xref: /freebsd/contrib/llvm-project/llvm/lib/Target/PowerPC/PPCInstrVSX.td (revision d4eeb02986980bf33dd56c41ceb9fc5f180c0d47)
1//===- PPCInstrVSX.td - The PowerPC VSX Extension --*- 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 describes the VSX extension to the PowerPC instruction set.
10//
11//===----------------------------------------------------------------------===//
12
13// *********************************** NOTE ***********************************
14// ** For POWER8 Little Endian, the VSX swap optimization relies on knowing  **
15// ** which VMX and VSX instructions are lane-sensitive and which are not.   **
16// ** A lane-sensitive instruction relies, implicitly or explicitly, on      **
17// ** whether lanes are numbered from left to right.  An instruction like    **
18// ** VADDFP is not lane-sensitive, because each lane of the result vector   **
19// ** relies only on the corresponding lane of the source vectors.  However, **
20// ** an instruction like VMULESB is lane-sensitive, because "even" and      **
21// ** "odd" lanes are different for big-endian and little-endian numbering.  **
22// **                                                                        **
23// ** When adding new VMX and VSX instructions, please consider whether they **
24// ** are lane-sensitive.  If so, they must be added to a switch statement   **
25// ** in PPCVSXSwapRemoval::gatherVectorInstructions().                      **
26// ****************************************************************************
27
28// *********************************** NOTE ***********************************
29// ** When adding new anonymous patterns to this file, please add them to    **
30// ** the section titled Anonymous Patterns. Chances are that the existing   **
31// ** predicate blocks already contain a combination of features that you    **
32// ** are after. There is a list of blocks at the top of the section. If     **
33// ** you definitely need a new combination of predicates, please add that   **
34// ** combination to the list.                                               **
35// ** File Structure:                                                        **
36// ** - Custom PPCISD node definitions                                       **
37// ** - Predicate definitions: predicates to specify the subtargets for      **
38// **   which an instruction or pattern can be emitted.                      **
39// ** - Instruction formats: classes instantiated by the instructions.       **
40// **   These generally correspond to instruction formats in section 1.6 of  **
41// **   the ISA document.                                                    **
42// ** - Instruction definitions: the actual definitions of the instructions  **
43// **   often including input patterns that they match.                      **
44// ** - Helper DAG definitions: We define a number of dag objects to use as  **
45// **   input or output patterns for consciseness of the code.               **
46// ** - Anonymous patterns: input patterns that an instruction matches can   **
47// **   often not be specified as part of the instruction definition, so an  **
48// **   anonymous pattern must be specified mapping an input pattern to an   **
49// **   output pattern. These are generally guarded by subtarget predicates. **
50// ** - Instruction aliases: used to define extended mnemonics for assembly  **
51// **   printing (for example: xxswapd for xxpermdi with 0x2 as the imm).    **
52// ****************************************************************************
53
54def PPCRegVSRCAsmOperand : AsmOperandClass {
55  let Name = "RegVSRC"; let PredicateMethod = "isVSRegNumber";
56}
57def vsrc : RegisterOperand<VSRC> {
58  let ParserMatchClass = PPCRegVSRCAsmOperand;
59}
60
61def PPCRegVSFRCAsmOperand : AsmOperandClass {
62  let Name = "RegVSFRC"; let PredicateMethod = "isVSRegNumber";
63}
64def vsfrc : RegisterOperand<VSFRC> {
65  let ParserMatchClass = PPCRegVSFRCAsmOperand;
66}
67
68def PPCRegVSSRCAsmOperand : AsmOperandClass {
69  let Name = "RegVSSRC"; let PredicateMethod = "isVSRegNumber";
70}
71def vssrc : RegisterOperand<VSSRC> {
72  let ParserMatchClass = PPCRegVSSRCAsmOperand;
73}
74
75def PPCRegSPILLTOVSRRCAsmOperand : AsmOperandClass {
76  let Name = "RegSPILLTOVSRRC"; let PredicateMethod = "isVSRegNumber";
77}
78
79def spilltovsrrc : RegisterOperand<SPILLTOVSRRC> {
80  let ParserMatchClass = PPCRegSPILLTOVSRRCAsmOperand;
81}
82
83def SDT_PPCldvsxlh : SDTypeProfile<1, 1, [
84  SDTCisVT<0, v4f32>, SDTCisPtrTy<1>
85]>;
86
87def SDT_PPCfpexth : SDTypeProfile<1, 2, [
88  SDTCisVT<0, v2f64>, SDTCisVT<1, v4f32>, SDTCisPtrTy<2>
89]>;
90
91def SDT_PPCldsplat : SDTypeProfile<1, 1, [
92  SDTCisVec<0>, SDTCisPtrTy<1>
93]>;
94
95// Little-endian-specific nodes.
96def SDT_PPClxvd2x : SDTypeProfile<1, 1, [
97  SDTCisVT<0, v2f64>, SDTCisPtrTy<1>
98]>;
99def SDT_PPCstxvd2x : SDTypeProfile<0, 2, [
100  SDTCisVT<0, v2f64>, SDTCisPtrTy<1>
101]>;
102def SDT_PPCxxswapd : SDTypeProfile<1, 1, [
103  SDTCisSameAs<0, 1>
104]>;
105def SDTVecConv : SDTypeProfile<1, 2, [
106  SDTCisVec<0>, SDTCisVec<1>, SDTCisPtrTy<2>
107]>;
108def SDTVabsd : SDTypeProfile<1, 3, [
109  SDTCisVec<0>, SDTCisSameAs<0, 1>, SDTCisSameAs<0, 2>, SDTCisVT<3, i32>
110]>;
111def SDT_PPCld_vec_be : SDTypeProfile<1, 1, [
112  SDTCisVec<0>, SDTCisPtrTy<1>
113]>;
114def SDT_PPCst_vec_be : SDTypeProfile<0, 2, [
115  SDTCisVec<0>, SDTCisPtrTy<1>
116]>;
117
118//--------------------------- Custom PPC nodes -------------------------------//
119def PPClxvd2x  : SDNode<"PPCISD::LXVD2X", SDT_PPClxvd2x,
120                        [SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
121def PPCstxvd2x : SDNode<"PPCISD::STXVD2X", SDT_PPCstxvd2x,
122                        [SDNPHasChain, SDNPMayStore]>;
123def PPCld_vec_be  : SDNode<"PPCISD::LOAD_VEC_BE", SDT_PPCld_vec_be,
124                        [SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
125def PPCst_vec_be : SDNode<"PPCISD::STORE_VEC_BE", SDT_PPCst_vec_be,
126                        [SDNPHasChain, SDNPMayStore]>;
127def PPCxxswapd : SDNode<"PPCISD::XXSWAPD", SDT_PPCxxswapd, [SDNPHasChain]>;
128def PPCmfvsr : SDNode<"PPCISD::MFVSR", SDTUnaryOp, []>;
129def PPCmtvsra : SDNode<"PPCISD::MTVSRA", SDTUnaryOp, []>;
130def PPCmtvsrz : SDNode<"PPCISD::MTVSRZ", SDTUnaryOp, []>;
131def PPCsvec2fp : SDNode<"PPCISD::SINT_VEC_TO_FP", SDTVecConv, []>;
132def PPCuvec2fp: SDNode<"PPCISD::UINT_VEC_TO_FP", SDTVecConv, []>;
133def PPCswapNoChain : SDNode<"PPCISD::SWAP_NO_CHAIN", SDT_PPCxxswapd>;
134def PPCvabsd : SDNode<"PPCISD::VABSD", SDTVabsd, []>;
135
136def PPCfpexth : SDNode<"PPCISD::FP_EXTEND_HALF", SDT_PPCfpexth, []>;
137def PPCldvsxlh : SDNode<"PPCISD::LD_VSX_LH", SDT_PPCldvsxlh,
138                        [SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
139def PPCldsplat : SDNode<"PPCISD::LD_SPLAT", SDT_PPCldsplat,
140                        [SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
141def PPCzextldsplat : SDNode<"PPCISD::ZEXT_LD_SPLAT", SDT_PPCldsplat,
142                        [SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
143def PPCsextldsplat : SDNode<"PPCISD::SEXT_LD_SPLAT", SDT_PPCldsplat,
144                        [SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
145def PPCSToV : SDNode<"PPCISD::SCALAR_TO_VECTOR_PERMUTED",
146                     SDTypeProfile<1, 1, []>, []>;
147
148//-------------------------- Predicate definitions ---------------------------//
149def HasVSX : Predicate<"Subtarget->hasVSX()">;
150def IsLittleEndian : Predicate<"Subtarget->isLittleEndian()">;
151def IsBigEndian : Predicate<"!Subtarget->isLittleEndian()">;
152def IsPPC64 : Predicate<"Subtarget->isPPC64()">;
153def HasOnlySwappingMemOps : Predicate<"!Subtarget->hasP9Vector()">;
154def HasP8Vector : Predicate<"Subtarget->hasP8Vector()">;
155def HasDirectMove : Predicate<"Subtarget->hasDirectMove()">;
156def NoP9Vector : Predicate<"!Subtarget->hasP9Vector()">;
157def HasP9Vector : Predicate<"Subtarget->hasP9Vector()">;
158def NoP9Altivec : Predicate<"!Subtarget->hasP9Altivec()">;
159def NoP10Vector: Predicate<"!Subtarget->hasP10Vector()">;
160
161def PPCldsplatAlign16 : PatFrag<(ops node:$ptr), (PPCldsplat node:$ptr), [{
162  return cast<MemIntrinsicSDNode>(N)->getAlign() >= Align(16) &&
163         isOffsetMultipleOf(N, 16);
164}]>;
165
166//--------------------- VSX-specific instruction formats ---------------------//
167// By default, all VSX instructions are to be selected over their Altivec
168// counter parts and they do not have unmodeled sideeffects.
169let AddedComplexity = 400, hasSideEffects = 0 in {
170multiclass XX3Form_Rcr<bits<6> opcode, bits<7> xo, string asmbase,
171                    string asmstr, InstrItinClass itin, Intrinsic Int,
172                    ValueType OutTy, ValueType InTy> {
173  let BaseName = asmbase in {
174    def NAME : XX3Form_Rc<opcode, xo, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
175                       !strconcat(asmbase, !strconcat(" ", asmstr)), itin,
176                       [(set OutTy:$XT, (Int InTy:$XA, InTy:$XB))]>;
177    let Defs = [CR6] in
178    def _rec    : XX3Form_Rc<opcode, xo, (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
179                       !strconcat(asmbase, !strconcat(". ", asmstr)), itin,
180                       [(set InTy:$XT,
181                                (InTy (PPCvcmp_rec InTy:$XA, InTy:$XB, xo)))]>,
182                       isRecordForm;
183  }
184}
185
186// Instruction form with a single input register for instructions such as
187// XXPERMDI. The reason for defining this is that specifying multiple chained
188// operands (such as loads) to an instruction will perform both chained
189// operations rather than coalescing them into a single register - even though
190// the source memory location is the same. This simply forces the instruction
191// to use the same register for both inputs.
192// For example, an output DAG such as this:
193//   (XXPERMDI (LXSIBZX xoaddr:$src), (LXSIBZX xoaddr:$src ), 0))
194// would result in two load instructions emitted and used as separate inputs
195// to the XXPERMDI instruction.
196class XX3Form_2s<bits<6> opcode, bits<5> xo, dag OOL, dag IOL, string asmstr,
197                 InstrItinClass itin, list<dag> pattern>
198  : XX3Form_2<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
199    let XB = XA;
200}
201
202let Predicates = [HasVSX, HasP9Vector] in {
203class X_VT5_XO5_VB5<bits<6> opcode, bits<5> xo2, bits<10> xo, string opc,
204                    list<dag> pattern>
205  : X_RD5_XO5_RS5<opcode, xo2, xo, (outs vrrc:$vT), (ins vrrc:$vB),
206                  !strconcat(opc, " $vT, $vB"), IIC_VecFP, pattern>;
207
208// [PO VRT XO VRB XO RO], Round to Odd version of [PO VRT XO VRB XO /]
209class X_VT5_XO5_VB5_Ro<bits<6> opcode, bits<5> xo2, bits<10> xo, string opc,
210                       list<dag> pattern>
211  : X_VT5_XO5_VB5<opcode, xo2, xo, opc, pattern>, isRecordForm;
212
213// [PO VRT XO VRB XO /], but the VRB is only used the left 64 bits (or less),
214// So we use different operand class for VRB
215class X_VT5_XO5_VB5_TyVB<bits<6> opcode, bits<5> xo2, bits<10> xo, string opc,
216                         RegisterOperand vbtype, list<dag> pattern>
217  : X_RD5_XO5_RS5<opcode, xo2, xo, (outs vrrc:$vT), (ins vbtype:$vB),
218                  !strconcat(opc, " $vT, $vB"), IIC_VecFP, pattern>;
219
220// [PO VRT XO VRB XO /]
221class X_VT5_XO5_VB5_VSFR<bits<6> opcode, bits<5> xo2, bits<10> xo, string opc,
222                    list<dag> pattern>
223  : X_RD5_XO5_RS5<opcode, xo2, xo, (outs vfrc:$vT), (ins vrrc:$vB),
224                  !strconcat(opc, " $vT, $vB"), IIC_VecFP, pattern>;
225
226// [PO VRT XO VRB XO RO], Round to Odd version of [PO VRT XO VRB XO /]
227class X_VT5_XO5_VB5_VSFR_Ro<bits<6> opcode, bits<5> xo2, bits<10> xo, string opc,
228                       list<dag> pattern>
229  : X_VT5_XO5_VB5_VSFR<opcode, xo2, xo, opc, pattern>, isRecordForm;
230
231// [PO T XO B XO BX /]
232class XX2_RT5_XO5_XB6<bits<6> opcode, bits<5> xo2, bits<9> xo, string opc,
233                      list<dag> pattern>
234  : XX2_RD5_XO5_RS6<opcode, xo2, xo, (outs g8rc:$rT), (ins vsfrc:$XB),
235                    !strconcat(opc, " $rT, $XB"), IIC_VecFP, pattern>;
236
237// [PO T XO B XO BX TX]
238class XX2_XT6_XO5_XB6<bits<6> opcode, bits<5> xo2, bits<9> xo, string opc,
239                      RegisterOperand vtype, list<dag> pattern>
240  : XX2_RD6_XO5_RS6<opcode, xo2, xo, (outs vtype:$XT), (ins vtype:$XB),
241                    !strconcat(opc, " $XT, $XB"), IIC_VecFP, pattern>;
242
243// [PO T A B XO AX BX TX], src and dest register use different operand class
244class XX3_XT5_XA5_XB5<bits<6> opcode, bits<8> xo, string opc,
245                RegisterOperand xty, RegisterOperand aty, RegisterOperand bty,
246                InstrItinClass itin, list<dag> pattern>
247  : XX3Form<opcode, xo, (outs xty:$XT), (ins aty:$XA, bty:$XB),
248            !strconcat(opc, " $XT, $XA, $XB"), itin, pattern>;
249
250// [PO VRT VRA VRB XO /]
251class X_VT5_VA5_VB5<bits<6> opcode, bits<10> xo, string opc,
252                    list<dag> pattern>
253  : XForm_1<opcode, xo, (outs vrrc:$vT), (ins vrrc:$vA, vrrc:$vB),
254            !strconcat(opc, " $vT, $vA, $vB"), IIC_VecFP, pattern>;
255
256// [PO VRT VRA VRB XO RO], Round to Odd version of [PO VRT VRA VRB XO /]
257class X_VT5_VA5_VB5_Ro<bits<6> opcode, bits<10> xo, string opc,
258                       list<dag> pattern>
259  : X_VT5_VA5_VB5<opcode, xo, opc, pattern>, isRecordForm;
260
261// [PO VRT VRA VRB XO /]
262class X_VT5_VA5_VB5_FMA<bits<6> opcode, bits<10> xo, string opc,
263                        list<dag> pattern>
264  : XForm_1<opcode, xo, (outs vrrc:$vT), (ins vrrc:$vTi, vrrc:$vA, vrrc:$vB),
265            !strconcat(opc, " $vT, $vA, $vB"), IIC_VecFP, pattern>,
266            RegConstraint<"$vTi = $vT">, NoEncode<"$vTi">;
267
268// [PO VRT VRA VRB XO RO], Round to Odd version of [PO VRT VRA VRB XO /]
269class X_VT5_VA5_VB5_FMA_Ro<bits<6> opcode, bits<10> xo, string opc,
270                        list<dag> pattern>
271  : X_VT5_VA5_VB5_FMA<opcode, xo, opc, pattern>, isRecordForm;
272
273class Z23_VT5_R1_VB5_RMC2_EX1<bits<6> opcode, bits<8> xo, bit ex, string opc,
274                              list<dag> pattern>
275  : Z23Form_8<opcode, xo,
276              (outs vrrc:$vT), (ins u1imm:$r, vrrc:$vB, u2imm:$rmc),
277              !strconcat(opc, " $r, $vT, $vB, $rmc"), IIC_VecFP, pattern> {
278  let RC = ex;
279}
280
281// [PO BF // VRA VRB XO /]
282class X_BF3_VA5_VB5<bits<6> opcode, bits<10> xo, string opc,
283                    list<dag> pattern>
284  : XForm_17<opcode, xo, (outs crrc:$crD), (ins vrrc:$VA, vrrc:$VB),
285             !strconcat(opc, " $crD, $VA, $VB"), IIC_FPCompare> {
286  let Pattern = pattern;
287}
288
289// [PO T RA RB XO TX] almost equal to [PO S RA RB XO SX], but has different
290// "out" and "in" dag
291class X_XT6_RA5_RB5<bits<6> opcode, bits<10> xo, string opc,
292                    RegisterOperand vtype, list<dag> pattern>
293  : XX1Form_memOp<opcode, xo, (outs vtype:$XT), (ins memrr:$src),
294            !strconcat(opc, " $XT, $src"), IIC_LdStLFD, pattern>;
295
296// [PO S RA RB XO SX]
297class X_XS6_RA5_RB5<bits<6> opcode, bits<10> xo, string opc,
298                    RegisterOperand vtype, list<dag> pattern>
299  : XX1Form_memOp<opcode, xo, (outs), (ins vtype:$XT, memrr:$dst),
300            !strconcat(opc, " $XT, $dst"), IIC_LdStSTFD, pattern>;
301} // Predicates = HasP9Vector
302} // AddedComplexity = 400, hasSideEffects = 0
303
304multiclass ScalToVecWPermute<ValueType Ty, dag In, dag NonPermOut, dag PermOut> {
305  def : Pat<(Ty (scalar_to_vector In)), (Ty NonPermOut)>;
306  def : Pat<(Ty (PPCSToV In)), (Ty PermOut)>;
307}
308
309//-------------------------- Instruction definitions -------------------------//
310// VSX instructions require the VSX feature, they are to be selected over
311// equivalent Altivec patterns (as they address a larger register set) and
312// they do not have unmodeled side effects.
313let Predicates = [HasVSX], AddedComplexity = 400 in {
314let hasSideEffects = 0 in {
315
316  // Load indexed instructions
317  let mayLoad = 1, mayStore = 0 in {
318    let CodeSize = 3 in
319    def LXSDX : XX1Form_memOp<31, 588,
320                        (outs vsfrc:$XT), (ins memrr:$src),
321                        "lxsdx $XT, $src", IIC_LdStLFD,
322                        []>;
323
324    // Pseudo instruction XFLOADf64 will be expanded to LXSDX or LFDX later
325    let CodeSize = 3 in
326      def XFLOADf64  : PseudoXFormMemOp<(outs vsfrc:$XT), (ins memrr:$src),
327                              "#XFLOADf64",
328                              [(set f64:$XT, (load XForm:$src))]>;
329
330    let Predicates = [HasVSX, HasOnlySwappingMemOps] in
331    def LXVD2X : XX1Form_memOp<31, 844,
332                         (outs vsrc:$XT), (ins memrr:$src),
333                         "lxvd2x $XT, $src", IIC_LdStLFD,
334                         []>;
335
336    def LXVDSX : XX1Form_memOp<31, 332,
337                         (outs vsrc:$XT), (ins memrr:$src),
338                         "lxvdsx $XT, $src", IIC_LdStLFD, []>;
339
340    let Predicates = [HasVSX, HasOnlySwappingMemOps] in
341    def LXVW4X : XX1Form_memOp<31, 780,
342                         (outs vsrc:$XT), (ins memrr:$src),
343                         "lxvw4x $XT, $src", IIC_LdStLFD,
344                         []>;
345  } // mayLoad
346
347  // Store indexed instructions
348  let mayStore = 1, mayLoad = 0 in {
349    let CodeSize = 3 in
350    def STXSDX : XX1Form_memOp<31, 716,
351                        (outs), (ins vsfrc:$XT, memrr:$dst),
352                        "stxsdx $XT, $dst", IIC_LdStSTFD,
353                        []>;
354
355    // Pseudo instruction XFSTOREf64  will be expanded to STXSDX or STFDX later
356    let CodeSize = 3 in
357      def XFSTOREf64 : PseudoXFormMemOp<(outs), (ins vsfrc:$XT, memrr:$dst),
358                              "#XFSTOREf64",
359                              [(store f64:$XT, XForm:$dst)]>;
360
361    let Predicates = [HasVSX, HasOnlySwappingMemOps] in {
362    // The behaviour of this instruction is endianness-specific so we provide no
363    // pattern to match it without considering endianness.
