1 // Copyright 2013 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #ifndef V8_ARM64_CONSTANTS_ARM64_H_
6 #define V8_ARM64_CONSTANTS_ARM64_H_
7 
8 #include "src/base/macros.h"
9 #include "src/globals.h"
10 
11 // Assert that this is an LP64 system.
12 STATIC_ASSERT(sizeof(int) == sizeof(int32_t));
13 STATIC_ASSERT(sizeof(long) == sizeof(int64_t));    // NOLINT(runtime/int)
14 STATIC_ASSERT(sizeof(void *) == sizeof(int64_t));
15 STATIC_ASSERT(sizeof(1) == sizeof(int32_t));
16 STATIC_ASSERT(sizeof(1L) == sizeof(int64_t));
17 
18 
19 // Get the standard printf format macros for C99 stdint types.
20 #ifndef __STDC_FORMAT_MACROS
21 #define __STDC_FORMAT_MACROS
22 #endif
23 #include <inttypes.h>
24 
25 
26 namespace v8 {
27 namespace internal {
28 
29 
30 const unsigned kInstructionSize = 4;
31 const unsigned kInstructionSizeLog2 = 2;
32 const unsigned kLoadLiteralScaleLog2 = 2;
33 const unsigned kMaxLoadLiteralRange = 1 * MB;
34 
35 const int kNumberOfRegisters = 32;
36 const int kNumberOfFPRegisters = 32;
37 // Callee saved registers are x19-x30(lr).
38 const int kNumberOfCalleeSavedRegisters = 11;
39 const int kFirstCalleeSavedRegisterIndex = 19;
40 // Callee saved FP registers are d8-d15.
41 const int kNumberOfCalleeSavedFPRegisters = 8;
42 const int kFirstCalleeSavedFPRegisterIndex = 8;
43 // Callee saved registers with no specific purpose in JS are x19-x25.
44 const unsigned kJSCalleeSavedRegList = 0x03f80000;
45 const int kWRegSizeInBits = 32;
46 const int kWRegSizeInBitsLog2 = 5;
47 const int kWRegSize = kWRegSizeInBits >> 3;
48 const int kWRegSizeLog2 = kWRegSizeInBitsLog2 - 3;
49 const int kXRegSizeInBits = 64;
50 const int kXRegSizeInBitsLog2 = 6;
51 const int kXRegSize = kXRegSizeInBits >> 3;
52 const int kXRegSizeLog2 = kXRegSizeInBitsLog2 - 3;
53 const int kSRegSizeInBits = 32;
54 const int kSRegSizeInBitsLog2 = 5;
55 const int kSRegSize = kSRegSizeInBits >> 3;
56 const int kSRegSizeLog2 = kSRegSizeInBitsLog2 - 3;
57 const int kDRegSizeInBits = 64;
58 const int kDRegSizeInBitsLog2 = 6;
59 const int kDRegSize = kDRegSizeInBits >> 3;
60 const int kDRegSizeLog2 = kDRegSizeInBitsLog2 - 3;
61 const int64_t kWRegMask = 0x00000000ffffffffL;
62 const int64_t kXRegMask = 0xffffffffffffffffL;
63 const int64_t kSRegMask = 0x00000000ffffffffL;
64 const int64_t kDRegMask = 0xffffffffffffffffL;
65 // TODO(all) check if the expression below works on all compilers or if it
66 // triggers an overflow error.
67 const int64_t kDSignBit = 63;
68 const int64_t kDSignMask = 0x1L << kDSignBit;
69 const int64_t kSSignBit = 31;
70 const int64_t kSSignMask = 0x1L << kSSignBit;
71 const int64_t kXSignBit = 63;
72 const int64_t kXSignMask = 0x1L << kXSignBit;
73 const int64_t kWSignBit = 31;
74 const int64_t kWSignMask = 0x1L << kWSignBit;
75 const int64_t kDQuietNanBit = 51;
76 const int64_t kDQuietNanMask = 0x1L << kDQuietNanBit;
77 const int64_t kSQuietNanBit = 22;
78 const int64_t kSQuietNanMask = 0x1L << kSQuietNanBit;
79 const int64_t kByteMask = 0xffL;
80 const int64_t kHalfWordMask = 0xffffL;
81 const int64_t kWordMask = 0xffffffffL;
82 const uint64_t kXMaxUInt = 0xffffffffffffffffUL;
83 const uint64_t kWMaxUInt = 0xffffffffUL;
84 const int64_t kXMaxInt = 0x7fffffffffffffffL;
85 const int64_t kXMinInt = 0x8000000000000000L;
86 const int32_t kWMaxInt = 0x7fffffff;
87 const int32_t kWMinInt = 0x80000000;
88 const int kIp0Code = 16;
89 const int kIp1Code = 17;
90 const int kFramePointerRegCode = 29;
91 const int kLinkRegCode = 30;
92 const int kZeroRegCode = 31;
93 const int kJSSPCode = 28;
94 const int kSPRegInternalCode = 63;
95 const unsigned kRegCodeMask = 0x1f;
96 const unsigned kShiftAmountWRegMask = 0x1f;
97 const unsigned kShiftAmountXRegMask = 0x3f;
98 // Standard machine types defined by AAPCS64.
99 const unsigned kByteSize = 8;
100 const unsigned kByteSizeInBytes = kByteSize >> 3;
101 const unsigned kHalfWordSize = 16;
102 const unsigned kHalfWordSizeLog2 = 4;
103 const unsigned kHalfWordSizeInBytes = kHalfWordSize >> 3;
104 const unsigned kHalfWordSizeInBytesLog2 = kHalfWordSizeLog2 - 3;
105 const unsigned kWordSize = 32;
106 const unsigned kWordSizeLog2 = 5;
107 const unsigned kWordSizeInBytes = kWordSize >> 3;
108 const unsigned kWordSizeInBytesLog2 = kWordSizeLog2 - 3;
109 const unsigned kDoubleWordSize = 64;
110 const unsigned kDoubleWordSizeInBytes = kDoubleWordSize >> 3;
111 const unsigned kQuadWordSize = 128;
112 const unsigned kQuadWordSizeInBytes = kQuadWordSize >> 3;
113 // AArch64 floating-point specifics. These match IEEE-754.
