->getSubtargetInfo().getFeatureBits();
6016	bool hasFullFP16 = featureBits [ARM::FeatureFullFP16];
6017
6018	unsigned Vd = (fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`) << `0`);
6019	Vd \|= (fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`);
6020	unsigned Vm = (fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`) << `0`);
6021	Vm \|= (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `4`);
6022	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `6`);
6023	unsigned cmode = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
6024	unsigned op = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`);
6025
6026	DecodeStatus S = MCDisassembler::Success;
6027
6028	// If the top 3 bits of imm are clear, this is a VMOV (immediate)
6029	if (!(imm & `0x38`)) {
6030	if (cmode == `0xF`) {
6031	if (op == `1`) return MCDisassembler::Fail;
6032	Inst.setOpcode(ARM::VMOVv2f32);
6033	}
6034	if (hasFullFP16) {
6035	if (cmode == `0xE`) {
6036	if (op == `1`) {
6037	Inst.setOpcode(ARM::VMOVv1i64);
6038	} else {
6039	Inst.setOpcode(ARM::VMOVv8i8);
6040	}
6041	}
6042	if (cmode == `0xD`) {
6043	if (op == `1`) {
6044	Inst.setOpcode(ARM::VMVNv2i32);
6045	} else {
6046	Inst.setOpcode(ARM::VMOVv2i32);
6047	}
6048	}
6049	if (cmode == `0xC`) {
6050	if (op == `1`) {
6051	Inst.setOpcode(ARM::VMVNv2i32);
6052	} else {
6053	Inst.setOpcode(ARM::VMOVv2i32);
6054	}
6055	}
6056	}
6057	return DecodeVMOVModImmInstruction(Inst, Insn, Address, Decoder);
6058	}
6059
6060	if (!(imm & `0x20`)) return MCDisassembler::Fail;
6061
6062	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Vd, Address, Decoder)))
6063	return MCDisassembler::Fail;
6064	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Vm, Address, Decoder)))
6065	return MCDisassembler::Fail;
6066	Inst.addOperand(Op: MCOperand::createImm(Val: `64` - imm));
6067
6068	return S;
6069	}
6070
6071	static DecodeStatus DecodeVCVTQ(MCInst &Inst, unsigned Insn, uint64_t Address,
6072	const MCDisassembler *Decoder) {
6073	const FeatureBitset &featureBits =
6074	((const MCDisassembler *)Decoder)->getSubtargetInfo().getFeatureBits();
6075	bool hasFullFP16 = featureBits [ARM::FeatureFullFP16];
6076
6077	unsigned Vd = (fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`) << `0`);
6078	Vd \|= (fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`);
6079	unsigned Vm = (fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`) << `0`);
6080	Vm \|= (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `4`);
6081	unsigned imm = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `6`);
6082	unsigned cmode = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
6083	unsigned op = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`);
6084
6085	DecodeStatus S = MCDisassembler::Success;
6086
6087	// If the top 3 bits of imm are clear, this is a VMOV (immediate)
6088	if (!(imm & `0x38`)) {
6089	if (cmode == `0xF`) {
6090	if (op == `1`) return MCDisassembler::Fail;
6091	Inst.setOpcode(ARM::VMOVv4f32);
6092	}
6093	if (hasFullFP16) {
6094	if (cmode == `0xE`) {
6095	if (op == `1`) {
6096	Inst.setOpcode(ARM::VMOVv2i64);
6097	} else {
6098	Inst.setOpcode(ARM::VMOVv16i8);
6099	}
6100	}
6101	if (cmode == `0xD`) {
6102	if (op == `1`) {
6103	Inst.setOpcode(ARM::VMVNv4i32);
6104	} else {
6105	Inst.setOpcode(ARM::VMOVv4i32);
6106	}
6107	}
6108	if (cmode == `0xC`) {
6109	if (op == `1`) {
6110	Inst.setOpcode(ARM::VMVNv4i32);
6111	} else {
6112	Inst.setOpcode(ARM::VMOVv4i32);
6113	}
6114	}
6115	}
6116	return DecodeVMOVModImmInstruction(Inst, Insn, Address, Decoder);
6117	}
6118
6119	if (!(imm & `0x20`)) return MCDisassembler::Fail;
6120
6121	if (!Check(Out&: S, In: DecodeQPRRegisterClass(Inst, RegNo: Vd, Address, Decoder)))
6122	return MCDisassembler::Fail;
6123	if (!Check(Out&: S, In: DecodeQPRRegisterClass(Inst, RegNo: Vm, Address, Decoder)))
6124	return MCDisassembler::Fail;
6125	Inst.addOperand(Op: MCOperand::createImm(Val: `64` - imm));
6126
6127	return S;
6128	}
6129
6130	static DecodeStatus
6131	DecodeNEONComplexLane64Instruction(MCInst &Inst, unsigned Insn,
6132	uint64_t Address,
6133	const MCDisassembler *Decoder) {
6134	unsigned Vd = (fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`) << `0`);
6135	Vd \|= (fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `4`);
6136	unsigned Vn = (fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`) << `0`);
6137	Vn \|= (fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`) << `4`);
6138	unsigned Vm = (fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`) << `0`);
6139	Vm \|= (fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `4`);
6140	unsigned q = (fieldFromInstruction(insn: Insn, startBit: `6`, numBits: `1`) << `0`);
6141	unsigned rotate = (fieldFromInstruction(insn: Insn, startBit: `20`, numBits: `2`) << `0`);
6142
6143	DecodeStatus S = MCDisassembler::Success;
6144
6145	auto DestRegDecoder = q ? DecodeQPRRegisterClass : DecodeDPRRegisterClass;
6146
6147	if (!Check(Out&: S, In: DestRegDecoder(Inst, Vd, Address, Decoder)))
6148	return MCDisassembler::Fail;
6149	if (!Check(Out&: S, In: DestRegDecoder(Inst, Vd, Address, Decoder)))
6150	return MCDisassembler::Fail;
6151	if (!Check(Out&: S, In: DestRegDecoder(Inst, Vn, Address, Decoder)))
6152	return MCDisassembler::Fail;
6153	if (!Check(Out&: S, In: DecodeDPRRegisterClass(Inst, RegNo: Vm, Address, Decoder)))
6154	return MCDisassembler::Fail;
6155	// The lane index does not have any bits in the encoding, because it can only
6156	// be 0.