364    def STXVD2X : XX1Form_memOp<31, 972,
365                         (outs), (ins vsrc:$XT, memrr:$dst),
366                         "stxvd2x $XT, $dst", IIC_LdStSTFD,
367                         []>;
368
369    def STXVW4X : XX1Form_memOp<31, 908,
370                         (outs), (ins vsrc:$XT, memrr:$dst),
371                         "stxvw4x $XT, $dst", IIC_LdStSTFD,
372                         []>;
373    }
374  } // mayStore
375
376  let mayRaiseFPException = 1 in {
377  let Uses = [RM] in {
378  // Add/Mul Instructions
379  let isCommutable = 1 in {
380    def XSADDDP : XX3Form<60, 32,
381                          (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
382                          "xsadddp $XT, $XA, $XB", IIC_VecFP,
383                          [(set f64:$XT, (any_fadd f64:$XA, f64:$XB))]>;
384    def XSMULDP : XX3Form<60, 48,
385                          (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
386                          "xsmuldp $XT, $XA, $XB", IIC_VecFP,
387                          [(set f64:$XT, (any_fmul f64:$XA, f64:$XB))]>;
388
389    def XVADDDP : XX3Form<60, 96,
390                          (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
391                          "xvadddp $XT, $XA, $XB", IIC_VecFP,
392                          [(set v2f64:$XT, (any_fadd v2f64:$XA, v2f64:$XB))]>;
393
394    def XVADDSP : XX3Form<60, 64,
395                          (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
396                          "xvaddsp $XT, $XA, $XB", IIC_VecFP,
397                          [(set v4f32:$XT, (any_fadd v4f32:$XA, v4f32:$XB))]>;
398
399    def XVMULDP : XX3Form<60, 112,
400                          (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
401                          "xvmuldp $XT, $XA, $XB", IIC_VecFP,
402                          [(set v2f64:$XT, (any_fmul v2f64:$XA, v2f64:$XB))]>;
403
404    def XVMULSP : XX3Form<60, 80,
405                          (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
406                          "xvmulsp $XT, $XA, $XB", IIC_VecFP,
407                          [(set v4f32:$XT, (any_fmul v4f32:$XA, v4f32:$XB))]>;
408  }
409
410  // Subtract Instructions
411  def XSSUBDP : XX3Form<60, 40,
412                        (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
413                        "xssubdp $XT, $XA, $XB", IIC_VecFP,
414                        [(set f64:$XT, (any_fsub f64:$XA, f64:$XB))]>;
415
416  def XVSUBDP : XX3Form<60, 104,
417                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
418                        "xvsubdp $XT, $XA, $XB", IIC_VecFP,
419                        [(set v2f64:$XT, (any_fsub v2f64:$XA, v2f64:$XB))]>;
420  def XVSUBSP : XX3Form<60, 72,
421                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
422                        "xvsubsp $XT, $XA, $XB", IIC_VecFP,
423                        [(set v4f32:$XT, (any_fsub v4f32:$XA, v4f32:$XB))]>;
424
425  // FMA Instructions
426  let BaseName = "XSMADDADP" in {
427  let isCommutable = 1 in
428  def XSMADDADP : XX3Form<60, 33,
429                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
430                          "xsmaddadp $XT, $XA, $XB", IIC_VecFP,
431                          [(set f64:$XT, (any_fma f64:$XA, f64:$XB, f64:$XTi))]>,
432                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
433                          AltVSXFMARel;
434  let IsVSXFMAAlt = 1 in
435  def XSMADDMDP : XX3Form<60, 41,
436                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
437                          "xsmaddmdp $XT, $XA, $XB", IIC_VecFP, []>,
438                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
439                          AltVSXFMARel;
440  }
441
442  let BaseName = "XSMSUBADP" in {
443  let isCommutable = 1 in
444  def XSMSUBADP : XX3Form<60, 49,
445                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
446                          "xsmsubadp $XT, $XA, $XB", IIC_VecFP,
447                          [(set f64:$XT, (any_fma f64:$XA, f64:$XB, (fneg f64:$XTi)))]>,
448                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
449                          AltVSXFMARel;
450  let IsVSXFMAAlt = 1 in
451  def XSMSUBMDP : XX3Form<60, 57,
452                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
453                          "xsmsubmdp $XT, $XA, $XB", IIC_VecFP, []>,
454                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
455                          AltVSXFMARel;
456  }
457
458  let BaseName = "XSNMADDADP" in {
459  let isCommutable = 1 in
460  def XSNMADDADP : XX3Form<60, 161,
461                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
462                          "xsnmaddadp $XT, $XA, $XB", IIC_VecFP,
463                          [(set f64:$XT, (fneg (any_fma f64:$XA, f64:$XB, f64:$XTi)))]>,
464                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
465                          AltVSXFMARel;
466  let IsVSXFMAAlt = 1 in
467  def XSNMADDMDP : XX3Form<60, 169,
468                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
469                          "xsnmaddmdp $XT, $XA, $XB", IIC_VecFP, []>,
470                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
471                          AltVSXFMARel;
472  }
473
474  let BaseName = "XSNMSUBADP" in {
475  let isCommutable = 1 in
476  def XSNMSUBADP : XX3Form<60, 177,
477                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
478                          "xsnmsubadp $XT, $XA, $XB", IIC_VecFP,
479                          [(set f64:$XT, (fneg (any_fma f64:$XA, f64:$XB, (fneg f64:$XTi))))]>,
480                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
481                          AltVSXFMARel;
482  let IsVSXFMAAlt = 1 in
483  def XSNMSUBMDP : XX3Form<60, 185,
484                          (outs vsfrc:$XT), (ins vsfrc:$XTi, vsfrc:$XA, vsfrc:$XB),
485                          "xsnmsubmdp $XT, $XA, $XB", IIC_VecFP, []>,
486                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
487                          AltVSXFMARel;
488  }
489
490  let BaseName = "XVMADDADP" in {
491  let isCommutable = 1 in
492  def XVMADDADP : XX3Form<60, 97,
493                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
494                          "xvmaddadp $XT, $XA, $XB", IIC_VecFP,
495                          [(set v2f64:$XT, (any_fma v2f64:$XA, v2f64:$XB, v2f64:$XTi))]>,
496                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
497                          AltVSXFMARel;
498  let IsVSXFMAAlt = 1 in
499  def XVMADDMDP : XX3Form<60, 105,
500                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
501                          "xvmaddmdp $XT, $XA, $XB", IIC_VecFP, []>,
502                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
503                          AltVSXFMARel;
504  }
505
506  let BaseName = "XVMADDASP" in {
507  let isCommutable = 1 in
508  def XVMADDASP : XX3Form<60, 65,
509                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
510                          "xvmaddasp $XT, $XA, $XB", IIC_VecFP,
511                          [(set v4f32:$XT, (any_fma v4f32:$XA, v4f32:$XB, v4f32:$XTi))]>,
512                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
513                          AltVSXFMARel;
514  let IsVSXFMAAlt = 1 in
515  def XVMADDMSP : XX3Form<60, 73,
516                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
517                          "xvmaddmsp $XT, $XA, $XB", IIC_VecFP, []>,
518                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
519                          AltVSXFMARel;
520  }
521
522  let BaseName = "XVMSUBADP" in {
523  let isCommutable = 1 in
524  def XVMSUBADP : XX3Form<60, 113,
525                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
526                          "xvmsubadp $XT, $XA, $XB", IIC_VecFP,
527                          [(set v2f64:$XT, (any_fma v2f64:$XA, v2f64:$XB, (fneg v2f64:$XTi)))]>,
528                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
529                          AltVSXFMARel;
530  let IsVSXFMAAlt = 1 in
531  def XVMSUBMDP : XX3Form<60, 121,
532                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
533                          "xvmsubmdp $XT, $XA, $XB", IIC_VecFP, []>,
534                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
535                          AltVSXFMARel;
536  }
537
538  let BaseName = "XVMSUBASP" in {
539  let isCommutable = 1 in
540  def XVMSUBASP : XX3Form<60, 81,
541                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
542                          "xvmsubasp $XT, $XA, $XB", IIC_VecFP,
543                          [(set v4f32:$XT, (any_fma v4f32:$XA, v4f32:$XB, (fneg v4f32:$XTi)))]>,
544                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
545                          AltVSXFMARel;
546  let IsVSXFMAAlt = 1 in
547  def XVMSUBMSP : XX3Form<60, 89,
548                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
549                          "xvmsubmsp $XT, $XA, $XB", IIC_VecFP, []>,
550                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
551                          AltVSXFMARel;
552  }
553
554  let BaseName = "XVNMADDADP" in {
555  let isCommutable = 1 in
556  def XVNMADDADP : XX3Form<60, 225,
557                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
558                          "xvnmaddadp $XT, $XA, $XB", IIC_VecFP,
559                          [(set v2f64:$XT, (fneg (any_fma v2f64:$XA, v2f64:$XB, v2f64:$XTi)))]>,
560                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
561                          AltVSXFMARel;
562  let IsVSXFMAAlt = 1 in
563  def XVNMADDMDP : XX3Form<60, 233,
564                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
565                          "xvnmaddmdp $XT, $XA, $XB", IIC_VecFP, []>,
566                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
567                          AltVSXFMARel;
568  }
569
570  let BaseName = "XVNMADDASP" in {
571  let isCommutable = 1 in
572  def XVNMADDASP : XX3Form<60, 193,
573                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
574                          "xvnmaddasp $XT, $XA, $XB", IIC_VecFP,
575                          [(set v4f32:$XT, (fneg (fma v4f32:$XA, v4f32:$XB, v4f32:$XTi)))]>,
576                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
577                          AltVSXFMARel;
578  let IsVSXFMAAlt = 1 in
579  def XVNMADDMSP : XX3Form<60, 201,
580                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
581                          "xvnmaddmsp $XT, $XA, $XB", IIC_VecFP, []>,
582                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
583                          AltVSXFMARel;
584  }
585
586  let BaseName = "XVNMSUBADP" in {
587  let isCommutable = 1 in
588  def XVNMSUBADP : XX3Form<60, 241,
589                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
590                          "xvnmsubadp $XT, $XA, $XB", IIC_VecFP,
591                          [(set v2f64:$XT, (fneg (any_fma v2f64:$XA, v2f64:$XB, (fneg v2f64:$XTi))))]>,
592                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
593                          AltVSXFMARel;
594  let IsVSXFMAAlt = 1 in
595  def XVNMSUBMDP : XX3Form<60, 249,
596                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
597                          "xvnmsubmdp $XT, $XA, $XB", IIC_VecFP, []>,
598                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
599                          AltVSXFMARel;
600  }
601
602  let BaseName = "XVNMSUBASP" in {
603  let isCommutable = 1 in
604  def XVNMSUBASP : XX3Form<60, 209,
605                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
606                          "xvnmsubasp $XT, $XA, $XB", IIC_VecFP,
607                          [(set v4f32:$XT, (fneg (any_fma v4f32:$XA, v4f32:$XB, (fneg v4f32:$XTi))))]>,
608                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
609                          AltVSXFMARel;
610  let IsVSXFMAAlt = 1 in
611  def XVNMSUBMSP : XX3Form<60, 217,
612                          (outs vsrc:$XT), (ins vsrc:$XTi, vsrc:$XA, vsrc:$XB),
613                          "xvnmsubmsp $XT, $XA, $XB", IIC_VecFP, []>,
614                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
615                          AltVSXFMARel;
616  }
617
618  // Division Instructions
619  def XSDIVDP : XX3Form<60, 56,
620                        (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
621                        "xsdivdp $XT, $XA, $XB", IIC_FPDivD,
622                        [(set f64:$XT, (any_fdiv f64:$XA, f64:$XB))]>;
623  def XSSQRTDP : XX2Form<60, 75,
624                        (outs vsfrc:$XT), (ins vsfrc:$XB),
625                        "xssqrtdp $XT, $XB", IIC_FPSqrtD,
626                        [(set f64:$XT, (any_fsqrt f64:$XB))]>;
627
628  def XSREDP : XX2Form<60, 90,
629                        (outs vsfrc:$XT), (ins vsfrc:$XB),
630                        "xsredp $XT, $XB", IIC_VecFP,
631                        [(set f64:$XT, (PPCfre f64:$XB))]>;
632  def XSRSQRTEDP : XX2Form<60, 74,
633                           (outs vsfrc:$XT), (ins vsfrc:$XB),
634                           "xsrsqrtedp $XT, $XB", IIC_VecFP,
635                           [(set f64:$XT, (PPCfrsqrte f64:$XB))]>;
636
637  let mayRaiseFPException = 0 in {
638  def XSTDIVDP : XX3Form_1<60, 61,
639                         (outs crrc:$crD), (ins vsfrc:$XA, vsfrc:$XB),
640                         "xstdivdp $crD, $XA, $XB", IIC_FPCompare, []>;
641  def XSTSQRTDP : XX2Form_1<60, 106,
642                          (outs crrc:$crD), (ins vsfrc:$XB),
643                          "xstsqrtdp $crD, $XB", IIC_FPCompare,
644                          [(set i32:$crD, (PPCftsqrt f64:$XB))]>;
645  def XVTDIVDP : XX3Form_1<60, 125,
646                         (outs crrc:$crD), (ins vsrc:$XA, vsrc:$XB),
647                         "xvtdivdp $crD, $XA, $XB", IIC_FPCompare, []>;
648  def XVTDIVSP : XX3Form_1<60, 93,
649                         (outs crrc:$crD), (ins vsrc:$XA, vsrc:$XB),
650                         "xvtdivsp $crD, $XA, $XB", IIC_FPCompare, []>;
651
652  def XVTSQRTDP : XX2Form_1<60, 234,
653                          (outs crrc:$crD), (ins vsrc:$XB),
654                          "xvtsqrtdp $crD, $XB", IIC_FPCompare,
655                          [(set i32:$crD, (PPCftsqrt v2f64:$XB))]>;
656  def XVTSQRTSP : XX2Form_1<60, 170,
657                          (outs crrc:$crD), (ins vsrc:$XB),
658                          "xvtsqrtsp $crD, $XB", IIC_FPCompare,
659                          [(set i32:$crD, (PPCftsqrt v4f32:$XB))]>;
660  }
661
662  def XVDIVDP : XX3Form<60, 120,
663                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
664                        "xvdivdp $XT, $XA, $XB", IIC_FPDivD,
665                        [(set v2f64:$XT, (any_fdiv v2f64:$XA, v2f64:$XB))]>;
666  def XVDIVSP : XX3Form<60, 88,
667                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
668                        "xvdivsp $XT, $XA, $XB", IIC_FPDivS,
669                        [(set v4f32:$XT, (any_fdiv v4f32:$XA, v4f32:$XB))]>;
670
671  def XVSQRTDP : XX2Form<60, 203,
672                        (outs vsrc:$XT), (ins vsrc:$XB),
673                        "xvsqrtdp $XT, $XB", IIC_FPSqrtD,
674                        [(set v2f64:$XT, (any_fsqrt v2f64:$XB))]>;
675  def XVSQRTSP : XX2Form<60, 139,
676                        (outs vsrc:$XT), (ins vsrc:$XB),
677                        "xvsqrtsp $XT, $XB", IIC_FPSqrtS,
678                        [(set v4f32:$XT, (any_fsqrt v4f32:$XB))]>;
679
680  def XVREDP : XX2Form<60, 218,
681                        (outs vsrc:$XT), (ins vsrc:$XB),
682                        "xvredp $XT, $XB", IIC_VecFP,
683                        [(set v2f64:$XT, (PPCfre v2f64:$XB))]>;
684  def XVRESP : XX2Form<60, 154,
685                        (outs vsrc:$XT), (ins vsrc:$XB),
686                        "xvresp $XT, $XB", IIC_VecFP,
687                        [(set v4f32:$XT, (PPCfre v4f32:$XB))]>;
688
689  def XVRSQRTEDP : XX2Form<60, 202,
690                           (outs vsrc:$XT), (ins vsrc:$XB),
691                           "xvrsqrtedp $XT, $XB", IIC_VecFP,
692                           [(set v2f64:$XT, (PPCfrsqrte v2f64:$XB))]>;
693  def XVRSQRTESP : XX2Form<60, 138,
694                           (outs vsrc:$XT), (ins vsrc:$XB),
695                           "xvrsqrtesp $XT, $XB", IIC_VecFP,
696                           [(set v4f32:$XT, (PPCfrsqrte v4f32:$XB))]>;
697
698  // Compare Instructions
699  def XSCMPODP : XX3Form_1<60, 43,
700                           (outs crrc:$crD), (ins vsfrc:$XA, vsfrc:$XB),
701                           "xscmpodp $crD, $XA, $XB", IIC_FPCompare, []>;
702  def XSCMPUDP : XX3Form_1<60, 35,
703                           (outs crrc:$crD), (ins vsfrc:$XA, vsfrc:$XB),
704                           "xscmpudp $crD, $XA, $XB", IIC_FPCompare, []>;
705
706  defm XVCMPEQDP : XX3Form_Rcr<60, 99,
707                             "xvcmpeqdp", "$XT, $XA, $XB", IIC_VecFPCompare,
708                             int_ppc_vsx_xvcmpeqdp, v2i64, v2f64>;
709  defm XVCMPEQSP : XX3Form_Rcr<60, 67,
710                             "xvcmpeqsp", "$XT, $XA, $XB", IIC_VecFPCompare,
711                             int_ppc_vsx_xvcmpeqsp, v4i32, v4f32>;
712  defm XVCMPGEDP : XX3Form_Rcr<60, 115,
713                             "xvcmpgedp", "$XT, $XA, $XB", IIC_VecFPCompare,
714                             int_ppc_vsx_xvcmpgedp, v2i64, v2f64>;
715  defm XVCMPGESP : XX3Form_Rcr<60, 83,
716                             "xvcmpgesp", "$XT, $XA, $XB", IIC_VecFPCompare,
717                             int_ppc_vsx_xvcmpgesp, v4i32, v4f32>;
718  defm XVCMPGTDP : XX3Form_Rcr<60, 107,
719                             "xvcmpgtdp", "$XT, $XA, $XB", IIC_VecFPCompare,
720                             int_ppc_vsx_xvcmpgtdp, v2i64, v2f64>;
721  defm XVCMPGTSP : XX3Form_Rcr<60, 75,
722                             "xvcmpgtsp", "$XT, $XA, $XB", IIC_VecFPCompare,
723                             int_ppc_vsx_xvcmpgtsp, v4i32, v4f32>;
724
725  // Move Instructions
726  let mayRaiseFPException = 0 in {
727  def XSABSDP : XX2Form<60, 345,
728                      (outs vsfrc:$XT), (ins vsfrc:$XB),
729                      "xsabsdp $XT, $XB", IIC_VecFP,
730                      [(set f64:$XT, (fabs f64:$XB))]>;
731  def XSNABSDP : XX2Form<60, 361,
732                      (outs vsfrc:$XT), (ins vsfrc:$XB),
733                      "xsnabsdp $XT, $XB", IIC_VecFP,
734                      [(set f64:$XT, (fneg (fabs f64:$XB)))]>;
735  def XSNEGDP : XX2Form<60, 377,
736                      (outs vsfrc:$XT), (ins vsfrc:$XB),
737                      "xsnegdp $XT, $XB", IIC_VecFP,
738                      [(set f64:$XT, (fneg f64:$XB))]>;
739  def XSCPSGNDP : XX3Form<60, 176,
740                      (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
741                      "xscpsgndp $XT, $XA, $XB", IIC_VecFP,
742                      [(set f64:$XT, (fcopysign f64:$XB, f64:$XA))]>;
743
744  def XVABSDP : XX2Form<60, 473,
745                      (outs vsrc:$XT), (ins vsrc:$XB),
746                      "xvabsdp $XT, $XB", IIC_VecFP,
747                      [(set v2f64:$XT, (fabs v2f64:$XB))]>;
748
749  def XVABSSP : XX2Form<60, 409,
750                      (outs vsrc:$XT), (ins vsrc:$XB),
751                      "xvabssp $XT, $XB", IIC_VecFP,
752                      [(set v4f32:$XT, (fabs v4f32:$XB))]>;
753
754  def XVCPSGNDP : XX3Form<60, 240,
755                      (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
756                      "xvcpsgndp $XT, $XA, $XB", IIC_VecFP,
757                      [(set v2f64:$XT, (fcopysign v2f64:$XB, v2f64:$XA))]>;
758  def XVCPSGNSP : XX3Form<60, 208,
759                      (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
760                      "xvcpsgnsp $XT, $XA, $XB", IIC_VecFP,
761                      [(set v4f32:$XT, (fcopysign v4f32:$XB, v4f32:$XA))]>;
762
763  def XVNABSDP : XX2Form<60, 489,
764                      (outs vsrc:$XT), (ins vsrc:$XB),
765                      "xvnabsdp $XT, $XB", IIC_VecFP,
766                      [(set v2f64:$XT, (fneg (fabs v2f64:$XB)))]>;
767  def XVNABSSP : XX2Form<60, 425,
768                      (outs vsrc:$XT), (ins vsrc:$XB),
769                      "xvnabssp $XT, $XB", IIC_VecFP,
770                      [(set v4f32:$XT, (fneg (fabs v4f32:$XB)))]>;
771
772  def XVNEGDP : XX2Form<60, 505,
773                      (outs vsrc:$XT), (ins vsrc:$XB),
774                      "xvnegdp $XT, $XB", IIC_VecFP,
775                      [(set v2f64:$XT, (fneg v2f64:$XB))]>;
776  def XVNEGSP : XX2Form<60, 441,
777                      (outs vsrc:$XT), (ins vsrc:$XB),
778                      "xvnegsp $XT, $XB", IIC_VecFP,
779                      [(set v4f32:$XT, (fneg v4f32:$XB))]>;
780  }
781
782  // Conversion Instructions
783  def XSCVDPSP : XX2Form<60, 265,
784                      (outs vsfrc:$XT), (ins vsfrc:$XB),
785                      "xscvdpsp $XT, $XB", IIC_VecFP, []>;
786  def XSCVDPSXDS : XX2Form<60, 344,
787                      (outs vsfrc:$XT), (ins vsfrc:$XB),
788                      "xscvdpsxds $XT, $XB", IIC_VecFP,
789                      [(set f64:$XT, (PPCany_fctidz f64:$XB))]>;
790  let isCodeGenOnly = 1 in
791  def XSCVDPSXDSs : XX2Form<60, 344,
792                      (outs vssrc:$XT), (ins vssrc:$XB),
793                      "xscvdpsxds $XT, $XB", IIC_VecFP,
794                      [(set f32:$XT, (PPCany_fctidz f32:$XB))]>;
795  def XSCVDPSXWS : XX2Form<60, 88,
796                      (outs vsfrc:$XT), (ins vsfrc:$XB),
797                      "xscvdpsxws $XT, $XB", IIC_VecFP,
798                      [(set f64:$XT, (PPCany_fctiwz f64:$XB))]>;
799  let isCodeGenOnly = 1 in
800  def XSCVDPSXWSs : XX2Form<60, 88,
801                      (outs vssrc:$XT), (ins vssrc:$XB),
802                      "xscvdpsxws $XT, $XB", IIC_VecFP,
803                      [(set f32:$XT, (PPCany_fctiwz f32:$XB))]>;
804  def XSCVDPUXDS : XX2Form<60, 328,
805                      (outs vsfrc:$XT), (ins vsfrc:$XB),
806                      "xscvdpuxds $XT, $XB", IIC_VecFP,
807                      [(set f64:$XT, (PPCany_fctiduz f64:$XB))]>;
808  let isCodeGenOnly = 1 in
809  def XSCVDPUXDSs : XX2Form<60, 328,
810                      (outs vssrc:$XT), (ins vssrc:$XB),
811                      "xscvdpuxds $XT, $XB", IIC_VecFP,
812                      [(set f32:$XT, (PPCany_fctiduz f32:$XB))]>;
813  def XSCVDPUXWS : XX2Form<60, 72,
814                      (outs vsfrc:$XT), (ins vsfrc:$XB),
815                      "xscvdpuxws $XT, $XB", IIC_VecFP,
816                      [(set f64:$XT, (PPCany_fctiwuz f64:$XB))]>;
817  let isCodeGenOnly = 1 in
818  def XSCVDPUXWSs : XX2Form<60, 72,
819                      (outs vssrc:$XT), (ins vssrc:$XB),
820                      "xscvdpuxws $XT, $XB", IIC_VecFP,
821                      [(set f32:$XT, (PPCany_fctiwuz f32:$XB))]>;
822  def XSCVSPDP : XX2Form<60, 329,
823                      (outs vsfrc:$XT), (ins vsfrc:$XB),
824                      "xscvspdp $XT, $XB", IIC_VecFP, []>;
825  def XSCVSXDDP : XX2Form<60, 376,
826                      (outs vsfrc:$XT), (ins vsfrc:$XB),
827                      "xscvsxddp $XT, $XB", IIC_VecFP,
828                      [(set f64:$XT, (PPCany_fcfid f64:$XB))]>;
829  def XSCVUXDDP : XX2Form<60, 360,
830                      (outs vsfrc:$XT), (ins vsfrc:$XB),
831                      "xscvuxddp $XT, $XB", IIC_VecFP,
832                      [(set f64:$XT, (PPCany_fcfidu f64:$XB))]>;
833
834  def XVCVDPSP : XX2Form<60, 393,
835                      (outs vsrc:$XT), (ins vsrc:$XB),
836                      "xvcvdpsp $XT, $XB", IIC_VecFP,
837                      [(set v4f32:$XT, (int_ppc_vsx_xvcvdpsp v2f64:$XB))]>;
838  def XVCVDPSXDS : XX2Form<60, 472,
839                      (outs vsrc:$XT), (ins vsrc:$XB),
840                      "xvcvdpsxds $XT, $XB", IIC_VecFP,
841                      [(set v2i64:$XT, (any_fp_to_sint v2f64:$XB))]>;
842  def XVCVDPSXWS : XX2Form<60, 216,
843                      (outs vsrc:$XT), (ins vsrc:$XB),
844                      "xvcvdpsxws $XT, $XB", IIC_VecFP,
845                      [(set v4i32:$XT, (int_ppc_vsx_xvcvdpsxws v2f64:$XB))]>;
846  def XVCVDPUXDS : XX2Form<60, 456,
847                      (outs vsrc:$XT), (ins vsrc:$XB),
848                      "xvcvdpuxds $XT, $XB", IIC_VecFP,
849                      [(set v2i64:$XT, (any_fp_to_uint v2f64:$XB))]>;
850  def XVCVDPUXWS : XX2Form<60, 200,
851                      (outs vsrc:$XT), (ins vsrc:$XB),
852                      "xvcvdpuxws $XT, $XB", IIC_VecFP,
853                      [(set v4i32:$XT, (int_ppc_vsx_xvcvdpuxws v2f64:$XB))]>;
854
855  def XVCVSPDP : XX2Form<60, 457,
856                      (outs vsrc:$XT), (ins vsrc:$XB),
857                      "xvcvspdp $XT, $XB", IIC_VecFP,
858                      [(set v2f64:$XT, (int_ppc_vsx_xvcvspdp v4f32:$XB))]>;
859  def XVCVSPSXDS : XX2Form<60, 408,
860                      (outs vsrc:$XT), (ins vsrc:$XB),
861                      "xvcvspsxds $XT, $XB", IIC_VecFP,
862                      [(set v2i64:$XT, (int_ppc_vsx_xvcvspsxds v4f32:$XB))]>;
863  def XVCVSPSXWS : XX2Form<60, 152,
864                      (outs vsrc:$XT), (ins vsrc:$XB),
865                      "xvcvspsxws $XT, $XB", IIC_VecFP,
866                      [(set v4i32:$XT, (any_fp_to_sint v4f32:$XB))]>;
867  def XVCVSPUXDS : XX2Form<60, 392,
868                      (outs vsrc:$XT), (ins vsrc:$XB),
869                      "xvcvspuxds $XT, $XB", IIC_VecFP,
870                      [(set v2i64:$XT, (int_ppc_vsx_xvcvspuxds v4f32:$XB))]>;
871  def XVCVSPUXWS : XX2Form<60, 136,
872                      (outs vsrc:$XT), (ins vsrc:$XB),
873                      "xvcvspuxws $XT, $XB", IIC_VecFP,
874                      [(set v4i32:$XT, (any_fp_to_uint v4f32:$XB))]>;
875  def XVCVSXDDP : XX2Form<60, 504,
876                      (outs vsrc:$XT), (ins vsrc:$XB),
877                      "xvcvsxddp $XT, $XB", IIC_VecFP,
878                      [(set v2f64:$XT, (any_sint_to_fp v2i64:$XB))]>;
879  def XVCVSXDSP : XX2Form<60, 440,
880                      (outs vsrc:$XT), (ins vsrc:$XB),
881                      "xvcvsxdsp $XT, $XB", IIC_VecFP,
882                      [(set v4f32:$XT, (int_ppc_vsx_xvcvsxdsp v2i64:$XB))]>;
883  def XVCVSXWSP : XX2Form<60, 184,
884                      (outs vsrc:$XT), (ins vsrc:$XB),
885                      "xvcvsxwsp $XT, $XB", IIC_VecFP,
886                      [(set v4f32:$XT, (any_sint_to_fp v4i32:$XB))]>;
887  def XVCVUXDDP : XX2Form<60, 488,
888                      (outs vsrc:$XT), (ins vsrc:$XB),
889                      "xvcvuxddp $XT, $XB", IIC_VecFP,
890                      [(set v2f64:$XT, (any_uint_to_fp v2i64:$XB))]>;
891  def XVCVUXDSP : XX2Form<60, 424,
892                      (outs vsrc:$XT), (ins vsrc:$XB),
893                      "xvcvuxdsp $XT, $XB", IIC_VecFP,
894                      [(set v4f32:$XT, (int_ppc_vsx_xvcvuxdsp v2i64:$XB))]>;
895  def XVCVUXWSP : XX2Form<60, 168,
896                      (outs vsrc:$XT), (ins vsrc:$XB),
897                      "xvcvuxwsp $XT, $XB", IIC_VecFP,
898                      [(set v4f32:$XT, (any_uint_to_fp v4i32:$XB))]>;
899
900  let mayRaiseFPException = 0 in {
901  def XVCVSXWDP : XX2Form<60, 248,
902                    (outs vsrc:$XT), (ins vsrc:$XB),
903                    "xvcvsxwdp $XT, $XB", IIC_VecFP,
904                    [(set v2f64:$XT, (int_ppc_vsx_xvcvsxwdp v4i32:$XB))]>;
905  def XVCVUXWDP : XX2Form<60, 232,
906                      (outs vsrc:$XT), (ins vsrc:$XB),
907                      "xvcvuxwdp $XT, $XB", IIC_VecFP,
908                      [(set v2f64:$XT, (int_ppc_vsx_xvcvuxwdp v4i32:$XB))]>;
909  }
910
911  // Rounding Instructions respecting current rounding mode
912  def XSRDPIC : XX2Form<60, 107,
913                      (outs vsfrc:$XT), (ins vsfrc:$XB),
914                      "xsrdpic $XT, $XB", IIC_VecFP, []>;
915  def XVRDPIC : XX2Form<60, 235,
916                      (outs vsrc:$XT), (ins vsrc:$XB),
917                      "xvrdpic $XT, $XB", IIC_VecFP, []>;
918  def XVRSPIC : XX2Form<60, 171,
919                      (outs vsrc:$XT), (ins vsrc:$XB),
920                      "xvrspic $XT, $XB", IIC_VecFP, []>;
921  // Max/Min Instructions
922  let isCommutable = 1 in {
923  def XSMAXDP : XX3Form<60, 160,
924                        (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
925                        "xsmaxdp $XT, $XA, $XB", IIC_VecFP,
926                        [(set vsfrc:$XT,
927                              (int_ppc_vsx_xsmaxdp vsfrc:$XA, vsfrc:$XB))]>;
928  def XSMINDP : XX3Form<60, 168,
929                        (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
930                        "xsmindp $XT, $XA, $XB", IIC_VecFP,
931                        [(set vsfrc:$XT,
932                              (int_ppc_vsx_xsmindp vsfrc:$XA, vsfrc:$XB))]>;
933
934  def XVMAXDP : XX3Form<60, 224,
935                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
936                        "xvmaxdp $XT, $XA, $XB", IIC_VecFP,
937                        [(set vsrc:$XT,
938                              (int_ppc_vsx_xvmaxdp vsrc:$XA, vsrc:$XB))]>;
939  def XVMINDP : XX3Form<60, 232,
940                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
941                        "xvmindp $XT, $XA, $XB", IIC_VecFP,
942                        [(set vsrc:$XT,
943                              (int_ppc_vsx_xvmindp vsrc:$XA, vsrc:$XB))]>;
944
945  def XVMAXSP : XX3Form<60, 192,
946                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
947                        "xvmaxsp $XT, $XA, $XB", IIC_VecFP,
948                        [(set vsrc:$XT,
949                              (int_ppc_vsx_xvmaxsp vsrc:$XA, vsrc:$XB))]>;
950  def XVMINSP : XX3Form<60, 200,
951                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
952                        "xvminsp $XT, $XA, $XB", IIC_VecFP,
953                        [(set vsrc:$XT,
954                              (int_ppc_vsx_xvminsp vsrc:$XA, vsrc:$XB))]>;
955  } // isCommutable
956  } // Uses = [RM]
957
958  // Rounding Instructions with static direction.