114 const unsigned kDoubleMantissaBits = 52;
115 const unsigned kDoubleExponentBits = 11;
116 const unsigned kDoubleExponentBias = 1023;
117 const unsigned kFloatMantissaBits = 23;
118 const unsigned kFloatExponentBits = 8;
119 
120 #define INSTRUCTION_FIELDS_LIST(V_)                                            \
121 /* Register fields */                                                          \
122 V_(Rd, 4, 0, Bits)                        /* Destination register.     */      \
123 V_(Rn, 9, 5, Bits)                        /* First source register.    */      \
124 V_(Rm, 20, 16, Bits)                      /* Second source register.   */      \
125 V_(Ra, 14, 10, Bits)                      /* Third source register.    */      \
126 V_(Rt, 4, 0, Bits)                        /* Load dest / store source. */      \
127 V_(Rt2, 14, 10, Bits)                     /* Load second dest /        */      \
128                                          /* store second source.      */       \
129 V_(PrefetchMode, 4, 0, Bits)                                                   \
130                                                                                \
131 /* Common bits */                                                              \
132 V_(SixtyFourBits, 31, 31, Bits)                                                \
133 V_(FlagsUpdate, 29, 29, Bits)                                                  \
134                                                                                \
135 /* PC relative addressing */                                                   \
136 V_(ImmPCRelHi, 23, 5, SignedBits)                                              \
137 V_(ImmPCRelLo, 30, 29, Bits)                                                   \
138                                                                                \
139 /* Add/subtract/logical shift register */                                      \
140 V_(ShiftDP, 23, 22, Bits)                                                      \
141 V_(ImmDPShift, 15, 10, Bits)                                                   \
142                                                                                \
143 /* Add/subtract immediate */                                                   \
144 V_(ImmAddSub, 21, 10, Bits)                                                    \
145 V_(ShiftAddSub, 23, 22, Bits)                                                  \
146                                                                                \
147 /* Add/substract extend */                                                     \
148 V_(ImmExtendShift, 12, 10, Bits)                                               \
149 V_(ExtendMode, 15, 13, Bits)                                                   \
150                                                                                \
151 /* Move wide */                                                                \
152 V_(ImmMoveWide, 20, 5, Bits)                                                   \
153 V_(ShiftMoveWide, 22, 21, Bits)                                                \
154                                                                                \
155 /* Logical immediate, bitfield and extract */                                  \
156 V_(BitN, 22, 22, Bits)                                                         \
157 V_(ImmRotate, 21, 16, Bits)                                                    \
158 V_(ImmSetBits, 15, 10, Bits)                                                   \
159 V_(ImmR, 21, 16, Bits)                                                         \
160 V_(ImmS, 15, 10, Bits)                                                         \
161                                                                                \
162 /* Test and branch immediate */                                                \
163 V_(ImmTestBranch, 18, 5, SignedBits)                                           \
164 V_(ImmTestBranchBit40, 23, 19, Bits)                                           \
165 V_(ImmTestBranchBit5, 31, 31, Bits)                                            \
166                                                                                \
167 /* Conditionals */                                                             \
168 V_(Condition, 15, 12, Bits)                                                    \
169 V_(ConditionBranch, 3, 0, Bits)                                                \
170 V_(Nzcv, 3, 0, Bits)                                                           \
171 V_(ImmCondCmp, 20, 16, Bits)                                                   \
172 V_(ImmCondBranch, 23, 5, SignedBits)                                           \
173                                                                                \
174 /* Floating point */                                                           \
175 V_(FPType, 23, 22, Bits)                                                       \
176 V_(ImmFP, 20, 13, Bits)                                                        \
177 V_(FPScale, 15, 10, Bits)                                                      \
178                                                                                \
179 /* Load Store */                                                               \
180 V_(ImmLS, 20, 12, SignedBits)                                                  \
181 V_(ImmLSUnsigned, 21, 10, Bits)                                                \
182 V_(ImmLSPair, 21, 15, SignedBits)                                              \
183 V_(SizeLS, 31, 30, Bits)                                                       \
184 V_(ImmShiftLS, 12, 12, Bits)                                                   \
185                                                                                \
186 /* Other immediates */                                                         \
187 V_(ImmUncondBranch, 25, 0, SignedBits)                                         \
188 V_(ImmCmpBranch, 23, 5, SignedBits)                                            \
189 V_(ImmLLiteral, 23, 5, SignedBits)                                             \
190 V_(ImmException, 20, 5, Bits)                                                  \
191 V_(ImmHint, 11, 5, Bits)                                                       \
192 V_(ImmBarrierDomain, 11, 10, Bits)                                             \
193 V_(ImmBarrierType, 9, 8, Bits)                                                 \
194                                                                                \
195 /* System (MRS, MSR) */                                                        \
196 V_(ImmSystemRegister, 19, 5, Bits)                                             \
197 V_(SysO0, 19, 19, Bits)                                                        \
198 V_(SysOp1, 18, 16, Bits)                                                       \
199 V_(SysOp2, 7, 5, Bits)                                                         \
200 V_(CRn, 15, 12, Bits)                                                          \
201 V_(CRm, 11, 8, Bits)                                                           \
202 
203 
204 #define SYSTEM_REGISTER_FIELDS_LIST(V_, M_)                                    \
205 /* NZCV */                                                                     \
206 V_(Flags, 31, 28, Bits, uint32_t)                                              \
207 V_(N,     31, 31, Bits, bool)                                                  \
208 V_(Z,     30, 30, Bits, bool)                                                  \
209 V_(C,     29, 29, Bits, bool)                                                  \
210 V_(V,     28, 28, Bits, uint32_t)                                              \
211 M_(NZCV, Flags_mask)                                                           \
212                                                                                \
213 /* FPCR */                                                                     \
214 V_(AHP,   26, 26, Bits, bool)                                                  \
215 V_(DN,    25, 25, Bits, bool)                                                  \
216 V_(FZ,    24, 24, Bits, bool)                                                  \
217 V_(RMode, 23, 22, Bits, FPRounding)                                            \
218 M_(FPCR, AHP_mask | DN_mask | FZ_mask | RMode_mask)
219 
220 
221 // Fields offsets.
222 #define DECLARE_FIELDS_OFFSETS(Name, HighBit, LowBit, unused_1, unused_2)      \
223   const int Name##_offset = LowBit;                                            \
224   const int Name##_width = HighBit - LowBit + 1;                               \
225   const uint32_t Name##_mask = ((1 << Name##_width) - 1) << LowBit;
226 #define DECLARE_INSTRUCTION_FIELDS_OFFSETS(Name, HighBit, LowBit, unused_1)    \
227   DECLARE_FIELDS_OFFSETS(Name, HighBit, LowBit, unused_1, unused_2)
228 #define NOTHING(A, B)
229 INSTRUCTION_FIELDS_LIST(DECLARE_INSTRUCTION_FIELDS_OFFSETS)
230 SYSTEM_REGISTER_FIELDS_LIST(DECLARE_FIELDS_OFFSETS, NOTHING)
231 #undef NOTHING
232 #undef DECLARE_FIELDS_OFFSETS
233 #undef DECLARE_INSTRUCTION_FIELDS_OFFSETS
234 
235 // ImmPCRel is a compound field (not present in INSTRUCTION_FIELDS_LIST), formed
236 // from ImmPCRelLo and ImmPCRelHi.
237 const int ImmPCRel_mask = ImmPCRelLo_mask | ImmPCRelHi_mask;
238 
239 // Condition codes.
240 enum Condition {
241   eq = 0,
242   ne = 1,
243   hs = 2, cs = hs,
244   lo = 3, cc = lo,
245   mi = 4,
246   pl = 5,
247   vs = 6,
248   vc = 7,
249   hi = 8,
250   ls = 9,
251   ge = 10,
252   lt = 11,
253   gt = 12,
254   le = 13,
255   al = 14,
256   nv = 15  // Behaves as always/al.
257 };
258 
NegateCondition(Condition cond)259 inline Condition NegateCondition(Condition cond) {
260   // Conditions al and nv behave identically, as "always true". They can't be
261   // inverted, because there is no never condition.
262   DCHECK((cond != al) && (cond != nv));
263   return static_cast<Condition>(cond ^ 1);
264 }
265 
266 // Commute a condition such that {a cond b == b cond' a}.
CommuteCondition(Condition cond)267 inline Condition CommuteCondition(Condition cond) {
268   switch (cond) {
269     case lo:
270       return hi;
271     case hi:
272       return lo;
273     case hs:
274       return ls;
275     case ls:
276       return hs;
277     case lt:
278       return gt;
279     case gt:
280       return lt;
281     case ge:
282       return le;
283     case le:
284       return ge;
285     case eq:
286       return eq;
287     default:
288       // In practice this function is only used with a condition coming from
289       // TokenToCondition in lithium-codegen-arm64.cc. Any other condition is
290       // invalid as it doesn't necessary make sense to reverse it (consider
291       // 'mi' for instance).
292       UNREACHABLE();
293       return nv;
294   }
295 }
296 
297 enum FlagsUpdate {
298   SetFlags   = 1,
299   LeaveFlags = 0
300 };
301 
302 enum StatusFlags {
303   NoFlag    = 0,
304 
305   // Derive the flag combinations from the system register bit descriptions.
306   NFlag     = N_mask,
307   ZFlag     = Z_mask,
308   CFlag     = C_mask,
309   VFlag     = V_mask,
310   NZFlag    = NFlag | ZFlag,
311   NCFlag    = NFlag | CFlag,
312   NVFlag    = NFlag | VFlag,
313   ZCFlag    = ZFlag | CFlag,
314   ZVFlag    = ZFlag | VFlag,
315   CVFlag    = CFlag | VFlag,
316   NZCFlag   = NFlag | ZFlag | CFlag,
317   NZVFlag   = NFlag | ZFlag | VFlag,
318   NCVFlag   = NFlag | CFlag | VFlag,
319   ZCVFlag   = ZFlag | CFlag | VFlag,
320   NZCVFlag  = NFlag | ZFlag | CFlag | VFlag,
321 
322   // Floating-point comparison results.