6157	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
6158	Inst.addOperand(Op: MCOperand::createImm(Val: rotate));
6159
6160	return S;
6161	}
6162
6163	static DecodeStatus DecodeLDR(MCInst &Inst, unsigned Val, uint64_t Address,
6164	const MCDisassembler *Decoder) {
6165	DecodeStatus S = MCDisassembler::Success;
6166
6167	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `16`, numBits: `4`);
6168	unsigned Rt = fieldFromInstruction(insn: Val, startBit: `12`, numBits: `4`);
6169	unsigned Rm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `4`);
6170	Rm \|= (fieldFromInstruction(insn: Val, startBit: `23`, numBits: `1`) << `4`);
6171	unsigned Cond = fieldFromInstruction(insn: Val, startBit: `28`, numBits: `4`);
6172
6173	if (fieldFromInstruction(insn: Val, startBit: `8`, numBits: `4`) != `0` \|\| Rn == Rt)
6174	S = MCDisassembler::SoftFail;
6175
6176	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
6177	return MCDisassembler::Fail;
6178	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
6179	return MCDisassembler::Fail;
6180	if (!Check(Out&: S, In: DecodeAddrMode7Operand(Inst, Val: Rn, Address, Decoder)))
6181	return MCDisassembler::Fail;
6182	if (!Check(Out&: S, In: DecodePostIdxReg(Inst, Insn: Rm, Address, Decoder)))
6183	return MCDisassembler::Fail;
6184	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: Cond, Address, Decoder)))
6185	return MCDisassembler::Fail;
6186
6187	return S;
6188	}
6189
6190	static DecodeStatus DecoderForMRRC2AndMCRR2(MCInst &Inst, unsigned Val,
6191	uint64_t Address,
6192	const MCDisassembler *Decoder) {
6193	DecodeStatus S = MCDisassembler::Success;
6194
6195	unsigned CRm = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `4`);
6196	unsigned opc1 = fieldFromInstruction(insn: Val, startBit: `4`, numBits: `4`);
6197	unsigned cop = fieldFromInstruction(insn: Val, startBit: `8`, numBits: `4`);
6198	unsigned Rt = fieldFromInstruction(insn: Val, startBit: `12`, numBits: `4`);
6199	unsigned Rt2 = fieldFromInstruction(insn: Val, startBit: `16`, numBits: `4`);
6200
6201	if ((cop & ~`0x1`) == `0xa`)
6202	return MCDisassembler::Fail;
6203
6204	if (Rt == Rt2)
6205	S = MCDisassembler::SoftFail;
6206
6207	// We have to check if the instruction is MRRC2
6208	// or MCRR2 when constructing the operands for
6209	// Inst. Reason is because MRRC2 stores to two
6210	// registers so it's tablegen desc has two
6211	// outputs whereas MCRR doesn't store to any
6212	// registers so all of it's operands are listed
6213	// as inputs, therefore the operand order for
6214	// MRRC2 needs to be [Rt, Rt2, cop, opc1, CRm]
6215	// and MCRR2 operand order is [cop, opc1, Rt, Rt2, CRm]
6216
6217	if (Inst.getOpcode() == ARM::MRRC2) {
6218	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
6219	return MCDisassembler::Fail;
6220	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
6221	return MCDisassembler::Fail;
6222	}
6223	Inst.addOperand(Op: MCOperand::createImm(Val: cop));
6224	Inst.addOperand(Op: MCOperand::createImm(Val: opc1));
6225	if (Inst.getOpcode() == ARM::MCRR2) {
6226	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
6227	return MCDisassembler::Fail;
6228	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
6229	return MCDisassembler::Fail;
6230	}
6231	Inst.addOperand(Op: MCOperand::createImm(Val: CRm));
6232
6233	return S;
6234	}
6235
6236	static DecodeStatus DecodeForVMRSandVMSR(MCInst &Inst, unsigned Val,
6237	uint64_t Address,
6238	const MCDisassembler *Decoder) {
6239	const FeatureBitset &featureBits =
6240	((const MCDisassembler *)Decoder)->getSubtargetInfo().getFeatureBits();
6241	DecodeStatus S = MCDisassembler::Success;
6242
6243	// Add explicit operand for the destination sysreg, for cases where
6244	// we have to model it for code generation purposes.
6245	switch (Inst.getOpcode()) {
6246	case ARM::VMSR_FPSCR_NZCVQC:
6247	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::FPSCR_NZCV));
6248	break;
6249	case ARM::VMSR_P0:
6250	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6251	break;
6252	}
6253
6254	if (Inst.getOpcode() != ARM::FMSTAT) {
6255	unsigned Rt = fieldFromInstruction(insn: Val, startBit: `12`, numBits: `4`);
6256
6257	if (featureBits [ARM::ModeThumb] && !featureBits [ARM::HasV8Ops]) {
6258	if (Rt == `13` \|\| Rt == `15`)
6259	S = MCDisassembler::SoftFail;
6260	Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder));
6261	} else
6262	Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rt, Address, Decoder));
6263	}
6264
6265	// Add explicit operand for the source sysreg, similarly to above.