959  def XSRDPI : XX2Form<60, 73,
960                      (outs vsfrc:$XT), (ins vsfrc:$XB),
961                      "xsrdpi $XT, $XB", IIC_VecFP,
962                      [(set f64:$XT, (any_fround f64:$XB))]>;
963  def XSRDPIM : XX2Form<60, 121,
964                      (outs vsfrc:$XT), (ins vsfrc:$XB),
965                      "xsrdpim $XT, $XB", IIC_VecFP,
966                      [(set f64:$XT, (any_ffloor f64:$XB))]>;
967  def XSRDPIP : XX2Form<60, 105,
968                      (outs vsfrc:$XT), (ins vsfrc:$XB),
969                      "xsrdpip $XT, $XB", IIC_VecFP,
970                      [(set f64:$XT, (any_fceil f64:$XB))]>;
971  def XSRDPIZ : XX2Form<60, 89,
972                      (outs vsfrc:$XT), (ins vsfrc:$XB),
973                      "xsrdpiz $XT, $XB", IIC_VecFP,
974                      [(set f64:$XT, (any_ftrunc f64:$XB))]>;
975
976  def XVRDPI : XX2Form<60, 201,
977                      (outs vsrc:$XT), (ins vsrc:$XB),
978                      "xvrdpi $XT, $XB", IIC_VecFP,
979                      [(set v2f64:$XT, (any_fround v2f64:$XB))]>;
980  def XVRDPIM : XX2Form<60, 249,
981                      (outs vsrc:$XT), (ins vsrc:$XB),
982                      "xvrdpim $XT, $XB", IIC_VecFP,
983                      [(set v2f64:$XT, (any_ffloor v2f64:$XB))]>;
984  def XVRDPIP : XX2Form<60, 233,
985                      (outs vsrc:$XT), (ins vsrc:$XB),
986                      "xvrdpip $XT, $XB", IIC_VecFP,
987                      [(set v2f64:$XT, (any_fceil v2f64:$XB))]>;
988  def XVRDPIZ : XX2Form<60, 217,
989                      (outs vsrc:$XT), (ins vsrc:$XB),
990                      "xvrdpiz $XT, $XB", IIC_VecFP,
991                      [(set v2f64:$XT, (any_ftrunc v2f64:$XB))]>;
992
993  def XVRSPI : XX2Form<60, 137,
994                      (outs vsrc:$XT), (ins vsrc:$XB),
995                      "xvrspi $XT, $XB", IIC_VecFP,
996                      [(set v4f32:$XT, (any_fround v4f32:$XB))]>;
997  def XVRSPIM : XX2Form<60, 185,
998                      (outs vsrc:$XT), (ins vsrc:$XB),
999                      "xvrspim $XT, $XB", IIC_VecFP,
1000                      [(set v4f32:$XT, (any_ffloor v4f32:$XB))]>;
1001  def XVRSPIP : XX2Form<60, 169,
1002                      (outs vsrc:$XT), (ins vsrc:$XB),
1003                      "xvrspip $XT, $XB", IIC_VecFP,
1004                      [(set v4f32:$XT, (any_fceil v4f32:$XB))]>;
1005  def XVRSPIZ : XX2Form<60, 153,
1006                      (outs vsrc:$XT), (ins vsrc:$XB),
1007                      "xvrspiz $XT, $XB", IIC_VecFP,
1008                      [(set v4f32:$XT, (any_ftrunc v4f32:$XB))]>;
1009  } // mayRaiseFPException
1010
1011  // Logical Instructions
1012  let isCommutable = 1 in
1013  def XXLAND : XX3Form<60, 130,
1014                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1015                       "xxland $XT, $XA, $XB", IIC_VecGeneral,
1016                       [(set v4i32:$XT, (and v4i32:$XA, v4i32:$XB))]>;
1017  def XXLANDC : XX3Form<60, 138,
1018                        (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1019                        "xxlandc $XT, $XA, $XB", IIC_VecGeneral,
1020                        [(set v4i32:$XT, (and v4i32:$XA,
1021                                              (vnot v4i32:$XB)))]>;
1022  let isCommutable = 1 in {
1023  def XXLNOR : XX3Form<60, 162,
1024                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1025                       "xxlnor $XT, $XA, $XB", IIC_VecGeneral,
1026                       [(set v4i32:$XT, (vnot (or v4i32:$XA,
1027                                               v4i32:$XB)))]>;
1028  def XXLOR : XX3Form<60, 146,
1029                      (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1030                      "xxlor $XT, $XA, $XB", IIC_VecGeneral,
1031                      [(set v4i32:$XT, (or v4i32:$XA, v4i32:$XB))]>;
1032  let isCodeGenOnly = 1 in
1033  def XXLORf: XX3Form<60, 146,
1034                      (outs vsfrc:$XT), (ins vsfrc:$XA, vsfrc:$XB),
1035                      "xxlor $XT, $XA, $XB", IIC_VecGeneral, []>;
1036  def XXLXOR : XX3Form<60, 154,
1037                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1038                       "xxlxor $XT, $XA, $XB", IIC_VecGeneral,
1039                       [(set v4i32:$XT, (xor v4i32:$XA, v4i32:$XB))]>;
1040  } // isCommutable
1041
1042  let isCodeGenOnly = 1, isMoveImm = 1, isAsCheapAsAMove = 1,
1043      isReMaterializable = 1 in {
1044    def XXLXORz : XX3Form_SameOp<60, 154, (outs vsrc:$XT), (ins),
1045                       "xxlxor $XT, $XT, $XT", IIC_VecGeneral,
1046                       [(set v4i32:$XT, (v4i32 immAllZerosV))]>;
1047    def XXLXORdpz : XX3Form_SameOp<60, 154,
1048                         (outs vsfrc:$XT), (ins),
1049                         "xxlxor $XT, $XT, $XT", IIC_VecGeneral,
1050                         [(set f64:$XT, (fpimm0))]>;
1051    def XXLXORspz : XX3Form_SameOp<60, 154,
1052                         (outs vssrc:$XT), (ins),
1053                         "xxlxor $XT, $XT, $XT", IIC_VecGeneral,
1054                         [(set f32:$XT, (fpimm0))]>;
1055  }
1056
1057  // Permutation Instructions
1058  def XXMRGHW : XX3Form<60, 18,
1059                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1060                       "xxmrghw $XT, $XA, $XB", IIC_VecPerm, []>;
1061  def XXMRGLW : XX3Form<60, 50,
1062                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1063                       "xxmrglw $XT, $XA, $XB", IIC_VecPerm, []>;
1064
1065  def XXPERMDI : XX3Form_2<60, 10,
1066                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB, u2imm:$DM),
1067                       "xxpermdi $XT, $XA, $XB, $DM", IIC_VecPerm,
1068                       [(set v2i64:$XT, (PPCxxpermdi v2i64:$XA, v2i64:$XB,
1069                         imm32SExt16:$DM))]>;
1070  let isCodeGenOnly = 1 in
1071  // Note that the input register class for `$XA` of XXPERMDIs is `vsfrc` which
1072  // is not the same with the input register class(`vsrc`) of XXPERMDI instruction.
1073  // We did this on purpose because:
1074  // 1: The input is primarily for loads that load a partial vector(LFIWZX,
1075  //    etc.), no need for SUBREG_TO_REG.
1076  // 2: With `vsfrc` register class, in the final assembly, float registers
1077  //    like `f0` are used instead of vector scalar register like `vs0`. This
1078  //    helps readability.
1079  def XXPERMDIs : XX3Form_2s<60, 10, (outs vsrc:$XT), (ins vsfrc:$XA, u2imm:$DM),
1080                             "xxpermdi $XT, $XA, $XA, $DM", IIC_VecPerm, []>;
1081  def XXSEL : XX4Form<60, 3,
1082                      (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB, vsrc:$XC),
1083                      "xxsel $XT, $XA, $XB, $XC", IIC_VecPerm, []>;
1084
1085  def XXSLDWI : XX3Form_2<60, 2,
1086                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB, u2imm:$SHW),
1087                       "xxsldwi $XT, $XA, $XB, $SHW", IIC_VecPerm,
1088                       [(set v4i32:$XT, (PPCvecshl v4i32:$XA, v4i32:$XB,
1089                                                  imm32SExt16:$SHW))]>;
1090
1091  let isCodeGenOnly = 1 in
1092  def XXSLDWIs : XX3Form_2s<60, 2,
1093                       (outs vsrc:$XT), (ins vsfrc:$XA, u2imm:$SHW),
1094                       "xxsldwi $XT, $XA, $XA, $SHW", IIC_VecPerm, []>;
1095
1096  def XXSPLTW : XX2Form_2<60, 164,
1097                       (outs vsrc:$XT), (ins vsrc:$XB, u2imm:$UIM),
1098                       "xxspltw $XT, $XB, $UIM", IIC_VecPerm,
1099                       [(set v4i32:$XT,
1100                             (PPCxxsplt v4i32:$XB, imm32SExt16:$UIM))]>;
1101  let isCodeGenOnly = 1 in
1102  def XXSPLTWs : XX2Form_2<60, 164,
1103                       (outs vsrc:$XT), (ins vsfrc:$XB, u2imm:$UIM),
1104                       "xxspltw $XT, $XB, $UIM", IIC_VecPerm, []>;
1105
1106// The following VSX instructions were introduced in Power ISA 2.07
1107let Predicates = [HasVSX, HasP8Vector] in {
1108  let isCommutable = 1 in {
1109    def XXLEQV : XX3Form<60, 186,
1110                         (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1111                         "xxleqv $XT, $XA, $XB", IIC_VecGeneral,
1112                         [(set v4i32:$XT, (vnot (xor v4i32:$XA, v4i32:$XB)))]>;
1113    def XXLNAND : XX3Form<60, 178,
1114                          (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1115                          "xxlnand $XT, $XA, $XB", IIC_VecGeneral,
1116                          [(set v4i32:$XT, (vnot (and v4i32:$XA, v4i32:$XB)))]>;
1117  } // isCommutable
1118
1119  let isCodeGenOnly = 1, isMoveImm = 1, isAsCheapAsAMove = 1,
1120      isReMaterializable = 1 in {
1121    def XXLEQVOnes : XX3Form_SameOp<60, 186, (outs vsrc:$XT), (ins),
1122                         "xxleqv $XT, $XT, $XT", IIC_VecGeneral,
1123                         [(set v4i32:$XT, (bitconvert (v16i8 immAllOnesV)))]>;
1124  }
1125
1126  def XXLORC : XX3Form<60, 170,
1127                       (outs vsrc:$XT), (ins vsrc:$XA, vsrc:$XB),
1128                       "xxlorc $XT, $XA, $XB", IIC_VecGeneral,
1129                       [(set v4i32:$XT, (or v4i32:$XA, (vnot v4i32:$XB)))]>;
1130
1131  // VSX scalar loads introduced in ISA 2.07
1132  let mayLoad = 1, mayStore = 0 in {
1133    let CodeSize = 3 in
1134    def LXSSPX : XX1Form_memOp<31, 524, (outs vssrc:$XT), (ins memrr:$src),
1135                         "lxsspx $XT, $src", IIC_LdStLFD, []>;
1136    def LXSIWAX : XX1Form_memOp<31, 76, (outs vsfrc:$XT), (ins memrr:$src),
1137                          "lxsiwax $XT, $src", IIC_LdStLFD, []>;
1138    def LXSIWZX : XX1Form_memOp<31, 12, (outs vsfrc:$XT), (ins memrr:$src),
1139                          "lxsiwzx $XT, $src", IIC_LdStLFD, []>;
1140
1141    // Pseudo instruction XFLOADf32 will be expanded to LXSSPX or LFSX later
1142    let CodeSize = 3 in
1143    def XFLOADf32  : PseudoXFormMemOp<(outs vssrc:$XT), (ins memrr:$src),
1144                            "#XFLOADf32",
1145                            [(set f32:$XT, (load XForm:$src))]>;
1146    // Pseudo instruction LIWAX will be expanded to LXSIWAX or LFIWAX later
1147    def LIWAX : PseudoXFormMemOp<(outs vsfrc:$XT), (ins memrr:$src),
1148                       "#LIWAX",
1149                       [(set f64:$XT, (PPClfiwax ForceXForm:$src))]>;
1150    // Pseudo instruction LIWZX will be expanded to LXSIWZX or LFIWZX later
1151    def LIWZX : PseudoXFormMemOp<(outs vsfrc:$XT), (ins memrr:$src),
1152                       "#LIWZX",
1153                       [(set f64:$XT, (PPClfiwzx ForceXForm:$src))]>;
1154  } // mayLoad
1155
1156  // VSX scalar stores introduced in ISA 2.07
1157  let mayStore = 1, mayLoad = 0 in {
1158    let CodeSize = 3 in
1159    def STXSSPX : XX1Form_memOp<31, 652, (outs), (ins vssrc:$XT, memrr:$dst),
1160                          "stxsspx $XT, $dst", IIC_LdStSTFD, []>;
1161    def STXSIWX : XX1Form_memOp<31, 140, (outs), (ins vsfrc:$XT, memrr:$dst),
1162                          "stxsiwx $XT, $dst", IIC_LdStSTFD, []>;
1163
1164    // Pseudo instruction XFSTOREf32 will be expanded to STXSSPX or STFSX later
1165    let CodeSize = 3 in
1166    def XFSTOREf32 : PseudoXFormMemOp<(outs), (ins vssrc:$XT, memrr:$dst),
1167                            "#XFSTOREf32",
1168                            [(store f32:$XT, XForm:$dst)]>;
1169    // Pseudo instruction STIWX will be expanded to STXSIWX or STFIWX later
1170    def STIWX : PseudoXFormMemOp<(outs), (ins vsfrc:$XT, memrr:$dst),
1171                       "#STIWX",
1172                      [(PPCstfiwx f64:$XT, ForceXForm:$dst)]>;
1173  } // mayStore
1174
1175  // VSX Elementary Scalar FP arithmetic (SP)
1176  let mayRaiseFPException = 1 in {
1177  let isCommutable = 1 in {
1178    def XSADDSP : XX3Form<60, 0,
1179                          (outs vssrc:$XT), (ins vssrc:$XA, vssrc:$XB),
1180                          "xsaddsp $XT, $XA, $XB", IIC_VecFP,
1181                          [(set f32:$XT, (any_fadd f32:$XA, f32:$XB))]>;
1182    def XSMULSP : XX3Form<60, 16,
1183                          (outs vssrc:$XT), (ins vssrc:$XA, vssrc:$XB),
1184                          "xsmulsp $XT, $XA, $XB", IIC_VecFP,
1185                          [(set f32:$XT, (any_fmul f32:$XA, f32:$XB))]>;
1186  } // isCommutable
1187
1188  def XSSUBSP : XX3Form<60, 8,
1189                        (outs vssrc:$XT), (ins vssrc:$XA, vssrc:$XB),
1190                        "xssubsp $XT, $XA, $XB", IIC_VecFP,
1191                        [(set f32:$XT, (any_fsub f32:$XA, f32:$XB))]>;
1192  def XSDIVSP : XX3Form<60, 24,
1193                        (outs vssrc:$XT), (ins vssrc:$XA, vssrc:$XB),
1194                        "xsdivsp $XT, $XA, $XB", IIC_FPDivS,
1195                        [(set f32:$XT, (any_fdiv f32:$XA, f32:$XB))]>;
1196
1197  def XSRESP : XX2Form<60, 26,
1198                        (outs vssrc:$XT), (ins vssrc:$XB),
1199                        "xsresp $XT, $XB", IIC_VecFP,
1200                        [(set f32:$XT, (PPCfre f32:$XB))]>;
1201  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1202  let hasSideEffects = 1 in
1203  def XSRSP : XX2Form<60, 281,
1204                        (outs vssrc:$XT), (ins vsfrc:$XB),
1205                        "xsrsp $XT, $XB", IIC_VecFP,
1206                        [(set f32:$XT, (any_fpround f64:$XB))]>;
1207  def XSSQRTSP : XX2Form<60, 11,
1208                        (outs vssrc:$XT), (ins vssrc:$XB),
1209                        "xssqrtsp $XT, $XB", IIC_FPSqrtS,
1210                        [(set f32:$XT, (any_fsqrt f32:$XB))]>;
1211  def XSRSQRTESP : XX2Form<60, 10,
1212                           (outs vssrc:$XT), (ins vssrc:$XB),
1213                           "xsrsqrtesp $XT, $XB", IIC_VecFP,
1214                           [(set f32:$XT, (PPCfrsqrte f32:$XB))]>;
1215
1216  // FMA Instructions
1217  let BaseName = "XSMADDASP" in {
1218  let isCommutable = 1 in
1219  def XSMADDASP : XX3Form<60, 1,
1220                          (outs vssrc:$XT),
1221                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1222                          "xsmaddasp $XT, $XA, $XB", IIC_VecFP,
1223                          [(set f32:$XT, (any_fma f32:$XA, f32:$XB, f32:$XTi))]>,
1224                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1225                          AltVSXFMARel;
1226  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1227  let IsVSXFMAAlt = 1, hasSideEffects = 1 in
1228  def XSMADDMSP : XX3Form<60, 9,
1229                          (outs vssrc:$XT),
1230                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1231                          "xsmaddmsp $XT, $XA, $XB", IIC_VecFP, []>,
1232                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1233                          AltVSXFMARel;
1234  }
1235
1236  let BaseName = "XSMSUBASP" in {
1237  let isCommutable = 1 in
1238  def XSMSUBASP : XX3Form<60, 17,
1239                          (outs vssrc:$XT),
1240                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1241                          "xsmsubasp $XT, $XA, $XB", IIC_VecFP,
1242                          [(set f32:$XT, (any_fma f32:$XA, f32:$XB,
1243                                              (fneg f32:$XTi)))]>,
1244                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1245                          AltVSXFMARel;
1246  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1247  let IsVSXFMAAlt = 1, hasSideEffects = 1 in
1248  def XSMSUBMSP : XX3Form<60, 25,
1249                          (outs vssrc:$XT),
1250                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1251                          "xsmsubmsp $XT, $XA, $XB", IIC_VecFP, []>,
1252                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1253                          AltVSXFMARel;
1254  }
1255
1256  let BaseName = "XSNMADDASP" in {
1257  let isCommutable = 1 in
1258  def XSNMADDASP : XX3Form<60, 129,
1259                          (outs vssrc:$XT),
1260                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1261                          "xsnmaddasp $XT, $XA, $XB", IIC_VecFP,
1262                          [(set f32:$XT, (fneg (any_fma f32:$XA, f32:$XB,
1263                                                    f32:$XTi)))]>,
1264                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1265                          AltVSXFMARel;
1266  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1267  let IsVSXFMAAlt = 1, hasSideEffects = 1 in
1268  def XSNMADDMSP : XX3Form<60, 137,
1269                          (outs vssrc:$XT),
1270                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1271                          "xsnmaddmsp $XT, $XA, $XB", IIC_VecFP, []>,
1272                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1273                          AltVSXFMARel;
1274  }
1275
1276  let BaseName = "XSNMSUBASP" in {
1277  let isCommutable = 1 in
1278  def XSNMSUBASP : XX3Form<60, 145,
1279                          (outs vssrc:$XT),
1280                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1281                          "xsnmsubasp $XT, $XA, $XB", IIC_VecFP,
1282                          [(set f32:$XT, (fneg (any_fma f32:$XA, f32:$XB,
1283                                                    (fneg f32:$XTi))))]>,
1284                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1285                          AltVSXFMARel;
1286  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1287  let IsVSXFMAAlt = 1, hasSideEffects = 1 in
1288  def XSNMSUBMSP : XX3Form<60, 153,
1289                          (outs vssrc:$XT),
1290                          (ins vssrc:$XTi, vssrc:$XA, vssrc:$XB),
1291                          "xsnmsubmsp $XT, $XA, $XB", IIC_VecFP, []>,
1292                          RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">,
1293                          AltVSXFMARel;
1294  }
1295
1296  // Single Precision Conversions (FP <-> INT)
1297  def XSCVSXDSP : XX2Form<60, 312,
1298                      (outs vssrc:$XT), (ins vsfrc:$XB),
1299                      "xscvsxdsp $XT, $XB", IIC_VecFP,
1300                      [(set f32:$XT, (PPCany_fcfids f64:$XB))]>;
1301  def XSCVUXDSP : XX2Form<60, 296,
1302                      (outs vssrc:$XT), (ins vsfrc:$XB),
1303                      "xscvuxdsp $XT, $XB", IIC_VecFP,
1304                      [(set f32:$XT, (PPCany_fcfidus f64:$XB))]>;
1305  } // mayRaiseFPException
1306
1307  // Conversions between vector and scalar single precision
1308  def XSCVDPSPN : XX2Form<60, 267, (outs vsrc:$XT), (ins vssrc:$XB),
1309                          "xscvdpspn $XT, $XB", IIC_VecFP, []>;
1310  def XSCVSPDPN : XX2Form<60, 331, (outs vssrc:$XT), (ins vsrc:$XB),
1311                          "xscvspdpn $XT, $XB", IIC_VecFP, []>;
1312
1313  let Predicates = [HasVSX, HasDirectMove] in {
1314  // VSX direct move instructions
1315  def MFVSRD : XX1_RS6_RD5_XO<31, 51, (outs g8rc:$rA), (ins vsfrc:$XT),
1316                              "mfvsrd $rA, $XT", IIC_VecGeneral,
1317                              [(set i64:$rA, (PPCmfvsr f64:$XT))]>,
1318      Requires<[In64BitMode]>;
1319  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1320  let isCodeGenOnly = 1, hasSideEffects = 1 in
1321  def MFVRD : XX1_RS6_RD5_XO<31, 51, (outs g8rc:$rA), (ins vsrc:$XT),
1322                             "mfvsrd $rA, $XT", IIC_VecGeneral,
1323                             []>,
1324      Requires<[In64BitMode]>;
1325  def MFVSRWZ : XX1_RS6_RD5_XO<31, 115, (outs gprc:$rA), (ins vsfrc:$XT),
1326                               "mfvsrwz $rA, $XT", IIC_VecGeneral,
1327                               [(set i32:$rA, (PPCmfvsr f64:$XT))]>;
1328  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1329  let isCodeGenOnly = 1, hasSideEffects = 1 in
1330  def MFVRWZ : XX1_RS6_RD5_XO<31, 115, (outs gprc:$rA), (ins vsrc:$XT),
1331                               "mfvsrwz $rA, $XT", IIC_VecGeneral,
1332                               []>;
1333  def MTVSRD : XX1_RS6_RD5_XO<31, 179, (outs vsfrc:$XT), (ins g8rc:$rA),
1334                              "mtvsrd $XT, $rA", IIC_VecGeneral,
1335                              [(set f64:$XT, (PPCmtvsra i64:$rA))]>,
1336      Requires<[In64BitMode]>;
1337  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1338  let isCodeGenOnly = 1, hasSideEffects = 1 in
1339  def MTVRD : XX1_RS6_RD5_XO<31, 179, (outs vsrc:$XT), (ins g8rc:$rA),
1340                              "mtvsrd $XT, $rA", IIC_VecGeneral,
1341                              []>,
1342      Requires<[In64BitMode]>;
1343  def MTVSRWA : XX1_RS6_RD5_XO<31, 211, (outs vsfrc:$XT), (ins gprc:$rA),
1344                               "mtvsrwa $XT, $rA", IIC_VecGeneral,
1345                               [(set f64:$XT, (PPCmtvsra i32:$rA))]>;
1346  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1347  let isCodeGenOnly = 1, hasSideEffects = 1 in
1348  def MTVRWA : XX1_RS6_RD5_XO<31, 211, (outs vsrc:$XT), (ins gprc:$rA),
1349                               "mtvsrwa $XT, $rA", IIC_VecGeneral,
1350                               []>;
1351  def MTVSRWZ : XX1_RS6_RD5_XO<31, 243, (outs vsfrc:$XT), (ins gprc:$rA),
1352                               "mtvsrwz $XT, $rA", IIC_VecGeneral,
1353                               [(set f64:$XT, (PPCmtvsrz i32:$rA))]>;
1354  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1355  let isCodeGenOnly = 1, hasSideEffects = 1 in
1356  def MTVRWZ : XX1_RS6_RD5_XO<31, 243, (outs vsrc:$XT), (ins gprc:$rA),
1357                               "mtvsrwz $XT, $rA", IIC_VecGeneral,
1358                               []>;
1359  } // HasDirectMove
1360
1361} // HasVSX, HasP8Vector
1362
1363let Predicates = [HasVSX, IsISA3_0, HasDirectMove] in {
1364def MTVSRWS: XX1_RS6_RD5_XO<31, 403, (outs vsrc:$XT), (ins gprc:$rA),
1365                            "mtvsrws $XT, $rA", IIC_VecGeneral, []>;
1366
1367def MTVSRDD: XX1Form<31, 435, (outs vsrc:$XT), (ins g8rc_nox0:$rA, g8rc:$rB),
1368                     "mtvsrdd $XT, $rA, $rB", IIC_VecGeneral,
1369                     []>, Requires<[In64BitMode]>;
1370
1371def MFVSRLD: XX1_RS6_RD5_XO<31, 307, (outs g8rc:$rA), (ins vsrc:$XT),
1372                            "mfvsrld $rA, $XT", IIC_VecGeneral,
1373                            []>, Requires<[In64BitMode]>;
1374
1375} // HasVSX, IsISA3_0, HasDirectMove
1376
1377let Predicates = [HasVSX, HasP9Vector] in {
1378  // Quad-Precision Scalar Move Instructions:
1379  // Copy Sign
1380  def XSCPSGNQP : X_VT5_VA5_VB5<63, 100, "xscpsgnqp",
1381                                [(set f128:$vT,
1382                                      (fcopysign f128:$vB, f128:$vA))]>;
1383
1384  // Absolute/Negative-Absolute/Negate
1385  def XSABSQP   : X_VT5_XO5_VB5<63,  0, 804, "xsabsqp",
1386                                [(set f128:$vT, (fabs f128:$vB))]>;
1387  def XSNABSQP  : X_VT5_XO5_VB5<63,  8, 804, "xsnabsqp",
1388                                [(set f128:$vT, (fneg (fabs f128:$vB)))]>;
1389  def XSNEGQP   : X_VT5_XO5_VB5<63, 16, 804, "xsnegqp",
1390                                [(set f128:$vT, (fneg f128:$vB))]>;
1391
1392  //===--------------------------------------------------------------------===//
1393  // Quad-Precision Scalar Floating-Point Arithmetic Instructions:
1394
1395  // Add/Divide/Multiply/Subtract
1396  let mayRaiseFPException = 1 in {
1397  let isCommutable = 1 in {
1398  def XSADDQP   : X_VT5_VA5_VB5   <63,   4, "xsaddqp",
1399                                   [(set f128:$vT, (any_fadd f128:$vA, f128:$vB))]>;
1400  def XSMULQP   : X_VT5_VA5_VB5   <63,  36, "xsmulqp",
1401                                   [(set f128:$vT, (any_fmul f128:$vA, f128:$vB))]>;
1402  }
1403  def XSSUBQP   : X_VT5_VA5_VB5   <63, 516, "xssubqp" ,
1404                                   [(set f128:$vT, (any_fsub f128:$vA, f128:$vB))]>;
1405  def XSDIVQP   : X_VT5_VA5_VB5   <63, 548, "xsdivqp",
1406                                   [(set f128:$vT, (any_fdiv f128:$vA, f128:$vB))]>;
1407  // Square-Root
1408  def XSSQRTQP  : X_VT5_XO5_VB5   <63, 27, 804, "xssqrtqp",
1409                                   [(set f128:$vT, (any_fsqrt f128:$vB))]>;
1410  // (Negative) Multiply-{Add/Subtract}
1411  def XSMADDQP : X_VT5_VA5_VB5_FMA <63, 388, "xsmaddqp",
1412                                    [(set f128:$vT,
1413                                          (any_fma f128:$vA, f128:$vB, f128:$vTi))]>;
1414  def XSMSUBQP  : X_VT5_VA5_VB5_FMA   <63, 420, "xsmsubqp"  ,
1415                                       [(set f128:$vT,
1416                                             (any_fma f128:$vA, f128:$vB,
1417                                                      (fneg f128:$vTi)))]>;
1418  def XSNMADDQP : X_VT5_VA5_VB5_FMA <63, 452, "xsnmaddqp",
1419                                     [(set f128:$vT,
1420                                           (fneg (any_fma f128:$vA, f128:$vB,
1421                                                          f128:$vTi)))]>;
1422  def XSNMSUBQP : X_VT5_VA5_VB5_FMA <63, 484, "xsnmsubqp",
1423                                     [(set f128:$vT,
1424                                           (fneg (any_fma f128:$vA, f128:$vB,
1425                                                          (fneg f128:$vTi))))]>;
1426
1427  let isCommutable = 1 in {
1428  def XSADDQPO : X_VT5_VA5_VB5_Ro<63, 4, "xsaddqpo",
1429                                  [(set f128:$vT,
1430                                  (int_ppc_addf128_round_to_odd
1431                                  f128:$vA, f128:$vB))]>;
1432  def XSMULQPO : X_VT5_VA5_VB5_Ro<63, 36, "xsmulqpo",
1433                                  [(set f128:$vT,
1434                                  (int_ppc_mulf128_round_to_odd
1435                                  f128:$vA, f128:$vB))]>;
1436  }
1437  def XSSUBQPO : X_VT5_VA5_VB5_Ro<63, 516, "xssubqpo",
1438                                  [(set f128:$vT,
1439                                  (int_ppc_subf128_round_to_odd
1440                                  f128:$vA, f128:$vB))]>;
1441  def XSDIVQPO : X_VT5_VA5_VB5_Ro<63, 548, "xsdivqpo",
1442                                  [(set f128:$vT,
1443                                  (int_ppc_divf128_round_to_odd
1444                                  f128:$vA, f128:$vB))]>;
1445  def XSSQRTQPO : X_VT5_XO5_VB5_Ro<63, 27, 804, "xssqrtqpo",
1446                                  [(set f128:$vT,
1447                                  (int_ppc_sqrtf128_round_to_odd f128:$vB))]>;
1448
1449
1450  def XSMADDQPO : X_VT5_VA5_VB5_FMA_Ro<63, 388, "xsmaddqpo",
1451                                      [(set f128:$vT,
1452                                      (int_ppc_fmaf128_round_to_odd
1453                                      f128:$vA,f128:$vB,f128:$vTi))]>;
1454
1455  def XSMSUBQPO : X_VT5_VA5_VB5_FMA_Ro<63, 420, "xsmsubqpo" ,
1456                                      [(set f128:$vT,
1457                                      (int_ppc_fmaf128_round_to_odd
1458                                      f128:$vA, f128:$vB, (fneg f128:$vTi)))]>;
1459  def XSNMADDQPO: X_VT5_VA5_VB5_FMA_Ro<63, 452, "xsnmaddqpo",
1460                                      [(set f128:$vT,
1461                                      (fneg (int_ppc_fmaf128_round_to_odd
1462                                      f128:$vA, f128:$vB, f128:$vTi)))]>;
1463  def XSNMSUBQPO: X_VT5_VA5_VB5_FMA_Ro<63, 484, "xsnmsubqpo",
1464                                      [(set f128:$vT,
1465                                      (fneg (int_ppc_fmaf128_round_to_odd
1466                                      f128:$vA, f128:$vB, (fneg f128:$vTi))))]>;
1467  } // mayRaiseFPException
1468
1469  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1470  // QP Compare Ordered/Unordered
1471  let hasSideEffects = 1 in {
1472    // DP/QP Compare Exponents
1473    def XSCMPEXPDP : XX3Form_1<60, 59,
1474                               (outs crrc:$crD), (ins vsfrc:$XA, vsfrc:$XB),
1475                               "xscmpexpdp $crD, $XA, $XB", IIC_FPCompare, []>;
1476    def XSCMPEXPQP : X_BF3_VA5_VB5<63, 164, "xscmpexpqp", []>;
1477
1478    let mayRaiseFPException = 1 in {
1479    def XSCMPOQP : X_BF3_VA5_VB5<63, 132, "xscmpoqp", []>;
1480    def XSCMPUQP : X_BF3_VA5_VB5<63, 644, "xscmpuqp", []>;
1481
1482    // DP Compare ==, >=, >, !=
1483    // Use vsrc for XT, because the entire register of XT is set.