323   FPEqualFlag       = ZCFlag,
324   FPLessThanFlag    = NFlag,
325   FPGreaterThanFlag = CFlag,
326   FPUnorderedFlag   = CVFlag
327 };
328 
329 enum Shift {
330   NO_SHIFT = -1,
331   LSL = 0x0,
332   LSR = 0x1,
333   ASR = 0x2,
334   ROR = 0x3
335 };
336 
337 enum Extend {
338   NO_EXTEND = -1,
339   UXTB      = 0,
340   UXTH      = 1,
341   UXTW      = 2,
342   UXTX      = 3,
343   SXTB      = 4,
344   SXTH      = 5,
345   SXTW      = 6,
346   SXTX      = 7
347 };
348 
349 enum SystemHint {
350   NOP   = 0,
351   YIELD = 1,
352   WFE   = 2,
353   WFI   = 3,
354   SEV   = 4,
355   SEVL  = 5
356 };
357 
358 enum BarrierDomain {
359   OuterShareable = 0,
360   NonShareable   = 1,
361   InnerShareable = 2,
362   FullSystem     = 3
363 };
364 
365 enum BarrierType {
366   BarrierOther  = 0,
367   BarrierReads  = 1,
368   BarrierWrites = 2,
369   BarrierAll    = 3
370 };
371 
372 // System/special register names.
373 // This information is not encoded as one field but as the concatenation of
374 // multiple fields (Op0<0>, Op1, Crn, Crm, Op2).
375 enum SystemRegister {
376   NZCV = ((0x1 << SysO0_offset) |
377           (0x3 << SysOp1_offset) |
378           (0x4 << CRn_offset) |
379           (0x2 << CRm_offset) |
380           (0x0 << SysOp2_offset)) >> ImmSystemRegister_offset,
381   FPCR = ((0x1 << SysO0_offset) |
382           (0x3 << SysOp1_offset) |
383           (0x4 << CRn_offset) |
384           (0x4 << CRm_offset) |
385           (0x0 << SysOp2_offset)) >> ImmSystemRegister_offset
386 };
387 
388 // Instruction enumerations.
389 //
390 // These are the masks that define a class of instructions, and the list of
391 // instructions within each class. Each enumeration has a Fixed, FMask and
392 // Mask value.
393 //
394 // Fixed: The fixed bits in this instruction class.
395 // FMask: The mask used to extract the fixed bits in the class.
396 // Mask:  The mask used to identify the instructions within a class.
397 //
398 // The enumerations can be used like this:
399 //
400 // DCHECK(instr->Mask(PCRelAddressingFMask) == PCRelAddressingFixed);
401 // switch(instr->Mask(PCRelAddressingMask)) {
402 //   case ADR:  Format("adr 'Xd, 'AddrPCRelByte"); break;
403 //   case ADRP: Format("adrp 'Xd, 'AddrPCRelPage"); break;
404 //   default:   printf("Unknown instruction\n");
405 // }
406 
407 
408 // Generic fields.
409 enum GenericInstrField {
410   SixtyFourBits        = 0x80000000,
411   ThirtyTwoBits        = 0x00000000,
412   FP32                 = 0x00000000,
413   FP64                 = 0x00400000
414 };
415 
416 // PC relative addressing.
417 enum PCRelAddressingOp {
418   PCRelAddressingFixed = 0x10000000,
419   PCRelAddressingFMask = 0x1F000000,
420   PCRelAddressingMask  = 0x9F000000,
421   ADR                  = PCRelAddressingFixed | 0x00000000,
422   ADRP                 = PCRelAddressingFixed | 0x80000000
423 };
424 
425 // Add/sub (immediate, shifted and extended.)
426 const int kSFOffset = 31;
427 enum AddSubOp {
428   AddSubOpMask      = 0x60000000,
429   AddSubSetFlagsBit = 0x20000000,
430   ADD               = 0x00000000,
431   ADDS              = ADD | AddSubSetFlagsBit,
432   SUB               = 0x40000000,
433   SUBS              = SUB | AddSubSetFlagsBit
434 };
435 
436 #define ADD_SUB_OP_LIST(V)  \
437   V(ADD),                   \
438   V(ADDS),                  \
439   V(SUB),                   \
440   V(SUBS)
441 
442 enum AddSubImmediateOp {
443   AddSubImmediateFixed = 0x11000000,
444   AddSubImmediateFMask = 0x1F000000,
445   AddSubImmediateMask  = 0xFF000000,
446   #define ADD_SUB_IMMEDIATE(A)           \
447   A##_w_imm = AddSubImmediateFixed | A,  \
448   A##_x_imm = AddSubImmediateFixed | A | SixtyFourBits
449   ADD_SUB_OP_LIST(ADD_SUB_IMMEDIATE)
450   #undef ADD_SUB_IMMEDIATE
451 };
452 
453 enum AddSubShiftedOp {
454   AddSubShiftedFixed   = 0x0B000000,
455   AddSubShiftedFMask   = 0x1F200000,
456   AddSubShiftedMask    = 0xFF200000,
457   #define ADD_SUB_SHIFTED(A)             \
458   A##_w_shift = AddSubShiftedFixed | A,  \
459   A##_x_shift = AddSubShiftedFixed | A | SixtyFourBits
460   ADD_SUB_OP_LIST(ADD_SUB_SHIFTED)
461   #undef ADD_SUB_SHIFTED
462 };
463 
464 enum AddSubExtendedOp {
465   AddSubExtendedFixed  = 0x0B200000,
466   AddSubExtendedFMask  = 0x1F200000,
467   AddSubExtendedMask   = 0xFFE00000,
468   #define ADD_SUB_EXTENDED(A)           \
469   A##_w_ext = AddSubExtendedFixed | A,  \
470   A##_x_ext = AddSubExtendedFixed | A | SixtyFourBits
471   ADD_SUB_OP_LIST(ADD_SUB_EXTENDED)
472   #undef ADD_SUB_EXTENDED
473 };
474 
475 // Add/sub with carry.
476 enum AddSubWithCarryOp {
477   AddSubWithCarryFixed = 0x1A000000,
478   AddSubWithCarryFMask = 0x1FE00000,
479   AddSubWithCarryMask  = 0xFFE0FC00,
480   ADC_w                = AddSubWithCarryFixed | ADD,
481   ADC_x                = AddSubWithCarryFixed | ADD | SixtyFourBits,
482   ADC                  = ADC_w,
483   ADCS_w               = AddSubWithCarryFixed | ADDS,
484   ADCS_x               = AddSubWithCarryFixed | ADDS | SixtyFourBits,
485   SBC_w                = AddSubWithCarryFixed | SUB,
486   SBC_x                = AddSubWithCarryFixed | SUB | SixtyFourBits,
487   SBC                  = SBC_w,
488   SBCS_w               = AddSubWithCarryFixed | SUBS,
489   SBCS_x               = AddSubWithCarryFixed | SUBS | SixtyFourBits
490 };
491 
492 
493 // Logical (immediate and shifted register).
494 enum LogicalOp {
495   LogicalOpMask = 0x60200000,
496   NOT   = 0x00200000,
497   AND   = 0x00000000,
498   BIC   = AND | NOT,
499   ORR   = 0x20000000,
500   ORN   = ORR | NOT,
501   EOR   = 0x40000000,
502   EON   = EOR | NOT,
503   ANDS  = 0x60000000,
504   BICS  = ANDS | NOT
505 };
506 
507 // Logical immediate.
508 enum LogicalImmediateOp {
509   LogicalImmediateFixed = 0x12000000,
510   LogicalImmediateFMask = 0x1F800000,
511   LogicalImmediateMask  = 0xFF800000,
512   AND_w_imm   = LogicalImmediateFixed | AND,
513   AND_x_imm   = LogicalImmediateFixed | AND | SixtyFourBits,
514   ORR_w_imm   = LogicalImmediateFixed | ORR,
515   ORR_x_imm   = LogicalImmediateFixed | ORR | SixtyFourBits,
516   EOR_w_imm   = LogicalImmediateFixed | EOR,
517   EOR_x_imm   = LogicalImmediateFixed | EOR | SixtyFourBits,
518   ANDS_w_imm  = LogicalImmediateFixed | ANDS,
519   ANDS_x_imm  = LogicalImmediateFixed | ANDS | SixtyFourBits
520 };
521 
522 // Logical shifted register.