6266	switch (Inst.getOpcode()) {
6267	case ARM::VMRS_FPSCR_NZCVQC:
6268	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::FPSCR_NZCV));
6269	break;
6270	case ARM::VMRS_P0:
6271	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6272	break;
6273	}
6274
6275	if (featureBits [ARM::ModeThumb]) {
6276	Inst.addOperand(Op: MCOperand::createImm(Val: ARMCC::AL));
6277	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
6278	} else {
6279	unsigned pred = fieldFromInstruction(insn: Val, startBit: `28`, numBits: `4`);
6280	if (!Check(Out&: S, In: DecodePredicateOperand(Inst, Val: pred, Address, Decoder)))
6281	return MCDisassembler::Fail;
6282	}
6283
6284	return S;
6285	}
6286
6287	template <bool isSigned, bool isNeg, bool zeroPermitted, int size>
6288	static DecodeStatus DecodeBFLabelOperand(MCInst &Inst, unsigned Val,
6289	uint64_t Address,
6290	const MCDisassembler *Decoder) {
6291	DecodeStatus S = MCDisassembler::Success;
6292	if (Val == `0` && !zeroPermitted)
6293	S = MCDisassembler::Fail;
6294
6295	uint64_t DecVal;
6296	if (isSigned)
6297	DecVal = SignExtend32<size + `1`>(Val << `1`);
6298	else
6299	DecVal = (Val << `1`);
6300
6301	if (!tryAddingSymbolicOperand(Address, Value: Address + DecVal + `4`, isBranch: true, InstSize: `4`, MI&: Inst,
6302	Decoder))
6303	Inst.addOperand(Op: MCOperand::createImm(Val: isNeg ? -DecVal : DecVal));
6304	return S;
6305	}
6306
6307	static DecodeStatus DecodeBFAfterTargetOperand(MCInst &Inst, unsigned Val,
6308	uint64_t Address,
6309	const MCDisassembler *Decoder) {
6310
6311	uint64_t LocImm = Inst.getOperand(i: `0`).getImm();
6312	Val = LocImm + (`2` << Val);
6313	if (!tryAddingSymbolicOperand(Address, Value: Address + Val + `4`, isBranch: true, InstSize: `4`, MI&: Inst,
6314	Decoder))
6315	Inst.addOperand(Op: MCOperand::createImm(Val));
6316	return MCDisassembler::Success;
6317	}
6318
6319	static DecodeStatus DecodePredNoALOperand(MCInst &Inst, unsigned Val,
6320	uint64_t Address,
6321	const MCDisassembler *Decoder) {
6322	if (Val >= ARMCC::AL) // also exclude the non-condition NV
6323	return MCDisassembler::Fail;
6324	Inst.addOperand(Op: MCOperand::createImm(Val));
6325	return MCDisassembler::Success;
6326	}
6327
6328	static DecodeStatus DecodeLOLoop(MCInst &Inst, unsigned Insn, uint64_t Address,
6329	const MCDisassembler *Decoder) {
6330	DecodeStatus S = MCDisassembler::Success;
6331
6332	if (Inst.getOpcode() == ARM::MVE_LCTP)
6333	return S;
6334
6335	unsigned Imm = fieldFromInstruction(insn: Insn, startBit: `11`, numBits: `1`) \|
6336	fieldFromInstruction(insn: Insn, startBit: `1`, numBits: `10`) << `1`;
6337	switch (Inst.getOpcode()) {
6338	case ARM::t2LEUpdate:
6339	case ARM::MVE_LETP:
6340	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::LR));
6341	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::LR));
6342	[[fallthrough]];
6343	case ARM::t2LE:
6344	if (!Check(Out&: S, In: DecodeBFLabelOperand<false, true, true, `11`>(
6345	Inst, Val: Imm, Address, Decoder)))
6346	return MCDisassembler::Fail;
6347	break;
6348	case ARM::t2WLS:
6349	case ARM::MVE_WLSTP_8:
6350	case ARM::MVE_WLSTP_16:
6351	case ARM::MVE_WLSTP_32:
6352	case ARM::MVE_WLSTP_64:
6353	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::LR));
6354	if (!Check(Out&: S,
6355	In: DecoderGPRRegisterClass(Inst, RegNo: fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`),
6356	Address, Decoder)) \|\|
6357	!Check(Out&: S, In: DecodeBFLabelOperand<false, false, true, `11`>(
6358	Inst, Val: Imm, Address, Decoder)))
6359	return MCDisassembler::Fail;
6360	break;
6361	case ARM::t2DLS:
6362	case ARM::MVE_DLSTP_8:
6363	case ARM::MVE_DLSTP_16:
6364	case ARM::MVE_DLSTP_32:
6365	case ARM::MVE_DLSTP_64:
6366	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
6367	if (Rn == `0xF`) {
6368	// Enforce all the rest of the instruction bits in LCTP, which
6369	// won't have been reliably checked based on LCTP's own tablegen
6370	// record, because we came to this decode by a roundabout route.