1484    // XT.dword[1] = 0x0000_0000_0000_0000
1485    def XSCMPEQDP : XX3_XT5_XA5_XB5<60,  3, "xscmpeqdp", vsrc, vsfrc, vsfrc,
1486                                    IIC_FPCompare, []>;
1487    def XSCMPGEDP : XX3_XT5_XA5_XB5<60, 19, "xscmpgedp", vsrc, vsfrc, vsfrc,
1488                                    IIC_FPCompare, []>;
1489    def XSCMPGTDP : XX3_XT5_XA5_XB5<60, 11, "xscmpgtdp", vsrc, vsfrc, vsfrc,
1490                                    IIC_FPCompare, []>;
1491    }
1492  }
1493
1494  //===--------------------------------------------------------------------===//
1495  // Quad-Precision Floating-Point Conversion Instructions:
1496
1497  let mayRaiseFPException = 1 in {
1498    // Convert DP -> QP
1499    def XSCVDPQP  : X_VT5_XO5_VB5_TyVB<63, 22, 836, "xscvdpqp", vfrc,
1500                                       [(set f128:$vT, (any_fpextend f64:$vB))]>;
1501
1502    // Round & Convert QP -> DP (dword[1] is set to zero)
1503    def XSCVQPDP  : X_VT5_XO5_VB5_VSFR<63, 20, 836, "xscvqpdp" , []>;
1504    def XSCVQPDPO : X_VT5_XO5_VB5_VSFR_Ro<63, 20, 836, "xscvqpdpo",
1505                                          [(set f64:$vT,
1506                                          (int_ppc_truncf128_round_to_odd
1507                                          f128:$vB))]>;
1508  }
1509
1510  // Truncate & Convert QP -> (Un)Signed (D)Word (dword[1] is set to zero)
1511  let mayRaiseFPException = 1 in {
1512    def XSCVQPSDZ : X_VT5_XO5_VB5<63, 25, 836, "xscvqpsdz", []>;
1513    def XSCVQPSWZ : X_VT5_XO5_VB5<63,  9, 836, "xscvqpswz", []>;
1514    def XSCVQPUDZ : X_VT5_XO5_VB5<63, 17, 836, "xscvqpudz", []>;
1515    def XSCVQPUWZ : X_VT5_XO5_VB5<63,  1, 836, "xscvqpuwz", []>;
1516  }
1517
1518  // Convert (Un)Signed DWord -> QP.
1519  def XSCVSDQP  : X_VT5_XO5_VB5_TyVB<63, 10, 836, "xscvsdqp", vfrc, []>;
1520  def XSCVUDQP  : X_VT5_XO5_VB5_TyVB<63,  2, 836, "xscvudqp", vfrc, []>;
1521
1522  // (Round &) Convert DP <-> HP
1523  // Note! xscvdphp's src and dest register both use the left 64 bits, so we use
1524  // vsfrc for src and dest register. xscvhpdp's src only use the left 16 bits,
1525  // but we still use vsfrc for it.
1526  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1527  let hasSideEffects = 1, mayRaiseFPException = 1 in {
1528    def XSCVDPHP : XX2_XT6_XO5_XB6<60, 17, 347, "xscvdphp", vsfrc, []>;
1529    def XSCVHPDP : XX2_XT6_XO5_XB6<60, 16, 347, "xscvhpdp", vsfrc, []>;
1530  }
1531
1532  let mayRaiseFPException = 1 in {
1533  // Vector HP -> SP
1534  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1535  let hasSideEffects = 1 in
1536  def XVCVHPSP : XX2_XT6_XO5_XB6<60, 24, 475, "xvcvhpsp", vsrc, []>;
1537  def XVCVSPHP : XX2_XT6_XO5_XB6<60, 25, 475, "xvcvsphp", vsrc,
1538                                 [(set v4f32:$XT,
1539                                     (int_ppc_vsx_xvcvsphp v4f32:$XB))]>;
1540
1541  // Round to Quad-Precision Integer [with Inexact]
1542  def XSRQPI   : Z23_VT5_R1_VB5_RMC2_EX1<63,  5, 0, "xsrqpi" , []>;
1543  def XSRQPIX  : Z23_VT5_R1_VB5_RMC2_EX1<63,  5, 1, "xsrqpix", []>;
1544
1545  // Round Quad-Precision to Double-Extended Precision (fp80)
1546  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1547  let hasSideEffects = 1 in
1548  def XSRQPXP  : Z23_VT5_R1_VB5_RMC2_EX1<63, 37, 0, "xsrqpxp", []>;
1549  }
1550
1551  //===--------------------------------------------------------------------===//
1552  // Insert/Extract Instructions
1553
1554  // Insert Exponent DP/QP
1555  // XT NOTE: XT.dword[1] = 0xUUUU_UUUU_UUUU_UUUU
1556  def XSIEXPDP : XX1Form <60, 918, (outs vsrc:$XT), (ins g8rc:$rA, g8rc:$rB),
1557                          "xsiexpdp $XT, $rA, $rB", IIC_VecFP, []>;
1558  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1559  let hasSideEffects = 1 in {
1560    // vB NOTE: only vB.dword[0] is used, that's why we don't use
1561    //          X_VT5_VA5_VB5 form
1562    def XSIEXPQP : XForm_18<63, 868, (outs vrrc:$vT), (ins vrrc:$vA, vsfrc:$vB),
1563                            "xsiexpqp $vT, $vA, $vB", IIC_VecFP, []>;
1564  }
1565
1566  // Extract Exponent/Significand DP/QP
1567  def XSXEXPDP : XX2_RT5_XO5_XB6<60,  0, 347, "xsxexpdp", []>;
1568  def XSXSIGDP : XX2_RT5_XO5_XB6<60,  1, 347, "xsxsigdp", []>;
1569
1570  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1571  let hasSideEffects = 1 in {
1572    def XSXEXPQP : X_VT5_XO5_VB5  <63,  2, 804, "xsxexpqp", []>;
1573    def XSXSIGQP : X_VT5_XO5_VB5  <63, 18, 804, "xsxsigqp", []>;
1574  }
1575
1576  // Vector Insert Word
1577  // XB NOTE: Only XB.dword[1] is used, but we use vsrc on XB.
1578  def XXINSERTW   :
1579    XX2_RD6_UIM5_RS6<60, 181, (outs vsrc:$XT),
1580                     (ins vsrc:$XTi, vsrc:$XB, u4imm:$UIM),
1581                     "xxinsertw $XT, $XB, $UIM", IIC_VecFP,
1582                     [(set v4i32:$XT, (PPCvecinsert v4i32:$XTi, v4i32:$XB,
1583                                                   imm32SExt16:$UIM))]>,
1584                     RegConstraint<"$XTi = $XT">, NoEncode<"$XTi">;
1585
1586  // Vector Extract Unsigned Word
1587  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1588  let hasSideEffects = 1 in
1589  def XXEXTRACTUW : XX2_RD6_UIM5_RS6<60, 165,
1590                                  (outs vsfrc:$XT), (ins vsrc:$XB, u4imm:$UIMM),
1591                                  "xxextractuw $XT, $XB, $UIMM", IIC_VecFP, []>;
1592
1593  // Vector Insert Exponent DP/SP
1594  def XVIEXPDP : XX3_XT5_XA5_XB5<60, 248, "xviexpdp", vsrc, vsrc, vsrc,
1595    IIC_VecFP, [(set v2f64: $XT,(int_ppc_vsx_xviexpdp v2i64:$XA, v2i64:$XB))]>;
1596  def XVIEXPSP : XX3_XT5_XA5_XB5<60, 216, "xviexpsp", vsrc, vsrc, vsrc,
1597    IIC_VecFP, [(set v4f32: $XT,(int_ppc_vsx_xviexpsp v4i32:$XA, v4i32:$XB))]>;
1598
1599  // Vector Extract Exponent/Significand DP/SP
1600  def XVXEXPDP : XX2_XT6_XO5_XB6<60,  0, 475, "xvxexpdp", vsrc,
1601                                 [(set v2i64: $XT,
1602                                  (int_ppc_vsx_xvxexpdp v2f64:$XB))]>;
1603  def XVXEXPSP : XX2_XT6_XO5_XB6<60,  8, 475, "xvxexpsp", vsrc,
1604                                 [(set v4i32: $XT,
1605                                  (int_ppc_vsx_xvxexpsp v4f32:$XB))]>;
1606  def XVXSIGDP : XX2_XT6_XO5_XB6<60,  1, 475, "xvxsigdp", vsrc,
1607                                 [(set v2i64: $XT,
1608                                  (int_ppc_vsx_xvxsigdp v2f64:$XB))]>;
1609  def XVXSIGSP : XX2_XT6_XO5_XB6<60,  9, 475, "xvxsigsp", vsrc,
1610                                 [(set v4i32: $XT,
1611                                  (int_ppc_vsx_xvxsigsp v4f32:$XB))]>;
1612
1613  // Test Data Class SP/DP/QP
1614  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1615  let hasSideEffects = 1 in {
1616    def XSTSTDCSP : XX2_BF3_DCMX7_RS6<60, 298,
1617                                (outs crrc:$BF), (ins u7imm:$DCMX, vsfrc:$XB),
1618                                "xststdcsp $BF, $XB, $DCMX", IIC_VecFP, []>;
1619    def XSTSTDCDP : XX2_BF3_DCMX7_RS6<60, 362,
1620                                (outs crrc:$BF), (ins u7imm:$DCMX, vsfrc:$XB),
1621                                "xststdcdp $BF, $XB, $DCMX", IIC_VecFP, []>;
1622    def XSTSTDCQP : X_BF3_DCMX7_RS5  <63, 708,
1623                                (outs crrc:$BF), (ins u7imm:$DCMX, vrrc:$vB),
1624                                "xststdcqp $BF, $vB, $DCMX", IIC_VecFP, []>;
1625  }
1626
1627  // Vector Test Data Class SP/DP
1628  def XVTSTDCSP : XX2_RD6_DCMX7_RS6<60, 13, 5,
1629                              (outs vsrc:$XT), (ins u7imm:$DCMX, vsrc:$XB),
1630                              "xvtstdcsp $XT, $XB, $DCMX", IIC_VecFP,
1631                              [(set v4i32: $XT,
1632                               (int_ppc_vsx_xvtstdcsp v4f32:$XB, timm:$DCMX))]>;
1633  def XVTSTDCDP : XX2_RD6_DCMX7_RS6<60, 15, 5,
1634                              (outs vsrc:$XT), (ins u7imm:$DCMX, vsrc:$XB),
1635                              "xvtstdcdp $XT, $XB, $DCMX", IIC_VecFP,
1636                              [(set v2i64: $XT,
1637                               (int_ppc_vsx_xvtstdcdp v2f64:$XB, timm:$DCMX))]>;
1638
1639  // Maximum/Minimum Type-C/Type-J DP
1640  let mayRaiseFPException = 1 in {
1641  def XSMAXCDP : XX3_XT5_XA5_XB5<60, 128, "xsmaxcdp", vsfrc, vsfrc, vsfrc,
1642                                 IIC_VecFP,
1643                                 [(set f64:$XT, (PPCxsmaxc f64:$XA, f64:$XB))]>;
1644  def XSMINCDP : XX3_XT5_XA5_XB5<60, 136, "xsmincdp", vsfrc, vsfrc, vsfrc,
1645                                 IIC_VecFP,
1646                                 [(set f64:$XT, (PPCxsminc f64:$XA, f64:$XB))]>;
1647
1648  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1649  let hasSideEffects = 1 in {
1650    def XSMAXJDP : XX3_XT5_XA5_XB5<60, 144, "xsmaxjdp", vsrc, vsfrc, vsfrc,
1651                                   IIC_VecFP, []>;
1652    def XSMINJDP : XX3_XT5_XA5_XB5<60, 152, "xsminjdp", vsrc, vsfrc, vsfrc,
1653                                   IIC_VecFP, []>;
1654  }
1655  }
1656
1657  // Vector Byte-Reverse H/W/D/Q Word
1658  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1659  let hasSideEffects = 1 in
1660  def XXBRH : XX2_XT6_XO5_XB6<60,  7, 475, "xxbrh", vsrc, []>;
1661  def XXBRW : XX2_XT6_XO5_XB6<60, 15, 475, "xxbrw", vsrc,
1662    [(set v4i32:$XT, (bswap v4i32:$XB))]>;
1663  def XXBRD : XX2_XT6_XO5_XB6<60, 23, 475, "xxbrd", vsrc,
1664    [(set v2i64:$XT, (bswap v2i64:$XB))]>;
1665  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1666  let hasSideEffects = 1 in
1667  def XXBRQ : XX2_XT6_XO5_XB6<60, 31, 475, "xxbrq", vsrc, []>;
1668
1669  // Vector Permute
1670  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1671  let hasSideEffects = 1 in {
1672    def XXPERM  : XX3_XT5_XA5_XB5<60, 26, "xxperm" , vsrc, vsrc, vsrc,
1673                                  IIC_VecPerm, []>;
1674    def XXPERMR : XX3_XT5_XA5_XB5<60, 58, "xxpermr", vsrc, vsrc, vsrc,
1675                                  IIC_VecPerm, []>;
1676  }
1677
1678  // Vector Splat Immediate Byte
1679  // FIXME: Setting the hasSideEffects flag here to match current behaviour.
1680  let hasSideEffects = 1 in
1681  def XXSPLTIB : X_RD6_IMM8<60, 360, (outs vsrc:$XT), (ins u8imm:$IMM8),
1682                            "xxspltib $XT, $IMM8", IIC_VecPerm, []>;
1683
1684  // When adding new D-Form loads/stores, be sure to update the ImmToIdxMap in
1685  // PPCRegisterInfo::PPCRegisterInfo and maybe save yourself some debugging.
1686  let mayLoad = 1, mayStore = 0 in {
1687  // Load Vector
1688  def LXV : DQ_RD6_RS5_DQ12<61, 1, (outs vsrc:$XT), (ins memrix16:$src),
1689                            "lxv $XT, $src", IIC_LdStLFD, []>;
1690  // Load DWord
1691  def LXSD  : DSForm_1<57, 2, (outs vfrc:$vD), (ins memrix:$src),
1692                       "lxsd $vD, $src", IIC_LdStLFD, []>;
1693  // Load SP from src, convert it to DP, and place in dword[0]
1694  def LXSSP : DSForm_1<57, 3, (outs vfrc:$vD), (ins memrix:$src),
1695                       "lxssp $vD, $src", IIC_LdStLFD, []>;
1696
1697  // Load as Integer Byte/Halfword & Zero Indexed
1698  def LXSIBZX : X_XT6_RA5_RB5<31, 781, "lxsibzx", vsfrc,
1699                              [(set f64:$XT, (PPClxsizx ForceXForm:$src, 1))]>;
1700  def LXSIHZX : X_XT6_RA5_RB5<31, 813, "lxsihzx", vsfrc,
1701                              [(set f64:$XT, (PPClxsizx ForceXForm:$src, 2))]>;
1702
1703  // Load Vector Halfword*8/Byte*16 Indexed
1704  def LXVH8X  : X_XT6_RA5_RB5<31, 812, "lxvh8x" , vsrc, []>;
1705  def LXVB16X : X_XT6_RA5_RB5<31, 876, "lxvb16x", vsrc, []>;
1706
1707  // Load Vector Indexed
1708  def LXVX    : X_XT6_RA5_RB5<31, 268, "lxvx"   , vsrc,
1709                [(set v2f64:$XT, (load XForm:$src))]>;
1710  // Load Vector (Left-justified) with Length
1711  def LXVL : XX1Form_memOp<31, 269, (outs vsrc:$XT), (ins memr:$src, g8rc:$rB),
1712                   "lxvl $XT, $src, $rB", IIC_LdStLoad,
1713                   [(set v4i32:$XT, (int_ppc_vsx_lxvl addr:$src, i64:$rB))]>;
1714  def LXVLL : XX1Form_memOp<31,301, (outs vsrc:$XT), (ins memr:$src, g8rc:$rB),
1715                   "lxvll $XT, $src, $rB", IIC_LdStLoad,
1716                   [(set v4i32:$XT, (int_ppc_vsx_lxvll addr:$src, i64:$rB))]>;
1717
1718  // Load Vector Word & Splat Indexed
1719  def LXVWSX  : X_XT6_RA5_RB5<31, 364, "lxvwsx" , vsrc, []>;
1720  } // mayLoad
1721
1722  // When adding new D-Form loads/stores, be sure to update the ImmToIdxMap in
1723  // PPCRegisterInfo::PPCRegisterInfo and maybe save yourself some debugging.
1724  let mayStore = 1, mayLoad = 0 in {
1725  // Store Vector
1726  def STXV : DQ_RD6_RS5_DQ12<61, 5, (outs), (ins vsrc:$XT, memrix16:$dst),
1727                             "stxv $XT, $dst", IIC_LdStSTFD, []>;
1728  // Store DWord
1729  def STXSD  : DSForm_1<61, 2, (outs), (ins vfrc:$vS, memrix:$dst),
1730                        "stxsd $vS, $dst", IIC_LdStSTFD, []>;
1731  // Convert DP of dword[0] to SP, and Store to dst
1732  def STXSSP : DSForm_1<61, 3, (outs), (ins vfrc:$vS, memrix:$dst),
1733                        "stxssp $vS, $dst", IIC_LdStSTFD, []>;
1734
1735  // Store as Integer Byte/Halfword Indexed
1736  def STXSIBX  : X_XS6_RA5_RB5<31,  909, "stxsibx" , vsfrc,
1737                               [(PPCstxsix f64:$XT, ForceXForm:$dst, 1)]>;
1738  def STXSIHX  : X_XS6_RA5_RB5<31,  941, "stxsihx" , vsfrc,
1739                               [(PPCstxsix f64:$XT, ForceXForm:$dst, 2)]>;
1740  let isCodeGenOnly = 1 in {
1741    def STXSIBXv  : X_XS6_RA5_RB5<31,  909, "stxsibx" , vsrc, []>;
1742    def STXSIHXv  : X_XS6_RA5_RB5<31,  941, "stxsihx" , vsrc, []>;
1743  }
1744
1745  // Store Vector Halfword*8/Byte*16 Indexed
1746  def STXVH8X  : X_XS6_RA5_RB5<31,  940, "stxvh8x" , vsrc, []>;
1747  def STXVB16X : X_XS6_RA5_RB5<31, 1004, "stxvb16x", vsrc, []>;
1748
1749  // Store Vector Indexed
1750  def STXVX    : X_XS6_RA5_RB5<31,  396, "stxvx"   , vsrc,
1751                 [(store v2f64:$XT, XForm:$dst)]>;
1752
1753  // Store Vector (Left-justified) with Length
1754  def STXVL : XX1Form_memOp<31, 397, (outs),
1755                            (ins vsrc:$XT, memr:$dst, g8rc:$rB),
1756                            "stxvl $XT, $dst, $rB", IIC_LdStLoad,
1757                            [(int_ppc_vsx_stxvl v4i32:$XT, addr:$dst,
1758                              i64:$rB)]>;
1759  def STXVLL : XX1Form_memOp<31, 429, (outs),
1760                            (ins vsrc:$XT, memr:$dst, g8rc:$rB),
1761                            "stxvll $XT, $dst, $rB", IIC_LdStLoad,
1762                            [(int_ppc_vsx_stxvll v4i32:$XT, addr:$dst,
1763                              i64:$rB)]>;
1764  } // mayStore
1765
1766  def DFLOADf32  : PPCPostRAExpPseudo<(outs vssrc:$XT), (ins memrix:$src),
1767                          "#DFLOADf32",
1768                          [(set f32:$XT, (load DSForm:$src))]>;
1769  def DFLOADf64  : PPCPostRAExpPseudo<(outs vsfrc:$XT), (ins memrix:$src),
1770                          "#DFLOADf64",
1771                          [(set f64:$XT, (load DSForm:$src))]>;
1772  def DFSTOREf32 : PPCPostRAExpPseudo<(outs), (ins vssrc:$XT, memrix:$dst),
1773                          "#DFSTOREf32",
1774                          [(store f32:$XT, DSForm:$dst)]>;
1775  def DFSTOREf64 : PPCPostRAExpPseudo<(outs), (ins vsfrc:$XT, memrix:$dst),
1776                          "#DFSTOREf64",
1777                          [(store f64:$XT, DSForm:$dst)]>;
1778
1779  let mayStore = 1 in {
1780    def SPILLTOVSR_STX : PseudoXFormMemOp<(outs),
1781                                          (ins spilltovsrrc:$XT, memrr:$dst),
1782                                          "#SPILLTOVSR_STX", []>;
1783    def SPILLTOVSR_ST : PPCPostRAExpPseudo<(outs), (ins spilltovsrrc:$XT, memrix:$dst),
1784                              "#SPILLTOVSR_ST", []>;
1785  }
1786  let mayLoad = 1 in {
1787    def SPILLTOVSR_LDX : PseudoXFormMemOp<(outs spilltovsrrc:$XT),
1788                                          (ins memrr:$src),
1789                                          "#SPILLTOVSR_LDX", []>;
1790    def SPILLTOVSR_LD : PPCPostRAExpPseudo<(outs spilltovsrrc:$XT), (ins memrix:$src),
1791                              "#SPILLTOVSR_LD", []>;
1792
1793  }
1794  } // HasP9Vector
1795} // hasSideEffects = 0
1796
1797let PPC970_Single = 1, AddedComplexity = 400 in {
1798
1799  def SELECT_CC_VSRC: PPCCustomInserterPseudo<(outs vsrc:$dst),
1800                             (ins crrc:$cond, vsrc:$T, vsrc:$F, i32imm:$BROPC),
1801                             "#SELECT_CC_VSRC",
1802                             []>;
1803  def SELECT_VSRC: PPCCustomInserterPseudo<(outs vsrc:$dst),
1804                          (ins crbitrc:$cond, vsrc:$T, vsrc:$F),
1805                          "#SELECT_VSRC",
1806                          [(set v2f64:$dst,
1807                                (select i1:$cond, v2f64:$T, v2f64:$F))]>;
1808  def SELECT_CC_VSFRC: PPCCustomInserterPseudo<(outs f8rc:$dst),
1809                              (ins crrc:$cond, f8rc:$T, f8rc:$F,
1810                               i32imm:$BROPC), "#SELECT_CC_VSFRC",
1811                              []>;
1812  def SELECT_VSFRC: PPCCustomInserterPseudo<(outs f8rc:$dst),
1813                           (ins crbitrc:$cond, f8rc:$T, f8rc:$F),
1814                           "#SELECT_VSFRC",
1815                           [(set f64:$dst,
1816                                 (select i1:$cond, f64:$T, f64:$F))]>;
1817  def SELECT_CC_VSSRC: PPCCustomInserterPseudo<(outs f4rc:$dst),
1818                              (ins crrc:$cond, f4rc:$T, f4rc:$F,
1819                               i32imm:$BROPC), "#SELECT_CC_VSSRC",
1820                              []>;
1821  def SELECT_VSSRC: PPCCustomInserterPseudo<(outs f4rc:$dst),
1822                           (ins crbitrc:$cond, f4rc:$T, f4rc:$F),
1823                           "#SELECT_VSSRC",
1824                           [(set f32:$dst,
1825                                 (select i1:$cond, f32:$T, f32:$F))]>;
1826}
1827}
1828
1829//----------------------------- DAG Definitions ------------------------------//
1830
1831// Output dag used to bitcast f32 to i32 and f64 to i64
1832def Bitcast {
1833  dag FltToInt = (i32 (MFVSRWZ (EXTRACT_SUBREG (XSCVDPSPN $A), sub_64)));
1834  dag DblToLong = (i64 (MFVSRD $A));
1835}
1836
1837def FpMinMax {
1838  dag F32Min = (COPY_TO_REGCLASS (XSMINDP (COPY_TO_REGCLASS $A, VSFRC),
1839                                          (COPY_TO_REGCLASS $B, VSFRC)),
1840                                 VSSRC);
1841  dag F32Max = (COPY_TO_REGCLASS (XSMAXDP (COPY_TO_REGCLASS $A, VSFRC),
1842                                          (COPY_TO_REGCLASS $B, VSFRC)),
1843                                 VSSRC);
1844}
1845
1846def ScalarLoads {
1847  dag Li8 =       (i32 (extloadi8 ForceXForm:$src));
1848  dag ZELi8 =     (i32 (zextloadi8 ForceXForm:$src));
1849  dag ZELi8i64 =  (i64 (zextloadi8 ForceXForm:$src));
1850  dag SELi8 =     (i32 (sext_inreg (extloadi8 ForceXForm:$src), i8));
1851  dag SELi8i64 =  (i64 (sext_inreg (extloadi8 ForceXForm:$src), i8));
1852
1853  dag Li16 =      (i32 (extloadi16 ForceXForm:$src));
1854  dag ZELi16 =    (i32 (zextloadi16 ForceXForm:$src));
1855  dag ZELi16i64 = (i64 (zextloadi16 ForceXForm:$src));
1856  dag SELi16 =    (i32 (sextloadi16 ForceXForm:$src));
1857  dag SELi16i64 = (i64 (sextloadi16 ForceXForm:$src));
1858
1859  dag Li32 = (i32 (load ForceXForm:$src));
1860}
1861
1862def DWToSPExtractConv {
1863  dag El0US1 = (f32 (PPCfcfidus
1864                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S1, 0))))));
1865  dag El1US1 = (f32 (PPCfcfidus
1866                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S1, 1))))));
1867  dag El0US2 = (f32 (PPCfcfidus
1868                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S2, 0))))));
1869  dag El1US2 = (f32 (PPCfcfidus
1870                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S2, 1))))));
1871  dag El0SS1 = (f32 (PPCfcfids
1872                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S1, 0))))));
1873  dag El1SS1 = (f32 (PPCfcfids
1874                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S1, 1))))));
1875  dag El0SS2 = (f32 (PPCfcfids
1876                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S2, 0))))));
1877  dag El1SS2 = (f32 (PPCfcfids
1878                    (f64 (PPCmtvsra (i64 (vector_extract v2i64:$S2, 1))))));
1879  dag BVU = (v4f32 (build_vector El0US1, El1US1, El0US2, El1US2));
1880  dag BVS = (v4f32 (build_vector El0SS1, El1SS1, El0SS2, El1SS2));
1881}
1882
1883def WToDPExtractConv {
1884  dag El0S = (f64 (PPCfcfid (PPCmtvsra (extractelt v4i32:$A, 0))));
1885  dag El1S = (f64 (PPCfcfid (PPCmtvsra (extractelt v4i32:$A, 1))));
1886  dag El2S = (f64 (PPCfcfid (PPCmtvsra (extractelt v4i32:$A, 2))));
1887  dag El3S = (f64 (PPCfcfid (PPCmtvsra (extractelt v4i32:$A, 3))));
1888  dag El0U = (f64 (PPCfcfidu (PPCmtvsrz (extractelt v4i32:$A, 0))));
1889  dag El1U = (f64 (PPCfcfidu (PPCmtvsrz (extractelt v4i32:$A, 1))));
1890  dag El2U = (f64 (PPCfcfidu (PPCmtvsrz (extractelt v4i32:$A, 2))));
1891  dag El3U = (f64 (PPCfcfidu (PPCmtvsrz (extractelt v4i32:$A, 3))));
1892  dag BV02S = (v2f64 (build_vector El0S, El2S));
1893  dag BV13S = (v2f64 (build_vector El1S, El3S));
1894  dag BV02U = (v2f64 (build_vector El0U, El2U));
1895  dag BV13U = (v2f64 (build_vector El1U, El3U));
1896}
1897
1898/*  Direct moves of various widths from GPR's into VSR's. Each move lines
1899    the value up into element 0 (both BE and LE). Namely, entities smaller than
1900    a doubleword are shifted left and moved for BE. For LE, they're moved, then
1901    swapped to go into the least significant element of the VSR.