523 enum LogicalShiftedOp {
524   LogicalShiftedFixed = 0x0A000000,
525   LogicalShiftedFMask = 0x1F000000,
526   LogicalShiftedMask  = 0xFF200000,
527   AND_w               = LogicalShiftedFixed | AND,
528   AND_x               = LogicalShiftedFixed | AND | SixtyFourBits,
529   AND_shift           = AND_w,
530   BIC_w               = LogicalShiftedFixed | BIC,
531   BIC_x               = LogicalShiftedFixed | BIC | SixtyFourBits,
532   BIC_shift           = BIC_w,
533   ORR_w               = LogicalShiftedFixed | ORR,
534   ORR_x               = LogicalShiftedFixed | ORR | SixtyFourBits,
535   ORR_shift           = ORR_w,
536   ORN_w               = LogicalShiftedFixed | ORN,
537   ORN_x               = LogicalShiftedFixed | ORN | SixtyFourBits,
538   ORN_shift           = ORN_w,
539   EOR_w               = LogicalShiftedFixed | EOR,
540   EOR_x               = LogicalShiftedFixed | EOR | SixtyFourBits,
541   EOR_shift           = EOR_w,
542   EON_w               = LogicalShiftedFixed | EON,
543   EON_x               = LogicalShiftedFixed | EON | SixtyFourBits,
544   EON_shift           = EON_w,
545   ANDS_w              = LogicalShiftedFixed | ANDS,
546   ANDS_x              = LogicalShiftedFixed | ANDS | SixtyFourBits,
547   ANDS_shift          = ANDS_w,
548   BICS_w              = LogicalShiftedFixed | BICS,
549   BICS_x              = LogicalShiftedFixed | BICS | SixtyFourBits,
550   BICS_shift          = BICS_w
551 };
552 
553 // Move wide immediate.
554 enum MoveWideImmediateOp {
555   MoveWideImmediateFixed = 0x12800000,
556   MoveWideImmediateFMask = 0x1F800000,
557   MoveWideImmediateMask  = 0xFF800000,
558   MOVN                   = 0x00000000,
559   MOVZ                   = 0x40000000,
560   MOVK                   = 0x60000000,
561   MOVN_w                 = MoveWideImmediateFixed | MOVN,
562   MOVN_x                 = MoveWideImmediateFixed | MOVN | SixtyFourBits,
563   MOVZ_w                 = MoveWideImmediateFixed | MOVZ,
564   MOVZ_x                 = MoveWideImmediateFixed | MOVZ | SixtyFourBits,
565   MOVK_w                 = MoveWideImmediateFixed | MOVK,
566   MOVK_x                 = MoveWideImmediateFixed | MOVK | SixtyFourBits
567 };
568 
569 // Bitfield.
570 const int kBitfieldNOffset = 22;
571 enum BitfieldOp {
572   BitfieldFixed = 0x13000000,
573   BitfieldFMask = 0x1F800000,
574   BitfieldMask  = 0xFF800000,
575   SBFM_w        = BitfieldFixed | 0x00000000,
576   SBFM_x        = BitfieldFixed | 0x80000000,
577   SBFM          = SBFM_w,
578   BFM_w         = BitfieldFixed | 0x20000000,
579   BFM_x         = BitfieldFixed | 0xA0000000,
580   BFM           = BFM_w,
581   UBFM_w        = BitfieldFixed | 0x40000000,
582   UBFM_x        = BitfieldFixed | 0xC0000000,
583   UBFM          = UBFM_w
584   // Bitfield N field.
585 };
586 
587 // Extract.
588 enum ExtractOp {
589   ExtractFixed = 0x13800000,
590   ExtractFMask = 0x1F800000,
591   ExtractMask  = 0xFFA00000,
592   EXTR_w       = ExtractFixed | 0x00000000,
593   EXTR_x       = ExtractFixed | 0x80000000,
594   EXTR         = EXTR_w
595 };
596 
597 // Unconditional branch.
598 enum UnconditionalBranchOp {
599   UnconditionalBranchFixed = 0x14000000,
600   UnconditionalBranchFMask = 0x7C000000,
601   UnconditionalBranchMask  = 0xFC000000,
602   B                        = UnconditionalBranchFixed | 0x00000000,
603   BL                       = UnconditionalBranchFixed | 0x80000000
604 };
605 
606 // Unconditional branch to register.
607 enum UnconditionalBranchToRegisterOp {
608   UnconditionalBranchToRegisterFixed = 0xD6000000,
609   UnconditionalBranchToRegisterFMask = 0xFE000000,
610   UnconditionalBranchToRegisterMask  = 0xFFFFFC1F,
611   BR      = UnconditionalBranchToRegisterFixed | 0x001F0000,
612   BLR     = UnconditionalBranchToRegisterFixed | 0x003F0000,
613   RET     = UnconditionalBranchToRegisterFixed | 0x005F0000
614 };
615 
616 // Compare and branch.
617 enum CompareBranchOp {
618   CompareBranchFixed = 0x34000000,
619   CompareBranchFMask = 0x7E000000,
620   CompareBranchMask  = 0xFF000000,
621   CBZ_w              = CompareBranchFixed | 0x00000000,
622   CBZ_x              = CompareBranchFixed | 0x80000000,
623   CBZ                = CBZ_w,
624   CBNZ_w             = CompareBranchFixed | 0x01000000,
625   CBNZ_x             = CompareBranchFixed | 0x81000000,
626   CBNZ               = CBNZ_w
627 };
628 
629 // Test and branch.
630 enum TestBranchOp {
631   TestBranchFixed = 0x36000000,
632   TestBranchFMask = 0x7E000000,
633   TestBranchMask  = 0x7F000000,
634   TBZ             = TestBranchFixed | 0x00000000,
635   TBNZ            = TestBranchFixed | 0x01000000
636 };
637 
638 // Conditional branch.
639 enum ConditionalBranchOp {
640   ConditionalBranchFixed = 0x54000000,
641   ConditionalBranchFMask = 0xFE000000,
642   ConditionalBranchMask  = 0xFF000010,
643   B_cond                 = ConditionalBranchFixed | 0x00000000
644 };
645 
646 // System.
647 // System instruction encoding is complicated because some instructions use op
648 // and CR fields to encode parameters. To handle this cleanly, the system
649 // instructions are split into more than one enum.
650 
651 enum SystemOp {
652   SystemFixed = 0xD5000000,
653   SystemFMask = 0xFFC00000
654 };
655 
656 enum SystemSysRegOp {
657   SystemSysRegFixed = 0xD5100000,
658   SystemSysRegFMask = 0xFFD00000,
659   SystemSysRegMask  = 0xFFF00000,
660   MRS               = SystemSysRegFixed | 0x00200000,
661   MSR               = SystemSysRegFixed | 0x00000000
662 };
663 
664 enum SystemHintOp {
665   SystemHintFixed = 0xD503201F,
666   SystemHintFMask = 0xFFFFF01F,
667   SystemHintMask  = 0xFFFFF01F,
668   HINT            = SystemHintFixed | 0x00000000
669 };
670 
671 // Exception.
672 enum ExceptionOp {
673   ExceptionFixed = 0xD4000000,
674   ExceptionFMask = 0xFF000000,
675   ExceptionMask  = 0xFFE0001F,
676   HLT            = ExceptionFixed | 0x00400000,
677   BRK            = ExceptionFixed | 0x00200000,
678   SVC            = ExceptionFixed | 0x00000001,
679   HVC            = ExceptionFixed | 0x00000002,
680   SMC            = ExceptionFixed | 0x00000003,
681   DCPS1          = ExceptionFixed | 0x00A00001,
682   DCPS2          = ExceptionFixed | 0x00A00002,
683   DCPS3          = ExceptionFixed | 0x00A00003
684 };
685 // Code used to spot hlt instructions that should not be hit.