6371	uint32_t CanonicalLCTP = `0xF00FE001`, SBZMask = `0x00300FFE`;
6372	if ((Insn & ~SBZMask) != CanonicalLCTP)
6373	return MCDisassembler::Fail; // a mandatory bit is wrong: hard fail
6374	if (Insn != CanonicalLCTP)
6375	Check(Out&: S, In: MCDisassembler::SoftFail); // an SBZ bit is wrong: soft fail
6376
6377	Inst.setOpcode(ARM::MVE_LCTP);
6378	} else {
6379	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::LR));
6380	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst,
6381	RegNo: fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`),
6382	Address, Decoder)))
6383	return MCDisassembler::Fail;
6384	}
6385	break;
6386	}
6387	return S;
6388	}
6389
6390	static DecodeStatus DecodeLongShiftOperand(MCInst &Inst, unsigned Val,
6391	uint64_t Address,
6392	const MCDisassembler *Decoder) {
6393	DecodeStatus S = MCDisassembler::Success;
6394
6395	if (Val == `0`)
6396	Val = `32`;
6397
6398	Inst.addOperand(Op: MCOperand::createImm(Val));
6399
6400	return S;
6401	}
6402
6403	static DecodeStatus DecodetGPROddRegisterClass(MCInst &Inst, unsigned RegNo,
6404	uint64_t Address,
6405	const MCDisassembler *Decoder) {
6406	if ((RegNo) + `1` > `11`)
6407	return MCDisassembler::Fail;
6408
6409	unsigned Register = GPRDecoderTable[(RegNo) + `1`];
6410	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
6411	return MCDisassembler::Success;
6412	}
6413
6414	static DecodeStatus DecodetGPREvenRegisterClass(MCInst &Inst, unsigned RegNo,
6415	uint64_t Address,
6416	const MCDisassembler *Decoder) {
6417	if ((RegNo) > `14`)
6418	return MCDisassembler::Fail;
6419
6420	unsigned Register = GPRDecoderTable[(RegNo)];
6421	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
6422	return MCDisassembler::Success;
6423	}
6424
6425	static DecodeStatus
6426	DecodeGPRwithAPSR_NZCVnospRegisterClass(MCInst &Inst, unsigned RegNo,
6427	uint64_t Address,
6428	const MCDisassembler *Decoder) {
6429	if (RegNo == `15`) {
6430	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::APSR_NZCV));
6431	return MCDisassembler::Success;
6432	}
6433
6434	unsigned Register = GPRDecoderTable[RegNo];
6435	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
6436
6437	if (RegNo == `13`)
6438	return MCDisassembler::SoftFail;
6439
6440	return MCDisassembler::Success;
6441	}
6442
6443	static DecodeStatus DecodeVSCCLRM(MCInst &Inst, unsigned Insn, uint64_t Address,
6444	const MCDisassembler *Decoder) {
6445	DecodeStatus S = MCDisassembler::Success;
6446
6447	Inst.addOperand(Op: MCOperand::createImm(Val: ARMCC::AL));
6448	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
6449	if (Inst.getOpcode() == ARM::VSCCLRMD) {
6450	unsigned reglist = (fieldFromInstruction(insn: Insn, startBit: `1`, numBits: `7`) << `1`) \|
6451	(fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`) << `8`) \|
6452	(fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `12`);
6453	if (!Check(Out&: S, In: DecodeDPRRegListOperand(Inst, Val: reglist, Address, Decoder))) {
6454	return MCDisassembler::Fail;
6455	}
6456	} else {
6457	unsigned reglist = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`) \|
6458	(fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `8`) \|
6459	(fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`) << `9`);
6460	if (!Check(Out&: S, In: DecodeSPRRegListOperand(Inst, Val: reglist, Address, Decoder))) {
6461	return MCDisassembler::Fail;
6462	}
6463	}
6464	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6465
6466	return S;
6467	}
6468
6469	static DecodeStatus DecodeMQPRRegisterClass(MCInst &Inst, unsigned RegNo,
6470	uint64_t Address,
6471	const MCDisassembler *Decoder) {
6472	if (RegNo > `7`)
6473	return MCDisassembler::Fail;
6474
6475	unsigned Register = QPRDecoderTable[RegNo];
6476	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
6477	return MCDisassembler::Success;
6478	}
6479
6480	static const uint16_t QQPRDecoderTable[] = {
6481	ARM::Q0_Q1, ARM::Q1_Q2, ARM::Q2_Q3, ARM::Q3_Q4,
6482	ARM::Q4_Q5, ARM::Q5_Q6, ARM::Q6_Q7
6483	};
6484
6485	static DecodeStatus DecodeMQQPRRegisterClass(MCInst &Inst, unsigned RegNo,
6486	uint64_t Address,
6487	const MCDisassembler *Decoder) {
6488	if (RegNo > `6`)
6489	return MCDisassembler::Fail;
6490
6491	unsigned Register = QQPRDecoderTable[RegNo];
6492	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
6493	return MCDisassembler::Success;
6494	}
6495
6496	static const uint16_t QQQQPRDecoderTable[] = {
6497	ARM::Q0_Q1_Q2_Q3, ARM::Q1_Q2_Q3_Q4, ARM::Q2_Q3_Q4_Q5,
6498	ARM::Q3_Q4_Q5_Q6, ARM::Q4_Q5_Q6_Q7
6499	};
6500
6501	static DecodeStatus DecodeMQQQQPRRegisterClass(MCInst &Inst, unsigned RegNo,
6502	uint64_t Address,
6503	const MCDisassembler *Decoder) {
6504	if (RegNo > `4`)
6505	return MCDisassembler::Fail;
6506
6507	unsigned Register = QQQQPRDecoderTable[RegNo];
6508	Inst.addOperand(Op: MCOperand::createReg(Reg: Register));
6509	return MCDisassembler::Success;
6510	}
6511
6512	static DecodeStatus DecodeVPTMaskOperand(MCInst &Inst, unsigned Val,
6513	uint64_t Address,
6514	const MCDisassembler *Decoder) {
6515	DecodeStatus S = MCDisassembler::Success;
6516
6517	// Parse VPT mask and encode it in the MCInst as an immediate with the same
6518	// format as the it_mask. That is, from the second 'e\|t' encode 'e' as 1 and
6519	// 't' as 0 and finish with a 1.
6520	unsigned Imm = `0`;
6521	// We always start with a 't'.
6522	unsigned CurBit = `0`;
6523	for (int i = `3`; i >= `0`; --i) {
6524	// If the bit we are looking at is not the same as last one, invert the
6525	// CurBit, if it is the same leave it as is.
6526	CurBit ^= (Val >> i) & `1U`;
6527
6528	// Encode the CurBit at the right place in the immediate.
6529	Imm \|= (CurBit << i);
6530
6531	// If we are done, finish the encoding with a 1.
6532	if ((Val & ~(~`0U` << i)) == `0`) {
6533	Imm \|= `1U` << i;
6534	break;
6535	}
6536	}
6537
6538	Inst.addOperand(Op: MCOperand::createImm(Val: Imm));
6539
6540	return S;
6541	}
6542
6543	static DecodeStatus DecodeVpredROperand(MCInst &Inst, unsigned RegNo,
6544	uint64_t Address,
6545	const MCDisassembler *Decoder) {
6546	// The vpred_r operand type includes an MQPR register field derived
6547	// from the encoding. But we don't actually want to add an operand
6548	// to the MCInst at this stage, because AddThumbPredicate will do it
6549	// later, and will infer the register number from the TIED_TO
6550	// constraint. So this is a deliberately empty decoder method that
6551	// will inhibit the auto-generated disassembly code from adding an
6552	// operand at all.