1902*/
1903def MovesToVSR {
1904  dag BE_BYTE_0 =
1905    (MTVSRD
1906      (RLDICR
1907        (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $A, sub_32), 56, 7));
1908  dag BE_HALF_0 =
1909    (MTVSRD
1910      (RLDICR
1911        (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $A, sub_32), 48, 15));
1912  dag BE_WORD_0 =
1913    (MTVSRD
1914      (RLDICR
1915        (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $A, sub_32), 32, 31));
1916  dag BE_DWORD_0 = (MTVSRD $A);
1917
1918  dag LE_MTVSRW = (MTVSRD (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $A, sub_32));
1919  dag LE_WORD_1 = (v2i64 (INSERT_SUBREG (v2i64 (IMPLICIT_DEF)),
1920                                        LE_MTVSRW, sub_64));
1921  dag LE_WORD_0 = (XXPERMDI LE_WORD_1, LE_WORD_1, 2);
1922  dag LE_DWORD_1 = (v2i64 (INSERT_SUBREG (v2i64 (IMPLICIT_DEF)),
1923                                         BE_DWORD_0, sub_64));
1924  dag LE_DWORD_0 = (XXPERMDI LE_DWORD_1, LE_DWORD_1, 2);
1925}
1926
1927/*  Patterns for extracting elements out of vectors. Integer elements are
1928    extracted using direct move operations. Patterns for extracting elements
1929    whose indices are not available at compile time are also provided with
1930    various _VARIABLE_ patterns.
1931    The numbering for the DAG's is for LE, but when used on BE, the correct
1932    LE element can just be used (i.e. LE_BYTE_2 == BE_BYTE_13).
1933*/
1934def VectorExtractions {
1935  // Doubleword extraction
1936  dag LE_DWORD_0 =
1937    (MFVSRD
1938      (EXTRACT_SUBREG
1939        (XXPERMDI (COPY_TO_REGCLASS $S, VSRC),
1940                  (COPY_TO_REGCLASS $S, VSRC), 2), sub_64));
1941  dag LE_DWORD_1 = (MFVSRD
1942                     (EXTRACT_SUBREG
1943                       (v2i64 (COPY_TO_REGCLASS $S, VSRC)), sub_64));
1944
1945  // Word extraction
1946  dag LE_WORD_0 = (MFVSRWZ (EXTRACT_SUBREG (XXPERMDI $S, $S, 2), sub_64));
1947  dag LE_WORD_1 = (MFVSRWZ (EXTRACT_SUBREG (XXSLDWI $S, $S, 1), sub_64));
1948  dag LE_WORD_2 = (MFVSRWZ (EXTRACT_SUBREG
1949                             (v2i64 (COPY_TO_REGCLASS $S, VSRC)), sub_64));
1950  dag LE_WORD_3 = (MFVSRWZ (EXTRACT_SUBREG (XXSLDWI $S, $S, 3), sub_64));
1951
1952  // Halfword extraction
1953  dag LE_HALF_0 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 0, 48), sub_32));
1954  dag LE_HALF_1 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 48, 48), sub_32));
1955  dag LE_HALF_2 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 32, 48), sub_32));
1956  dag LE_HALF_3 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 16, 48), sub_32));
1957  dag LE_HALF_4 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 0, 48), sub_32));
1958  dag LE_HALF_5 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 48, 48), sub_32));
1959  dag LE_HALF_6 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 32, 48), sub_32));
1960  dag LE_HALF_7 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 16, 48), sub_32));
1961
1962  // Byte extraction
1963  dag LE_BYTE_0 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 0, 56), sub_32));
1964  dag LE_BYTE_1 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 56, 56), sub_32));
1965  dag LE_BYTE_2 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 48, 56), sub_32));
1966  dag LE_BYTE_3 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 40, 56), sub_32));
1967  dag LE_BYTE_4 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 32, 56), sub_32));
1968  dag LE_BYTE_5 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 24, 56), sub_32));
1969  dag LE_BYTE_6 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 16, 56), sub_32));
1970  dag LE_BYTE_7 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_0, 8, 56), sub_32));
1971  dag LE_BYTE_8 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 0, 56), sub_32));
1972  dag LE_BYTE_9 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 56, 56), sub_32));
1973  dag LE_BYTE_10 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 48, 56), sub_32));
1974  dag LE_BYTE_11 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 40, 56), sub_32));
1975  dag LE_BYTE_12 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 32, 56), sub_32));
1976  dag LE_BYTE_13 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 24, 56), sub_32));
1977  dag LE_BYTE_14 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 16, 56), sub_32));
1978  dag LE_BYTE_15 = (i32 (EXTRACT_SUBREG (RLDICL LE_DWORD_1, 8, 56), sub_32));
1979
1980  /* Variable element number (BE and LE patterns must be specified separately)
1981     This is a rather involved process.
1982
1983     Conceptually, this is how the move is accomplished:
1984     1. Identify which doubleword contains the element
1985     2. Shift in the VMX register so that the correct doubleword is correctly
1986        lined up for the MFVSRD
1987     3. Perform the move so that the element (along with some extra stuff)
1988        is in the GPR
1989     4. Right shift within the GPR so that the element is right-justified
1990
1991     Of course, the index is an element number which has a different meaning
1992     on LE/BE so the patterns have to be specified separately.
1993
1994     Note: The final result will be the element right-justified with high
1995           order bits being arbitrarily defined (namely, whatever was in the
1996           vector register to the left of the value originally).
1997  */
1998
1999  /*  LE variable byte
2000      Number 1. above:
2001      - For elements 0-7, we shift left by 8 bytes since they're on the right
2002      - For elements 8-15, we need not shift (shift left by zero bytes)
2003      This is accomplished by inverting the bits of the index and AND-ing
2004      with 0x8 (i.e. clearing all bits of the index and inverting bit 60).
2005  */
2006  dag LE_VBYTE_PERM_VEC = (v16i8 (LVSL ZERO8, (ANDC8 (LI8 8), $Idx)));
2007
2008  //  Number 2. above:
2009  //  - Now that we set up the shift amount, we shift in the VMX register
2010  dag LE_VBYTE_PERMUTE = (v16i8 (VPERM $S, $S, LE_VBYTE_PERM_VEC));
2011
2012  //  Number 3. above:
2013  //  - The doubleword containing our element is moved to a GPR
2014  dag LE_MV_VBYTE = (MFVSRD
2015                      (EXTRACT_SUBREG
2016                        (v2i64 (COPY_TO_REGCLASS LE_VBYTE_PERMUTE, VSRC)),
2017                        sub_64));
2018
2019  /*  Number 4. above:
2020      - Truncate the element number to the range 0-7 (8-15 are symmetrical
2021        and out of range values are truncated accordingly)
2022      - Multiply by 8 as we need to shift right by the number of bits, not bytes
2023      - Shift right in the GPR by the calculated value
2024  */
2025  dag LE_VBYTE_SHIFT = (EXTRACT_SUBREG (RLDICR (AND8 (LI8 7), $Idx), 3, 60),
2026                                       sub_32);
2027  dag LE_VARIABLE_BYTE = (EXTRACT_SUBREG (SRD LE_MV_VBYTE, LE_VBYTE_SHIFT),
2028                                         sub_32);
2029
2030  /*  LE variable halfword
2031      Number 1. above:
2032      - For elements 0-3, we shift left by 8 since they're on the right
2033      - For elements 4-7, we need not shift (shift left by zero bytes)
2034      Similarly to the byte pattern, we invert the bits of the index, but we
2035      AND with 0x4 (i.e. clear all bits of the index and invert bit 61).
2036      Of course, the shift is still by 8 bytes, so we must multiply by 2.
2037  */
2038  dag LE_VHALF_PERM_VEC =
2039    (v16i8 (LVSL ZERO8, (RLDICR (ANDC8 (LI8 4), $Idx), 1, 62)));
2040
2041  //  Number 2. above:
2042  //  - Now that we set up the shift amount, we shift in the VMX register
2043  dag LE_VHALF_PERMUTE = (v16i8 (VPERM $S, $S, LE_VHALF_PERM_VEC));
2044
2045  //  Number 3. above:
2046  //  - The doubleword containing our element is moved to a GPR
2047  dag LE_MV_VHALF = (MFVSRD
2048                      (EXTRACT_SUBREG
2049                        (v2i64 (COPY_TO_REGCLASS LE_VHALF_PERMUTE, VSRC)),
2050                        sub_64));
2051
2052  /*  Number 4. above:
2053      - Truncate the element number to the range 0-3 (4-7 are symmetrical
2054        and out of range values are truncated accordingly)
2055      - Multiply by 16 as we need to shift right by the number of bits
2056      - Shift right in the GPR by the calculated value
2057  */
2058  dag LE_VHALF_SHIFT = (EXTRACT_SUBREG (RLDICR (AND8 (LI8 3), $Idx), 4, 59),
2059                                       sub_32);
2060  dag LE_VARIABLE_HALF = (EXTRACT_SUBREG (SRD LE_MV_VHALF, LE_VHALF_SHIFT),
2061                                         sub_32);
2062
2063  /*  LE variable word
2064      Number 1. above:
2065      - For elements 0-1, we shift left by 8 since they're on the right
2066      - For elements 2-3, we need not shift
2067  */
2068  dag LE_VWORD_PERM_VEC = (v16i8 (LVSL ZERO8,
2069                                       (RLDICR (ANDC8 (LI8 2), $Idx), 2, 61)));
2070
2071  //  Number 2. above:
2072  //  - Now that we set up the shift amount, we shift in the VMX register
2073  dag LE_VWORD_PERMUTE = (v16i8 (VPERM $S, $S, LE_VWORD_PERM_VEC));
2074
2075  //  Number 3. above:
2076  //  - The doubleword containing our element is moved to a GPR
2077  dag LE_MV_VWORD = (MFVSRD
2078                      (EXTRACT_SUBREG
2079                        (v2i64 (COPY_TO_REGCLASS LE_VWORD_PERMUTE, VSRC)),
2080                        sub_64));
2081
2082  /*  Number 4. above:
2083      - Truncate the element number to the range 0-1 (2-3 are symmetrical
2084        and out of range values are truncated accordingly)
2085      - Multiply by 32 as we need to shift right by the number of bits
2086      - Shift right in the GPR by the calculated value
2087  */
2088  dag LE_VWORD_SHIFT = (EXTRACT_SUBREG (RLDICR (AND8 (LI8 1), $Idx), 5, 58),
2089                                       sub_32);
2090  dag LE_VARIABLE_WORD = (EXTRACT_SUBREG (SRD LE_MV_VWORD, LE_VWORD_SHIFT),
2091                                         sub_32);
2092
2093  /*  LE variable doubleword
2094      Number 1. above:
2095      - For element 0, we shift left by 8 since it's on the right
2096      - For element 1, we need not shift
2097  */
2098  dag LE_VDWORD_PERM_VEC = (v16i8 (LVSL ZERO8,
2099                                        (RLDICR (ANDC8 (LI8 1), $Idx), 3, 60)));
2100
2101  //  Number 2. above:
2102  //  - Now that we set up the shift amount, we shift in the VMX register
2103  dag LE_VDWORD_PERMUTE = (v16i8 (VPERM $S, $S, LE_VDWORD_PERM_VEC));
2104
2105  // Number 3. above:
2106  //  - The doubleword containing our element is moved to a GPR
2107  //  - Number 4. is not needed for the doubleword as the value is 64-bits
2108  dag LE_VARIABLE_DWORD =
2109        (MFVSRD (EXTRACT_SUBREG
2110                  (v2i64 (COPY_TO_REGCLASS LE_VDWORD_PERMUTE, VSRC)),
2111                  sub_64));
2112
2113  /*  LE variable float
2114      - Shift the vector to line up the desired element to BE Word 0
2115      - Convert 32-bit float to a 64-bit single precision float
2116  */
2117  dag LE_VFLOAT_PERM_VEC = (v16i8 (LVSL ZERO8,
2118                                  (RLDICR (XOR8 (LI8 3), $Idx), 2, 61)));
2119  dag LE_VFLOAT_PERMUTE = (VPERM $S, $S, LE_VFLOAT_PERM_VEC);
2120  dag LE_VARIABLE_FLOAT = (XSCVSPDPN LE_VFLOAT_PERMUTE);
2121
2122  /*  LE variable double
2123      Same as the LE doubleword except there is no move.
2124  */
2125  dag LE_VDOUBLE_PERMUTE = (v16i8 (VPERM (v16i8 (COPY_TO_REGCLASS $S, VRRC)),
2126                                         (v16i8 (COPY_TO_REGCLASS $S, VRRC)),
2127                                         LE_VDWORD_PERM_VEC));
2128  dag LE_VARIABLE_DOUBLE = (COPY_TO_REGCLASS LE_VDOUBLE_PERMUTE, VSRC);
2129
2130  /*  BE variable byte
2131      The algorithm here is the same as the LE variable byte except:
2132      - The shift in the VMX register is by 0/8 for opposite element numbers so
2133        we simply AND the element number with 0x8
2134      - The order of elements after the move to GPR is reversed, so we invert
2135        the bits of the index prior to truncating to the range 0-7
2136  */
2137  dag BE_VBYTE_PERM_VEC = (v16i8 (LVSL ZERO8, (ANDI8_rec $Idx, 8)));
2138  dag BE_VBYTE_PERMUTE = (v16i8 (VPERM $S, $S, BE_VBYTE_PERM_VEC));
2139  dag BE_MV_VBYTE = (MFVSRD
2140                      (EXTRACT_SUBREG
2141                        (v2i64 (COPY_TO_REGCLASS BE_VBYTE_PERMUTE, VSRC)),
2142                        sub_64));
2143  dag BE_VBYTE_SHIFT = (EXTRACT_SUBREG (RLDICR (ANDC8 (LI8 7), $Idx), 3, 60),
2144                                       sub_32);
2145  dag BE_VARIABLE_BYTE = (EXTRACT_SUBREG (SRD BE_MV_VBYTE, BE_VBYTE_SHIFT),
2146                                         sub_32);
2147
2148  /*  BE variable halfword
2149      The algorithm here is the same as the LE variable halfword except:
2150      - The shift in the VMX register is by 0/8 for opposite element numbers so
2151        we simply AND the element number with 0x4 and multiply by 2
2152      - The order of elements after the move to GPR is reversed, so we invert
2153        the bits of the index prior to truncating to the range 0-3
2154  */
2155  dag BE_VHALF_PERM_VEC = (v16i8 (LVSL ZERO8,
2156                                       (RLDICR (ANDI8_rec $Idx, 4), 1, 62)));
2157  dag BE_VHALF_PERMUTE = (v16i8 (VPERM $S, $S, BE_VHALF_PERM_VEC));
2158  dag BE_MV_VHALF = (MFVSRD
2159                      (EXTRACT_SUBREG
2160                        (v2i64 (COPY_TO_REGCLASS BE_VHALF_PERMUTE, VSRC)),
2161                        sub_64));
2162  dag BE_VHALF_SHIFT = (EXTRACT_SUBREG (RLDICR (ANDC8 (LI8 3), $Idx), 4, 59),
2163                                       sub_32);
2164  dag BE_VARIABLE_HALF = (EXTRACT_SUBREG (SRD BE_MV_VHALF, BE_VHALF_SHIFT),
2165                                         sub_32);
2166
2167  /*  BE variable word
2168      The algorithm is the same as the LE variable word except:
2169      - The shift in the VMX register happens for opposite element numbers
2170      - The order of elements after the move to GPR is reversed, so we invert
2171        the bits of the index prior to truncating to the range 0-1
2172  */
2173  dag BE_VWORD_PERM_VEC = (v16i8 (LVSL ZERO8,
2174                                       (RLDICR (ANDI8_rec $Idx, 2), 2, 61)));
2175  dag BE_VWORD_PERMUTE = (v16i8 (VPERM $S, $S, BE_VWORD_PERM_VEC));
2176  dag BE_MV_VWORD = (MFVSRD
2177                      (EXTRACT_SUBREG
2178                        (v2i64 (COPY_TO_REGCLASS BE_VWORD_PERMUTE, VSRC)),
2179                        sub_64));
2180  dag BE_VWORD_SHIFT = (EXTRACT_SUBREG (RLDICR (ANDC8 (LI8 1), $Idx), 5, 58),
2181                                       sub_32);
2182  dag BE_VARIABLE_WORD = (EXTRACT_SUBREG (SRD BE_MV_VWORD, BE_VWORD_SHIFT),
2183                                         sub_32);
2184
2185  /*  BE variable doubleword
2186      Same as the LE doubleword except we shift in the VMX register for opposite
2187      element indices.
2188  */
2189  dag BE_VDWORD_PERM_VEC = (v16i8 (LVSL ZERO8,
2190                                        (RLDICR (ANDI8_rec $Idx, 1), 3, 60)));
2191  dag BE_VDWORD_PERMUTE = (v16i8 (VPERM $S, $S, BE_VDWORD_PERM_VEC));
2192  dag BE_VARIABLE_DWORD =
2193        (MFVSRD (EXTRACT_SUBREG
2194                  (v2i64 (COPY_TO_REGCLASS BE_VDWORD_PERMUTE, VSRC)),
2195                  sub_64));
2196
2197  /*  BE variable float
2198      - Shift the vector to line up the desired element to BE Word 0
2199      - Convert 32-bit float to a 64-bit single precision float
2200  */
2201  dag BE_VFLOAT_PERM_VEC = (v16i8 (LVSL ZERO8, (RLDICR $Idx, 2, 61)));
2202  dag BE_VFLOAT_PERMUTE = (VPERM $S, $S, BE_VFLOAT_PERM_VEC);
2203  dag BE_VARIABLE_FLOAT = (XSCVSPDPN BE_VFLOAT_PERMUTE);
2204
2205  //  BE variable float 32-bit version
2206  dag BE_32B_VFLOAT_PERM_VEC = (v16i8 (LVSL (i32 ZERO), (RLWINM $Idx, 2, 0, 29)));
2207  dag BE_32B_VFLOAT_PERMUTE = (VPERM $S, $S, BE_32B_VFLOAT_PERM_VEC);
2208  dag BE_32B_VARIABLE_FLOAT = (XSCVSPDPN BE_32B_VFLOAT_PERMUTE);
2209
2210  /* BE variable double
2211      Same as the BE doubleword except there is no move.
2212  */
2213  dag BE_VDOUBLE_PERMUTE = (v16i8 (VPERM (v16i8 (COPY_TO_REGCLASS $S, VRRC)),
2214                                         (v16i8 (COPY_TO_REGCLASS $S, VRRC)),
2215                                         BE_VDWORD_PERM_VEC));
2216  dag BE_VARIABLE_DOUBLE = (COPY_TO_REGCLASS BE_VDOUBLE_PERMUTE, VSRC);
2217
2218  //  BE variable double 32-bit version
2219  dag BE_32B_VDWORD_PERM_VEC = (v16i8 (LVSL (i32 ZERO),
2220                                        (RLWINM (ANDI_rec $Idx, 1), 3, 0, 28)));
2221  dag BE_32B_VDOUBLE_PERMUTE = (v16i8 (VPERM (v16i8 (COPY_TO_REGCLASS $S, VRRC)),
2222                                      (v16i8 (COPY_TO_REGCLASS $S, VRRC)),
2223                                      BE_32B_VDWORD_PERM_VEC));
2224  dag BE_32B_VARIABLE_DOUBLE = (COPY_TO_REGCLASS BE_32B_VDOUBLE_PERMUTE, VSRC);
2225}
2226
2227def AlignValues {
2228  dag F32_TO_BE_WORD1 = (v4f32 (XSCVDPSPN $B));
2229  dag I32_TO_BE_WORD1 = (SUBREG_TO_REG (i64 1), (MTVSRWZ $B), sub_64);
2230}
2231
2232// Integer extend helper dags 32 -> 64
2233def AnyExts {
2234  dag A = (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $A, sub_32);
2235  dag B = (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $B, sub_32);
2236  dag C = (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $C, sub_32);
2237  dag D = (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $D, sub_32);
2238}
2239
2240def DblToFlt {
2241  dag A0 = (f32 (any_fpround (f64 (extractelt v2f64:$A, 0))));
2242  dag A1 = (f32 (any_fpround (f64 (extractelt v2f64:$A, 1))));
2243  dag B0 = (f32 (any_fpround (f64 (extractelt v2f64:$B, 0))));
2244  dag B1 = (f32 (any_fpround (f64 (extractelt v2f64:$B, 1))));
2245}
2246
2247def ExtDbl {
2248  dag A0S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$A, 0))))));
2249  dag A1S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$A, 1))))));
2250  dag B0S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$B, 0))))));
2251  dag B1S = (i32 (PPCmfvsr (f64 (PPCfctiwz (f64 (extractelt v2f64:$B, 1))))));
2252  dag A0U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$A, 0))))));
2253  dag A1U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$A, 1))))));
2254  dag B0U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$B, 0))))));
2255  dag B1U = (i32 (PPCmfvsr (f64 (PPCfctiwuz (f64 (extractelt v2f64:$B, 1))))));
2256}
2257
2258def ByteToWord {
2259  dag LE_A0 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 0)), i8));
2260  dag LE_A1 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 4)), i8));
2261  dag LE_A2 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 8)), i8));
2262  dag LE_A3 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 12)), i8));
2263  dag BE_A0 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 3)), i8));
2264  dag BE_A1 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 7)), i8));
2265  dag BE_A2 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 11)), i8));
2266  dag BE_A3 = (i32 (sext_inreg (i32 (vector_extract v16i8:$A, 15)), i8));
2267}
2268
2269def ByteToDWord {
2270  dag LE_A0 = (i64 (sext_inreg
2271              (i64 (anyext (i32 (vector_extract v16i8:$A, 0)))), i8));
2272  dag LE_A1 = (i64 (sext_inreg
2273              (i64 (anyext (i32 (vector_extract v16i8:$A, 8)))), i8));
2274  dag BE_A0 = (i64 (sext_inreg
2275              (i64 (anyext (i32 (vector_extract v16i8:$A, 7)))), i8));
2276  dag BE_A1 = (i64 (sext_inreg
2277              (i64 (anyext (i32 (vector_extract v16i8:$A, 15)))), i8));
2278}
2279
2280def HWordToWord {
2281  dag LE_A0 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 0)), i16));
2282  dag LE_A1 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 2)), i16));
2283  dag LE_A2 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 4)), i16));
2284  dag LE_A3 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 6)), i16));
2285  dag BE_A0 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 1)), i16));
2286  dag BE_A1 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 3)), i16));
2287  dag BE_A2 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 5)), i16));
2288  dag BE_A3 = (i32 (sext_inreg (i32 (vector_extract v8i16:$A, 7)), i16));
2289}
2290
2291def HWordToDWord {
2292  dag LE_A0 = (i64 (sext_inreg
2293              (i64 (anyext (i32 (vector_extract v8i16:$A, 0)))), i16));
2294  dag LE_A1 = (i64 (sext_inreg
2295              (i64 (anyext (i32 (vector_extract v8i16:$A, 4)))), i16));
2296  dag BE_A0 = (i64 (sext_inreg
2297              (i64 (anyext (i32 (vector_extract v8i16:$A, 3)))), i16));
2298  dag BE_A1 = (i64 (sext_inreg
2299              (i64 (anyext (i32 (vector_extract v8i16:$A, 7)))), i16));
2300}
2301
2302def WordToDWord {
2303  dag LE_A0 = (i64 (sext (i32 (vector_extract v4i32:$A, 0))));
2304  dag LE_A1 = (i64 (sext (i32 (vector_extract v4i32:$A, 2))));
2305  dag BE_A0 = (i64 (sext (i32 (vector_extract v4i32:$A, 1))));
2306  dag BE_A1 = (i64 (sext (i32 (vector_extract v4i32:$A, 3))));
2307}
2308
2309def FltToIntLoad {
2310  dag A = (i32 (PPCmfvsr (PPCfctiwz (f64 (extloadf32 ForceXForm:$A)))));
2311}
2312def FltToUIntLoad {
2313  dag A = (i32 (PPCmfvsr (PPCfctiwuz (f64 (extloadf32 ForceXForm:$A)))));
2314}
2315def FltToLongLoad {
2316  dag A = (i64 (PPCmfvsr (PPCfctidz (f64 (extloadf32 ForceXForm:$A)))));
2317}
2318def FltToLongLoadP9 {
2319  dag A = (i64 (PPCmfvsr (PPCfctidz (f64 (extloadf32 DSForm:$A)))));
2320}
2321def FltToULongLoad {
2322  dag A = (i64 (PPCmfvsr (PPCfctiduz (f64 (extloadf32 ForceXForm:$A)))));
2323}
2324def FltToULongLoadP9 {
2325  dag A = (i64 (PPCmfvsr (PPCfctiduz (f64 (extloadf32 DSForm:$A)))));
2326}
2327def FltToLong {
2328  dag A = (i64 (PPCmfvsr (f64 (PPCfctidz (fpextend f32:$A)))));
2329}
2330def FltToULong {
2331  dag A = (i64 (PPCmfvsr (f64 (PPCfctiduz (fpextend f32:$A)))));
2332}
2333def DblToInt {
2334  dag A = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$A))));
2335  dag B = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$B))));
2336  dag C = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$C))));
2337  dag D = (i32 (PPCmfvsr (f64 (PPCfctiwz f64:$D))));
2338}
2339def DblToUInt {
2340  dag A = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$A))));
2341  dag B = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$B))));
2342  dag C = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$C))));
2343  dag D = (i32 (PPCmfvsr (f64 (PPCfctiwuz f64:$D))));
2344}
2345def DblToLong {
2346  dag A = (i64 (PPCmfvsr (f64 (PPCfctidz f64:$A))));
2347}
2348def DblToULong {
2349  dag A = (i64 (PPCmfvsr (f64 (PPCfctiduz f64:$A))));
2350}
2351def DblToIntLoad {
2352  dag A = (i32 (PPCmfvsr (PPCfctiwz (f64 (load ForceXForm:$A)))));
2353}
2354def DblToIntLoadP9 {
2355  dag A = (i32 (PPCmfvsr (PPCfctiwz (f64 (load DSForm:$A)))));
2356}
2357def DblToUIntLoad {
2358  dag A = (i32 (PPCmfvsr (PPCfctiwuz (f64 (load ForceXForm:$A)))));
2359}
2360def DblToUIntLoadP9 {
2361  dag A = (i32 (PPCmfvsr (PPCfctiwuz (f64 (load DSForm:$A)))));
2362}
2363def DblToLongLoad {
2364  dag A = (i64 (PPCmfvsr (PPCfctidz (f64 (load ForceXForm:$A)))));
2365}
2366def DblToULongLoad {
2367  dag A = (i64 (PPCmfvsr (PPCfctiduz (f64 (load ForceXForm:$A)))));
2368}
2369
2370// FP load dags (for f32 -> v4f32)
2371def LoadFP {
2372  dag A = (f32 (load ForceXForm:$A));
2373  dag B = (f32 (load ForceXForm:$B));
2374  dag C = (f32 (load ForceXForm:$C));
2375  dag D = (f32 (load ForceXForm:$D));
2376}
2377
2378// FP merge dags (for f32 -> v4f32)
2379def MrgFP {
2380  dag LD32A = (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$A), sub_64);
2381  dag LD32B = (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$B), sub_64);
2382  dag LD32C = (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$C), sub_64);
2383  dag LD32D = (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$D), sub_64);
2384  dag AC = (XVCVDPSP (XXPERMDI (SUBREG_TO_REG (i64 1), $A, sub_64),
2385                               (SUBREG_TO_REG (i64 1), $C, sub_64), 0));
2386  dag BD = (XVCVDPSP (XXPERMDI (SUBREG_TO_REG (i64 1), $B, sub_64),
2387                               (SUBREG_TO_REG (i64 1), $D, sub_64), 0));
2388  dag ABhToFlt = (XVCVDPSP (XXPERMDI $A, $B, 0));
2389  dag ABlToFlt = (XVCVDPSP (XXPERMDI $A, $B, 3));
2390  dag BAhToFlt = (XVCVDPSP (XXPERMDI $B, $A, 0));
2391  dag BAlToFlt = (XVCVDPSP (XXPERMDI $B, $A, 3));
2392}
2393
2394// Word-element merge dags - conversions from f64 to i32 merged into vectors.
