xref: /freebsd/contrib/llvm-project/llvm/lib/Target/ARM/ARMScheduleSwift.td (revision 5def4c47d4bd90b209b9b4a4ba9faec15846d8fd)
1//=- ARMScheduleSwift.td - Swift Scheduling Definitions -*- tablegen -*----===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8//
9// This file defines the itinerary class data for the Swift processor..
10//
11//===----------------------------------------------------------------------===//
12
13// ===---------------------------------------------------------------------===//
14// This section contains legacy support for itineraries. This is
15// required until SD and PostRA schedulers are replaced by MachineScheduler.
16
17def SW_DIS0 : FuncUnit;
18def SW_DIS1 : FuncUnit;
19def SW_DIS2 : FuncUnit;
20
21def SW_ALU0 : FuncUnit;
22def SW_ALU1 : FuncUnit;
23def SW_LS   : FuncUnit;
24def SW_IDIV : FuncUnit;
25def SW_FDIV : FuncUnit;
26
27// FIXME: Need bypasses.
28// FIXME: Model the multiple stages of IIC_iMOVix2, IIC_iMOVix2addpc, and
29//        IIC_iMOVix2ld better.
30// FIXME: Model the special immediate shifts that are not microcoded.
31// FIXME: Do we need to model the fact that uses of r15 in a micro-op force it
32//        to issue on pipe 1?
33// FIXME: Model the pipelined behavior of CMP / TST instructions.
34// FIXME: Better model the microcode stages of multiply instructions, especially
35//        conditional variants.
36// FIXME: Add preload instruction when it is documented.
37// FIXME: Model non-pipelined nature of FP div / sqrt unit.
38
39// Swift machine model for scheduling and other instruction cost heuristics.
40def SwiftModel : SchedMachineModel {
41  let IssueWidth = 3; // 3 micro-ops are dispatched per cycle.
42  let MicroOpBufferSize = 45; // Based on NEON renamed registers.
43  let LoadLatency = 3;
44  let MispredictPenalty = 14; // A branch direction mispredict.
45  let CompleteModel = 0;      // FIXME: Remove if all instructions are covered.
46
47  // FIXME: Remove when all errors have been fixed.
48  let FullInstRWOverlapCheck = 0;
49}
50
51// Swift predicates.
52def IsFastImmShiftSwiftPred : SchedPredicate<[{TII->isSwiftFastImmShift(MI)}]>;
53
54// Swift resource mapping.
55let SchedModel = SwiftModel in {
56  // Processor resources.
57  def SwiftUnitP01 : ProcResource<2>; // ALU unit.
58  def SwiftUnitP0 : ProcResource<1> { let Super = SwiftUnitP01; } // Mul unit.
59  def SwiftUnitP1 : ProcResource<1> { let Super = SwiftUnitP01; } // Br unit.
60  def SwiftUnitP2 : ProcResource<1>; // LS unit.
61  def SwiftUnitDiv : ProcResource<1>;
62
63  // Generic resource requirements.
64  def SwiftWriteP0OneCycle : SchedWriteRes<[SwiftUnitP0]>;
65  def SwiftWriteP0TwoCycle : SchedWriteRes<[SwiftUnitP0]> { let Latency = 2; }
66  def SwiftWriteP0FourCycle : SchedWriteRes<[SwiftUnitP0]> { let Latency = 4; }
67  def SwiftWriteP0SixCycle : SchedWriteRes<[SwiftUnitP0]> { let Latency = 6; }
68  def SwiftWriteP0P1FourCycle : SchedWriteRes<[SwiftUnitP0, SwiftUnitP1]> {
69    let Latency = 4;
70  }
71  def SwiftWriteP0P1SixCycle : SchedWriteRes<[SwiftUnitP0, SwiftUnitP1]> {
72    let Latency = 6;
73  }
74  def SwiftWriteP01OneCycle : SchedWriteRes<[SwiftUnitP01]>;
75  def SwiftWriteP1TwoCycle : SchedWriteRes<[SwiftUnitP1]> { let Latency = 2; }
76  def SwiftWriteP1FourCycle : SchedWriteRes<[SwiftUnitP1]> { let Latency = 4; }
77  def SwiftWriteP1SixCycle : SchedWriteRes<[SwiftUnitP1]> { let Latency = 6; }
78  def SwiftWriteP1EightCycle : SchedWriteRes<[SwiftUnitP1]> { let Latency = 8; }
79  def SwiftWriteP1TwelveCyc : SchedWriteRes<[SwiftUnitP1]> { let Latency = 12; }
80  def SwiftWriteP01OneCycle2x : WriteSequence<[SwiftWriteP01OneCycle], 2>;
81  def SwiftWriteP01OneCycle3x : WriteSequence<[SwiftWriteP01OneCycle], 3>;
82  def SwiftWriteP01TwoCycle : SchedWriteRes<[SwiftUnitP01]> { let Latency = 2; }
83  def SwiftWriteP01ThreeCycleTwoUops : SchedWriteRes<[SwiftUnitP01,
84                                                      SwiftUnitP01]> {
85    let Latency = 3;
86    let NumMicroOps = 2;
87  }
88  def SwiftWriteP0ThreeCycleThreeUops : SchedWriteRes<[SwiftUnitP0]> {
89    let Latency = 3;
90    let NumMicroOps = 3;
91    let ResourceCycles = [3];
92  }
93  // Plain load without writeback.
94  def SwiftWriteP2ThreeCycle : SchedWriteRes<[SwiftUnitP2]> {
95    let Latency = 3;
96  }
97  def SwiftWriteP2FourCycle : SchedWriteRes<[SwiftUnitP2]> {
98    let Latency = 4;
99  }
100  // A store does not write to a register.
101  def SwiftWriteP2 : SchedWriteRes<[SwiftUnitP2]> {
102    let Latency = 0;
103  }
104  foreach Num = 1-4 in {
105    def SwiftWrite#Num#xP2 : WriteSequence<[SwiftWriteP2], Num>;
106  }
107  def SwiftWriteP01OneCycle2x_load : WriteSequence<[SwiftWriteP01OneCycle,
108                                                    SwiftWriteP01OneCycle,
109                                                    SwiftWriteP2ThreeCycle]>;
110  // 4.2.4 Arithmetic and Logical.
111  // ALU operation register shifted by immediate variant.
112  def SwiftWriteALUsi : SchedWriteVariant<[
113    // lsl #2, lsl #1, or lsr #1.
114    SchedVar<IsFastImmShiftSwiftPred, [SwiftWriteP01TwoCycle]>,
115    SchedVar<NoSchedPred,             [WriteALU]>
116  ]>;
117  def SwiftWriteALUsr : SchedWriteVariant<[
118    SchedVar<IsPredicatedPred, [SwiftWriteP01ThreeCycleTwoUops]>,
119    SchedVar<NoSchedPred,      [SwiftWriteP01TwoCycle]>
120  ]>;
121  def SwiftWriteALUSsr : SchedWriteVariant<[
122    SchedVar<IsPredicatedPred, [SwiftWriteP0ThreeCycleThreeUops]>,
123    SchedVar<NoSchedPred,      [SwiftWriteP01TwoCycle]>
124  ]>;
125  def SwiftReadAdvanceALUsr : SchedReadVariant<[
126    SchedVar<IsPredicatedPred, [SchedReadAdvance<2>]>,
127    SchedVar<NoSchedPred,      [NoReadAdvance]>
128  ]>;
129  // ADC,ADD,NEG,RSB,RSC,SBC,SUB,ADR
130  // AND,BIC,EOR,ORN,ORR
131  // CLZ,RBIT,REV,REV16,REVSH,PKH
132  def : WriteRes<WriteALU, [SwiftUnitP01]>;
133  def : SchedAlias<WriteALUsi, SwiftWriteALUsi>;
134  def : SchedAlias<WriteALUsr, SwiftWriteALUsr>;
135  def : SchedAlias<WriteALUSsr, SwiftWriteALUSsr>;
136  def : ReadAdvance<ReadALU, 0>;
137  def : SchedAlias<ReadALUsr, SwiftReadAdvanceALUsr>;
138  def : SchedAlias<WriteLd, SwiftWriteP2ThreeCycle>;
139  def : SchedAlias<WriteST, SwiftWriteP2>;
140
141
142  def SwiftChooseShiftKindP01OneOrTwoCycle : SchedWriteVariant<[
143    SchedVar<IsFastImmShiftSwiftPred, [SwiftWriteP01OneCycle]>,
144    SchedVar<NoSchedPred,             [SwiftWriteP01TwoCycle]>
145  ]>;
146
147  // 4.2.5 Integer comparison
148  def : WriteRes<WriteCMP, [SwiftUnitP01]>;
149  def : SchedAlias<WriteCMPsi, SwiftChooseShiftKindP01OneOrTwoCycle>;
150  def : SchedAlias<WriteCMPsr, SwiftWriteP01TwoCycle>;
151
152  // 4.2.6 Shift, Move
153  // Shift
154  //  ASR,LSL,ROR,RRX
155  //  MOV(register-shiftedregister)  MVN(register-shiftedregister)
156  // Move
157  //  MOV,MVN
158  //  MOVT
159  // Sign/Zero extension
160  def : InstRW<[SwiftWriteP01OneCycle],
161               (instregex "SXTB", "SXTH", "SXTB16", "UXTB", "UXTH", "UXTB16",
162                          "t2SXTB", "t2SXTH", "t2SXTB16", "t2UXTB", "t2UXTH",
163                          "t2UXTB16")>;
164  // Pseudo instructions.