686 const int kHltBadCode = 0xbad;
687 
688 enum MemBarrierOp {
689   MemBarrierFixed = 0xD503309F,
690   MemBarrierFMask = 0xFFFFF09F,
691   MemBarrierMask  = 0xFFFFF0FF,
692   DSB             = MemBarrierFixed | 0x00000000,
693   DMB             = MemBarrierFixed | 0x00000020,
694   ISB             = MemBarrierFixed | 0x00000040
695 };
696 
697 // Any load or store (including pair).
698 enum LoadStoreAnyOp {
699   LoadStoreAnyFMask = 0x0a000000,
700   LoadStoreAnyFixed = 0x08000000
701 };
702 
703 // Any load pair or store pair.
704 enum LoadStorePairAnyOp {
705   LoadStorePairAnyFMask = 0x3a000000,
706   LoadStorePairAnyFixed = 0x28000000
707 };
708 
709 #define LOAD_STORE_PAIR_OP_LIST(V)  \
710   V(STP, w,   0x00000000),          \
711   V(LDP, w,   0x00400000),          \
712   V(LDPSW, x, 0x40400000),          \
713   V(STP, x,   0x80000000),          \
714   V(LDP, x,   0x80400000),          \
715   V(STP, s,   0x04000000),          \
716   V(LDP, s,   0x04400000),          \
717   V(STP, d,   0x44000000),          \
718   V(LDP, d,   0x44400000)
719 
720 // Load/store pair (post, pre and offset.)
721 enum LoadStorePairOp {
722   LoadStorePairMask = 0xC4400000,
723   LoadStorePairLBit = 1 << 22,
724   #define LOAD_STORE_PAIR(A, B, C) \
725   A##_##B = C
726   LOAD_STORE_PAIR_OP_LIST(LOAD_STORE_PAIR)
727   #undef LOAD_STORE_PAIR
728 };
729 
730 enum LoadStorePairPostIndexOp {
731   LoadStorePairPostIndexFixed = 0x28800000,
732   LoadStorePairPostIndexFMask = 0x3B800000,
733   LoadStorePairPostIndexMask  = 0xFFC00000,
734   #define LOAD_STORE_PAIR_POST_INDEX(A, B, C)  \
735   A##_##B##_post = LoadStorePairPostIndexFixed | A##_##B
736   LOAD_STORE_PAIR_OP_LIST(LOAD_STORE_PAIR_POST_INDEX)
737   #undef LOAD_STORE_PAIR_POST_INDEX
738 };
739 
740 enum LoadStorePairPreIndexOp {
741   LoadStorePairPreIndexFixed = 0x29800000,
742   LoadStorePairPreIndexFMask = 0x3B800000,
743   LoadStorePairPreIndexMask  = 0xFFC00000,
744   #define LOAD_STORE_PAIR_PRE_INDEX(A, B, C)  \
745   A##_##B##_pre = LoadStorePairPreIndexFixed | A##_##B
746   LOAD_STORE_PAIR_OP_LIST(LOAD_STORE_PAIR_PRE_INDEX)
747   #undef LOAD_STORE_PAIR_PRE_INDEX
748 };
749 
750 enum LoadStorePairOffsetOp {
751   LoadStorePairOffsetFixed = 0x29000000,
752   LoadStorePairOffsetFMask = 0x3B800000,
753   LoadStorePairOffsetMask  = 0xFFC00000,
754   #define LOAD_STORE_PAIR_OFFSET(A, B, C)  \
755   A##_##B##_off = LoadStorePairOffsetFixed | A##_##B
756   LOAD_STORE_PAIR_OP_LIST(LOAD_STORE_PAIR_OFFSET)
757   #undef LOAD_STORE_PAIR_OFFSET
758 };
759 
760 // Load literal.
761 enum LoadLiteralOp {
762   LoadLiteralFixed = 0x18000000,
763   LoadLiteralFMask = 0x3B000000,
764   LoadLiteralMask  = 0xFF000000,
765   LDR_w_lit        = LoadLiteralFixed | 0x00000000,
766   LDR_x_lit        = LoadLiteralFixed | 0x40000000,
767   LDRSW_x_lit      = LoadLiteralFixed | 0x80000000,
768   PRFM_lit         = LoadLiteralFixed | 0xC0000000,
769   LDR_s_lit        = LoadLiteralFixed | 0x04000000,
770   LDR_d_lit        = LoadLiteralFixed | 0x44000000
771 };
772 
773 #define LOAD_STORE_OP_LIST(V)     \
774   V(ST, RB, w,  0x00000000),  \
775   V(ST, RH, w,  0x40000000),  \
776   V(ST, R, w,   0x80000000),  \
777   V(ST, R, x,   0xC0000000),  \
778   V(LD, RB, w,  0x00400000),  \
779   V(LD, RH, w,  0x40400000),  \
780   V(LD, R, w,   0x80400000),  \
781   V(LD, R, x,   0xC0400000),  \
782   V(LD, RSB, x, 0x00800000),  \
783   V(LD, RSH, x, 0x40800000),  \
784   V(LD, RSW, x, 0x80800000),  \
785   V(LD, RSB, w, 0x00C00000),  \
786   V(LD, RSH, w, 0x40C00000),  \
787   V(ST, R, s,   0x84000000),  \
788   V(ST, R, d,   0xC4000000),  \
789   V(LD, R, s,   0x84400000),  \
790   V(LD, R, d,   0xC4400000)
791 
792 
793 // Load/store unscaled offset.
794 enum LoadStoreUnscaledOffsetOp {
795   LoadStoreUnscaledOffsetFixed = 0x38000000,
796   LoadStoreUnscaledOffsetFMask = 0x3B200C00,
797   LoadStoreUnscaledOffsetMask  = 0xFFE00C00,
798   #define LOAD_STORE_UNSCALED(A, B, C, D)  \
799   A##U##B##_##C = LoadStoreUnscaledOffsetFixed | D
800   LOAD_STORE_OP_LIST(LOAD_STORE_UNSCALED)
801   #undef LOAD_STORE_UNSCALED
802 };
803 
804 // Load/store (post, pre, offset and unsigned.)
805 enum LoadStoreOp {
806   LoadStoreOpMask   = 0xC4C00000,
807   #define LOAD_STORE(A, B, C, D)  \
808   A##B##_##C = D
809   LOAD_STORE_OP_LIST(LOAD_STORE),
810   #undef LOAD_STORE
811   PRFM = 0xC0800000
812 };
813 
814 // Load/store post index.
815 enum LoadStorePostIndex {
816   LoadStorePostIndexFixed = 0x38000400,
817   LoadStorePostIndexFMask = 0x3B200C00,
818   LoadStorePostIndexMask  = 0xFFE00C00,
819   #define LOAD_STORE_POST_INDEX(A, B, C, D)  \
820   A##B##_##C##_post = LoadStorePostIndexFixed | D
821   LOAD_STORE_OP_LIST(LOAD_STORE_POST_INDEX)
822   #undef LOAD_STORE_POST_INDEX
823 };
824 
825 // Load/store pre index.
826 enum LoadStorePreIndex {
827   LoadStorePreIndexFixed = 0x38000C00,
828   LoadStorePreIndexFMask = 0x3B200C00,
829   LoadStorePreIndexMask  = 0xFFE00C00,
830   #define LOAD_STORE_PRE_INDEX(A, B, C, D)  \
831   A##B##_##C##_pre = LoadStorePreIndexFixed | D
832   LOAD_STORE_OP_LIST(LOAD_STORE_PRE_INDEX)
833   #undef LOAD_STORE_PRE_INDEX
834 };
835 
836 // Load/store unsigned offset.
837 enum LoadStoreUnsignedOffset {
838   LoadStoreUnsignedOffsetFixed = 0x39000000,
839   LoadStoreUnsignedOffsetFMask = 0x3B000000,
840   LoadStoreUnsignedOffsetMask  = 0xFFC00000,
841   PRFM_unsigned                = LoadStoreUnsignedOffsetFixed | PRFM,
842   #define LOAD_STORE_UNSIGNED_OFFSET(A, B, C, D) \
843   A##B##_##C##_unsigned = LoadStoreUnsignedOffsetFixed | D
844   LOAD_STORE_OP_LIST(LOAD_STORE_UNSIGNED_OFFSET)
845   #undef LOAD_STORE_UNSIGNED_OFFSET
846 };
847 
848 // Load/store register offset.