2395def MrgWords {
2396  // For big endian, we merge low and hi doublewords (A, B).
2397  dag A0B0 = (v2f64 (XXPERMDI v2f64:$A, v2f64:$B, 0));
2398  dag A1B1 = (v2f64 (XXPERMDI v2f64:$A, v2f64:$B, 3));
2399  dag CVA1B1S = (v4i32 (XVCVDPSXWS A1B1));
2400  dag CVA0B0S = (v4i32 (XVCVDPSXWS A0B0));
2401  dag CVA1B1U = (v4i32 (XVCVDPUXWS A1B1));
2402  dag CVA0B0U = (v4i32 (XVCVDPUXWS A0B0));
2403
2404  // For little endian, we merge low and hi doublewords (B, A).
2405  dag B1A1 = (v2f64 (XXPERMDI v2f64:$B, v2f64:$A, 0));
2406  dag B0A0 = (v2f64 (XXPERMDI v2f64:$B, v2f64:$A, 3));
2407  dag CVB1A1S = (v4i32 (XVCVDPSXWS B1A1));
2408  dag CVB0A0S = (v4i32 (XVCVDPSXWS B0A0));
2409  dag CVB1A1U = (v4i32 (XVCVDPUXWS B1A1));
2410  dag CVB0A0U = (v4i32 (XVCVDPUXWS B0A0));
2411
2412  // For big endian, we merge hi doublewords of (A, C) and (B, D), convert
2413  // then merge.
2414  dag AC = (v2f64 (XXPERMDI (SUBREG_TO_REG (i64 1), f64:$A, sub_64),
2415                            (SUBREG_TO_REG (i64 1), f64:$C, sub_64), 0));
2416  dag BD = (v2f64 (XXPERMDI (SUBREG_TO_REG (i64 1), f64:$B, sub_64),
2417                            (SUBREG_TO_REG (i64 1), f64:$D, sub_64), 0));
2418  dag CVACS = (v4i32 (XVCVDPSXWS AC));
2419  dag CVBDS = (v4i32 (XVCVDPSXWS BD));
2420  dag CVACU = (v4i32 (XVCVDPUXWS AC));
2421  dag CVBDU = (v4i32 (XVCVDPUXWS BD));
2422
2423  // For little endian, we merge hi doublewords of (D, B) and (C, A), convert
2424  // then merge.
2425  dag DB = (v2f64 (XXPERMDI (SUBREG_TO_REG (i64 1), f64:$D, sub_64),
2426                            (SUBREG_TO_REG (i64 1), f64:$B, sub_64), 0));
2427  dag CA = (v2f64 (XXPERMDI (SUBREG_TO_REG (i64 1), f64:$C, sub_64),
2428                            (SUBREG_TO_REG (i64 1), f64:$A, sub_64), 0));
2429  dag CVDBS = (v4i32 (XVCVDPSXWS DB));
2430  dag CVCAS = (v4i32 (XVCVDPSXWS CA));
2431  dag CVDBU = (v4i32 (XVCVDPUXWS DB));
2432  dag CVCAU = (v4i32 (XVCVDPUXWS CA));
2433}
2434
2435def DblwdCmp {
2436  dag SGTW = (v2i64 (v2i64 (VCMPGTSW v2i64:$vA, v2i64:$vB)));
2437  dag UGTW = (v2i64 (v2i64 (VCMPGTUW v2i64:$vA, v2i64:$vB)));
2438  dag EQW = (v2i64 (v2i64 (VCMPEQUW v2i64:$vA, v2i64:$vB)));
2439  dag UGTWSHAND = (v2i64 (XXLAND (v2i64 (XXSLDWI UGTW, UGTW, 1)), EQW));
2440  dag EQWSHAND = (v2i64 (XXLAND (v2i64 (XXSLDWI EQW, EQW, 1)), EQW));
2441  dag SGTWOR = (v2i64 (XXLOR SGTW, UGTWSHAND));
2442  dag UGTWOR = (v2i64 (XXLOR UGTW, UGTWSHAND));
2443  dag MRGSGT = (v2i64 (XXPERMDI (v2i64 (XXSPLTW SGTWOR, 0)),
2444                                (v2i64 (XXSPLTW SGTWOR, 2)), 0));
2445  dag MRGUGT = (v2i64 (XXPERMDI (v2i64 (XXSPLTW UGTWOR, 0)),
2446                                (v2i64 (XXSPLTW UGTWOR, 2)), 0));
2447  dag MRGEQ = (v2i64 (XXPERMDI (v2i64 (XXSPLTW EQWSHAND, 0)),
2448                               (v2i64 (XXSPLTW EQWSHAND, 2)), 0));
2449}
2450
2451//---------------------------- Anonymous Patterns ----------------------------//
2452// Predicate combinations are kept in roughly chronological order in terms of
2453// instruction availability in the architecture. For example, VSX came in with
2454// ISA 2.06 (Power7). There have since been additions in ISA 2.07 (Power8) and
2455// ISA 3.0 (Power9). However, the granularity of features on later subtargets
2456// is finer for various reasons. For example, we have Power8Vector,
2457// Power8Altivec, DirectMove that all came in with ISA 2.07. The situation is
2458// similar with ISA 3.0 with Power9Vector, Power9Altivec, IsISA3_0. Then there
2459// are orthogonal predicates such as endianness for which the order was
2460// arbitrarily chosen to be Big, Little.
2461//
2462// Predicate combinations available:
2463// [HasVSX, IsLittleEndian, HasP8Altivec] Altivec patterns using VSX instr.
2464// [HasVSX, IsBigEndian, HasP8Altivec] Altivec patterns using VSX instr.
2465// [HasVSX]
2466// [HasVSX, IsBigEndian]
2467// [HasVSX, IsLittleEndian]
2468// [HasVSX, NoP9Vector]
2469// [HasVSX, NoP9Vector, IsLittleEndian]
2470// [HasVSX, NoP9Vector, IsBigEndian]
2471// [HasVSX, HasOnlySwappingMemOps]
2472// [HasVSX, HasOnlySwappingMemOps, IsBigEndian]
2473// [HasVSX, HasP8Vector]
2474// [HasVSX, HasP8Vector, IsBigEndian]
2475// [HasVSX, HasP8Vector, IsBigEndian, IsPPC64]
2476// [HasVSX, HasP8Vector, IsLittleEndian]
2477// [HasVSX, HasP8Vector, NoP9Vector, IsBigEndian, IsPPC64]
2478// [HasVSX, HasP8Vector, NoP9Vector, IsLittleEndian]
2479// [HasVSX, HasP8Altivec]
2480// [HasVSX, HasDirectMove]
2481// [HasVSX, HasDirectMove, IsBigEndian]
2482// [HasVSX, HasDirectMove, IsLittleEndian]
2483// [HasVSX, HasDirectMove, NoP9Altivec, IsBigEndian, IsPPC64]
2484// [HasVSX, HasDirectMove, NoP9Vector, IsBigEndian, IsPPC64]
2485// [HasVSX, HasDirectMove, NoP9Altivec, IsLittleEndian]
2486// [HasVSX, HasDirectMove, NoP9Vector, IsLittleEndian]
2487// [HasVSX, HasP9Vector]
2488// [HasVSX, HasP9Vector, NoP10Vector]
2489// [HasVSX, HasP9Vector, IsBigEndian]
2490// [HasVSX, HasP9Vector, IsBigEndian, IsPPC64]
2491// [HasVSX, HasP9Vector, IsLittleEndian]
2492// [HasVSX, HasP9Altivec]
2493// [HasVSX, HasP9Altivec, IsBigEndian, IsPPC64]
2494// [HasVSX, HasP9Altivec, IsLittleEndian]
2495// [HasVSX, IsISA3_0, HasDirectMove, IsBigEndian, IsPPC64]
2496// [HasVSX, IsISA3_0, HasDirectMove, IsLittleEndian]
2497
2498// These Altivec patterns are here because we need a VSX instruction to match
2499// the intrinsic (but only for little endian system).
2500let Predicates = [HasVSX, IsLittleEndian, HasP8Altivec] in
2501  def : Pat<(v16i8 (int_ppc_altivec_crypto_vpermxor v16i8:$a,
2502                                                    v16i8:$b, v16i8:$c)),
2503            (v16i8 (VPERMXOR $a, $b, (XXLNOR (COPY_TO_REGCLASS $c, VSRC),
2504                                             (COPY_TO_REGCLASS $c, VSRC))))>;
2505let Predicates = [HasVSX, IsBigEndian, HasP8Altivec] in
2506  def : Pat<(v16i8 (int_ppc_altivec_crypto_vpermxor v16i8:$a,
2507                                                    v16i8:$b, v16i8:$c)),
2508            (v16i8 (VPERMXOR $a, $b, $c))>;
2509let Predicates = [HasVSX, HasP8Altivec] in
2510  def : Pat<(v16i8 (int_ppc_altivec_crypto_vpermxor_be v16i8:$a,
2511                                                       v16i8:$b, v16i8:$c)),
2512            (v16i8 (VPERMXOR $a, $b, $c))>;
2513
2514let AddedComplexity = 400 in {
2515// Valid for any VSX subtarget, regardless of endianness.
2516let Predicates = [HasVSX] in {
2517def : Pat<(v4i32 (vnot v4i32:$A)),
2518          (v4i32 (XXLNOR $A, $A))>;
2519def : Pat<(v4i32 (or (and (vnot v4i32:$C), v4i32:$A),
2520                     (and v4i32:$B, v4i32:$C))),
2521          (v4i32 (XXSEL $A, $B, $C))>;
2522
2523// Additional fnmsub pattern for PPC specific ISD opcode
2524def : Pat<(PPCfnmsub f64:$A, f64:$B, f64:$C),
2525          (XSNMSUBADP $C, $A, $B)>;
2526def : Pat<(fneg (PPCfnmsub f64:$A, f64:$B, f64:$C)),
2527          (XSMSUBADP $C, $A, $B)>;
2528def : Pat<(PPCfnmsub f64:$A, f64:$B, (fneg f64:$C)),
2529          (XSNMADDADP $C, $A, $B)>;
2530
2531def : Pat<(PPCfnmsub v2f64:$A, v2f64:$B, v2f64:$C),
2532          (XVNMSUBADP $C, $A, $B)>;
2533def : Pat<(fneg (PPCfnmsub v2f64:$A, v2f64:$B, v2f64:$C)),
2534          (XVMSUBADP $C, $A, $B)>;
2535def : Pat<(PPCfnmsub v2f64:$A, v2f64:$B, (fneg v2f64:$C)),
2536          (XVNMADDADP $C, $A, $B)>;
2537
2538def : Pat<(PPCfnmsub v4f32:$A, v4f32:$B, v4f32:$C),
2539          (XVNMSUBASP $C, $A, $B)>;
2540def : Pat<(fneg (PPCfnmsub v4f32:$A, v4f32:$B, v4f32:$C)),
2541          (XVMSUBASP $C, $A, $B)>;
2542def : Pat<(PPCfnmsub v4f32:$A, v4f32:$B, (fneg v4f32:$C)),
2543          (XVNMADDASP $C, $A, $B)>;
2544
2545def : Pat<(PPCfsqrt f64:$frA), (XSSQRTDP $frA)>;
2546def : Pat<(PPCfsqrt v2f64:$frA), (XVSQRTDP $frA)>;
2547def : Pat<(PPCfsqrt v4f32:$frA), (XVSQRTSP $frA)>;
2548
2549def : Pat<(v2f64 (bitconvert v4f32:$A)),
2550          (COPY_TO_REGCLASS $A, VSRC)>;
2551def : Pat<(v2f64 (bitconvert v4i32:$A)),
2552          (COPY_TO_REGCLASS $A, VSRC)>;
2553def : Pat<(v2f64 (bitconvert v8i16:$A)),
2554          (COPY_TO_REGCLASS $A, VSRC)>;
2555def : Pat<(v2f64 (bitconvert v16i8:$A)),
2556          (COPY_TO_REGCLASS $A, VSRC)>;
2557
2558def : Pat<(v4f32 (bitconvert v2f64:$A)),
2559          (COPY_TO_REGCLASS $A, VRRC)>;
2560def : Pat<(v4i32 (bitconvert v2f64:$A)),
2561          (COPY_TO_REGCLASS $A, VRRC)>;
2562def : Pat<(v8i16 (bitconvert v2f64:$A)),
2563          (COPY_TO_REGCLASS $A, VRRC)>;
2564def : Pat<(v16i8 (bitconvert v2f64:$A)),
2565          (COPY_TO_REGCLASS $A, VRRC)>;
2566
2567def : Pat<(v2i64 (bitconvert v4f32:$A)),
2568          (COPY_TO_REGCLASS $A, VSRC)>;
2569def : Pat<(v2i64 (bitconvert v4i32:$A)),
2570          (COPY_TO_REGCLASS $A, VSRC)>;
2571def : Pat<(v2i64 (bitconvert v8i16:$A)),
2572          (COPY_TO_REGCLASS $A, VSRC)>;
2573def : Pat<(v2i64 (bitconvert v16i8:$A)),
2574          (COPY_TO_REGCLASS $A, VSRC)>;
2575
2576def : Pat<(v4f32 (bitconvert v2i64:$A)),
2577          (COPY_TO_REGCLASS $A, VRRC)>;
2578def : Pat<(v4i32 (bitconvert v2i64:$A)),
2579          (COPY_TO_REGCLASS $A, VRRC)>;
2580def : Pat<(v8i16 (bitconvert v2i64:$A)),
2581          (COPY_TO_REGCLASS $A, VRRC)>;
2582def : Pat<(v16i8 (bitconvert v2i64:$A)),
2583          (COPY_TO_REGCLASS $A, VRRC)>;
2584
2585def : Pat<(v2f64 (bitconvert v2i64:$A)),
2586          (COPY_TO_REGCLASS $A, VRRC)>;
2587def : Pat<(v2i64 (bitconvert v2f64:$A)),
2588          (COPY_TO_REGCLASS $A, VRRC)>;
2589
2590def : Pat<(v2f64 (bitconvert v1i128:$A)),
2591          (COPY_TO_REGCLASS $A, VRRC)>;
2592def : Pat<(v1i128 (bitconvert v2f64:$A)),
2593          (COPY_TO_REGCLASS $A, VRRC)>;
2594
2595def : Pat<(v2i64 (bitconvert f128:$A)),
2596          (COPY_TO_REGCLASS $A, VRRC)>;
2597def : Pat<(v4i32 (bitconvert f128:$A)),
2598          (COPY_TO_REGCLASS $A, VRRC)>;
2599def : Pat<(v8i16 (bitconvert f128:$A)),
2600          (COPY_TO_REGCLASS $A, VRRC)>;
2601def : Pat<(v16i8 (bitconvert f128:$A)),
2602          (COPY_TO_REGCLASS $A, VRRC)>;
2603
2604def : Pat<(v2f64 (PPCsvec2fp v4i32:$C, 0)),
2605          (v2f64 (XVCVSXWDP (v2i64 (XXMRGHW $C, $C))))>;
2606def : Pat<(v2f64 (PPCsvec2fp v4i32:$C, 1)),
2607          (v2f64 (XVCVSXWDP (v2i64 (XXMRGLW $C, $C))))>;
2608
2609def : Pat<(v2f64 (PPCuvec2fp v4i32:$C, 0)),
2610          (v2f64 (XVCVUXWDP (v2i64 (XXMRGHW $C, $C))))>;
2611def : Pat<(v2f64 (PPCuvec2fp v4i32:$C, 1)),
2612          (v2f64 (XVCVUXWDP (v2i64 (XXMRGLW $C, $C))))>;
2613
2614def : Pat<(v2f64 (PPCfpexth v4f32:$C, 0)), (XVCVSPDP (XXMRGHW $C, $C))>;
2615def : Pat<(v2f64 (PPCfpexth v4f32:$C, 1)), (XVCVSPDP (XXMRGLW $C, $C))>;
2616
2617// Permutes.
2618def : Pat<(v2f64 (PPCxxswapd v2f64:$src)), (XXPERMDI $src, $src, 2)>;
2619def : Pat<(v2i64 (PPCxxswapd v2i64:$src)), (XXPERMDI $src, $src, 2)>;
2620def : Pat<(v4f32 (PPCxxswapd v4f32:$src)), (XXPERMDI $src, $src, 2)>;
2621def : Pat<(v4i32 (PPCxxswapd v4i32:$src)), (XXPERMDI $src, $src, 2)>;
2622def : Pat<(v2f64 (PPCswapNoChain v2f64:$src)), (XXPERMDI $src, $src, 2)>;
2623
2624// PPCvecshl XT, XA, XA, 2 can be selected to both XXSLDWI XT,XA,XA,2 and
2625// XXSWAPD XT,XA (i.e. XXPERMDI XT,XA,XA,2), the later one is more profitable.
2626def : Pat<(v4i32 (PPCvecshl v4i32:$src, v4i32:$src, 2)),
2627          (XXPERMDI $src, $src, 2)>;
2628
2629// Selects.
2630def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETLT)),
2631          (SELECT_VSRC (CRANDC $lhs, $rhs), $tval, $fval)>;
2632def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETULT)),
2633          (SELECT_VSRC (CRANDC $rhs, $lhs), $tval, $fval)>;
2634def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETLE)),
2635          (SELECT_VSRC (CRORC  $lhs, $rhs), $tval, $fval)>;
2636def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETULE)),
2637          (SELECT_VSRC (CRORC  $rhs, $lhs), $tval, $fval)>;
2638def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETEQ)),
2639          (SELECT_VSRC (CREQV $lhs, $rhs), $tval, $fval)>;
2640def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETGE)),
2641          (SELECT_VSRC (CRORC  $rhs, $lhs), $tval, $fval)>;
2642def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETUGE)),
2643          (SELECT_VSRC (CRORC  $lhs, $rhs), $tval, $fval)>;
2644def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETGT)),
2645          (SELECT_VSRC (CRANDC $rhs, $lhs), $tval, $fval)>;
2646def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETUGT)),
2647          (SELECT_VSRC (CRANDC $lhs, $rhs), $tval, $fval)>;
2648def : Pat<(v2f64 (selectcc i1:$lhs, i1:$rhs, v2f64:$tval, v2f64:$fval, SETNE)),
2649          (SELECT_VSRC (CRXOR $lhs, $rhs), $tval, $fval)>;
2650
2651def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETLT)),
2652          (SELECT_VSFRC (CRANDC $lhs, $rhs), $tval, $fval)>;
2653def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETULT)),
2654          (SELECT_VSFRC (CRANDC $rhs, $lhs), $tval, $fval)>;
2655def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETLE)),
2656          (SELECT_VSFRC (CRORC  $lhs, $rhs), $tval, $fval)>;
2657def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETULE)),
2658          (SELECT_VSFRC (CRORC  $rhs, $lhs), $tval, $fval)>;
2659def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETEQ)),
2660          (SELECT_VSFRC (CREQV $lhs, $rhs), $tval, $fval)>;
2661def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETGE)),
2662          (SELECT_VSFRC (CRORC  $rhs, $lhs), $tval, $fval)>;
2663def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETUGE)),
2664          (SELECT_VSFRC (CRORC  $lhs, $rhs), $tval, $fval)>;
2665def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETGT)),
2666          (SELECT_VSFRC (CRANDC $rhs, $lhs), $tval, $fval)>;
2667def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETUGT)),
2668          (SELECT_VSFRC (CRANDC $lhs, $rhs), $tval, $fval)>;
2669def : Pat<(f64 (selectcc i1:$lhs, i1:$rhs, f64:$tval, f64:$fval, SETNE)),
2670          (SELECT_VSFRC (CRXOR $lhs, $rhs), $tval, $fval)>;
2671
2672// Divides.
2673def : Pat<(int_ppc_vsx_xvdivsp v4f32:$A, v4f32:$B),
2674          (XVDIVSP $A, $B)>;
2675def : Pat<(int_ppc_vsx_xvdivdp v2f64:$A, v2f64:$B),
2676          (XVDIVDP $A, $B)>;
2677
2678// Vector test for software divide and sqrt.
2679def : Pat<(i32 (int_ppc_vsx_xvtdivdp v2f64:$A, v2f64:$B)),
2680          (COPY_TO_REGCLASS (XVTDIVDP $A, $B), GPRC)>;
2681def : Pat<(i32 (int_ppc_vsx_xvtdivsp v4f32:$A, v4f32:$B)),
2682          (COPY_TO_REGCLASS (XVTDIVSP $A, $B), GPRC)>;
2683def : Pat<(i32 (int_ppc_vsx_xvtsqrtdp v2f64:$A)),
2684          (COPY_TO_REGCLASS (XVTSQRTDP $A), GPRC)>;
2685def : Pat<(i32 (int_ppc_vsx_xvtsqrtsp v4f32:$A)),
2686          (COPY_TO_REGCLASS (XVTSQRTSP $A), GPRC)>;
2687
2688// Reciprocal estimate
2689def : Pat<(int_ppc_vsx_xvresp v4f32:$A),
2690          (XVRESP $A)>;
2691def : Pat<(int_ppc_vsx_xvredp v2f64:$A),
2692          (XVREDP $A)>;
2693
2694// Recip. square root estimate
2695def : Pat<(int_ppc_vsx_xvrsqrtesp v4f32:$A),
2696          (XVRSQRTESP $A)>;
2697def : Pat<(int_ppc_vsx_xvrsqrtedp v2f64:$A),
2698          (XVRSQRTEDP $A)>;
2699
2700// Vector selection
2701def : Pat<(v16i8 (vselect v16i8:$vA, v16i8:$vB, v16i8:$vC)),
2702          (COPY_TO_REGCLASS
2703                 (XXSEL (COPY_TO_REGCLASS $vC, VSRC),
2704                        (COPY_TO_REGCLASS $vB, VSRC),
2705                        (COPY_TO_REGCLASS $vA, VSRC)), VRRC)>;
2706def : Pat<(v8i16 (vselect v8i16:$vA, v8i16:$vB, v8i16:$vC)),
2707          (COPY_TO_REGCLASS
2708                 (XXSEL (COPY_TO_REGCLASS $vC, VSRC),
2709                        (COPY_TO_REGCLASS $vB, VSRC),
2710                        (COPY_TO_REGCLASS $vA, VSRC)), VRRC)>;
2711def : Pat<(vselect v4i32:$vA, v4i32:$vB, v4i32:$vC),
2712          (XXSEL $vC, $vB, $vA)>;
2713def : Pat<(vselect v2i64:$vA, v2i64:$vB, v2i64:$vC),
2714          (XXSEL $vC, $vB, $vA)>;
2715def : Pat<(vselect v4i32:$vA, v4f32:$vB, v4f32:$vC),
2716          (XXSEL $vC, $vB, $vA)>;
2717def : Pat<(vselect v2i64:$vA, v2f64:$vB, v2f64:$vC),
2718          (XXSEL $vC, $vB, $vA)>;
2719def : Pat<(v1i128 (vselect v1i128:$vA, v1i128:$vB, v1i128:$vC)),
2720          (COPY_TO_REGCLASS
2721                 (XXSEL (COPY_TO_REGCLASS $vC, VSRC),
2722                        (COPY_TO_REGCLASS $vB, VSRC),
2723                        (COPY_TO_REGCLASS $vA, VSRC)), VRRC)>;
2724
2725def : Pat<(v4f32 (any_fmaxnum v4f32:$src1, v4f32:$src2)),
2726          (v4f32 (XVMAXSP $src1, $src2))>;
2727def : Pat<(v4f32 (any_fminnum v4f32:$src1, v4f32:$src2)),
2728          (v4f32 (XVMINSP $src1, $src2))>;
2729def : Pat<(v2f64 (any_fmaxnum v2f64:$src1, v2f64:$src2)),
2730          (v2f64 (XVMAXDP $src1, $src2))>;
2731def : Pat<(v2f64 (any_fminnum v2f64:$src1, v2f64:$src2)),
2732          (v2f64 (XVMINDP $src1, $src2))>;
2733
2734// f32 abs
2735def : Pat<(f32 (fabs f32:$S)),
2736          (f32 (COPY_TO_REGCLASS (XSABSDP
2737               (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2738
2739// f32 nabs
2740def : Pat<(f32 (fneg (fabs f32:$S))),
2741          (f32 (COPY_TO_REGCLASS (XSNABSDP
2742               (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2743
2744// f32 Min.
2745def : Pat<(f32 (fminnum_ieee f32:$A, f32:$B)),
2746          (f32 FpMinMax.F32Min)>;
2747def : Pat<(f32 (fminnum_ieee (fcanonicalize f32:$A), f32:$B)),
2748          (f32 FpMinMax.F32Min)>;
2749def : Pat<(f32 (fminnum_ieee f32:$A, (fcanonicalize f32:$B))),
2750          (f32 FpMinMax.F32Min)>;
2751def : Pat<(f32 (fminnum_ieee (fcanonicalize f32:$A), (fcanonicalize f32:$B))),
2752          (f32 FpMinMax.F32Min)>;
2753// F32 Max.