165  def : InstRW<[SwiftWriteP01OneCycle2x],
166        (instregex "MOVCCi32imm", "MOVi32imm", "t2MOVCCi32imm",
167                   "t2MOVi32imm")>;
168  def : InstRW<[SwiftWriteP01OneCycle3x],
169        (instregex "MOV_ga_pcrel", "t2MOV_ga_pcrel", "t2MOVi16_ga_pcrel")>;
170  def : InstRW<[SwiftWriteP01OneCycle2x_load],
171        (instregex "MOV_ga_pcrel_ldr")>;
172
173  def SwiftWriteP0TwoCycleTwoUops : WriteSequence<[SwiftWriteP0OneCycle], 2>;
174
175  def SwiftPredP0OneOrTwoCycle : SchedWriteVariant<[
176    SchedVar<IsPredicatedPred, [ SwiftWriteP0TwoCycleTwoUops ]>,
177    SchedVar<NoSchedPred,     [ SwiftWriteP0OneCycle ]>
178  ]>;
179
180  // 4.2.7 Select
181  // SEL
182  def : InstRW<[SwiftPredP0OneOrTwoCycle], (instregex "SEL", "t2SEL")>;
183
184  // 4.2.8 Bitfield
185  // BFI,BFC, SBFX,UBFX
186  def : InstRW< [SwiftWriteP01TwoCycle],
187        (instregex "BFC", "BFI", "UBFX", "SBFX", "(t|t2)BFC", "(t|t2)BFI",
188        "(t|t2)UBFX", "(t|t2)SBFX")>;
189
190  // 4.2.9 Saturating arithmetic
191  def : InstRW< [SwiftWriteP01TwoCycle],
192        (instregex "QADD", "QSUB", "QDADD", "QDSUB", "SSAT", "SSAT16", "USAT",
193        "USAT16", "QADD8", "QADD16", "QSUB8", "QSUB16", "QASX", "QSAX",
194        "UQADD8", "UQADD16","UQSUB8","UQSUB16","UQASX","UQSAX", "t2QADD",
195        "t2QSUB", "t2QDADD", "t2QDSUB", "t2SSAT", "t2SSAT16", "t2USAT",
196        "t2QADD8", "t2QADD16", "t2QSUB8", "t2QSUB16", "t2QASX", "t2QSAX",
197        "t2UQADD8", "t2UQADD16","t2UQSUB8","t2UQSUB16","t2UQASX","t2UQSAX")>;
198
199  // 4.2.10 Parallel Arithmetic
200  // Not flag setting.
201  def : InstRW< [SwiftWriteALUsr],
202        (instregex "SADD8", "SADD16", "SSUB8", "SSUB16", "SASX", "SSAX",
203        "UADD8", "UADD16", "USUB8", "USUB16", "UASX", "USAX", "t2SADD8",
204        "t2SADD16", "t2SSUB8", "t2SSUB16", "t2SASX", "t2SSAX", "t2UADD8",
205        "t2UADD16", "t2USUB8", "t2USUB16", "t2UASX", "t2USAX")>;
206  // Flag setting.
207  def : InstRW< [SwiftWriteP01TwoCycle],
208       (instregex "SHADD8", "SHADD16", "SHSUB8", "SHSUB16", "SHASX", "SHSAX",
209       "SXTAB", "SXTAB16", "SXTAH", "UHADD8", "UHADD16", "UHSUB8", "UHSUB16",
210       "UHASX", "UHSAX", "UXTAB", "UXTAB16", "UXTAH", "t2SHADD8", "t2SHADD16",
211       "t2SHSUB8", "t2SHSUB16", "t2SHASX", "t2SHSAX", "t2SXTAB", "t2SXTAB16",
212       "t2SXTAH", "t2UHADD8", "t2UHADD16", "t2UHSUB8", "t2UHSUB16", "t2UHASX",
213       "t2UHSAX", "t2UXTAB", "t2UXTAB16", "t2UXTAH")>;
214
215  // 4.2.11 Sum of Absolute Difference
216  def : InstRW< [SwiftWriteP0P1FourCycle], (instregex "USAD8") >;
217  def : InstRW<[SwiftWriteP0P1FourCycle, ReadALU, ReadALU, SchedReadAdvance<2>],
218        (instregex "USADA8")>;
219
220  // 4.2.12 Integer Multiply (32-bit result)
221  // Two sources.
222  def : InstRW< [SwiftWriteP0FourCycle],
223        (instregex "MUL", "SMMUL", "SMMULR", "SMULBB", "SMULBT",
224        "SMULTB", "SMULTT", "SMULWB", "SMULWT", "SMUSD", "SMUSDX", "t2MUL",
225        "t2SMMUL", "t2SMMULR", "t2SMULBB", "t2SMULBT", "t2SMULTB", "t2SMULTT",
226        "t2SMULWB", "t2SMULWT", "t2SMUSD")>;
227
228  def SwiftWriteP0P01FiveCycleTwoUops :
229      SchedWriteRes<[SwiftUnitP0, SwiftUnitP01]>  {
230    let Latency = 5;
231  }
232
233  def SwiftPredP0P01FourFiveCycle : SchedWriteVariant<[
234    SchedVar<IsPredicatedPred, [ SwiftWriteP0P01FiveCycleTwoUops ]>,
235    SchedVar<NoSchedPred,      [ SwiftWriteP0FourCycle ]>
236  ]>;
237
238  def SwiftReadAdvanceFourCyclesPred : SchedReadVariant<[
239     SchedVar<IsPredicatedPred, [SchedReadAdvance<4>]>,
240     SchedVar<NoSchedPred,      [ReadALU]>
241  ]>;
242
243  // Multiply accumulate, three sources
244  def : InstRW< [SwiftPredP0P01FourFiveCycle, ReadALU, ReadALU,
245                 SwiftReadAdvanceFourCyclesPred],
246        (instregex "MLA", "MLS", "SMMLA", "SMMLAR", "SMMLS", "SMMLSR",
247        "t2MLA", "t2MLS", "t2SMMLA", "t2SMMLAR", "t2SMMLS",
248        "t2SMMLSR")>;
249
250  // 4.2.13 Integer Multiply (32-bit result, Q flag)
251  def : InstRW< [SwiftWriteP0FourCycle],
252        (instregex "SMUAD", "SMUADX", "t2SMUAD", "t2SMUADX")>;
253  def : InstRW< [SwiftPredP0P01FourFiveCycle, ReadALU, ReadALU,
254                 SwiftReadAdvanceFourCyclesPred],
255        (instregex "SMLABB", "SMLABT", "SMLATB", "SMLATT", "SMLSD", "SMLSDX",
256        "SMLAWB", "SMLAWT", "t2SMLABB", "t2SMLABT", "t2SMLATB", "t2SMLATT",
257        "t2SMLSD", "t2SMLSDX", "t2SMLAWB", "t2SMLAWT")>;
258  def : InstRW< [SwiftPredP0P01FourFiveCycle],
259        (instregex "SMLAD", "SMLADX", "t2SMLAD", "t2SMLADX")>;
260
261  def SwiftP0P0P01FiveCycle : SchedWriteRes<[SwiftUnitP0, SwiftUnitP01]> {
262    let Latency = 5;
263    let NumMicroOps = 3;
264    let ResourceCycles = [2, 1];
265  }
266  def SwiftWrite1Cycle : SchedWriteRes<[]> {
267    let Latency = 1;
268    let NumMicroOps = 0;
269  }
270  def SwiftWrite5Cycle : SchedWriteRes<[]> {
271    let Latency = 5;
272    let NumMicroOps = 0;
273  }
274  def SwiftWrite6Cycle : SchedWriteRes<[]> {
275    let Latency = 6;
276    let NumMicroOps = 0;
277  }
278
279  // 4.2.14 Integer Multiply, Long
280  def : InstRW< [SwiftP0P0P01FiveCycle, SwiftWrite5Cycle],
281        (instregex "SMULL$", "UMULL$", "t2SMULL$", "t2UMULL$")>;
282
283  def Swift2P03P01FiveCycle : SchedWriteRes<[SwiftUnitP0, SwiftUnitP01]> {
284    let Latency = 7;
285    let NumMicroOps = 5;
286    let ResourceCycles = [2, 3];
287  }
288
289  // Aliasing sub-target specific WriteRes to generic ones
290  def : SchedAlias<WriteMUL16, SwiftWriteP0FourCycle>;
291  def : SchedAlias<WriteMUL32, SwiftWriteP0FourCycle>;
292  def : SchedAlias<WriteMUL64Lo, SwiftP0P0P01FiveCycle>;
293  def : SchedAlias<WriteMUL64Hi, SwiftWrite5Cycle>;
294  def : SchedAlias<WriteMAC16, SwiftPredP0P01FourFiveCycle>;
295  def : SchedAlias<WriteMAC32, SwiftPredP0P01FourFiveCycle>;
296  def : SchedAlias<WriteMAC64Lo, SwiftWrite5Cycle>;
297  def : SchedAlias<WriteMAC64Hi, Swift2P03P01FiveCycle>;
298  def : ReadAdvance<ReadMUL, 0>;
299  def : SchedAlias<ReadMAC, SwiftReadAdvanceFourCyclesPred>;
300
301  // 4.2.15 Integer Multiply Accumulate, Long
302  // 4.2.16 Integer Multiply Accumulate, Dual
303  // 4.2.17 Integer Multiply Accumulate Accumulate, Long
304  // We are being a bit inaccurate here.