849 enum LoadStoreRegisterOffset {
850   LoadStoreRegisterOffsetFixed = 0x38200800,
851   LoadStoreRegisterOffsetFMask = 0x3B200C00,
852   LoadStoreRegisterOffsetMask  = 0xFFE00C00,
853   PRFM_reg                     = LoadStoreRegisterOffsetFixed | PRFM,
854   #define LOAD_STORE_REGISTER_OFFSET(A, B, C, D) \
855   A##B##_##C##_reg = LoadStoreRegisterOffsetFixed | D
856   LOAD_STORE_OP_LIST(LOAD_STORE_REGISTER_OFFSET)
857   #undef LOAD_STORE_REGISTER_OFFSET
858 };
859 
860 // Conditional compare.
861 enum ConditionalCompareOp {
862   ConditionalCompareMask = 0x60000000,
863   CCMN                   = 0x20000000,
864   CCMP                   = 0x60000000
865 };
866 
867 // Conditional compare register.
868 enum ConditionalCompareRegisterOp {
869   ConditionalCompareRegisterFixed = 0x1A400000,
870   ConditionalCompareRegisterFMask = 0x1FE00800,
871   ConditionalCompareRegisterMask  = 0xFFE00C10,
872   CCMN_w = ConditionalCompareRegisterFixed | CCMN,
873   CCMN_x = ConditionalCompareRegisterFixed | SixtyFourBits | CCMN,
874   CCMP_w = ConditionalCompareRegisterFixed | CCMP,
875   CCMP_x = ConditionalCompareRegisterFixed | SixtyFourBits | CCMP
876 };
877 
878 // Conditional compare immediate.
879 enum ConditionalCompareImmediateOp {
880   ConditionalCompareImmediateFixed = 0x1A400800,
881   ConditionalCompareImmediateFMask = 0x1FE00800,
882   ConditionalCompareImmediateMask  = 0xFFE00C10,
883   CCMN_w_imm = ConditionalCompareImmediateFixed | CCMN,
884   CCMN_x_imm = ConditionalCompareImmediateFixed | SixtyFourBits | CCMN,
885   CCMP_w_imm = ConditionalCompareImmediateFixed | CCMP,
886   CCMP_x_imm = ConditionalCompareImmediateFixed | SixtyFourBits | CCMP
887 };
888 
889 // Conditional select.
890 enum ConditionalSelectOp {
891   ConditionalSelectFixed = 0x1A800000,
892   ConditionalSelectFMask = 0x1FE00000,
893   ConditionalSelectMask  = 0xFFE00C00,
894   CSEL_w                 = ConditionalSelectFixed | 0x00000000,
895   CSEL_x                 = ConditionalSelectFixed | 0x80000000,
896   CSEL                   = CSEL_w,
897   CSINC_w                = ConditionalSelectFixed | 0x00000400,
898   CSINC_x                = ConditionalSelectFixed | 0x80000400,
899   CSINC                  = CSINC_w,
900   CSINV_w                = ConditionalSelectFixed | 0x40000000,
901   CSINV_x                = ConditionalSelectFixed | 0xC0000000,
902   CSINV                  = CSINV_w,
903   CSNEG_w                = ConditionalSelectFixed | 0x40000400,
904   CSNEG_x                = ConditionalSelectFixed | 0xC0000400,
905   CSNEG                  = CSNEG_w
906 };
907 
908 // Data processing 1 source.
909 enum DataProcessing1SourceOp {
910   DataProcessing1SourceFixed = 0x5AC00000,
911   DataProcessing1SourceFMask = 0x5FE00000,
912   DataProcessing1SourceMask  = 0xFFFFFC00,
913   RBIT    = DataProcessing1SourceFixed | 0x00000000,
914   RBIT_w  = RBIT,
915   RBIT_x  = RBIT | SixtyFourBits,
916   REV16   = DataProcessing1SourceFixed | 0x00000400,
917   REV16_w = REV16,
918   REV16_x = REV16 | SixtyFourBits,
919   REV     = DataProcessing1SourceFixed | 0x00000800,
920   REV_w   = REV,
921   REV32_x = REV | SixtyFourBits,
922   REV_x   = DataProcessing1SourceFixed | SixtyFourBits | 0x00000C00,
923   CLZ     = DataProcessing1SourceFixed | 0x00001000,
924   CLZ_w   = CLZ,
925   CLZ_x   = CLZ | SixtyFourBits,
926   CLS     = DataProcessing1SourceFixed | 0x00001400,
927   CLS_w   = CLS,
928   CLS_x   = CLS | SixtyFourBits
929 };
930 
931 // Data processing 2 source.
932 enum DataProcessing2SourceOp {
933   DataProcessing2SourceFixed = 0x1AC00000,
934   DataProcessing2SourceFMask = 0x5FE00000,
935   DataProcessing2SourceMask  = 0xFFE0FC00,
936   UDIV_w  = DataProcessing2SourceFixed | 0x00000800,
937   UDIV_x  = DataProcessing2SourceFixed | 0x80000800,
938   UDIV    = UDIV_w,
939   SDIV_w  = DataProcessing2SourceFixed | 0x00000C00,
940   SDIV_x  = DataProcessing2SourceFixed | 0x80000C00,
941   SDIV    = SDIV_w,
942   LSLV_w  = DataProcessing2SourceFixed | 0x00002000,
943   LSLV_x  = DataProcessing2SourceFixed | 0x80002000,
944   LSLV    = LSLV_w,
945   LSRV_w  = DataProcessing2SourceFixed | 0x00002400,
946   LSRV_x  = DataProcessing2SourceFixed | 0x80002400,
947   LSRV    = LSRV_w,
948   ASRV_w  = DataProcessing2SourceFixed | 0x00002800,
949   ASRV_x  = DataProcessing2SourceFixed | 0x80002800,
950   ASRV    = ASRV_w,
951   RORV_w  = DataProcessing2SourceFixed | 0x00002C00,
952   RORV_x  = DataProcessing2SourceFixed | 0x80002C00,
953   RORV    = RORV_w,
954   CRC32B  = DataProcessing2SourceFixed | 0x00004000,
955   CRC32H  = DataProcessing2SourceFixed | 0x00004400,
956   CRC32W  = DataProcessing2SourceFixed | 0x00004800,
957   CRC32X  = DataProcessing2SourceFixed | SixtyFourBits | 0x00004C00,
958   CRC32CB = DataProcessing2SourceFixed | 0x00005000,
959   CRC32CH = DataProcessing2SourceFixed | 0x00005400,
960   CRC32CW = DataProcessing2SourceFixed | 0x00005800,
961   CRC32CX = DataProcessing2SourceFixed | SixtyFourBits | 0x00005C00
962 };
963 
964 // Data processing 3 source.
965 enum DataProcessing3SourceOp {
966   DataProcessing3SourceFixed = 0x1B000000,
967   DataProcessing3SourceFMask = 0x1F000000,
968   DataProcessing3SourceMask  = 0xFFE08000,
969   MADD_w                     = DataProcessing3SourceFixed | 0x00000000,
970   MADD_x                     = DataProcessing3SourceFixed | 0x80000000,
971   MADD                       = MADD_w,
972   MSUB_w                     = DataProcessing3SourceFixed | 0x00008000,
973   MSUB_x                     = DataProcessing3SourceFixed | 0x80008000,
974   MSUB                       = MSUB_w,
975   SMADDL_x                   = DataProcessing3SourceFixed | 0x80200000,
976   SMSUBL_x                   = DataProcessing3SourceFixed | 0x80208000,
977   SMULH_x                    = DataProcessing3SourceFixed | 0x80400000,
978   UMADDL_x                   = DataProcessing3SourceFixed | 0x80A00000,
979   UMSUBL_x                   = DataProcessing3SourceFixed | 0x80A08000,
980   UMULH_x                    = DataProcessing3SourceFixed | 0x80C00000
981 };
982 
983 // Floating point compare.