2754def : Pat<(f32 (fmaxnum_ieee f32:$A, f32:$B)),
2755          (f32 FpMinMax.F32Max)>;
2756def : Pat<(f32 (fmaxnum_ieee (fcanonicalize f32:$A), f32:$B)),
2757          (f32 FpMinMax.F32Max)>;
2758def : Pat<(f32 (fmaxnum_ieee f32:$A, (fcanonicalize f32:$B))),
2759          (f32 FpMinMax.F32Max)>;
2760def : Pat<(f32 (fmaxnum_ieee (fcanonicalize f32:$A), (fcanonicalize f32:$B))),
2761          (f32 FpMinMax.F32Max)>;
2762
2763// f64 Min.
2764def : Pat<(f64 (fminnum_ieee f64:$A, f64:$B)),
2765          (f64 (XSMINDP $A, $B))>;
2766def : Pat<(f64 (fminnum_ieee (fcanonicalize f64:$A), f64:$B)),
2767          (f64 (XSMINDP $A, $B))>;
2768def : Pat<(f64 (fminnum_ieee f64:$A, (fcanonicalize f64:$B))),
2769          (f64 (XSMINDP $A, $B))>;
2770def : Pat<(f64 (fminnum_ieee (fcanonicalize f64:$A), (fcanonicalize f64:$B))),
2771          (f64 (XSMINDP $A, $B))>;
2772// f64 Max.
2773def : Pat<(f64 (fmaxnum_ieee f64:$A, f64:$B)),
2774          (f64 (XSMAXDP $A, $B))>;
2775def : Pat<(f64 (fmaxnum_ieee (fcanonicalize f64:$A), f64:$B)),
2776          (f64 (XSMAXDP $A, $B))>;
2777def : Pat<(f64 (fmaxnum_ieee f64:$A, (fcanonicalize f64:$B))),
2778          (f64 (XSMAXDP $A, $B))>;
2779def : Pat<(f64 (fmaxnum_ieee (fcanonicalize f64:$A), (fcanonicalize f64:$B))),
2780          (f64 (XSMAXDP $A, $B))>;
2781
2782def : Pat<(int_ppc_vsx_stxvd2x_be v2f64:$rS, ForceXForm:$dst),
2783            (STXVD2X $rS, ForceXForm:$dst)>;
2784def : Pat<(int_ppc_vsx_stxvw4x_be v4i32:$rS, ForceXForm:$dst),
2785            (STXVW4X $rS, ForceXForm:$dst)>;
2786def : Pat<(v4i32 (int_ppc_vsx_lxvw4x_be ForceXForm:$src)), (LXVW4X ForceXForm:$src)>;
2787def : Pat<(v2f64 (int_ppc_vsx_lxvd2x_be ForceXForm:$src)), (LXVD2X ForceXForm:$src)>;
2788
2789// Rounding for single precision.
2790def : Pat<(f32 (any_fround f32:$S)),
2791          (f32 (COPY_TO_REGCLASS (XSRDPI
2792                                   (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2793def : Pat<(f32 (any_ffloor f32:$S)),
2794          (f32 (COPY_TO_REGCLASS (XSRDPIM
2795                                   (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2796def : Pat<(f32 (any_fceil f32:$S)),
2797          (f32 (COPY_TO_REGCLASS (XSRDPIP
2798                                   (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2799def : Pat<(f32 (any_ftrunc f32:$S)),
2800          (f32 (COPY_TO_REGCLASS (XSRDPIZ
2801                                   (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2802def : Pat<(f32 (any_frint f32:$S)),
2803          (f32 (COPY_TO_REGCLASS (XSRDPIC
2804                                   (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2805def : Pat<(v4f32 (any_frint v4f32:$S)), (v4f32 (XVRSPIC $S))>;
2806
2807// Rounding for double precision.
2808def : Pat<(f64 (any_frint f64:$S)), (f64 (XSRDPIC $S))>;
2809def : Pat<(v2f64 (any_frint v2f64:$S)), (v2f64 (XVRDPIC $S))>;
2810
2811// Rounding without exceptions (nearbyint). Due to strange tblgen behaviour,
2812// these need to be defined after the any_frint versions so ISEL will correctly
2813// add the chain to the strict versions.
2814def : Pat<(f32 (fnearbyint f32:$S)),
2815          (f32 (COPY_TO_REGCLASS (XSRDPIC
2816                                   (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
2817def : Pat<(f64 (fnearbyint f64:$S)),
2818          (f64 (XSRDPIC $S))>;
2819def : Pat<(v2f64 (fnearbyint v2f64:$S)),
2820          (v2f64 (XVRDPIC $S))>;
2821def : Pat<(v4f32 (fnearbyint v4f32:$S)),
2822          (v4f32 (XVRSPIC $S))>;
2823
2824// Materialize a zero-vector of long long
2825def : Pat<(v2i64 immAllZerosV),
2826          (v2i64 (XXLXORz))>;
2827
2828// Build vectors of floating point converted to i32.
2829def : Pat<(v4i32 (build_vector DblToInt.A, DblToInt.A,
2830                               DblToInt.A, DblToInt.A)),
2831          (v4i32 (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPSXWS $A), sub_64), 1))>;
2832def : Pat<(v4i32 (build_vector DblToUInt.A, DblToUInt.A,
2833                               DblToUInt.A, DblToUInt.A)),
2834          (v4i32 (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPUXWS $A), sub_64), 1))>;
2835def : Pat<(v2i64 (build_vector DblToLong.A, DblToLong.A)),
2836          (v2i64 (XXPERMDI (SUBREG_TO_REG (i64 1), (XSCVDPSXDS $A), sub_64),
2837                           (SUBREG_TO_REG (i64 1), (XSCVDPSXDS $A), sub_64), 0))>;
2838def : Pat<(v2i64 (build_vector DblToULong.A, DblToULong.A)),
2839          (v2i64 (XXPERMDI (SUBREG_TO_REG (i64 1), (XSCVDPUXDS $A), sub_64),
2840                           (SUBREG_TO_REG (i64 1), (XSCVDPUXDS $A), sub_64), 0))>;
2841def : Pat<(v4i32 (PPCSToV DblToInt.A)),
2842          (v4i32 (SUBREG_TO_REG (i64 1), (XSCVDPSXWS f64:$A), sub_64))>;
2843def : Pat<(v4i32 (PPCSToV DblToUInt.A)),
2844          (v4i32 (SUBREG_TO_REG (i64 1), (XSCVDPUXWS f64:$A), sub_64))>;
2845defm : ScalToVecWPermute<
2846  v4i32, FltToIntLoad.A,
2847  (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPSXWSs (XFLOADf32 ForceXForm:$A)), sub_64), 1),
2848  (SUBREG_TO_REG (i64 1), (XSCVDPSXWSs (XFLOADf32 ForceXForm:$A)), sub_64)>;
2849defm : ScalToVecWPermute<
2850  v4i32, FltToUIntLoad.A,
2851  (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPUXWSs (XFLOADf32 ForceXForm:$A)), sub_64), 1),
2852  (SUBREG_TO_REG (i64 1), (XSCVDPUXWSs (XFLOADf32 ForceXForm:$A)), sub_64)>;
2853def : Pat<(v4f32 (build_vector (f32 (fpround f64:$A)), (f32 (fpround f64:$A)),
2854                               (f32 (fpround f64:$A)), (f32 (fpround f64:$A)))),
2855          (v4f32 (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$A), sub_64), 0))>;
2856
2857def : Pat<(v4f32 (build_vector f32:$A, f32:$A, f32:$A, f32:$A)),
2858          (v4f32 (XXSPLTW (v4f32 (XSCVDPSPN $A)), 0))>;
2859
2860// Splat loads.
2861def : Pat<(v2f64 (PPCldsplat ForceXForm:$A)),
2862          (v2f64 (LXVDSX ForceXForm:$A))>;
2863def : Pat<(v4f32 (PPCldsplat ForceXForm:$A)),
2864          (v4f32 (XXSPLTW (SUBREG_TO_REG (i64 1), (LFIWZX ForceXForm:$A), sub_64), 1))>;
2865def : Pat<(v2i64 (PPCldsplat ForceXForm:$A)),
2866          (v2i64 (LXVDSX ForceXForm:$A))>;
2867def : Pat<(v4i32 (PPCldsplat ForceXForm:$A)),
2868          (v4i32 (XXSPLTW (SUBREG_TO_REG (i64 1), (LFIWZX ForceXForm:$A), sub_64), 1))>;
2869def : Pat<(v2i64 (PPCzextldsplat ForceXForm:$A)),
2870          (v2i64 (XXPERMDIs (LFIWZX ForceXForm:$A), 0))>;
2871def : Pat<(v2i64 (PPCsextldsplat ForceXForm:$A)),
2872          (v2i64 (XXPERMDIs (LFIWAX ForceXForm:$A), 0))>;
2873
2874// Build vectors of floating point converted to i64.
2875def : Pat<(v2i64 (build_vector FltToLong.A, FltToLong.A)),
2876          (v2i64 (XXPERMDIs
2877                   (COPY_TO_REGCLASS (XSCVDPSXDSs $A), VSFRC), 0))>;
2878def : Pat<(v2i64 (build_vector FltToULong.A, FltToULong.A)),
2879          (v2i64 (XXPERMDIs
2880                   (COPY_TO_REGCLASS (XSCVDPUXDSs $A), VSFRC), 0))>;
2881defm : ScalToVecWPermute<
2882  v2i64, DblToLongLoad.A,
2883  (XVCVDPSXDS (LXVDSX ForceXForm:$A)), (XVCVDPSXDS (LXVDSX ForceXForm:$A))>;
2884defm : ScalToVecWPermute<
2885  v2i64, DblToULongLoad.A,
2886  (XVCVDPUXDS (LXVDSX ForceXForm:$A)), (XVCVDPUXDS (LXVDSX ForceXForm:$A))>;
2887
2888// Doubleword vector predicate comparisons without Power8.
2889let AddedComplexity = 0 in {
2890def : Pat<(v2i64 (PPCvcmp_rec v2i64:$vA, v2i64:$vB, 967)),
2891          (VCMPGTUB_rec DblwdCmp.MRGSGT, (v2i64 (XXLXORz)))>;
2892def : Pat<(v2i64 (PPCvcmp_rec v2i64:$vA, v2i64:$vB, 711)),
2893          (VCMPGTUB_rec DblwdCmp.MRGUGT, (v2i64 (XXLXORz)))>;
2894def : Pat<(v2i64 (PPCvcmp_rec v2i64:$vA, v2i64:$vB, 199)),
2895          (VCMPGTUB_rec DblwdCmp.MRGEQ, (v2i64 (XXLXORz)))>;
2896} // AddedComplexity = 0
2897
2898// XL Compat builtins.
2899def : Pat<(int_ppc_fmsub f64:$A, f64:$B, f64:$C), (XSMSUBMDP $A, $B, $C)>;
2900def : Pat<(int_ppc_fnmsub f64:$A, f64:$B, f64:$C), (XSNMSUBMDP $A, $B, $C)>;
2901def : Pat<(int_ppc_fnmadd f64:$A, f64:$B, f64:$C), (XSNMADDMDP $A, $B, $C)>;
2902def : Pat<(int_ppc_fre f64:$A), (XSREDP $A)>;
2903def : Pat<(int_ppc_frsqrte vsfrc:$XB), (XSRSQRTEDP $XB)>;
2904} // HasVSX
2905
2906// Any big endian VSX subtarget.
2907let Predicates = [HasVSX, IsBigEndian] in {
2908def : Pat<(v2f64 (scalar_to_vector f64:$A)),
2909          (v2f64 (SUBREG_TO_REG (i64 1), $A, sub_64))>;
2910
2911def : Pat<(f64 (extractelt v2f64:$S, 0)),
2912          (f64 (EXTRACT_SUBREG $S, sub_64))>;
2913def : Pat<(f64 (extractelt v2f64:$S, 1)),
2914          (f64 (EXTRACT_SUBREG (XXPERMDI $S, $S, 2), sub_64))>;
2915def : Pat<(f64 (PPCfcfid (PPCmtvsra (i64 (vector_extract v2i64:$S, 0))))),
2916          (f64 (XSCVSXDDP (COPY_TO_REGCLASS $S, VSFRC)))>;
2917def : Pat<(f64 (PPCfcfid (PPCmtvsra (i64 (vector_extract v2i64:$S, 1))))),
2918          (f64 (XSCVSXDDP (COPY_TO_REGCLASS (XXPERMDI $S, $S, 2), VSFRC)))>;
2919def : Pat<(f64 (PPCfcfidu (PPCmtvsra (i64 (vector_extract v2i64:$S, 0))))),
2920          (f64 (XSCVUXDDP (COPY_TO_REGCLASS $S, VSFRC)))>;
2921def : Pat<(f64 (PPCfcfidu (PPCmtvsra (i64 (vector_extract v2i64:$S, 1))))),
2922          (f64 (XSCVUXDDP (COPY_TO_REGCLASS (XXPERMDI $S, $S, 2), VSFRC)))>;
2923
2924def : Pat<(f64 (vector_extract v2f64:$S, i64:$Idx)),
2925          (f64 VectorExtractions.BE_VARIABLE_DOUBLE)>;
2926
2927def : Pat<(v2f64 (build_vector f64:$A, f64:$B)),
2928          (v2f64 (XXPERMDI
2929                    (SUBREG_TO_REG (i64 1), $A, sub_64),
2930                    (SUBREG_TO_REG (i64 1), $B, sub_64), 0))>;
2931// Using VMRGEW to assemble the final vector would be a lower latency
2932// solution. However, we choose to go with the slightly higher latency
2933// XXPERMDI for 2 reasons:
2934// 1. This is likely to occur in unrolled loops where regpressure is high,
2935//    so we want to use the latter as it has access to all 64 VSX registers.
2936// 2. Using Altivec instructions in this sequence would likely cause the
2937//    allocation of Altivec registers even for the loads which in turn would
2938//    force the use of LXSIWZX for the loads, adding a cycle of latency to
2939//    each of the loads which would otherwise be able to use LFIWZX.
2940def : Pat<(v4f32 (build_vector LoadFP.A, LoadFP.B, LoadFP.C, LoadFP.D)),
2941          (v4f32 (XXPERMDI (XXMRGHW MrgFP.LD32A, MrgFP.LD32B),
2942                           (XXMRGHW MrgFP.LD32C, MrgFP.LD32D), 3))>;
2943def : Pat<(v4f32 (build_vector f32:$A, f32:$B, f32:$C, f32:$D)),
2944          (VMRGEW MrgFP.AC, MrgFP.BD)>;
2945def : Pat<(v4f32 (build_vector DblToFlt.A0, DblToFlt.A1,
2946                               DblToFlt.B0, DblToFlt.B1)),
2947          (v4f32 (VMRGEW MrgFP.ABhToFlt, MrgFP.ABlToFlt))>;
2948
2949// Convert 4 doubles to a vector of ints.
2950def : Pat<(v4i32 (build_vector DblToInt.A, DblToInt.B,
2951                               DblToInt.C, DblToInt.D)),
2952          (v4i32 (VMRGEW MrgWords.CVACS, MrgWords.CVBDS))>;
2953def : Pat<(v4i32 (build_vector DblToUInt.A, DblToUInt.B,
2954                               DblToUInt.C, DblToUInt.D)),
2955          (v4i32 (VMRGEW MrgWords.CVACU, MrgWords.CVBDU))>;
2956def : Pat<(v4i32 (build_vector ExtDbl.A0S, ExtDbl.A1S,
2957                               ExtDbl.B0S, ExtDbl.B1S)),
2958          (v4i32 (VMRGEW MrgWords.CVA0B0S, MrgWords.CVA1B1S))>;
2959def : Pat<(v4i32 (build_vector ExtDbl.A0U, ExtDbl.A1U,
2960                               ExtDbl.B0U, ExtDbl.B1U)),
2961          (v4i32 (VMRGEW MrgWords.CVA0B0U, MrgWords.CVA1B1U))>;
2962def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
2963                               (f64 (fpextend (extractelt v4f32:$A, 1))))),
2964          (v2f64 (XVCVSPDP (XXMRGHW $A, $A)))>;
2965def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
2966                               (f64 (fpextend (extractelt v4f32:$A, 0))))),
2967          (v2f64 (XXPERMDI (XVCVSPDP (XXMRGHW $A, $A)),
2968                           (XVCVSPDP (XXMRGHW $A, $A)), 2))>;
2969def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
2970                               (f64 (fpextend (extractelt v4f32:$A, 2))))),
2971          (v2f64 (XVCVSPDP $A))>;
2972def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
2973                               (f64 (fpextend (extractelt v4f32:$A, 3))))),
2974          (v2f64 (XVCVSPDP (XXSLDWI $A, $A, 3)))>;
2975def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 2))),
2976                               (f64 (fpextend (extractelt v4f32:$A, 3))))),
2977          (v2f64 (XVCVSPDP (XXMRGLW $A, $A)))>;
2978def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 3))),
2979                               (f64 (fpextend (extractelt v4f32:$A, 2))))),
2980          (v2f64 (XXPERMDI (XVCVSPDP (XXMRGLW $A, $A)),
2981                           (XVCVSPDP (XXMRGLW $A, $A)), 2))>;
2982def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
2983                               (f64 (fpextend (extractelt v4f32:$B, 0))))),
2984          (v2f64 (XVCVSPDP (XXPERMDI $A, $B, 0)))>;
2985def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 3))),
2986                               (f64 (fpextend (extractelt v4f32:$B, 3))))),
2987          (v2f64 (XVCVSPDP (XXSLDWI (XXPERMDI $A, $B, 3),
2988                                    (XXPERMDI $A, $B, 3), 1)))>;
2989def : Pat<(v2i64 (fp_to_sint
2990                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
2991                                 (f64 (fpextend (extractelt v4f32:$A, 2)))))),
2992          (v2i64 (XVCVSPSXDS $A))>;
2993def : Pat<(v2i64 (fp_to_uint
2994                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
2995                                 (f64 (fpextend (extractelt v4f32:$A, 2)))))),
2996          (v2i64 (XVCVSPUXDS $A))>;
2997def : Pat<(v2i64 (fp_to_sint
2998                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
2999                                 (f64 (fpextend (extractelt v4f32:$A, 3)))))),
3000          (v2i64 (XVCVSPSXDS (XXSLDWI $A, $A, 1)))>;
3001def : Pat<(v2i64 (fp_to_uint
3002                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
3003                                 (f64 (fpextend (extractelt v4f32:$A, 3)))))),
3004          (v2i64 (XVCVSPUXDS (XXSLDWI $A, $A, 1)))>;
3005def : Pat<WToDPExtractConv.BV02S,
3006          (v2f64 (XVCVSXWDP $A))>;
3007def : Pat<WToDPExtractConv.BV13S,
3008          (v2f64 (XVCVSXWDP (XXSLDWI $A, $A, 1)))>;
3009def : Pat<WToDPExtractConv.BV02U,
3010          (v2f64 (XVCVUXWDP $A))>;
3011def : Pat<WToDPExtractConv.BV13U,
3012          (v2f64 (XVCVUXWDP (XXSLDWI $A, $A, 1)))>;
3013def : Pat<(v2f64 (insertelt v2f64:$A, f64:$B, 0)),
3014          (v2f64 (XXPERMDI (SUBREG_TO_REG (i64 1), $B, sub_64), $A, 1))>;
3015def : Pat<(v2f64 (insertelt v2f64:$A, f64:$B, 1)),
3016          (v2f64 (XXPERMDI $A, (SUBREG_TO_REG (i64 1), $B, sub_64), 0))>;
3017} // HasVSX, IsBigEndian
3018
3019// Any little endian VSX subtarget.
3020let Predicates = [HasVSX, IsLittleEndian] in {
3021defm : ScalToVecWPermute<v2f64, (f64 f64:$A),
3022                         (XXPERMDI (SUBREG_TO_REG (i64 1), $A, sub_64),
3023                                   (SUBREG_TO_REG (i64 1), $A, sub_64), 0),
3024                         (SUBREG_TO_REG (i64 1), $A, sub_64)>;
3025
3026def : Pat<(f64 (extractelt (v2f64 (bitconvert (v16i8
3027                 (PPCvperm v16i8:$A, v16i8:$B, v16i8:$C)))), 0)),
3028          (f64 (EXTRACT_SUBREG (VPERM $B, $A, $C), sub_64))>;
3029def : Pat<(f64 (extractelt v2f64:$S, 0)),
3030          (f64 (EXTRACT_SUBREG (XXPERMDI $S, $S, 2), sub_64))>;
3031def : Pat<(f64 (extractelt v2f64:$S, 1)),
3032          (f64 (EXTRACT_SUBREG $S, sub_64))>;
3033
3034def : Pat<(v2f64 (PPCld_vec_be ForceXForm:$src)), (LXVD2X ForceXForm:$src)>;
3035def : Pat<(PPCst_vec_be v2f64:$rS, ForceXForm:$dst), (STXVD2X $rS, ForceXForm:$dst)>;
3036def : Pat<(v4f32 (PPCld_vec_be ForceXForm:$src)), (LXVW4X ForceXForm:$src)>;
3037def : Pat<(PPCst_vec_be v4f32:$rS, ForceXForm:$dst), (STXVW4X $rS, ForceXForm:$dst)>;
3038def : Pat<(v2i64 (PPCld_vec_be ForceXForm:$src)), (LXVD2X ForceXForm:$src)>;
3039def : Pat<(PPCst_vec_be v2i64:$rS, ForceXForm:$dst), (STXVD2X $rS, ForceXForm:$dst)>;
3040def : Pat<(v4i32 (PPCld_vec_be ForceXForm:$src)), (LXVW4X ForceXForm:$src)>;
3041def : Pat<(PPCst_vec_be v4i32:$rS, ForceXForm:$dst), (STXVW4X $rS, ForceXForm:$dst)>;
3042def : Pat<(f64 (PPCfcfid (PPCmtvsra (i64 (vector_extract v2i64:$S, 0))))),
3043          (f64 (XSCVSXDDP (COPY_TO_REGCLASS (XXPERMDI $S, $S, 2), VSFRC)))>;
3044def : Pat<(f64 (PPCfcfid (PPCmtvsra (i64 (vector_extract v2i64:$S, 1))))),
3045          (f64 (XSCVSXDDP (COPY_TO_REGCLASS (f64 (COPY_TO_REGCLASS $S, VSRC)), VSFRC)))>;
3046def : Pat<(f64 (PPCfcfidu (PPCmtvsra (i64 (vector_extract v2i64:$S, 0))))),
3047          (f64 (XSCVUXDDP (COPY_TO_REGCLASS (XXPERMDI $S, $S, 2), VSFRC)))>;
3048def : Pat<(f64 (PPCfcfidu (PPCmtvsra (i64 (vector_extract v2i64:$S, 1))))),
3049          (f64 (XSCVUXDDP (COPY_TO_REGCLASS (f64 (COPY_TO_REGCLASS $S, VSRC)), VSFRC)))>;
3050
3051def : Pat<(f64 (vector_extract v2f64:$S, i64:$Idx)),
3052          (f64 VectorExtractions.LE_VARIABLE_DOUBLE)>;
3053
3054// Little endian, available on all targets with VSX
3055def : Pat<(v2f64 (build_vector f64:$A, f64:$B)),
3056          (v2f64 (XXPERMDI
3057                    (SUBREG_TO_REG (i64 1), $B, sub_64),
3058                    (SUBREG_TO_REG (i64 1), $A, sub_64), 0))>;
3059// Using VMRGEW to assemble the final vector would be a lower latency
3060// solution. However, we choose to go with the slightly higher latency
3061// XXPERMDI for 2 reasons:
3062// 1. This is likely to occur in unrolled loops where regpressure is high,
3063//    so we want to use the latter as it has access to all 64 VSX registers.
3064// 2. Using Altivec instructions in this sequence would likely cause the
3065//    allocation of Altivec registers even for the loads which in turn would
3066//    force the use of LXSIWZX for the loads, adding a cycle of latency to
3067//    each of the loads which would otherwise be able to use LFIWZX.
3068def : Pat<(v4f32 (build_vector LoadFP.A, LoadFP.B, LoadFP.C, LoadFP.D)),
3069          (v4f32 (XXPERMDI (XXMRGHW MrgFP.LD32D, MrgFP.LD32C),
3070                           (XXMRGHW MrgFP.LD32B, MrgFP.LD32A), 3))>;
3071def : Pat<(v4f32 (build_vector f32:$D, f32:$C, f32:$B, f32:$A)),
3072          (VMRGEW MrgFP.AC, MrgFP.BD)>;
3073def : Pat<(v4f32 (build_vector DblToFlt.A0, DblToFlt.A1,
3074                               DblToFlt.B0, DblToFlt.B1)),
3075          (v4f32 (VMRGEW MrgFP.BAhToFlt, MrgFP.BAlToFlt))>;
3076
3077// Convert 4 doubles to a vector of ints.
3078def : Pat<(v4i32 (build_vector DblToInt.A, DblToInt.B,
3079                               DblToInt.C, DblToInt.D)),
3080          (v4i32 (VMRGEW MrgWords.CVDBS, MrgWords.CVCAS))>;
3081def : Pat<(v4i32 (build_vector DblToUInt.A, DblToUInt.B,
3082                               DblToUInt.C, DblToUInt.D)),
3083          (v4i32 (VMRGEW MrgWords.CVDBU, MrgWords.CVCAU))>;
3084def : Pat<(v4i32 (build_vector ExtDbl.A0S, ExtDbl.A1S,
3085                               ExtDbl.B0S, ExtDbl.B1S)),
3086          (v4i32 (VMRGEW MrgWords.CVB1A1S, MrgWords.CVB0A0S))>;
3087def : Pat<(v4i32 (build_vector ExtDbl.A0U, ExtDbl.A1U,
3088                               ExtDbl.B0U, ExtDbl.B1U)),
3089          (v4i32 (VMRGEW MrgWords.CVB1A1U, MrgWords.CVB0A0U))>;
3090def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
3091                               (f64 (fpextend (extractelt v4f32:$A, 1))))),
3092          (v2f64 (XVCVSPDP (XXMRGLW $A, $A)))>;
3093def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
3094                               (f64 (fpextend (extractelt v4f32:$A, 0))))),
3095          (v2f64 (XXPERMDI (XVCVSPDP (XXMRGLW $A, $A)),
3096                           (XVCVSPDP (XXMRGLW $A, $A)), 2))>;
3097def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
3098                               (f64 (fpextend (extractelt v4f32:$A, 2))))),
3099          (v2f64 (XVCVSPDP (XXSLDWI $A, $A, 1)))>;
3100def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
3101                               (f64 (fpextend (extractelt v4f32:$A, 3))))),
3102          (v2f64 (XVCVSPDP $A))>;
3103def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 2))),
3104                               (f64 (fpextend (extractelt v4f32:$A, 3))))),
3105          (v2f64 (XVCVSPDP (XXMRGHW $A, $A)))>;
3106def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 3))),
3107                               (f64 (fpextend (extractelt v4f32:$A, 2))))),
3108          (v2f64 (XXPERMDI (XVCVSPDP (XXMRGHW $A, $A)),
3109                           (XVCVSPDP (XXMRGHW $A, $A)), 2))>;
3110def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
3111                               (f64 (fpextend (extractelt v4f32:$B, 0))))),
3112          (v2f64 (XVCVSPDP (XXSLDWI (XXPERMDI $B, $A, 3),
3113                                    (XXPERMDI $B, $A, 3), 1)))>;
3114def : Pat<(v2f64 (build_vector (f64 (fpextend (extractelt v4f32:$A, 3))),
3115                               (f64 (fpextend (extractelt v4f32:$B, 3))))),
3116          (v2f64 (XVCVSPDP (XXPERMDI $B, $A, 0)))>;
3117def : Pat<(v2i64 (fp_to_sint
3118                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
3119                                 (f64 (fpextend (extractelt v4f32:$A, 3)))))),
3120          (v2i64 (XVCVSPSXDS $A))>;
3121def : Pat<(v2i64 (fp_to_uint
3122                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 1))),
3123                                 (f64 (fpextend (extractelt v4f32:$A, 3)))))),
3124          (v2i64 (XVCVSPUXDS $A))>;
3125def : Pat<(v2i64 (fp_to_sint
3126                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
3127                                 (f64 (fpextend (extractelt v4f32:$A, 2)))))),
3128          (v2i64 (XVCVSPSXDS (XXSLDWI $A, $A, 1)))>;
3129def : Pat<(v2i64 (fp_to_uint
3130                   (build_vector (f64 (fpextend (extractelt v4f32:$A, 0))),
3131                                 (f64 (fpextend (extractelt v4f32:$A, 2)))))),
3132          (v2i64 (XVCVSPUXDS (XXSLDWI $A, $A, 1)))>;
3133def : Pat<WToDPExtractConv.BV02S,
3134          (v2f64 (XVCVSXWDP (XXSLDWI $A, $A, 1)))>;
3135def : Pat<WToDPExtractConv.BV13S,
3136          (v2f64 (XVCVSXWDP $A))>;
3137def : Pat<WToDPExtractConv.BV02U,
3138          (v2f64 (XVCVUXWDP (XXSLDWI $A, $A, 1)))>;
3139def : Pat<WToDPExtractConv.BV13U,
3140          (v2f64 (XVCVUXWDP $A))>;
3141def : Pat<(v2f64 (insertelt v2f64:$A, f64:$B, 0)),
3142          (v2f64 (XXPERMDI $A, (SUBREG_TO_REG (i64 1), $B, sub_64), 0))>;
3143def : Pat<(v2f64 (insertelt v2f64:$A, f64:$B, 1)),
3144          (v2f64 (XXPERMDI (SUBREG_TO_REG (i64 1), $B, sub_64), $A, 1))>;
3145} // HasVSX, IsLittleEndian
3146
3147// Any pre-Power9 VSX subtarget.