305  def : InstRW< [SwiftWrite5Cycle, Swift2P03P01FiveCycle, ReadALU, ReadALU,
306                 SchedReadAdvance<4>, SchedReadAdvance<3>],
307        (instregex "SMLAL", "UMLAL", "SMLALBT",
308        "SMLALTB", "SMLALTT", "SMLALD", "SMLALDX", "SMLSLD", "SMLSLDX",
309        "UMAAL", "t2SMLAL", "t2UMLAL", "t2SMLALBB", "t2SMLALBT",
310        "t2SMLALTB", "t2SMLALTT", "t2SMLALD", "t2SMLALDX", "t2SMLSLD", "t2SMLSLDX",
311        "t2UMAAL")>;
312
313  def SwiftDiv : SchedWriteRes<[SwiftUnitP0, SwiftUnitDiv]> {
314    let NumMicroOps = 1;
315    let Latency = 14;
316    let ResourceCycles = [1, 14];
317  }
318  // 4.2.18 Integer Divide
319  def : WriteRes<WriteDIV, [SwiftUnitDiv]>; // Workaround.
320  def : InstRW <[SwiftDiv],
321        (instregex "SDIV", "UDIV", "t2SDIV", "t2UDIV")>;
322
323  // 4.2.19 Integer Load Single Element
324  // 4.2.20 Integer Load Signextended
325  def SwiftWriteP2P01ThreeCycle : SchedWriteRes<[SwiftUnitP2, SwiftUnitP01]> {
326    let Latency = 3;
327    let NumMicroOps = 2;
328  }
329  def SwiftWriteP2P01FourCycle : SchedWriteRes<[SwiftUnitP2, SwiftUnitP01]> {
330    let Latency = 4;
331    let NumMicroOps = 2;
332  }
333  def SwiftWriteP2P01P01FourCycle : SchedWriteRes<[SwiftUnitP2, SwiftUnitP01,
334                                                   SwiftUnitP01]> {
335    let Latency = 4;
336    let NumMicroOps = 3;
337  }
338  def SwiftWriteP2P2ThreeCycle : SchedWriteRes<[SwiftUnitP2, SwiftUnitP2]> {
339    let Latency = 3;
340    let NumMicroOps = 2;
341  }
342  def SwiftWriteP2P2P01ThreeCycle : SchedWriteRes<[SwiftUnitP2, SwiftUnitP2,
343                                                   SwiftUnitP01]> {
344    let Latency = 3;
345    let NumMicroOps = 3;
346  }
347  def SwiftWrBackOne : SchedWriteRes<[]> {
348    let Latency = 1;
349    let NumMicroOps = 0;
350  }
351  def SwiftWriteLdFour : SchedWriteRes<[]> {
352    let Latency = 4;
353    let NumMicroOps = 0;
354  }
355   // Not accurate.
356  def : InstRW<[SwiftWriteP2ThreeCycle],
357        (instregex "LDR(i12|rs)$", "LDRB(i12|rs)$", "t2LDR(i8|i12|s|pci)",
358        "t2LDR(H|B)(i8|i12|s|pci)", "LDREX", "tLDR[BH](r|i|spi|pci|pciASM)",
359        "tLDR(r|i|spi|pci|pciASM)")>;
360  def : InstRW<[SwiftWriteP2ThreeCycle],
361        (instregex "LDRH$",  "PICLDR$", "PICLDR(H|B)$", "LDRcp$")>;
362  def : InstRW<[SwiftWriteP2P01FourCycle],
363        (instregex "PICLDRS(H|B)$", "t2LDRS(H|B)(i|r|p|s)", "LDRS(H|B)$",
364        "t2LDRpci_pic", "tLDRS(B|H)")>;
365  def : InstRW<[SwiftWriteP2P01ThreeCycle,  SwiftWrBackOne],
366        (instregex "LD(RB|R)(_|T_)(POST|PRE)_(IMM|REG)", "LDRH(_PRE|_POST)",
367        "LDR(T|BT)_POST_(REG|IMM)", "LDRHT(i|r)",
368        "t2LD(R|RB|RH)_(PRE|POST)", "t2LD(R|RB|RH)T")>;
369  def : InstRW<[SwiftWriteP2P01P01FourCycle, SwiftWrBackOne],
370        (instregex "LDR(SH|SB)(_POST|_PRE)", "t2LDR(SH|SB)(_POST|_PRE)",
371        "LDRS(B|H)T(i|r)", "t2LDRS(B|H)T(i|r)?")>;
372
373  // 4.2.21 Integer Dual Load
374  // Not accurate.
375  def : InstRW<[SwiftWriteP2P2ThreeCycle, SwiftWriteLdFour],
376        (instregex "t2LDRDi8", "LDRD$")>;
377  def : InstRW<[SwiftWriteP2P2P01ThreeCycle, SwiftWriteLdFour, SwiftWrBackOne],
378        (instregex "LDRD_(POST|PRE)", "t2LDRD_(POST|PRE)")>;
379
380  // 4.2.22 Integer Load, Multiple
381  // NumReg = 1 .. 16
382  foreach Lat = 3-25 in {
383    def SwiftWriteLM#Lat#Cy : SchedWriteRes<[SwiftUnitP2]> {
384      let Latency = Lat;
385    }
386    def SwiftWriteLM#Lat#CyNo : SchedWriteRes<[]> {
387      let Latency = Lat;
388      let NumMicroOps = 0;
389    }
390  }
391  // Predicate.
392  foreach NumAddr = 1-16 in {
393    def SwiftLMAddr#NumAddr#Pred : SchedPredicate<"TII->getNumLDMAddresses(*MI) == "#NumAddr>;
394  }
395  def SwiftWriteLDMAddrNoWB : SchedWriteRes<[SwiftUnitP01]> { let Latency = 0; }
396  def SwiftWriteLDMAddrWB : SchedWriteRes<[SwiftUnitP01, SwiftUnitP01]>;
397  def SwiftWriteLM : SchedWriteVariant<[
398    SchedVar<SwiftLMAddr2Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy]>,
399    SchedVar<SwiftLMAddr3Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
400                                SwiftWriteLM5Cy]>,
401    SchedVar<SwiftLMAddr4Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
402                                SwiftWriteLM5Cy, SwiftWriteLM6Cy]>,
403    SchedVar<SwiftLMAddr5Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
404                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
405                                SwiftWriteLM7Cy]>,
406    SchedVar<SwiftLMAddr6Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
407                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
408                                SwiftWriteLM7Cy, SwiftWriteLM8Cy]>,
409    SchedVar<SwiftLMAddr7Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
410                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
411                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
412                                SwiftWriteLM9Cy]>,
413    SchedVar<SwiftLMAddr8Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
414                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
415                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
416                                SwiftWriteLM9Cy, SwiftWriteLM10Cy]>,
417    SchedVar<SwiftLMAddr9Pred, [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
418                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
419                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
420                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
421                                SwiftWriteLM11Cy]>,
422    SchedVar<SwiftLMAddr10Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
423                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
424                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
425                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
426                                SwiftWriteLM11Cy, SwiftWriteLM12Cy]>,
427    SchedVar<SwiftLMAddr11Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
428                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
429                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
430                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
431                                SwiftWriteLM11Cy, SwiftWriteLM12Cy,
432                                SwiftWriteLM13Cy]>,
433    SchedVar<SwiftLMAddr12Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
434                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
435                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
436                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
437                                SwiftWriteLM11Cy, SwiftWriteLM12Cy,
438                                SwiftWriteLM13Cy, SwiftWriteLM14Cy]>,
439    SchedVar<SwiftLMAddr13Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
440                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
441                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
442                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
443                                SwiftWriteLM11Cy, SwiftWriteLM12Cy,
444                                SwiftWriteLM13Cy, SwiftWriteLM14Cy,
445                                SwiftWriteLM15Cy]>,
446    SchedVar<SwiftLMAddr14Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
447                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
448                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
449                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
450                                SwiftWriteLM11Cy, SwiftWriteLM12Cy,
451                                SwiftWriteLM13Cy, SwiftWriteLM14Cy,
452                                SwiftWriteLM15Cy, SwiftWriteLM16Cy]>,
453    SchedVar<SwiftLMAddr15Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
454                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
455                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
456                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
457                                SwiftWriteLM11Cy, SwiftWriteLM12Cy,
458                                SwiftWriteLM13Cy, SwiftWriteLM14Cy,
459                                SwiftWriteLM15Cy, SwiftWriteLM16Cy,
460                                SwiftWriteLM17Cy]>,
461    SchedVar<SwiftLMAddr16Pred,[SwiftWriteLM3Cy, SwiftWriteLM4Cy,
462                                SwiftWriteLM5Cy, SwiftWriteLM6Cy,
463                                SwiftWriteLM7Cy, SwiftWriteLM8Cy,
464                                SwiftWriteLM9Cy, SwiftWriteLM10Cy,
465                                SwiftWriteLM11Cy, SwiftWriteLM12Cy,
466                                SwiftWriteLM13Cy, SwiftWriteLM14Cy,
467                                SwiftWriteLM15Cy, SwiftWriteLM16Cy,
468                                SwiftWriteLM17Cy, SwiftWriteLM18Cy]>,
469    // Unknow number of registers, just use resources for two registers.