6553	return MCDisassembler::Success;
6554	}
6555
6556	[[maybe_unused]] static DecodeStatus
6557	DecodeVpredNOperand(MCInst &Inst, unsigned RegNo, uint64_t Address,
6558	const MCDisassembler *Decoder) {
6559	// Similar to above, we want to ensure that no operands are added for the
6560	// vpred operands. (This is marked "maybe_unused" for the moment; because
6561	// DecoderEmitter currently (wrongly) omits operands with no instruction bits,
6562	// the decoder doesn't actually call it yet. That will be addressed in a
6563	// future change.)
6564	return MCDisassembler::Success;
6565	}
6566
6567	static DecodeStatus
6568	DecodeRestrictedIPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
6569	const MCDisassembler *Decoder) {
6570	Inst.addOperand(Op: MCOperand::createImm(Val: (Val & `0x1`) == `0` ? ARMCC::EQ : ARMCC::NE));
6571	return MCDisassembler::Success;
6572	}
6573
6574	static DecodeStatus
6575	DecodeRestrictedSPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
6576	const MCDisassembler *Decoder) {
6577	unsigned Code;
6578	switch (Val & `0x3`) {
6579	case `0`:
6580	Code = ARMCC::GE;
6581	break;
6582	case `1`:
6583	Code = ARMCC::LT;
6584	break;
6585	case `2`:
6586	Code = ARMCC::GT;
6587	break;
6588	case `3`:
6589	Code = ARMCC::LE;
6590	break;
6591	}
6592	Inst.addOperand(Op: MCOperand::createImm(Val: Code));
6593	return MCDisassembler::Success;
6594	}
6595
6596	static DecodeStatus
6597	DecodeRestrictedUPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
6598	const MCDisassembler *Decoder) {
6599	Inst.addOperand(Op: MCOperand::createImm(Val: (Val & `0x1`) == `0` ? ARMCC::HS : ARMCC::HI));
6600	return MCDisassembler::Success;
6601	}
6602
6603	static DecodeStatus
6604	DecodeRestrictedFPPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
6605	const MCDisassembler *Decoder) {
6606	unsigned Code;
6607	switch (Val) {
6608	default:
6609	return MCDisassembler::Fail;
6610	case `0`:
6611	Code = ARMCC::EQ;
6612	break;
6613	case `1`:
6614	Code = ARMCC::NE;
6615	break;
6616	case `4`:
6617	Code = ARMCC::GE;
6618	break;
6619	case `5`:
6620	Code = ARMCC::LT;
6621	break;
6622	case `6`:
6623	Code = ARMCC::GT;
6624	break;
6625	case `7`:
6626	Code = ARMCC::LE;
6627	break;
6628	}
6629
6630	Inst.addOperand(Op: MCOperand::createImm(Val: Code));
6631	return MCDisassembler::Success;
6632	}
6633
6634	static DecodeStatus DecodeVCVTImmOperand(MCInst &Inst, unsigned Val,
6635	uint64_t Address,
6636	const MCDisassembler *Decoder) {
6637	DecodeStatus S = MCDisassembler::Success;
6638
6639	unsigned DecodedVal = `64` - Val;
6640
6641	switch (Inst.getOpcode()) {
6642	case ARM::MVE_VCVTf16s16_fix:
6643	case ARM::MVE_VCVTs16f16_fix:
6644	case ARM::MVE_VCVTf16u16_fix:
6645	case ARM::MVE_VCVTu16f16_fix:
6646	if (DecodedVal > `16`)
6647	return MCDisassembler::Fail;
6648	break;
6649	case ARM::MVE_VCVTf32s32_fix:
6650	case ARM::MVE_VCVTs32f32_fix:
6651	case ARM::MVE_VCVTf32u32_fix:
6652	case ARM::MVE_VCVTu32f32_fix:
6653	if (DecodedVal > `32`)
6654	return MCDisassembler::Fail;
6655	break;
6656	}
6657
6658	Inst.addOperand(Op: MCOperand::createImm(Val: `64` - Val));
6659
6660	return S;
6661	}
6662
6663	static unsigned FixedRegForVSTRVLDR_SYSREG(unsigned Opcode) {
6664	switch (Opcode) {
6665	case ARM::VSTR_P0_off:
6666	case ARM::VSTR_P0_pre:
6667	case ARM::VSTR_P0_post:
6668	case ARM::VLDR_P0_off:
6669	case ARM::VLDR_P0_pre:
6670	case ARM::VLDR_P0_post:
6671	return ARM::P0;
6672	default:
6673	return `0`;
6674	}
6675	}
6676
6677	template <bool Writeback>
6678	static DecodeStatus DecodeVSTRVLDR_SYSREG(MCInst &Inst, unsigned Val,
6679	uint64_t Address,
6680	const MCDisassembler *Decoder) {
6681	switch (Inst.getOpcode()) {
6682	case ARM::VSTR_FPSCR_pre:
6683	case ARM::VSTR_FPSCR_NZCVQC_pre:
6684	case ARM::VLDR_FPSCR_pre:
6685	case ARM::VLDR_FPSCR_NZCVQC_pre:
6686	case ARM::VSTR_FPSCR_off:
6687	case ARM::VSTR_FPSCR_NZCVQC_off:
6688	case ARM::VLDR_FPSCR_off:
6689	case ARM::VLDR_FPSCR_NZCVQC_off:
6690	case ARM::VSTR_FPSCR_post:
6691	case ARM::VSTR_FPSCR_NZCVQC_post:
6692	case ARM::VLDR_FPSCR_post:
6693	case ARM::VLDR_FPSCR_NZCVQC_post:
6694	const FeatureBitset &featureBits =
6695	((const MCDisassembler *)Decoder)->getSubtargetInfo().getFeatureBits();
6696
6697	if (!featureBits [ARM::HasMVEIntegerOps] && !featureBits [ARM::FeatureVFP2])
6698	return MCDisassembler::Fail;
6699	}
6700
6701	DecodeStatus S = MCDisassembler::Success;
6702	if (unsigned Sysreg = FixedRegForVSTRVLDR_SYSREG(Opcode: Inst.getOpcode()))
6703	Inst.addOperand(Op: MCOperand::createReg(Reg: Sysreg));
6704	unsigned Rn = fieldFromInstruction(insn: Val, startBit: `16`, numBits: `4`);
6705	unsigned addr = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `7`) \|
6706	(fieldFromInstruction(insn: Val, startBit: `23`, numBits: `1`) << `7`) \| (Rn << `8`);
6707
6708	if (Writeback) {
6709	if (!Check(Out&: S, In: DecodeGPRnopcRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
6710	return MCDisassembler::Fail;