984 enum FPCompareOp {
985   FPCompareFixed = 0x1E202000,
986   FPCompareFMask = 0x5F203C00,
987   FPCompareMask  = 0xFFE0FC1F,
988   FCMP_s         = FPCompareFixed | 0x00000000,
989   FCMP_d         = FPCompareFixed | FP64 | 0x00000000,
990   FCMP           = FCMP_s,
991   FCMP_s_zero    = FPCompareFixed | 0x00000008,
992   FCMP_d_zero    = FPCompareFixed | FP64 | 0x00000008,
993   FCMP_zero      = FCMP_s_zero,
994   FCMPE_s        = FPCompareFixed | 0x00000010,
995   FCMPE_d        = FPCompareFixed | FP64 | 0x00000010,
996   FCMPE_s_zero   = FPCompareFixed | 0x00000018,
997   FCMPE_d_zero   = FPCompareFixed | FP64 | 0x00000018
998 };
999 
1000 // Floating point conditional compare.
1001 enum FPConditionalCompareOp {
1002   FPConditionalCompareFixed = 0x1E200400,
1003   FPConditionalCompareFMask = 0x5F200C00,
1004   FPConditionalCompareMask  = 0xFFE00C10,
1005   FCCMP_s                   = FPConditionalCompareFixed | 0x00000000,
1006   FCCMP_d                   = FPConditionalCompareFixed | FP64 | 0x00000000,
1007   FCCMP                     = FCCMP_s,
1008   FCCMPE_s                  = FPConditionalCompareFixed | 0x00000010,
1009   FCCMPE_d                  = FPConditionalCompareFixed | FP64 | 0x00000010,
1010   FCCMPE                    = FCCMPE_s
1011 };
1012 
1013 // Floating point conditional select.
1014 enum FPConditionalSelectOp {
1015   FPConditionalSelectFixed = 0x1E200C00,
1016   FPConditionalSelectFMask = 0x5F200C00,
1017   FPConditionalSelectMask  = 0xFFE00C00,
1018   FCSEL_s                  = FPConditionalSelectFixed | 0x00000000,
1019   FCSEL_d                  = FPConditionalSelectFixed | FP64 | 0x00000000,
1020   FCSEL                    = FCSEL_s
1021 };
1022 
1023 // Floating point immediate.
1024 enum FPImmediateOp {
1025   FPImmediateFixed = 0x1E201000,
1026   FPImmediateFMask = 0x5F201C00,
1027   FPImmediateMask  = 0xFFE01C00,
1028   FMOV_s_imm       = FPImmediateFixed | 0x00000000,
1029   FMOV_d_imm       = FPImmediateFixed | FP64 | 0x00000000
1030 };
1031 
1032 // Floating point data processing 1 source.
1033 enum FPDataProcessing1SourceOp {
1034   FPDataProcessing1SourceFixed = 0x1E204000,
1035   FPDataProcessing1SourceFMask = 0x5F207C00,
1036   FPDataProcessing1SourceMask  = 0xFFFFFC00,
1037   FMOV_s   = FPDataProcessing1SourceFixed | 0x00000000,
1038   FMOV_d   = FPDataProcessing1SourceFixed | FP64 | 0x00000000,
1039   FMOV     = FMOV_s,
1040   FABS_s   = FPDataProcessing1SourceFixed | 0x00008000,
1041   FABS_d   = FPDataProcessing1SourceFixed | FP64 | 0x00008000,
1042   FABS     = FABS_s,
1043   FNEG_s   = FPDataProcessing1SourceFixed | 0x00010000,
1044   FNEG_d   = FPDataProcessing1SourceFixed | FP64 | 0x00010000,
1045   FNEG     = FNEG_s,
1046   FSQRT_s  = FPDataProcessing1SourceFixed | 0x00018000,
1047   FSQRT_d  = FPDataProcessing1SourceFixed | FP64 | 0x00018000,
1048   FSQRT    = FSQRT_s,
1049   FCVT_ds  = FPDataProcessing1SourceFixed | 0x00028000,
1050   FCVT_sd  = FPDataProcessing1SourceFixed | FP64 | 0x00020000,
1051   FRINTN_s = FPDataProcessing1SourceFixed | 0x00040000,
1052   FRINTN_d = FPDataProcessing1SourceFixed | FP64 | 0x00040000,
1053   FRINTN   = FRINTN_s,
1054   FRINTP_s = FPDataProcessing1SourceFixed | 0x00048000,
1055   FRINTP_d = FPDataProcessing1SourceFixed | FP64 | 0x00048000,
1056   FRINTP   = FRINTP_s,
1057   FRINTM_s = FPDataProcessing1SourceFixed | 0x00050000,
1058   FRINTM_d = FPDataProcessing1SourceFixed | FP64 | 0x00050000,
1059   FRINTM   = FRINTM_s,
1060   FRINTZ_s = FPDataProcessing1SourceFixed | 0x00058000,
1061   FRINTZ_d = FPDataProcessing1SourceFixed | FP64 | 0x00058000,
1062   FRINTZ   = FRINTZ_s,
1063   FRINTA_s = FPDataProcessing1SourceFixed | 0x00060000,
1064   FRINTA_d = FPDataProcessing1SourceFixed | FP64 | 0x00060000,
1065   FRINTA   = FRINTA_s,
1066   FRINTX_s = FPDataProcessing1SourceFixed | 0x00070000,
1067   FRINTX_d = FPDataProcessing1SourceFixed | FP64 | 0x00070000,
1068   FRINTX   = FRINTX_s,
1069   FRINTI_s = FPDataProcessing1SourceFixed | 0x00078000,
1070   FRINTI_d = FPDataProcessing1SourceFixed | FP64 | 0x00078000,
1071   FRINTI   = FRINTI_s
1072 };
1073 
1074 // Floating point data processing 2 source.
1075 enum FPDataProcessing2SourceOp {
1076   FPDataProcessing2SourceFixed = 0x1E200800,
1077   FPDataProcessing2SourceFMask = 0x5F200C00,
1078   FPDataProcessing2SourceMask  = 0xFFE0FC00,
1079   FMUL     = FPDataProcessing2SourceFixed | 0x00000000,
1080   FMUL_s   = FMUL,
1081   FMUL_d   = FMUL | FP64,
1082   FDIV     = FPDataProcessing2SourceFixed | 0x00001000,
1083   FDIV_s   = FDIV,
1084   FDIV_d   = FDIV | FP64,
1085   FADD     = FPDataProcessing2SourceFixed | 0x00002000,
1086   FADD_s   = FADD,
1087   FADD_d   = FADD | FP64,
1088   FSUB     = FPDataProcessing2SourceFixed | 0x00003000,
1089   FSUB_s   = FSUB,
1090   FSUB_d   = FSUB | FP64,
1091   FMAX     = FPDataProcessing2SourceFixed | 0x00004000,
1092   FMAX_s   = FMAX,
1093   FMAX_d   = FMAX | FP64,
1094   FMIN     = FPDataProcessing2SourceFixed | 0x00005000,
1095   FMIN_s   = FMIN,
1096   FMIN_d   = FMIN | FP64,
1097   FMAXNM   = FPDataProcessing2SourceFixed | 0x00006000,
1098   FMAXNM_s = FMAXNM,
1099   FMAXNM_d = FMAXNM | FP64,
1100   FMINNM   = FPDataProcessing2SourceFixed | 0x00007000,
1101   FMINNM_s = FMINNM,
1102   FMINNM_d = FMINNM | FP64,
1103   FNMUL    = FPDataProcessing2SourceFixed | 0x00008000,
1104   FNMUL_s  = FNMUL,
1105   FNMUL_d  = FNMUL | FP64
1106 };
1107 
1108 // Floating point data processing 3 source.