470    SchedVar<NoSchedPred,      [SwiftWriteLM3Cy, SwiftWriteLM4Cy,
471                                SwiftWriteLM5CyNo, SwiftWriteLM6CyNo,
472                                SwiftWriteLM7CyNo, SwiftWriteLM8CyNo,
473                                SwiftWriteLM9CyNo, SwiftWriteLM10CyNo,
474                                SwiftWriteLM11CyNo, SwiftWriteLM12CyNo,
475                                SwiftWriteLM13CyNo, SwiftWriteLM14CyNo,
476                                SwiftWriteLM15CyNo, SwiftWriteLM16CyNo,
477                                SwiftWriteLM17CyNo, SwiftWriteLM18CyNo]>
478
479  ]> { let Variadic=1; }
480
481  def : InstRW<[SwiftWriteLM, SwiftWriteLDMAddrNoWB],
482        (instregex "LDM(IA|DA|DB|IB)$", "t2LDM(IA|DA|DB|IB)$",
483        "(t|sys)LDM(IA|DA|DB|IB)$")>;
484  def : InstRW<[SwiftWriteLDMAddrWB, SwiftWriteLM],
485        (instregex /*"t2LDMIA_RET", "tLDMIA_RET", "LDMIA_RET",*/
486        "LDM(IA|DA|DB|IB)_UPD", "(t2|sys|t)LDM(IA|DA|DB|IB)_UPD")>;
487  def : InstRW<[SwiftWriteLDMAddrWB, SwiftWriteLM, SwiftWriteP1TwoCycle],
488        (instregex "LDMIA_RET", "(t|t2)LDMIA_RET", "tPOP")>;
489  // 4.2.23 Integer Store, Single Element
490  def : InstRW<[SwiftWriteP2],
491        (instregex "PICSTR", "STR(i12|rs)", "STRB(i12|rs)", "STRH$", "STREX",
492        "t2STR(i12|i8|s)$", "t2STR[BH](i12|i8|s)$", "tSTR[BH](i|r)", "tSTR(i|r)", "tSTRspi")>;
493
494  def : InstRW<[SwiftWriteP01OneCycle, SwiftWriteP2],
495        (instregex "STR(B_|_|BT_|T_)(PRE_IMM|PRE_REG|POST_REG|POST_IMM)",
496        "STR(i|r)_preidx", "STRB(i|r)_preidx", "STRH_preidx", "STR(H_|HT_)(PRE|POST)",
497        "STR(BT|HT|T)", "t2STR_(PRE|POST)", "t2STR[BH]_(PRE|POST)",
498        "t2STR_preidx", "t2STR[BH]_preidx", "t2ST(RB|RH|R)T")>;
499
500  // 4.2.24 Integer Store, Dual
501  def : InstRW<[SwiftWriteP2, SwiftWriteP2, SwiftWriteP01OneCycle],
502        (instregex "STRD$", "t2STRDi8")>;
503  def : InstRW<[SwiftWriteP01OneCycle, SwiftWriteP2, SwiftWriteP2,
504                SwiftWriteP01OneCycle],
505        (instregex "(t2|t)STRD_(POST|PRE)", "STRD_(POST|PRE)")>;
506
507  // 4.2.25 Integer Store, Multiple
508  def SwiftWriteStIncAddr : SchedWriteRes<[SwiftUnitP2, SwiftUnitP01]> {
509    let Latency = 0;
510    let NumMicroOps = 2;
511  }
512  foreach NumAddr = 1-16 in {
513     def SwiftWriteSTM#NumAddr : WriteSequence<[SwiftWriteStIncAddr], NumAddr>;
514  }
515  def SwiftWriteSTM : SchedWriteVariant<[
516    SchedVar<SwiftLMAddr2Pred, [SwiftWriteSTM2]>,
517    SchedVar<SwiftLMAddr3Pred, [SwiftWriteSTM3]>,
518    SchedVar<SwiftLMAddr4Pred, [SwiftWriteSTM4]>,
519    SchedVar<SwiftLMAddr5Pred, [SwiftWriteSTM5]>,
520    SchedVar<SwiftLMAddr6Pred, [SwiftWriteSTM6]>,
521    SchedVar<SwiftLMAddr7Pred, [SwiftWriteSTM7]>,
522    SchedVar<SwiftLMAddr8Pred, [SwiftWriteSTM8]>,
523    SchedVar<SwiftLMAddr9Pred, [SwiftWriteSTM9]>,
524    SchedVar<SwiftLMAddr10Pred,[SwiftWriteSTM10]>,
525    SchedVar<SwiftLMAddr11Pred,[SwiftWriteSTM11]>,
526    SchedVar<SwiftLMAddr12Pred,[SwiftWriteSTM12]>,
527    SchedVar<SwiftLMAddr13Pred,[SwiftWriteSTM13]>,
528    SchedVar<SwiftLMAddr14Pred,[SwiftWriteSTM14]>,
529    SchedVar<SwiftLMAddr15Pred,[SwiftWriteSTM15]>,
530    SchedVar<SwiftLMAddr16Pred,[SwiftWriteSTM16]>,
531    // Unknow number of registers, just use resources for two registers.
532    SchedVar<NoSchedPred,      [SwiftWriteSTM2]>
533  ]>;
534  def : InstRW<[SwiftWriteSTM],
535        (instregex "STM(IB|IA|DB|DA)$", "(t2|sys|t)STM(IB|IA|DB|DA)$")>;
536  def : InstRW<[SwiftWriteP01OneCycle, SwiftWriteSTM],
537        (instregex "STM(IB|IA|DB|DA)_UPD", "(t2|sys|t)STM(IB|IA|DB|DA)_UPD",
538        "tPUSH")>;
539
540  // LDRLIT pseudo instructions, they expand to LDR + PICADD
541  def : InstRW<[SwiftWriteP2ThreeCycle, WriteALU],
542        (instregex "t?LDRLIT_ga_abs", "t?LDRLIT_ga_pcrel")>;
543  // LDRLIT_ga_pcrel_ldr expands to LDR + PICLDR
544  def : InstRW<[SwiftWriteP2ThreeCycle, SwiftWriteP2ThreeCycle],
545        (instregex "LDRLIT_ga_pcrel_ldr")>;
546
547  // 4.2.26 Branch
548  def : WriteRes<WriteBr, [SwiftUnitP1]> { let Latency = 0; }
549  def : WriteRes<WriteBrL, [SwiftUnitP1]> { let Latency = 2; }
550  def : WriteRes<WriteBrTbl, [SwiftUnitP1, SwiftUnitP2]> { let Latency = 0; }
551
552  // 4.2.27 Not issued
553  def : WriteRes<WriteNoop, []> { let Latency = 0; let NumMicroOps = 0; }
554  def : InstRW<[WriteNoop], (instregex "t2IT", "IT")>;
555
556  // 4.2.28 Advanced SIMD, Integer, 2 cycle
557  def : InstRW<[SwiftWriteP0TwoCycle],
558        (instregex "VADDv", "VSUBv", "VNEG(s|f|v)", "VADDL", "VSUBL",
559                   "VADDW", "VSUBW", "VHADD", "VHSUB", "VRHADD", "VPADDi",
560                   "VPADDL", "VAND", "VBIC", "VEOR", "VORN", "VORR", "VTST",
561                   "VSHL", "VSHR(s|u)", "VSHLL", "VQSHL(s|u)", "VBIF", "VBIT",
562                   "VBSL", "VBSP", "VSLI", "VSRI", "VCLS", "VCLZ", "VCNT")>;
563
564  def : InstRW<[SwiftWriteP1TwoCycle],
565        (instregex "VEXT", "VREV16", "VREV32", "VREV64")>;
566
567  // 4.2.29 Advanced SIMD, Integer, 4 cycle
568  // 4.2.30 Advanced SIMD, Integer with Accumulate
569  def : InstRW<[SwiftWriteP0FourCycle],
570        (instregex "VABA", "VABAL", "VPADAL", "VRSRA", "VSRA", "VACGE", "VACGT",
571        "VCEQ", "VCGE", "VCGT", "VCLE", "VCLT", "VRSHL",
572        "VQRSHL", "VRSHR(u|s)", "VABS(f|v)", "VQABS", "VQNEG", "VQADD",
573        "VQSUB")>;
574  def : InstRW<[SwiftWriteP1FourCycle],
575        (instregex "VRECPE", "VRSQRTE")>;
576
577  // 4.2.31 Advanced SIMD, Add and Shift with Narrow
578  def : InstRW<[SwiftWriteP0P1FourCycle],
579        (instregex "VADDHN", "VSUBHN", "VSHRN")>;
580  def : InstRW<[SwiftWriteP0P1SixCycle],