6711	}
6712	if (!Check(Out&: S, In: DecodeT2AddrModeImm7s4(Inst, Val: addr, Address, Decoder)))
6713	return MCDisassembler::Fail;
6714
6715	Inst.addOperand(Op: MCOperand::createImm(Val: ARMCC::AL));
6716	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
6717
6718	return S;
6719	}
6720
6721	static inline DecodeStatus
6722	DecodeMVE_MEM_pre(MCInst &Inst, unsigned Val, uint64_t Address,
6723	const MCDisassembler Decoder, unsigned* Rn,
6724	OperandDecoder RnDecoder, OperandDecoder AddrDecoder) {
6725	DecodeStatus S = MCDisassembler::Success;
6726
6727	unsigned Qd = fieldFromInstruction(insn: Val, startBit: `13`, numBits: `3`);
6728	unsigned addr = fieldFromInstruction(insn: Val, startBit: `0`, numBits: `7`) \|
6729	(fieldFromInstruction(insn: Val, startBit: `23`, numBits: `1`) << `7`) \| (Rn << `8`);
6730
6731	if (!Check(Out&: S, In: RnDecoder(Inst, Rn, Address, Decoder)))
6732	return MCDisassembler::Fail;
6733	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
6734	return MCDisassembler::Fail;
6735	if (!Check(Out&: S, In: AddrDecoder(Inst, addr, Address, Decoder)))
6736	return MCDisassembler::Fail;
6737
6738	return S;
6739	}
6740
6741	template <int shift>
6742	static DecodeStatus DecodeMVE_MEM_1_pre(MCInst &Inst, unsigned Val,
6743	uint64_t Address,
6744	const MCDisassembler *Decoder) {
6745	return DecodeMVE_MEM_pre(Inst, Val, Address, Decoder,
6746	fieldFromInstruction(insn: Val, startBit: `16`, numBits: `3`),
6747	DecodetGPRRegisterClass,
6748	DecodeTAddrModeImm7<shift>);
6749	}
6750
6751	template <int shift>
6752	static DecodeStatus DecodeMVE_MEM_2_pre(MCInst &Inst, unsigned Val,
6753	uint64_t Address,
6754	const MCDisassembler *Decoder) {
6755	return DecodeMVE_MEM_pre(Inst, Val, Address, Decoder,
6756	fieldFromInstruction(insn: Val, startBit: `16`, numBits: `4`),
6757	DecoderGPRRegisterClass,
6758	DecodeT2AddrModeImm7<shift,`1`>);
6759	}
6760
6761	template <int shift>
6762	static DecodeStatus DecodeMVE_MEM_3_pre(MCInst &Inst, unsigned Val,
6763	uint64_t Address,
6764	const MCDisassembler *Decoder) {
6765	return DecodeMVE_MEM_pre(Inst, Val, Address, Decoder,
6766	fieldFromInstruction(insn: Val, startBit: `17`, numBits: `3`),
6767	DecodeMQPRRegisterClass,
6768	DecodeMveAddrModeQ<shift>);
6769	}
6770
6771	template <unsigned MinLog, unsigned MaxLog>
6772	static DecodeStatus DecodePowerTwoOperand(MCInst &Inst, unsigned Val,
6773	uint64_t Address,
6774	const MCDisassembler *Decoder) {
6775	DecodeStatus S = MCDisassembler::Success;
6776
6777	if (Val < MinLog \|\| Val > MaxLog)
6778	return MCDisassembler::Fail;
6779
6780	Inst.addOperand(Op: MCOperand::createImm(Val: `1LL` << Val));
6781	return S;
6782	}
6783
6784	template <unsigned start>
6785	static DecodeStatus
6786	DecodeMVEPairVectorIndexOperand(MCInst &Inst, unsigned Val, uint64_t Address,
6787	const MCDisassembler *Decoder) {
6788	DecodeStatus S = MCDisassembler::Success;
6789
6790	Inst.addOperand(Op: MCOperand::createImm(Val: start + Val));
6791
6792	return S;
6793	}
6794
6795	static DecodeStatus DecodeMVEVMOVQtoDReg(MCInst &Inst, unsigned Insn,
6796	uint64_t Address,
6797	const MCDisassembler *Decoder) {
6798	DecodeStatus S = MCDisassembler::Success;
6799	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
6800	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
6801	unsigned Qd = ((fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `3`) \|
6802	fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `3`));
6803	unsigned index = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`);
6804
6805	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
6806	return MCDisassembler::Fail;
6807	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
6808	return MCDisassembler::Fail;
6809	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
6810	return MCDisassembler::Fail;
6811	if (!Check(Out&: S, In: DecodeMVEPairVectorIndexOperand<`2`>(Inst, Val: index, Address, Decoder)))
6812	return MCDisassembler::Fail;
6813	if (!Check(Out&: S, In: DecodeMVEPairVectorIndexOperand<`0`>(Inst, Val: index, Address, Decoder)))
6814	return MCDisassembler::Fail;
6815
6816	return S;
6817	}
6818
6819	static DecodeStatus DecodeMVEVMOVDRegtoQ(MCInst &Inst, unsigned Insn,
6820	uint64_t Address,
6821	const MCDisassembler *Decoder) {
6822	DecodeStatus S = MCDisassembler::Success;
6823	unsigned Rt = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
6824	unsigned Rt2 = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
6825	unsigned Qd = ((fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `3`) \|
6826	fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `3`));
6827	unsigned index = fieldFromInstruction(insn: Insn, startBit: `4`, numBits: `1`);
6828
6829	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
6830	return MCDisassembler::Fail;
6831	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
6832	return MCDisassembler::Fail;
6833	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt, Address, Decoder)))