1109 enum FPDataProcessing3SourceOp {
1110   FPDataProcessing3SourceFixed = 0x1F000000,
1111   FPDataProcessing3SourceFMask = 0x5F000000,
1112   FPDataProcessing3SourceMask  = 0xFFE08000,
1113   FMADD_s                      = FPDataProcessing3SourceFixed | 0x00000000,
1114   FMSUB_s                      = FPDataProcessing3SourceFixed | 0x00008000,
1115   FNMADD_s                     = FPDataProcessing3SourceFixed | 0x00200000,
1116   FNMSUB_s                     = FPDataProcessing3SourceFixed | 0x00208000,
1117   FMADD_d                      = FPDataProcessing3SourceFixed | 0x00400000,
1118   FMSUB_d                      = FPDataProcessing3SourceFixed | 0x00408000,
1119   FNMADD_d                     = FPDataProcessing3SourceFixed | 0x00600000,
1120   FNMSUB_d                     = FPDataProcessing3SourceFixed | 0x00608000
1121 };
1122 
1123 // Conversion between floating point and integer.
1124 enum FPIntegerConvertOp {
1125   FPIntegerConvertFixed = 0x1E200000,
1126   FPIntegerConvertFMask = 0x5F20FC00,
1127   FPIntegerConvertMask  = 0xFFFFFC00,
1128   FCVTNS    = FPIntegerConvertFixed | 0x00000000,
1129   FCVTNS_ws = FCVTNS,
1130   FCVTNS_xs = FCVTNS | SixtyFourBits,
1131   FCVTNS_wd = FCVTNS | FP64,
1132   FCVTNS_xd = FCVTNS | SixtyFourBits | FP64,
1133   FCVTNU    = FPIntegerConvertFixed | 0x00010000,
1134   FCVTNU_ws = FCVTNU,
1135   FCVTNU_xs = FCVTNU | SixtyFourBits,
1136   FCVTNU_wd = FCVTNU | FP64,
1137   FCVTNU_xd = FCVTNU | SixtyFourBits | FP64,
1138   FCVTPS    = FPIntegerConvertFixed | 0x00080000,
1139   FCVTPS_ws = FCVTPS,
1140   FCVTPS_xs = FCVTPS | SixtyFourBits,
1141   FCVTPS_wd = FCVTPS | FP64,
1142   FCVTPS_xd = FCVTPS | SixtyFourBits | FP64,
1143   FCVTPU    = FPIntegerConvertFixed | 0x00090000,
1144   FCVTPU_ws = FCVTPU,
1145   FCVTPU_xs = FCVTPU | SixtyFourBits,
1146   FCVTPU_wd = FCVTPU | FP64,
1147   FCVTPU_xd = FCVTPU | SixtyFourBits | FP64,
1148   FCVTMS    = FPIntegerConvertFixed | 0x00100000,
1149   FCVTMS_ws = FCVTMS,
1150   FCVTMS_xs = FCVTMS | SixtyFourBits,
1151   FCVTMS_wd = FCVTMS | FP64,
1152   FCVTMS_xd = FCVTMS | SixtyFourBits | FP64,
1153   FCVTMU    = FPIntegerConvertFixed | 0x00110000,
1154   FCVTMU_ws = FCVTMU,
1155   FCVTMU_xs = FCVTMU | SixtyFourBits,
1156   FCVTMU_wd = FCVTMU | FP64,
1157   FCVTMU_xd = FCVTMU | SixtyFourBits | FP64,
1158   FCVTZS    = FPIntegerConvertFixed | 0x00180000,
1159   FCVTZS_ws = FCVTZS,
1160   FCVTZS_xs = FCVTZS | SixtyFourBits,
1161   FCVTZS_wd = FCVTZS | FP64,
1162   FCVTZS_xd = FCVTZS | SixtyFourBits | FP64,
1163   FCVTZU    = FPIntegerConvertFixed | 0x00190000,
1164   FCVTZU_ws = FCVTZU,
1165   FCVTZU_xs = FCVTZU | SixtyFourBits,
1166   FCVTZU_wd = FCVTZU | FP64,
1167   FCVTZU_xd = FCVTZU | SixtyFourBits | FP64,
1168   SCVTF     = FPIntegerConvertFixed | 0x00020000,
1169   SCVTF_sw  = SCVTF,
1170   SCVTF_sx  = SCVTF | SixtyFourBits,
1171   SCVTF_dw  = SCVTF | FP64,
1172   SCVTF_dx  = SCVTF | SixtyFourBits | FP64,
1173   UCVTF     = FPIntegerConvertFixed | 0x00030000,
1174   UCVTF_sw  = UCVTF,
1175   UCVTF_sx  = UCVTF | SixtyFourBits,
1176   UCVTF_dw  = UCVTF | FP64,
1177   UCVTF_dx  = UCVTF | SixtyFourBits | FP64,
1178   FCVTAS    = FPIntegerConvertFixed | 0x00040000,
1179   FCVTAS_ws = FCVTAS,
1180   FCVTAS_xs = FCVTAS | SixtyFourBits,
1181   FCVTAS_wd = FCVTAS | FP64,
1182   FCVTAS_xd = FCVTAS | SixtyFourBits | FP64,
1183   FCVTAU    = FPIntegerConvertFixed | 0x00050000,
1184   FCVTAU_ws = FCVTAU,
1185   FCVTAU_xs = FCVTAU | SixtyFourBits,
1186   FCVTAU_wd = FCVTAU | FP64,
1187   FCVTAU_xd = FCVTAU | SixtyFourBits | FP64,
1188   FMOV_ws   = FPIntegerConvertFixed | 0x00060000,
1189   FMOV_sw   = FPIntegerConvertFixed | 0x00070000,
1190   FMOV_xd   = FMOV_ws | SixtyFourBits | FP64,
1191   FMOV_dx   = FMOV_sw | SixtyFourBits | FP64
1192 };
1193 
1194 // Conversion between fixed point and floating point.
1195 enum FPFixedPointConvertOp {
1196   FPFixedPointConvertFixed = 0x1E000000,
1197   FPFixedPointConvertFMask = 0x5F200000,
1198   FPFixedPointConvertMask  = 0xFFFF0000,
1199   FCVTZS_fixed    = FPFixedPointConvertFixed | 0x00180000,
1200   FCVTZS_ws_fixed = FCVTZS_fixed,
1201   FCVTZS_xs_fixed = FCVTZS_fixed | SixtyFourBits,
1202   FCVTZS_wd_fixed = FCVTZS_fixed | FP64,
1203   FCVTZS_xd_fixed = FCVTZS_fixed | SixtyFourBits | FP64,
1204   FCVTZU_fixed    = FPFixedPointConvertFixed | 0x00190000,
1205   FCVTZU_ws_fixed = FCVTZU_fixed,
1206   FCVTZU_xs_fixed = FCVTZU_fixed | SixtyFourBits,
1207   FCVTZU_wd_fixed = FCVTZU_fixed | FP64,
1208   FCVTZU_xd_fixed = FCVTZU_fixed | SixtyFourBits | FP64,
1209   SCVTF_fixed     = FPFixedPointConvertFixed | 0x00020000,
1210   SCVTF_sw_fixed  = SCVTF_fixed,
1211   SCVTF_sx_fixed  = SCVTF_fixed | SixtyFourBits,
1212   SCVTF_dw_fixed  = SCVTF_fixed | FP64,
1213   SCVTF_dx_fixed  = SCVTF_fixed | SixtyFourBits | FP64,
1214   UCVTF_fixed     = FPFixedPointConvertFixed | 0x00030000,
1215   UCVTF_sw_fixed  = UCVTF_fixed,
1216   UCVTF_sx_fixed  = UCVTF_fixed | SixtyFourBits,
1217   UCVTF_dw_fixed  = UCVTF_fixed | FP64,
1218   UCVTF_dx_fixed  = UCVTF_fixed | SixtyFourBits | FP64
1219 };
1220 
1221 // Unimplemented and unallocated instructions. These are defined to make fixed
1222 // bit assertion easier.
1223 enum UnimplementedOp {
1224   UnimplementedFixed = 0x00000000,
1225   UnimplementedFMask = 0x00000000
1226 };
1227 
1228 enum UnallocatedOp {
1229   UnallocatedFixed = 0x00000000,
1230   UnallocatedFMask = 0x00000000
1231 };
1232 
1233 }  // namespace internal
1234 }  // namespace v8
1235 
1236 #endif  // V8_ARM64_CONSTANTS_ARM64_H_
1237