581        (instregex "VRADDHN", "VRSUBHN", "VRSHRN", "VQSHRN", "VQSHRUN",
582                   "VQRSHRN", "VQRSHRUN")>;
583
584  // 4.2.32 Advanced SIMD, Vector Table Lookup
585  foreach Num = 1-4 in {
586    def SwiftWrite#Num#xP1TwoCycle : WriteSequence<[SwiftWriteP1TwoCycle], Num>;
587  }
588  def : InstRW<[SwiftWrite1xP1TwoCycle],
589        (instregex "VTB(L|X)1")>;
590  def : InstRW<[SwiftWrite2xP1TwoCycle],
591        (instregex "VTB(L|X)2")>;
592  def : InstRW<[SwiftWrite3xP1TwoCycle],
593        (instregex "VTB(L|X)3")>;
594  def : InstRW<[SwiftWrite4xP1TwoCycle],
595        (instregex "VTB(L|X)4")>;
596
597  // 4.2.33 Advanced SIMD, Transpose
598  def : InstRW<[SwiftWriteP1FourCycle, SwiftWriteP1FourCycle,
599                SwiftWriteP1TwoCycle/*RsrcOnly*/, SchedReadAdvance<2>],
600        (instregex "VSWP", "VTRN", "VUZP", "VZIP")>;
601
602  // 4.2.34 Advanced SIMD and VFP, Floating Point
603  def : InstRW<[SwiftWriteP0TwoCycle], (instregex "VABS(S|D)$", "VNEG(S|D)$")>;
604  def : InstRW<[SwiftWriteP0FourCycle],
605        (instregex "VCMP(D|S|ZD|ZS)$", "VCMPE(D|S|ZD|ZS)")>;
606  def : InstRW<[SwiftWriteP0FourCycle],
607        (instregex "VADD(S|f)", "VSUB(S|f)", "VABD", "VPADDf", "VMAX", "VMIN", "VPMAX",
608                   "VPMIN")>;
609  def : InstRW<[SwiftWriteP0SixCycle], (instregex "VADDD$", "VSUBD$")>;
610  def : InstRW<[SwiftWriteP1EightCycle], (instregex "VRECPS", "VRSQRTS")>;
611
612  // 4.2.35 Advanced SIMD and VFP, Multiply
613  def : InstRW<[SwiftWriteP1FourCycle],
614        (instregex "VMUL(S|v|p|f|s)", "VNMULS", "VQDMULH", "VQRDMULH",
615                   "VMULL", "VQDMULL")>;
616  def : InstRW<[SwiftWriteP1FourCycle],
617        (instregex "VMLA", "VMLS", "VNMLA", "VNMLS", "VFMA(S|D)", "VFMS(S|D)",
618        "VFNMA", "VFNMS", "VMLAL", "VMLSL","VQDMLAL", "VQDMLSL")>;
619  def : InstRW<[SwiftWriteP1EightCycle], (instregex "VFMAfd", "VFMSfd")>;
620  def : InstRW<[SwiftWriteP1TwelveCyc], (instregex "VFMAfq", "VFMSfq")>;
621
622  // 4.2.36 Advanced SIMD and VFP, Convert
623  def : InstRW<[SwiftWriteP1FourCycle], (instregex "VCVT", "V(S|U)IT", "VTO(S|U)")>;
624
625  // 4.2.37 Advanced SIMD and VFP, Move
626  def : InstRW<[SwiftWriteP0TwoCycle],
627        (instregex "VMOVv", "VMOV(S|D)$", "VMOV(S|D)cc",
628                   "VMVNv", "VMVN(d|q)",
629                   "FCONST(D|S)")>;
630  def : InstRW<[SwiftWriteP1TwoCycle], (instregex "VMOVN", "VMOVL")>;
631  def : InstRW<[WriteSequence<[SwiftWriteP0FourCycle, SwiftWriteP1TwoCycle]>],
632        (instregex "VQMOVN")>;
633  def : InstRW<[SwiftWriteP1TwoCycle], (instregex "VDUPLN")>;
634  def : InstRW<[WriteSequence<[SwiftWriteP2FourCycle, SwiftWriteP1TwoCycle]>],
635        (instregex "VDUP(8|16|32)")>;
636  def : InstRW<[SwiftWriteP2ThreeCycle], (instregex "VMOVRS$")>;
637  def : InstRW<[WriteSequence<[SwiftWriteP2FourCycle, SwiftWriteP0TwoCycle]>],
638        (instregex "VMOVSR$", "VSETLN")>;
639  def : InstRW<[SwiftWriteP2ThreeCycle, SwiftWriteP2FourCycle],
640        (instregex "VMOVRR(D|S)$")>;
641  def : InstRW<[SwiftWriteP2FourCycle], (instregex "VMOVDRR$")>;
642  def : InstRW<[WriteSequence<[SwiftWriteP2FourCycle, SwiftWriteP1TwoCycle]>,
643                WriteSequence<[SwiftWrite1Cycle, SwiftWriteP2FourCycle,
644                               SwiftWriteP1TwoCycle]>],
645                (instregex "VMOVSRR$")>;
646  def : InstRW<[WriteSequence<[SwiftWriteP1TwoCycle, SwiftWriteP2ThreeCycle]>],
647        (instregex "VGETLN(u|i)")>;
648  def : InstRW<[WriteSequence<[SwiftWriteP1TwoCycle, SwiftWriteP2ThreeCycle,
649                               SwiftWriteP01OneCycle]>],
650        (instregex "VGETLNs")>;
651
652  // 4.2.38 Advanced SIMD and VFP, Move FPSCR
653  // Serializing instructions.
654  def SwiftWaitP0For15Cy : SchedWriteRes<[SwiftUnitP0]> {
655    let Latency = 15;
656    let ResourceCycles = [15];
657  }
658  def SwiftWaitP1For15Cy : SchedWriteRes<[SwiftUnitP1]> {
659    let Latency = 15;
660    let ResourceCycles = [15];
661  }
662  def SwiftWaitP2For15Cy : SchedWriteRes<[SwiftUnitP2]> {
663    let Latency = 15;
664    let ResourceCycles = [15];
665  }
666  def : InstRW<[SwiftWaitP0For15Cy, SwiftWaitP1For15Cy, SwiftWaitP2For15Cy],
667        (instregex "VMRS")>;
668  def : InstRW<[SwiftWaitP0For15Cy, SwiftWaitP1For15Cy, SwiftWaitP2For15Cy],
669        (instregex "VMSR")>;
670  // Not serializing.
671  def : InstRW<[SwiftWriteP0TwoCycle], (instregex "FMSTAT")>;
672
673  // 4.2.39 Advanced SIMD and VFP, Load Single Element
674  def : InstRW<[SwiftWriteLM4Cy], (instregex "VLDRD$", "VLDRS$")>;
675
676  // 4.2.40 Advanced SIMD and VFP, Store Single Element
677  def : InstRW<[SwiftWriteLM4Cy], (instregex "VSTRD$", "VSTRS$")>;
678
679  // 4.2.41 Advanced SIMD and VFP, Load Multiple
680  // 4.2.42 Advanced SIMD and VFP, Store Multiple
681
682  // Resource requirement for permuting, just reserves the resources.
683  foreach Num = 1-28 in {
684    def SwiftVLDMPerm#Num : SchedWriteRes<[SwiftUnitP1]> {
685      let Latency = 0;
686      let NumMicroOps = Num;
687      let ResourceCycles = [Num];
688    }
689  }
690
691  // Pre RA pseudos - load/store to a Q register as a D register pair.
692  def : InstRW<[SwiftWriteLM4Cy], (instregex "VLDMQIA$", "VSTMQIA$")>;
693
694  // Post RA not modelled accurately. We assume that register use of width 64
695  // bit maps to a D register, 128 maps to a Q register. Not all different kinds
696  // are accurately represented.
697  def SwiftWriteVLDM : SchedWriteVariant<[
698    // Load of one S register.
699    SchedVar<SwiftLMAddr1Pred, [SwiftWriteLM4Cy]>,
700    // Load of one D register.
701    SchedVar<SwiftLMAddr2Pred, [SwiftWriteLM4Cy, SwiftWriteLM4CyNo]>,
702    // Load of 3 S register.