6834	return MCDisassembler::Fail;
6835	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rt2, Address, Decoder)))
6836	return MCDisassembler::Fail;
6837	if (!Check(Out&: S, In: DecodeMVEPairVectorIndexOperand<`2`>(Inst, Val: index, Address, Decoder)))
6838	return MCDisassembler::Fail;
6839	if (!Check(Out&: S, In: DecodeMVEPairVectorIndexOperand<`0`>(Inst, Val: index, Address, Decoder)))
6840	return MCDisassembler::Fail;
6841
6842	return S;
6843	}
6844
6845	static DecodeStatus
6846	DecodeMVEOverlappingLongShift(MCInst &Inst, unsigned Insn, uint64_t Address,
6847	const MCDisassembler *Decoder) {
6848	DecodeStatus S = MCDisassembler::Success;
6849
6850	unsigned RdaLo = fieldFromInstruction(insn: Insn, startBit: `17`, numBits: `3`) << `1`;
6851	unsigned RdaHi = fieldFromInstruction(insn: Insn, startBit: `9`, numBits: `3`) << `1`;
6852	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `4`);
6853
6854	if (RdaHi == `14`) {
6855	// This value of RdaHi (really indicating pc, because RdaHi has to
6856	// be an odd-numbered register, so the low bit will be set by the
6857	// decode function below) indicates that we must decode as SQRSHR
6858	// or UQRSHL, which both have a single Rda register field with all
6859	// four bits.
6860	unsigned Rda = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
6861
6862	switch (Inst.getOpcode()) {
6863	case ARM::MVE_ASRLr:
6864	case ARM::MVE_SQRSHRL:
6865	Inst.setOpcode(ARM::MVE_SQRSHR);
6866	break;
6867	case ARM::MVE_LSLLr:
6868	case ARM::MVE_UQRSHLL:
6869	Inst.setOpcode(ARM::MVE_UQRSHL);
6870	break;
6871	default:
6872	llvm_unreachable("Unexpected starting opcode!");
6873	}
6874
6875	// Rda as output parameter
6876	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rda, Address, Decoder)))
6877	return MCDisassembler::Fail;
6878
6879	// Rda again as input parameter
6880	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rda, Address, Decoder)))
6881	return MCDisassembler::Fail;
6882
6883	// Rm, the amount to shift by
6884	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
6885	return MCDisassembler::Fail;
6886
6887	if (fieldFromInstruction (insn: Insn, startBit: `6`, numBits: `3`) != `4`)
6888	return MCDisassembler::SoftFail;
6889
6890	if (Rda == Rm)
6891	return MCDisassembler::SoftFail;
6892
6893	return S;
6894	}
6895
6896	// Otherwise, we decode as whichever opcode our caller has already
6897	// put into Inst. Those all look the same:
6898
6899	// RdaLo,RdaHi as output parameters
6900	if (!Check(Out&: S, In: DecodetGPREvenRegisterClass(Inst, RegNo: RdaLo, Address, Decoder)))
6901	return MCDisassembler::Fail;
6902	if (!Check(Out&: S, In: DecodetGPROddRegisterClass(Inst, RegNo: RdaHi, Address, Decoder)))
6903	return MCDisassembler::Fail;
6904
6905	// RdaLo,RdaHi again as input parameters
6906	if (!Check(Out&: S, In: DecodetGPREvenRegisterClass(Inst, RegNo: RdaLo, Address, Decoder)))
6907	return MCDisassembler::Fail;
6908	if (!Check(Out&: S, In: DecodetGPROddRegisterClass(Inst, RegNo: RdaHi, Address, Decoder)))
6909	return MCDisassembler::Fail;
6910
6911	// Rm, the amount to shift by
6912	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
6913	return MCDisassembler::Fail;
6914
6915	if (Inst.getOpcode() == ARM::MVE_SQRSHRL \|\|
6916	Inst.getOpcode() == ARM::MVE_UQRSHLL) {
6917	unsigned Saturate = fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`);
6918	// Saturate, the bit position for saturation
6919	Inst.addOperand(Op: MCOperand::createImm(Val: Saturate));
6920	}
6921
6922	return S;
6923	}
6924
6925	static DecodeStatus DecodeMVEVCVTt1fp(MCInst &Inst, unsigned Insn,
6926	uint64_t Address,
6927	const MCDisassembler *Decoder) {
6928	DecodeStatus S = MCDisassembler::Success;
6929	unsigned Qd = ((fieldFromInstruction(insn: Insn, startBit: `22`, numBits: `1`) << `3`) \|
6930	fieldFromInstruction(insn: Insn, startBit: `13`, numBits: `3`));
6931	unsigned Qm = ((fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `3`) \|
6932	fieldFromInstruction(insn: Insn, startBit: `1`, numBits: `3`));
6933	unsigned imm6 = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `6`);
6934
6935	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qd, Address, Decoder)))
6936	return MCDisassembler::Fail;
6937	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qm, Address, Decoder)))
6938	return MCDisassembler::Fail;
6939	if (!Check(Out&: S, In: DecodeVCVTImmOperand(Inst, Val: imm6, Address, Decoder)))
6940	return MCDisassembler::Fail;
6941
6942	return S;
6943	}
6944
6945	template <bool scalar, OperandDecoder predicate_decoder>
6946	static DecodeStatus DecodeMVEVCMP(MCInst &Inst, unsigned Insn, uint64_t Address,
6947	const MCDisassembler *Decoder) {
6948	DecodeStatus S = MCDisassembler::Success;
6949	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6950	unsigned Qn = fieldFromInstruction(insn: Insn, startBit: `17`, numBits: `3`);
6951	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qn, Address, Decoder)))