703    SchedVar<SwiftLMAddr3Pred, [SwiftWriteLM9Cy, SwiftWriteLM10Cy,
704                                SwiftWriteLM13CyNo, SwiftWriteP01OneCycle,
705                                SwiftVLDMPerm3]>,
706    // Load of a Q register (not necessarily true). We should not be mapping to
707    // 4 S registers, either.
708    SchedVar<SwiftLMAddr4Pred, [SwiftWriteLM4Cy, SwiftWriteLM4CyNo,
709                                SwiftWriteLM4CyNo, SwiftWriteLM4CyNo]>,
710    // Load of 5 S registers.
711    SchedVar<SwiftLMAddr5Pred, [SwiftWriteLM9Cy, SwiftWriteLM10Cy,
712                                SwiftWriteLM13CyNo, SwiftWriteLM14CyNo,
713                                SwiftWriteLM17CyNo,  SwiftWriteP01OneCycle,
714                                SwiftVLDMPerm5]>,
715    // Load of 3 D registers. (Must also be able to handle s register list -
716    // though, not accurate)
717    SchedVar<SwiftLMAddr6Pred, [SwiftWriteLM7Cy, SwiftWriteLM8Cy,
718                                SwiftWriteLM10Cy, SwiftWriteLM14CyNo,
719                                SwiftWriteLM14CyNo, SwiftWriteLM14CyNo,
720                                SwiftWriteP01OneCycle, SwiftVLDMPerm5]>,
721    // Load of 7 S registers.
722    SchedVar<SwiftLMAddr7Pred, [SwiftWriteLM9Cy, SwiftWriteLM10Cy,
723                                SwiftWriteLM13Cy, SwiftWriteLM14CyNo,
724                                SwiftWriteLM17CyNo, SwiftWriteLM18CyNo,
725                                SwiftWriteLM21CyNo, SwiftWriteP01OneCycle,
726                                SwiftVLDMPerm7]>,
727    // Load of two Q registers.
728    SchedVar<SwiftLMAddr8Pred, [SwiftWriteLM7Cy, SwiftWriteLM8Cy,
729                                SwiftWriteLM13Cy, SwiftWriteLM13CyNo,
730                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
731                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
732                                SwiftWriteP01OneCycle,  SwiftVLDMPerm2]>,
733    // Load of 9 S registers.
734    SchedVar<SwiftLMAddr9Pred, [SwiftWriteLM9Cy, SwiftWriteLM10Cy,
735                                SwiftWriteLM13Cy, SwiftWriteLM14CyNo,
736                                SwiftWriteLM17CyNo, SwiftWriteLM18CyNo,
737                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
738                                SwiftWriteLM25CyNo, SwiftWriteP01OneCycle,
739                                SwiftVLDMPerm9]>,
740    // Load of 5 D registers.
741    SchedVar<SwiftLMAddr10Pred,[SwiftWriteLM7Cy, SwiftWriteLM8Cy,
742                                SwiftWriteLM10Cy, SwiftWriteLM14Cy,
743                                SwiftWriteLM14CyNo, SwiftWriteLM14CyNo,
744                                SwiftWriteLM14CyNo, SwiftWriteLM14CyNo,
745                                SwiftWriteLM14CyNo,  SwiftWriteLM14CyNo,
746                                SwiftWriteP01OneCycle, SwiftVLDMPerm5]>,
747    // Inaccurate: reuse description from 9 S registers.
748    SchedVar<SwiftLMAddr11Pred,[SwiftWriteLM9Cy, SwiftWriteLM10Cy,
749                                SwiftWriteLM13Cy, SwiftWriteLM14CyNo,
750                                SwiftWriteLM17CyNo, SwiftWriteLM18CyNo,
751                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
752                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
753                                SwiftWriteLM25CyNo, SwiftWriteP01OneCycle,
754                                SwiftVLDMPerm9]>,
755    // Load of three Q registers.
756    SchedVar<SwiftLMAddr12Pred,[SwiftWriteLM7Cy, SwiftWriteLM8Cy,
757                                SwiftWriteLM11Cy, SwiftWriteLM11Cy,
758                                SwiftWriteLM11CyNo, SwiftWriteLM11CyNo,
759                                SwiftWriteLM11CyNo, SwiftWriteLM11CyNo,
760                                SwiftWriteLM11CyNo, SwiftWriteLM11CyNo,
761                                SwiftWriteLM11CyNo, SwiftWriteLM11CyNo,
762                                SwiftWriteP01OneCycle, SwiftVLDMPerm3]>,
763    // Inaccurate: reuse description from 9 S registers.
764    SchedVar<SwiftLMAddr13Pred, [SwiftWriteLM9Cy, SwiftWriteLM10Cy,
765                                SwiftWriteLM13Cy, SwiftWriteLM14CyNo,
766                                SwiftWriteLM17CyNo, SwiftWriteLM18CyNo,
767                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
768                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
769                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
770                                SwiftWriteLM25CyNo, SwiftWriteP01OneCycle,
771                                SwiftVLDMPerm9]>,
772    // Load of 7 D registers inaccurate.
773    SchedVar<SwiftLMAddr14Pred,[SwiftWriteLM7Cy, SwiftWriteLM8Cy,
774                                SwiftWriteLM10Cy, SwiftWriteLM14Cy,
775                                SwiftWriteLM14Cy, SwiftWriteLM14CyNo,
776                                SwiftWriteLM14CyNo, SwiftWriteLM14CyNo,
777                                SwiftWriteLM14CyNo,  SwiftWriteLM14CyNo,
778                                SwiftWriteLM14CyNo,  SwiftWriteLM14CyNo,
779                                SwiftWriteP01OneCycle, SwiftVLDMPerm7]>,
780    SchedVar<SwiftLMAddr15Pred,[SwiftWriteLM9Cy, SwiftWriteLM10Cy,
781                                SwiftWriteLM13Cy, SwiftWriteLM14Cy,
782                                SwiftWriteLM17Cy, SwiftWriteLM18CyNo,
783                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
784                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
785                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
786                                SwiftWriteLM21CyNo, SwiftWriteLM22CyNo,
787                                SwiftWriteLM25CyNo, SwiftWriteP01OneCycle,
788                                SwiftVLDMPerm9]>,
789    // Load of 4 Q registers.
790    SchedVar<SwiftLMAddr16Pred,[SwiftWriteLM7Cy, SwiftWriteLM10Cy,
791                                SwiftWriteLM11Cy, SwiftWriteLM14Cy,
792                                SwiftWriteLM15Cy, SwiftWriteLM18CyNo,
793                                SwiftWriteLM19CyNo, SwiftWriteLM22CyNo,
794                                SwiftWriteLM19CyNo, SwiftWriteLM22CyNo,
795                                SwiftWriteLM19CyNo, SwiftWriteLM22CyNo,
796                                SwiftWriteLM19CyNo, SwiftWriteLM22CyNo,
797                                SwiftWriteLM19CyNo, SwiftWriteLM22CyNo,
798                                SwiftWriteP01OneCycle, SwiftVLDMPerm4]>,
799    // Unknow number of registers, just use resources for two registers.
800    SchedVar<NoSchedPred,      [SwiftWriteLM7Cy, SwiftWriteLM8Cy,
801                                SwiftWriteLM13Cy, SwiftWriteLM13CyNo,
802                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
803                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
804                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
805                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
806                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
807                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
808                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
809                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
810                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
811                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
812                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
813                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
814                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
815                                SwiftWriteLM13CyNo, SwiftWriteLM13CyNo,
816                                SwiftWriteP01OneCycle,  SwiftVLDMPerm2]>
817  ]> { let Variadic = 1; }
818
819  def : InstRW<[SwiftWriteVLDM], (instregex "VLDM[SD](IA|DB)$")>;
820
821  def : InstRW<[SwiftWriteP01OneCycle2x, SwiftWriteVLDM],
822        (instregex "VLDM[SD](IA|DB)_UPD$")>;
823
824  def SwiftWriteVSTM : SchedWriteVariant<[
825    // One S register.
826    SchedVar<SwiftLMAddr1Pred, [SwiftWriteSTM1]>,
827    // One D register.
828    SchedVar<SwiftLMAddr2Pred, [SwiftWriteSTM1]>,
829    // Three S registers.
830    SchedVar<SwiftLMAddr3Pred, [SwiftWriteSTM4]>,
831    // Assume one Q register.
832    SchedVar<SwiftLMAddr4Pred, [SwiftWriteSTM1]>,
833    SchedVar<SwiftLMAddr5Pred, [SwiftWriteSTM6]>,
834    // Assume three D registers.
835    SchedVar<SwiftLMAddr6Pred, [SwiftWriteSTM4]>,
836    SchedVar<SwiftLMAddr7Pred, [SwiftWriteSTM8]>,
837    // Assume two Q registers.
838    SchedVar<SwiftLMAddr8Pred, [SwiftWriteSTM3]>,
839    SchedVar<SwiftLMAddr9Pred, [SwiftWriteSTM10]>,
840    // Assume 5 D registers.