6952	return MCDisassembler::Fail;
6953
6954	unsigned fc;
6955
6956	if (scalar) {
6957	fc = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `1`) << `2` \|
6958	fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`) \|
6959	fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `1`;
6960	unsigned Rm = fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `4`);
6961	if (!Check(Out&: S, In: DecodeGPRwithZRRegisterClass(Inst, RegNo: Rm, Address, Decoder)))
6962	return MCDisassembler::Fail;
6963	} else {
6964	fc = fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `1`) << `2` \|
6965	fieldFromInstruction(insn: Insn, startBit: `7`, numBits: `1`) \|
6966	fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `1`) << `1`;
6967	unsigned Qm = fieldFromInstruction(insn: Insn, startBit: `5`, numBits: `1`) << `4` \|
6968	fieldFromInstruction(insn: Insn, startBit: `1`, numBits: `3`);
6969	if (!Check(Out&: S, In: DecodeMQPRRegisterClass(Inst, RegNo: Qm, Address, Decoder)))
6970	return MCDisassembler::Fail;
6971	}
6972
6973	if (!Check(Out&: S, In: predicate_decoder(Inst, fc, Address, Decoder)))
6974	return MCDisassembler::Fail;
6975
6976	Inst.addOperand(Op: MCOperand::createImm(Val: ARMVCC::None));
6977	Inst.addOperand(Op: MCOperand::createReg(Reg: `0`));
6978	Inst.addOperand(Op: MCOperand::createImm(Val: `0`));
6979
6980	return S;
6981	}
6982
6983	static DecodeStatus DecodeMveVCTP(MCInst &Inst, unsigned Insn, uint64_t Address,
6984	const MCDisassembler *Decoder) {
6985	DecodeStatus S = MCDisassembler::Success;
6986	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6987	unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
6988	if (!Check(Out&: S, In: DecoderGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
6989	return MCDisassembler::Fail;
6990	return S;
6991	}
6992
6993	static DecodeStatus DecodeMVEVPNOT(MCInst &Inst, unsigned Insn,
6994	uint64_t Address,
6995	const MCDisassembler *Decoder) {
6996	DecodeStatus S = MCDisassembler::Success;
6997	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6998	Inst.addOperand(Op: MCOperand::createReg(Reg: ARM::VPR));
6999	return S;
7000	}
7001
7002	static DecodeStatus DecodeT2AddSubSPImm(MCInst &Inst, unsigned Insn,
7003	uint64_t Address,
7004	const MCDisassembler *Decoder) {
7005	const unsigned Rd = fieldFromInstruction(insn: Insn, startBit: `8`, numBits: `4`);
7006	const unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
7007	const unsigned Imm12 = fieldFromInstruction(insn: Insn, startBit: `26`, numBits: `1`) << `11` \|
7008	fieldFromInstruction(insn: Insn, startBit: `12`, numBits: `3`) << `8` \|
7009	fieldFromInstruction(insn: Insn, startBit: `0`, numBits: `8`);
7010	const unsigned TypeT3 = fieldFromInstruction(insn: Insn, startBit: `25`, numBits: `1`);
7011	unsigned sign1 = fieldFromInstruction(insn: Insn, startBit: `21`, numBits: `1`);
7012	unsigned sign2 = fieldFromInstruction(insn: Insn, startBit: `23`, numBits: `1`);
7013	unsigned S = fieldFromInstruction(insn: Insn, startBit: `20`, numBits: `1`);
7014	if (sign1 != sign2)
7015	return MCDisassembler::Fail;
7016
7017	// T3 does a zext of imm12, where T2 does a ThumbExpandImm (T2SOImm)
7018	DecodeStatus DS = MCDisassembler::Success;
7019	if ((!Check(Out&: DS,
7020	In: DecodeGPRspRegisterClass(Inst, RegNo: Rd, Address, Decoder))) \|\| // dst
7021	(!Check(Out&: DS, In: DecodeGPRspRegisterClass(Inst, RegNo: Rn, Address, Decoder))))
7022	return MCDisassembler::Fail;
7023	if (TypeT3) {
7024	Inst.setOpcode(sign1 ? ARM::t2SUBspImm12 : ARM::t2ADDspImm12);
7025	Inst.addOperand(Op: MCOperand::createImm(Val: Imm12)); // zext imm12
7026	} else {
7027	Inst.setOpcode(sign1 ? ARM::t2SUBspImm : ARM::t2ADDspImm);
7028	if (!Check(Out&: DS, In: DecodeT2SOImm(Inst, Val: Imm12, Address, Decoder))) // imm12
7029	return MCDisassembler::Fail;
7030	if (!Check(Out&: DS, In: DecodeCCOutOperand(Inst, Val: S, Address, Decoder))) // cc_out
7031	return MCDisassembler::Fail;
7032	}
7033
7034	return DS;
7035	}
7036
7037	static DecodeStatus DecodeLazyLoadStoreMul(MCInst &Inst, unsigned Insn,
7038	uint64_t Address,
7039	const MCDisassembler *Decoder) {
7040	DecodeStatus S = MCDisassembler::Success;
7041
7042	const unsigned Rn = fieldFromInstruction(insn: Insn, startBit: `16`, numBits: `4`);
7043	// Adding Rn, holding memory location to save/load to/from, the only argument
7044	// that is being encoded.
7045	// '$Rn' in the assembly.
7046	if (!Check(Out&: S, In: DecodeGPRRegisterClass(Inst, RegNo: Rn, Address, Decoder)))
7047	return MCDisassembler::Fail;
7048	// An optional predicate, '$p' in the assembly.
7049	DecodePredicateOperand(Inst, Val: ARMCC::AL, Address, Decoder);
7050	// An immediate that represents a floating point registers list. '$regs' in
7051	// the assembly.
7052	Inst.addOperand(Op: MCOperand::createImm(Val: `0`)); // Arbitrary value, has no effect.
7053
7054	return S;
7055	}
7056

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