841    SchedVar<SwiftLMAddr10Pred, [SwiftWriteSTM6]>,
842    SchedVar<SwiftLMAddr11Pred, [SwiftWriteSTM12]>,
843    // Assume three Q registers.
844    SchedVar<SwiftLMAddr12Pred, [SwiftWriteSTM4]>,
845    SchedVar<SwiftLMAddr13Pred, [SwiftWriteSTM14]>,
846    // Assume 7 D registers.
847    SchedVar<SwiftLMAddr14Pred, [SwiftWriteSTM8]>,
848    SchedVar<SwiftLMAddr15Pred, [SwiftWriteSTM16]>,
849    // Assume four Q registers.
850    SchedVar<SwiftLMAddr16Pred, [SwiftWriteSTM5]>,
851    // Asumme two Q registers.
852    SchedVar<NoSchedPred, [SwiftWriteSTM3]>
853  ]> { let Variadic = 1; }
854
855  def : InstRW<[SwiftWriteVSTM], (instregex "VSTM[SD](IA|DB)$")>;
856
857  def : InstRW<[SwiftWriteP01OneCycle2x, SwiftWriteVSTM],
858        (instregex "VSTM[SD](IA|DB)_UPD")>;
859
860  // 4.2.43 Advanced SIMD, Element or Structure Load and Store
861  def SwiftWrite2xP2FourCy : SchedWriteRes<[SwiftUnitP2]> {
862      let Latency = 4;
863      let ResourceCycles = [2];
864  }
865  def SwiftWrite3xP2FourCy : SchedWriteRes<[SwiftUnitP2]> {
866      let Latency = 4;
867      let ResourceCycles = [3];
868  }
869  foreach Num = 1-2 in {
870    def SwiftExt#Num#xP0 : SchedWriteRes<[SwiftUnitP0]> {
871      let Latency = 0;
872      let NumMicroOps = Num;
873      let ResourceCycles = [Num];
874    }
875  }
876  // VLDx
877  // Multiple structures.
878  // Single element structure loads.
879  // We assume aligned.
880  // Single/two register.
881  def : InstRW<[SwiftWriteLM4Cy], (instregex "VLD1(d|q)(8|16|32|64)$")>;
882  def : InstRW<[SwiftWriteLM4Cy, SwiftWriteP01OneCycle],
883        (instregex "VLD1(d|q)(8|16|32|64)wb")>;
884  // Three register.
885  def : InstRW<[SwiftWrite3xP2FourCy],
886        (instregex "VLD1(d|q)(8|16|32|64)T$", "VLD1d64TPseudo")>;
887  def : InstRW<[SwiftWrite3xP2FourCy, SwiftWriteP01OneCycle],
888        (instregex "VLD1(d|q)(8|16|32|64)Twb")>;
889  /// Four Register.
890  def : InstRW<[SwiftWrite2xP2FourCy],
891        (instregex "VLD1(d|q)(8|16|32|64)Q$", "VLD1d64QPseudo")>;
892  def : InstRW<[SwiftWrite2xP2FourCy, SwiftWriteP01OneCycle],
893        (instregex "VLD1(d|q)(8|16|32|64)Qwb")>;
894  // Two element structure loads.
895  // Two/four register.
896  def : InstRW<[SwiftWriteLM9Cy, SwiftExt2xP0, SwiftVLDMPerm2],
897        (instregex "VLD2(d|q|b)(8|16|32)$", "VLD2q(8|16|32)Pseudo$")>;
898  def : InstRW<[SwiftWriteLM9Cy, SwiftWriteP01OneCycle, SwiftExt2xP0,
899                SwiftVLDMPerm2],
900        (instregex "VLD2(d|q|b)(8|16|32)wb", "VLD2q(8|16|32)PseudoWB")>;
901  // Three element structure.
902  def : InstRW<[SwiftWriteLM9Cy, SwiftWriteLM9CyNo, SwiftWriteLM9CyNo,
903                SwiftVLDMPerm3, SwiftWrite3xP2FourCy],
904        (instregex "VLD3(d|q)(8|16|32)$")>;
905  def : InstRW<[SwiftWriteLM9Cy, SwiftVLDMPerm3, SwiftWrite3xP2FourCy],
906        (instregex "VLD3(d|q)(8|16|32)(oddP|P)seudo$")>;
907
908  def : InstRW<[SwiftWriteLM9Cy, SwiftWriteLM9CyNo, SwiftWriteLM9CyNo,
909                SwiftWriteP01OneCycle, SwiftVLDMPerm3, SwiftWrite3xP2FourCy],
910        (instregex "VLD3(d|q)(8|16|32)_UPD$")>;
911  def : InstRW<[SwiftWriteLM9Cy, SwiftWriteP01OneCycle, SwiftVLDMPerm3,
912                SwiftWrite3xP2FourCy],
913        (instregex "VLD3(d|q)(8|16|32)(oddP|P)seudo_UPD")>;
914  // Four element structure loads.
915  def : InstRW<[SwiftWriteLM11Cy, SwiftWriteLM11Cy, SwiftWriteLM11Cy,
916                SwiftWriteLM11Cy, SwiftExt2xP0, SwiftVLDMPerm4,
917                SwiftWrite3xP2FourCy],
918        (instregex "VLD4(d|q)(8|16|32)$")>;
919  def : InstRW<[SwiftWriteLM11Cy,  SwiftExt2xP0, SwiftVLDMPerm4,
920                SwiftWrite3xP2FourCy],
921        (instregex "VLD4(d|q)(8|16|32)(oddP|P)seudo$")>;
922  def : InstRW<[SwiftWriteLM11Cy, SwiftWriteLM11Cy, SwiftWriteLM11Cy,
923                SwiftWriteLM11Cy, SwiftWriteP01OneCycle, SwiftExt2xP0,
924                SwiftVLDMPerm4, SwiftWrite3xP2FourCy],
925        (instregex "VLD4(d|q)(8|16|32)_UPD")>;
926  def : InstRW<[SwiftWriteLM11Cy, SwiftWriteP01OneCycle, SwiftExt2xP0,
927                SwiftVLDMPerm4, SwiftWrite3xP2FourCy],
928        (instregex  "VLD4(d|q)(8|16|32)(oddP|P)seudo_UPD")>;
929
930  // Single all/lane loads.
931  // One element structure.
932  def : InstRW<[SwiftWriteLM6Cy, SwiftVLDMPerm2],
933        (instregex "VLD1(LN|DUP)(d|q)(8|16|32)$", "VLD1(LN|DUP)(d|q)(8|16|32)Pseudo$")>;
934  def : InstRW<[SwiftWriteLM6Cy, SwiftWriteP01OneCycle, SwiftVLDMPerm2],
935        (instregex "VLD1(LN|DUP)(d|q)(8|16|32)(wb|_UPD)",
936                  "VLD1LNq(8|16|32)Pseudo_UPD")>;
937  // Two element structure.
938  def : InstRW<[SwiftWriteLM6Cy, SwiftWriteLM6Cy, SwiftExt1xP0, SwiftVLDMPerm2],
939        (instregex "VLD2(DUP|LN)(d|q)(8|16|32|8x2|16x2|32x2)$",
940                   "VLD2LN(d|q)(8|16|32)Pseudo$")>;
941  def : InstRW<[SwiftWriteLM6Cy, SwiftWriteLM6Cy, SwiftWriteP01OneCycle,
942                SwiftExt1xP0, SwiftVLDMPerm2],
943        (instregex "VLD2LN(d|q)(8|16|32)_UPD$")>;
944  def : InstRW<[SwiftWriteLM6Cy, SwiftWriteP01OneCycle, SwiftWriteLM6Cy,
945                SwiftExt1xP0, SwiftVLDMPerm2],
946        (instregex "VLD2DUPd(8|16|32|8x2|16x2|32x2)wb")>;
947  def : InstRW<[SwiftWriteLM6Cy, SwiftWriteP01OneCycle, SwiftWriteLM6Cy,
948                SwiftExt1xP0, SwiftVLDMPerm2],
949        (instregex "VLD2LN(d|q)(8|16|32)Pseudo_UPD")>;
950  // Three element structure.
951  def : InstRW<[SwiftWriteLM7Cy, SwiftWriteLM8Cy, SwiftWriteLM8Cy, SwiftExt1xP0,
952                SwiftVLDMPerm3],
953        (instregex "VLD3(DUP|LN)(d|q)(8|16|32)$",
954                   "VLD3(LN|DUP)(d|q)(8|16|32)Pseudo$")>;
955  def : InstRW<[SwiftWriteLM7Cy, SwiftWriteLM8Cy, SwiftWriteLM8Cy,
956                SwiftWriteP01OneCycle, SwiftExt1xP0, SwiftVLDMPerm3],
957        (instregex "VLD3(LN|DUP)(d|q)(8|16|32)_UPD")>;
958  def : InstRW<[SwiftWriteLM7Cy, SwiftWriteP01OneCycle, SwiftWriteLM8Cy,
959                SwiftWriteLM8Cy, SwiftExt1xP0, SwiftVLDMPerm3],
960        (instregex "VLD3(LN|DUP)(d|q)(8|16|32)Pseudo_UPD")>;
961  // Four element structure.
962  def : InstRW<[SwiftWriteLM8Cy, SwiftWriteLM9Cy, SwiftWriteLM10CyNo,
963                SwiftWriteLM10CyNo, SwiftExt1xP0, SwiftVLDMPerm5],
964        (instregex "VLD4(LN|DUP)(d|q)(8|16|32)$",
965                   "VLD4(LN|DUP)(d|q)(8|16|32)Pseudo$")>;
966  def : InstRW<[SwiftWriteLM8Cy, SwiftWriteLM9Cy, SwiftWriteLM10CyNo,
967                SwiftWriteLM10CyNo, SwiftWriteP01OneCycle, SwiftExt1xP0,
968                SwiftVLDMPerm5],
969        (instregex "VLD4(DUP|LN)(d|q)(8|16|32)_UPD")>;
970  def : InstRW<[SwiftWriteLM8Cy, SwiftWriteP01OneCycle, SwiftWriteLM9Cy,
971                SwiftWriteLM10CyNo, SwiftWriteLM10CyNo, SwiftExt1xP0,
972                SwiftVLDMPerm5],
973        (instregex "VLD4(DUP|LN)(d|q)(8|16|32)Pseudo_UPD")>;
974  // VSTx
975  // Multiple structures.
976  // Single element structure store.
977  def : InstRW<[SwiftWrite1xP2], (instregex "VST1d(8|16|32|64)$")>;
978  def : InstRW<[SwiftWrite2xP2], (instregex "VST1q(8|16|32|64)$")>;
979  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite1xP2],
980        (instregex "VST1d(8|16|32|64)wb")>;
981  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite2xP2],
982        (instregex "VST1q(8|16|32|64)wb")>;
983  def : InstRW<[SwiftWrite3xP2],
984        (instregex "VST1d(8|16|32|64)T$", "VST1d64TPseudo$")>;
985  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite3xP2],
986        (instregex "VST1d(8|16|32|64)Twb", "VST1d64TPseudoWB")>;
987  def : InstRW<[SwiftWrite4xP2],
988        (instregex "VST1d(8|16|32|64)(Q|QPseudo)$")>;
989  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite4xP2],
990        (instregex "VST1d(8|16|32|64)(Qwb|QPseudoWB)")>;
991  // Two element structure store.
992  def : InstRW<[SwiftWrite1xP2, SwiftVLDMPerm1],
993        (instregex "VST2(d|b)(8|16|32)$")>;
994  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite1xP2, SwiftVLDMPerm1],
995        (instregex "VST2(b|d)(8|16|32)wb")>;
996  def : InstRW<[SwiftWrite2xP2, SwiftVLDMPerm2],
997        (instregex "VST2q(8|16|32)$", "VST2q(8|16|32)Pseudo$")>;
998  def : InstRW<[SwiftWrite2xP2, SwiftVLDMPerm2],
999        (instregex "VST2q(8|16|32)wb", "VST2q(8|16|32)PseudoWB")>;
1000  // Three element structure store.
1001  def : InstRW<[SwiftWrite4xP2, SwiftVLDMPerm2],
1002        (instregex "VST3(d|q)(8|16|32)$", "VST3(d|q)(8|16|32)(oddP|P)seudo$")>;
1003  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite4xP2, SwiftVLDMPerm2],
1004        (instregex "VST3(d|q)(8|16|32)_UPD",
1005                   "VST3(d|q)(8|16|32)(oddP|P)seudo_UPD$")>;
1006  // Four element structure store.
1007  def : InstRW<[SwiftWrite4xP2, SwiftVLDMPerm2],
1008        (instregex "VST4(d|q)(8|16|32)$", "VST4(d|q)(8|16|32)(oddP|P)seudo$")>;
1009  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite4xP2, SwiftVLDMPerm4],
1010        (instregex "VST4(d|q)(8|16|32)_UPD",
1011                   "VST4(d|q)(8|16|32)(oddP|P)seudo_UPD$")>;
1012  // Single/all lane store.
1013  // One element structure.
1014  def : InstRW<[SwiftWrite1xP2, SwiftVLDMPerm1],
1015        (instregex "VST1LNd(8|16|32)$", "VST1LNq(8|16|32)Pseudo$")>;
1016  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite1xP2, SwiftVLDMPerm1],
1017        (instregex "VST1LNd(8|16|32)_UPD", "VST1LNq(8|16|32)Pseudo_UPD")>;
1018  // Two element structure.
1019  def : InstRW<[SwiftWrite1xP2, SwiftVLDMPerm2],
1020        (instregex "VST2LN(d|q)(8|16|32)$", "VST2LN(d|q)(8|16|32)Pseudo$")>;
1021  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite1xP2, SwiftVLDMPerm2],
1022        (instregex "VST2LN(d|q)(8|16|32)_UPD",
1023                   "VST2LN(d|q)(8|16|32)Pseudo_UPD")>;
1024  // Three element structure.
1025  def : InstRW<[SwiftWrite4xP2, SwiftVLDMPerm2],
1026        (instregex "VST3LN(d|q)(8|16|32)$", "VST3LN(d|q)(8|16|32)Pseudo$")>;
1027  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite4xP2, SwiftVLDMPerm2],
1028        (instregex "VST3LN(d|q)(8|16|32)_UPD",
1029                   "VST3LN(d|q)(8|16|32)Pseudo_UPD")>;
1030  // Four element structure.
1031  def : InstRW<[SwiftWrite2xP2, SwiftVLDMPerm2],
1032        (instregex "VST4LN(d|q)(8|16|32)$", "VST4LN(d|q)(8|16|32)Pseudo$")>;
1033  def : InstRW<[SwiftWriteP01OneCycle, SwiftWrite2xP2, SwiftVLDMPerm2],
1034        (instregex "VST4LN(d|q)(8|16|32)_UPD",
1035                   "VST4LN(d|q)(8|16|32)Pseudo_UPD")>;
1036
1037  // 4.2.44 VFP, Divide and Square Root
1038  def SwiftDiv17 : SchedWriteRes<[SwiftUnitP0, SwiftUnitDiv]> {
1039    let NumMicroOps = 1;
1040    let Latency = 17;
1041    let ResourceCycles = [1, 15];
1042  }
1043  def SwiftDiv32 : SchedWriteRes<[SwiftUnitP0, SwiftUnitDiv]> {
1044    let NumMicroOps = 1;
1045    let Latency = 32;
1046    let ResourceCycles = [1, 30];
1047  }
1048  def : InstRW<[SwiftDiv17], (instregex "VDIVS", "VSQRTS")>;
1049  def : InstRW<[SwiftDiv32], (instregex "VDIVD", "VSQRTD")>;
1050
1051  // ===---------------------------------------------------------------------===//
1052  // Floating-point. Map target defined SchedReadWrite to processor specific ones
1053  //
1054  def : SchedAlias<WriteFPCVT, SwiftWriteP1FourCycle>;
1055  def : SchedAlias<WriteFPMOV, SwiftWriteP2ThreeCycle>;
1056
1057  def : SchedAlias<WriteFPALU32, SwiftWriteP0FourCycle>;
1058  def : SchedAlias<WriteFPALU64, SwiftWriteP0SixCycle>;
1059
1060  def : SchedAlias<WriteFPMUL32, SwiftWriteP1FourCycle>;
1061  def : SchedAlias<WriteFPMUL64, SwiftWriteP1SixCycle>;
1062
1063  def : SchedAlias<WriteFPMAC32, SwiftWriteP1FourCycle>;
1064  def : SchedAlias<WriteFPMAC64, SwiftWriteP1FourCycle>;
1065
1066  def : SchedAlias<WriteFPDIV32, SwiftDiv17>;
1067  def : SchedAlias<WriteFPSQRT32, SwiftDiv17>;
1068
1069  def : SchedAlias<WriteFPDIV64, SwiftDiv32>;
1070  def : SchedAlias<WriteFPSQRT64, SwiftDiv32>;
1071
1072  def : ReadAdvance<ReadFPMUL, 0>;
1073  def : ReadAdvance<ReadFPMAC, 0>;
1074
1075  // Overriden via InstRW for this processor.
1076  def : WriteRes<WriteVLD1, []>;
1077  def : WriteRes<WriteVLD2, []>;
1078  def : WriteRes<WriteVLD3, []>;
1079  def : WriteRes<WriteVLD4, []>;
1080  def : WriteRes<WriteVST1, []>;
1081  def : WriteRes<WriteVST2, []>;
1082  def : WriteRes<WriteVST3, []>;
1083  def : WriteRes<WriteVST4, []>;
1084
1085  // Not specified.
1086  def : InstRW<[SwiftWriteP01OneCycle2x], (instregex "ABS")>;
1087  // Preload.
1088  def : WriteRes<WritePreLd, [SwiftUnitP2]> { let Latency = 0;
1089    let ResourceCycles = [0];
1090  }
1091
1092}
1093