3148let Predicates = [HasVSX, NoP9Vector] in {
3149def : Pat<(PPCstore_scal_int_from_vsr
3150            (f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), ForceXForm:$dst, 8),
3151          (STXSDX (XSCVDPSXDS f64:$src), ForceXForm:$dst)>;
3152def : Pat<(PPCstore_scal_int_from_vsr
3153            (f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), ForceXForm:$dst, 8),
3154          (STXSDX (XSCVDPUXDS f64:$src), ForceXForm:$dst)>;
3155
3156// Load-and-splat with fp-to-int conversion (using X-Form VSX/FP loads).
3157defm : ScalToVecWPermute<
3158  v4i32, DblToIntLoad.A,
3159  (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPSXWS (XFLOADf64 ForceXForm:$A)), sub_64), 1),
3160  (SUBREG_TO_REG (i64 1), (XSCVDPSXWS (XFLOADf64 ForceXForm:$A)), sub_64)>;
3161defm : ScalToVecWPermute<
3162  v4i32, DblToUIntLoad.A,
3163  (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPUXWS (XFLOADf64 ForceXForm:$A)), sub_64), 1),
3164  (SUBREG_TO_REG (i64 1), (XSCVDPUXWS (XFLOADf64 ForceXForm:$A)), sub_64)>;
3165defm : ScalToVecWPermute<
3166  v2i64, FltToLongLoad.A,
3167  (XXPERMDIs (XSCVDPSXDS (COPY_TO_REGCLASS (XFLOADf32 ForceXForm:$A), VSFRC)), 0),
3168  (SUBREG_TO_REG (i64 1), (XSCVDPSXDS (COPY_TO_REGCLASS (XFLOADf32 ForceXForm:$A),
3169                                                        VSFRC)), sub_64)>;
3170defm : ScalToVecWPermute<
3171  v2i64, FltToULongLoad.A,
3172  (XXPERMDIs (XSCVDPUXDS (COPY_TO_REGCLASS (XFLOADf32 ForceXForm:$A), VSFRC)), 0),
3173  (SUBREG_TO_REG (i64 1), (XSCVDPUXDS (COPY_TO_REGCLASS (XFLOADf32 ForceXForm:$A),
3174                                                        VSFRC)), sub_64)>;
3175} // HasVSX, NoP9Vector
3176
3177// Any little endian pre-Power9 VSX subtarget.
3178let Predicates = [HasVSX, NoP9Vector, IsLittleEndian] in {
3179// Load-and-splat using only X-Form VSX loads.
3180defm : ScalToVecWPermute<
3181  v2i64, (i64 (load ForceXForm:$src)),
3182  (XXPERMDIs (XFLOADf64 ForceXForm:$src), 2),
3183  (SUBREG_TO_REG (i64 1), (XFLOADf64 ForceXForm:$src), sub_64)>;
3184defm : ScalToVecWPermute<
3185  v2f64, (f64 (load ForceXForm:$src)),
3186  (XXPERMDIs (XFLOADf64 ForceXForm:$src), 2),
3187  (SUBREG_TO_REG (i64 1), (XFLOADf64 ForceXForm:$src), sub_64)>;
3188
3189// Splat loads.
3190def : Pat<(v8i16 (PPCldsplatAlign16 ForceXForm:$A)),
3191          (v8i16 (VSPLTH 7, (LVX ForceXForm:$A)))>;
3192def : Pat<(v16i8 (PPCldsplatAlign16 ForceXForm:$A)),
3193          (v16i8 (VSPLTB 15, (LVX ForceXForm:$A)))>;
3194} // HasVSX, NoP9Vector, IsLittleEndian
3195
3196let Predicates = [HasVSX, NoP9Vector, IsBigEndian] in {
3197  def : Pat<(v2f64 (int_ppc_vsx_lxvd2x ForceXForm:$src)),
3198            (LXVD2X ForceXForm:$src)>;
3199  def : Pat<(int_ppc_vsx_stxvd2x v2f64:$rS, ForceXForm:$dst),
3200            (STXVD2X $rS, ForceXForm:$dst)>;
3201
3202  // Splat loads.
3203  def : Pat<(v8i16 (PPCldsplatAlign16 ForceXForm:$A)),
3204            (v8i16 (VSPLTH 0, (LVX ForceXForm:$A)))>;
3205  def : Pat<(v16i8 (PPCldsplatAlign16 ForceXForm:$A)),
3206            (v16i8 (VSPLTB 0, (LVX ForceXForm:$A)))>;
3207} // HasVSX, NoP9Vector, IsBigEndian
3208
3209// Any VSX subtarget that only has loads and stores that load in big endian
3210// order regardless of endianness. This is really pre-Power9 subtargets.
3211let Predicates = [HasVSX, HasOnlySwappingMemOps] in {
3212  def : Pat<(v2f64 (PPClxvd2x ForceXForm:$src)), (LXVD2X ForceXForm:$src)>;
3213
3214  // Stores.
3215  def : Pat<(PPCstxvd2x v2f64:$rS, ForceXForm:$dst), (STXVD2X $rS, ForceXForm:$dst)>;
3216} // HasVSX, HasOnlySwappingMemOps
3217
3218// Big endian VSX subtarget that only has loads and stores that always
3219// load in big endian order. Really big endian pre-Power9 subtargets.
3220let Predicates = [HasVSX, HasOnlySwappingMemOps, IsBigEndian] in {
3221  def : Pat<(v2f64 (load ForceXForm:$src)), (LXVD2X ForceXForm:$src)>;
3222  def : Pat<(v2i64 (load ForceXForm:$src)), (LXVD2X ForceXForm:$src)>;
3223  def : Pat<(v4i32 (load ForceXForm:$src)), (LXVW4X ForceXForm:$src)>;
3224  def : Pat<(v4i32 (int_ppc_vsx_lxvw4x ForceXForm:$src)), (LXVW4X ForceXForm:$src)>;
3225  def : Pat<(store v2f64:$rS, ForceXForm:$dst), (STXVD2X $rS, ForceXForm:$dst)>;
3226  def : Pat<(store v2i64:$rS, ForceXForm:$dst), (STXVD2X $rS, ForceXForm:$dst)>;
3227  def : Pat<(store v4i32:$XT, ForceXForm:$dst), (STXVW4X $XT, ForceXForm:$dst)>;
3228  def : Pat<(int_ppc_vsx_stxvw4x v4i32:$rS, ForceXForm:$dst),
3229            (STXVW4X $rS, ForceXForm:$dst)>;
3230  def : Pat<(v2i64 (scalar_to_vector (i64 (load ForceXForm:$src)))),
3231           (SUBREG_TO_REG (i64 1), (XFLOADf64 ForceXForm:$src), sub_64)>;
3232} // HasVSX, HasOnlySwappingMemOps, IsBigEndian
3233
3234// Any Power8 VSX subtarget.
3235let Predicates = [HasVSX, HasP8Vector] in {
3236def : Pat<(int_ppc_vsx_xxleqv v4i32:$A, v4i32:$B),
3237          (XXLEQV $A, $B)>;
3238def : Pat<(f64 (extloadf32 XForm:$src)),
3239          (COPY_TO_REGCLASS (XFLOADf32 XForm:$src), VSFRC)>;
3240def : Pat<(f32 (fpround (f64 (extloadf32 ForceXForm:$src)))),
3241          (f32 (XFLOADf32 ForceXForm:$src))>;
3242def : Pat<(f64 (any_fpextend f32:$src)),
3243          (COPY_TO_REGCLASS $src, VSFRC)>;
3244
3245def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETLT)),
3246          (SELECT_VSSRC (CRANDC $lhs, $rhs), $tval, $fval)>;
3247def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETULT)),
3248          (SELECT_VSSRC (CRANDC $rhs, $lhs), $tval, $fval)>;
3249def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETLE)),
3250          (SELECT_VSSRC (CRORC  $lhs, $rhs), $tval, $fval)>;
3251def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETULE)),
3252          (SELECT_VSSRC (CRORC  $rhs, $lhs), $tval, $fval)>;
3253def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETEQ)),
3254          (SELECT_VSSRC (CREQV $lhs, $rhs), $tval, $fval)>;
3255def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETGE)),
3256          (SELECT_VSSRC (CRORC  $rhs, $lhs), $tval, $fval)>;
3257def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETUGE)),
3258          (SELECT_VSSRC (CRORC  $lhs, $rhs), $tval, $fval)>;
3259def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETGT)),
3260          (SELECT_VSSRC (CRANDC $rhs, $lhs), $tval, $fval)>;
3261def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETUGT)),
3262          (SELECT_VSSRC (CRANDC $lhs, $rhs), $tval, $fval)>;
3263def : Pat<(f32 (selectcc i1:$lhs, i1:$rhs, f32:$tval, f32:$fval, SETNE)),
3264          (SELECT_VSSRC (CRXOR $lhs, $rhs), $tval, $fval)>;
3265
3266// Additional fnmsub pattern for PPC specific ISD opcode
3267def : Pat<(PPCfnmsub f32:$A, f32:$B, f32:$C),
3268          (XSNMSUBASP $C, $A, $B)>;
3269def : Pat<(fneg (PPCfnmsub f32:$A, f32:$B, f32:$C)),
3270          (XSMSUBASP $C, $A, $B)>;
3271def : Pat<(PPCfnmsub f32:$A, f32:$B, (fneg f32:$C)),
3272          (XSNMADDASP $C, $A, $B)>;
3273
3274// f32 neg
3275// Although XSNEGDP is available in P7, we want to select it starting from P8,
3276// so that FNMSUBS can be selected for fneg-fmsub pattern on P7. (VSX version,
3277// XSNMSUBASP, is available since P8)
3278def : Pat<(f32 (fneg f32:$S)),
3279          (f32 (COPY_TO_REGCLASS (XSNEGDP
3280               (COPY_TO_REGCLASS $S, VSFRC)), VSSRC))>;
3281
3282// Instructions for converting float to i32 feeding a store.
3283def : Pat<(PPCstore_scal_int_from_vsr
3284            (f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), ForceXForm:$dst, 4),
3285          (STIWX (XSCVDPSXWS f64:$src), ForceXForm:$dst)>;
3286def : Pat<(PPCstore_scal_int_from_vsr
3287            (f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), ForceXForm:$dst, 4),
3288          (STIWX (XSCVDPUXWS f64:$src), ForceXForm:$dst)>;
3289
3290def : Pat<(v2i64 (smax v2i64:$src1, v2i64:$src2)),
3291          (v2i64 (VMAXSD (COPY_TO_REGCLASS $src1, VRRC),
3292                         (COPY_TO_REGCLASS $src2, VRRC)))>;
3293def : Pat<(v2i64 (umax v2i64:$src1, v2i64:$src2)),
3294          (v2i64 (VMAXUD (COPY_TO_REGCLASS $src1, VRRC),
3295                         (COPY_TO_REGCLASS $src2, VRRC)))>;
3296def : Pat<(v2i64 (smin v2i64:$src1, v2i64:$src2)),
3297          (v2i64 (VMINSD (COPY_TO_REGCLASS $src1, VRRC),
3298                         (COPY_TO_REGCLASS $src2, VRRC)))>;
3299def : Pat<(v2i64 (umin v2i64:$src1, v2i64:$src2)),
3300          (v2i64 (VMINUD (COPY_TO_REGCLASS $src1, VRRC),
3301                         (COPY_TO_REGCLASS $src2, VRRC)))>;
3302
3303def : Pat<(v1i128 (bitconvert (v16i8 immAllOnesV))),
3304          (v1i128 (COPY_TO_REGCLASS(XXLEQVOnes), VSRC))>;
3305def : Pat<(v2i64 (bitconvert (v16i8 immAllOnesV))),
3306          (v2i64 (COPY_TO_REGCLASS(XXLEQVOnes), VSRC))>;
3307def : Pat<(v8i16 (bitconvert (v16i8 immAllOnesV))),
3308          (v8i16 (COPY_TO_REGCLASS(XXLEQVOnes), VSRC))>;
3309def : Pat<(v16i8 (bitconvert (v16i8 immAllOnesV))),
3310          (v16i8 (COPY_TO_REGCLASS(XXLEQVOnes), VSRC))>;
3311
3312// XL Compat builtins.
3313def : Pat<(int_ppc_fmsubs f32:$A, f32:$B, f32:$C), (XSMSUBMSP $A, $B, $C)>;
3314def : Pat<(int_ppc_fnmsubs f32:$A, f32:$B, f32:$C), (XSNMSUBMSP $A, $B, $C)>;
3315def : Pat<(int_ppc_fnmadds f32:$A, f32:$B, f32:$C), (XSNMADDMSP $A, $B, $C)>;
3316def : Pat<(int_ppc_fres f32:$A), (XSRESP $A)>;
3317def : Pat<(i32 (int_ppc_extract_exp f64:$A)),
3318          (EXTRACT_SUBREG (XSXEXPDP (COPY_TO_REGCLASS $A, VSFRC)), sub_32)>;
3319def : Pat<(int_ppc_extract_sig f64:$A),
3320          (XSXSIGDP (COPY_TO_REGCLASS $A, VSFRC))>;
3321def : Pat<(f64 (int_ppc_insert_exp f64:$A, i64:$B)),
3322          (COPY_TO_REGCLASS (XSIEXPDP (COPY_TO_REGCLASS $A, G8RC), $B), F8RC)>;
3323
3324def : Pat<(int_ppc_stfiw ForceXForm:$dst, f64:$XT),
3325          (STXSIWX f64:$XT, ForceXForm:$dst)>;
3326def : Pat<(int_ppc_frsqrtes vssrc:$XB), (XSRSQRTESP $XB)>;
3327} // HasVSX, HasP8Vector
3328
3329// Any big endian Power8 VSX subtarget.
3330let Predicates = [HasVSX, HasP8Vector, IsBigEndian] in {
3331def : Pat<DWToSPExtractConv.El0SS1,
3332          (f32 (XSCVSXDSP (COPY_TO_REGCLASS $S1, VSFRC)))>;
3333def : Pat<DWToSPExtractConv.El1SS1,
3334          (f32 (XSCVSXDSP (COPY_TO_REGCLASS (XXPERMDI $S1, $S1, 2), VSFRC)))>;
3335def : Pat<DWToSPExtractConv.El0US1,
3336          (f32 (XSCVUXDSP (COPY_TO_REGCLASS $S1, VSFRC)))>;
3337def : Pat<DWToSPExtractConv.El1US1,
3338          (f32 (XSCVUXDSP (COPY_TO_REGCLASS (XXPERMDI $S1, $S1, 2), VSFRC)))>;
3339
3340// v4f32 scalar <-> vector conversions (BE)
3341defm : ScalToVecWPermute<v4f32, (f32 f32:$A), (XSCVDPSPN $A), (XSCVDPSPN $A)>;
3342def : Pat<(f32 (vector_extract v4f32:$S, 0)),
3343          (f32 (XSCVSPDPN $S))>;
3344def : Pat<(f32 (vector_extract v4f32:$S, 1)),
3345          (f32 (XSCVSPDPN (XXSLDWI $S, $S, 1)))>;
3346def : Pat<(f32 (vector_extract v4f32:$S, 2)),
3347          (f32 (XSCVSPDPN (XXPERMDI $S, $S, 2)))>;
3348def : Pat<(f32 (vector_extract v4f32:$S, 3)),
3349          (f32 (XSCVSPDPN (XXSLDWI $S, $S, 3)))>;
3350
3351def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 0)))))),
3352          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 0))))>;
3353def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 1)))))),
3354          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 1))))>;
3355def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 2)))))),
3356          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 2))))>;
3357def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 3)))))),
3358          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 3))))>;
3359def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 0)))))),
3360          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 0)), VSFRC))>;
3361def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 1)))))),
3362          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 1)), VSFRC))>;
3363def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 2)))))),
3364          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 2)), VSFRC))>;
3365def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 3)))))),
3366          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 3)), VSFRC))>;
3367
3368def : Pat<(f32 (vector_extract v4f32:$S, i32:$Idx)),
3369          (f32 VectorExtractions.BE_32B_VARIABLE_FLOAT)>;
3370
3371def : Pat<(f64 (vector_extract v2f64:$S, i32:$Idx)),
3372          (f64 VectorExtractions.BE_32B_VARIABLE_DOUBLE)>;
3373} // HasVSX, HasP8Vector, IsBigEndian
3374
3375// Big endian Power8 64Bit VSX subtarget.
3376let Predicates = [HasVSX, HasP8Vector, IsBigEndian, IsPPC64] in {
3377def : Pat<(f32 (vector_extract v4f32:$S, i64:$Idx)),
3378          (f32 VectorExtractions.BE_VARIABLE_FLOAT)>;
3379
3380// LIWAX - This instruction is used for sign extending i32 -> i64.
3381// LIWZX - This instruction will be emitted for i32, f32, and when
3382//         zero-extending i32 to i64 (zext i32 -> i64).
3383def : Pat<(v2i64 (scalar_to_vector (i64 (sextloadi32 ForceXForm:$src)))),
3384          (v2i64 (SUBREG_TO_REG (i64 1), (LIWAX ForceXForm:$src), sub_64))>;
3385def : Pat<(v2i64 (scalar_to_vector (i64 (zextloadi32 ForceXForm:$src)))),
3386          (v2i64 (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$src), sub_64))>;
3387defm : ScalToVecWPermute<
3388  v4i32, (i32 (load ForceXForm:$src)),
3389  (XXSLDWIs (LIWZX ForceXForm:$src), 1),
3390  (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$src), sub_64)>;
3391defm : ScalToVecWPermute<
3392  v4f32, (f32 (load ForceXForm:$src)),
3393  (XXSLDWIs (LIWZX ForceXForm:$src), 1),
3394  (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$src), sub_64)>;
3395
3396def : Pat<DWToSPExtractConv.BVU,
3397          (v4f32 (VPKUDUM (XXSLDWI (XVCVUXDSP $S1), (XVCVUXDSP $S1), 3),
3398                          (XXSLDWI (XVCVUXDSP $S2), (XVCVUXDSP $S2), 3)))>;
3399def : Pat<DWToSPExtractConv.BVS,
3400          (v4f32 (VPKUDUM (XXSLDWI (XVCVSXDSP $S1), (XVCVSXDSP $S1), 3),
3401                          (XXSLDWI (XVCVSXDSP $S2), (XVCVSXDSP $S2), 3)))>;
3402def : Pat<(store (i32 (extractelt v4i32:$A, 1)), ForceXForm:$src),
3403          (STIWX (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3404def : Pat<(store (f32 (extractelt v4f32:$A, 1)), ForceXForm:$src),
3405          (STIWX (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3406
3407// Elements in a register on a BE system are in order <0, 1, 2, 3>.
3408// The store instructions store the second word from the left.
3409// So to align element zero, we need to modulo-left-shift by 3 words.
3410// Similar logic applies for elements 2 and 3.
3411foreach Idx = [ [0,3], [2,1], [3,2] ] in {
3412  def : Pat<(store (i32 (extractelt v4i32:$A, !head(Idx))), ForceXForm:$src),
3413            (STIWX (EXTRACT_SUBREG (XXSLDWI $A, $A, !head(!tail(Idx))),
3414                                   sub_64), ForceXForm:$src)>;
3415  def : Pat<(store (f32 (extractelt v4f32:$A, !head(Idx))), ForceXForm:$src),
3416            (STIWX (EXTRACT_SUBREG (XXSLDWI $A, $A, !head(!tail(Idx))),
3417                                   sub_64), ForceXForm:$src)>;
3418}
3419} // HasVSX, HasP8Vector, IsBigEndian, IsPPC64
3420
3421// Little endian Power8 VSX subtarget.
3422let Predicates = [HasVSX, HasP8Vector, IsLittleEndian] in {
3423def : Pat<DWToSPExtractConv.El0SS1,
3424          (f32 (XSCVSXDSP (COPY_TO_REGCLASS (XXPERMDI $S1, $S1, 2), VSFRC)))>;
3425def : Pat<DWToSPExtractConv.El1SS1,
3426          (f32 (XSCVSXDSP (COPY_TO_REGCLASS
3427                            (f64 (COPY_TO_REGCLASS $S1, VSRC)), VSFRC)))>;
3428def : Pat<DWToSPExtractConv.El0US1,
3429          (f32 (XSCVUXDSP (COPY_TO_REGCLASS (XXPERMDI $S1, $S1, 2), VSFRC)))>;
3430def : Pat<DWToSPExtractConv.El1US1,
3431          (f32 (XSCVUXDSP (COPY_TO_REGCLASS
3432                            (f64 (COPY_TO_REGCLASS $S1, VSRC)), VSFRC)))>;
3433
3434// v4f32 scalar <-> vector conversions (LE)
3435  defm : ScalToVecWPermute<v4f32, (f32 f32:$A),
3436                           (XXSLDWI (XSCVDPSPN $A), (XSCVDPSPN $A), 1),
3437                           (XSCVDPSPN $A)>;
3438def : Pat<(f32 (vector_extract v4f32:$S, 0)),
3439          (f32 (XSCVSPDPN (XXSLDWI $S, $S, 3)))>;
3440def : Pat<(f32 (vector_extract v4f32:$S, 1)),
3441          (f32 (XSCVSPDPN (XXPERMDI $S, $S, 2)))>;
3442def : Pat<(f32 (vector_extract v4f32:$S, 2)),
3443          (f32 (XSCVSPDPN (XXSLDWI $S, $S, 1)))>;
3444def : Pat<(f32 (vector_extract v4f32:$S, 3)),
3445          (f32 (XSCVSPDPN $S))>;
3446def : Pat<(f32 (vector_extract v4f32:$S, i64:$Idx)),
3447          (f32 VectorExtractions.LE_VARIABLE_FLOAT)>;
3448
3449def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 0)))))),
3450          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 3))))>;
3451def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 1)))))),
3452          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 2))))>;
3453def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 2)))))),
3454          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 1))))>;
3455def : Pat<(f32 (PPCfcfids (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 3)))))),
3456          (f32 (XSCVSPDPN (XVCVSXWSP (XXSPLTW $A, 0))))>;
3457def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 0)))))),
3458          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 3)), VSFRC))>;
3459def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 1)))))),
3460          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 2)), VSFRC))>;
3461def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 2)))))),
3462          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 1)), VSFRC))>;
3463def : Pat<(f64 (PPCfcfid (f64 (PPCmtvsra (i32 (extractelt v4i32:$A, 3)))))),
3464          (f64 (COPY_TO_REGCLASS (XVCVSXWDP (XXSPLTW $A, 0)), VSFRC))>;
3465
3466// LIWAX - This instruction is used for sign extending i32 -> i64.
3467// LIWZX - This instruction will be emitted for i32, f32, and when
3468//         zero-extending i32 to i64 (zext i32 -> i64).
3469defm : ScalToVecWPermute<
3470  v2i64, (i64 (sextloadi32 ForceXForm:$src)),
3471  (XXPERMDIs (LIWAX ForceXForm:$src), 2),
3472  (SUBREG_TO_REG (i64 1), (LIWAX ForceXForm:$src), sub_64)>;
3473
3474defm : ScalToVecWPermute<
3475  v2i64, (i64 (zextloadi32 ForceXForm:$src)),
3476  (XXPERMDIs (LIWZX ForceXForm:$src), 2),
3477  (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$src), sub_64)>;
3478
3479defm : ScalToVecWPermute<
3480  v4i32, (i32 (load ForceXForm:$src)),
3481  (XXPERMDIs (LIWZX ForceXForm:$src), 2),
3482  (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$src), sub_64)>;
3483
3484defm : ScalToVecWPermute<
3485  v4f32, (f32 (load ForceXForm:$src)),
3486  (XXPERMDIs (LIWZX ForceXForm:$src), 2),
3487  (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$src), sub_64)>;
3488
3489def : Pat<DWToSPExtractConv.BVU,
3490          (v4f32 (VPKUDUM (XXSLDWI (XVCVUXDSP $S2), (XVCVUXDSP $S2), 3),
3491                          (XXSLDWI (XVCVUXDSP $S1), (XVCVUXDSP $S1), 3)))>;
3492def : Pat<DWToSPExtractConv.BVS,
3493          (v4f32 (VPKUDUM (XXSLDWI (XVCVSXDSP $S2), (XVCVSXDSP $S2), 3),
3494                          (XXSLDWI (XVCVSXDSP $S1), (XVCVSXDSP $S1), 3)))>;
3495def : Pat<(store (i32 (extractelt v4i32:$A, 2)), ForceXForm:$src),
3496          (STIWX (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3497def : Pat<(store (f32 (extractelt v4f32:$A, 2)), ForceXForm:$src),
3498          (STIWX (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3499
3500// Elements in a register on a LE system are in order <3, 2, 1, 0>.
3501// The store instructions store the second word from the left.
3502// So to align element 3, we need to modulo-left-shift by 3 words.
3503// Similar logic applies for elements 0 and 1.
3504foreach Idx = [ [0,2], [1,1], [3,3] ] in {
3505  def : Pat<(store (i32 (extractelt v4i32:$A, !head(Idx))), ForceXForm:$src),
3506            (STIWX (EXTRACT_SUBREG (XXSLDWI $A, $A, !head(!tail(Idx))),
3507                                   sub_64), ForceXForm:$src)>;
3508  def : Pat<(store (f32 (extractelt v4f32:$A, !head(Idx))), ForceXForm:$src),
3509            (STIWX (EXTRACT_SUBREG (XXSLDWI $A, $A, !head(!tail(Idx))),
3510                                   sub_64), ForceXForm:$src)>;
3511}
3512} // HasVSX, HasP8Vector, IsLittleEndian
3513
3514// Big endian pre-Power9 VSX subtarget.
3515let Predicates = [HasVSX, HasP8Vector, NoP9Vector, IsBigEndian, IsPPC64] in {
3516def : Pat<(store (i64 (extractelt v2i64:$A, 0)), ForceXForm:$src),
3517          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3518def : Pat<(store (f64 (extractelt v2f64:$A, 0)), ForceXForm:$src),
3519          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3520def : Pat<(store (i64 (extractelt v2i64:$A, 1)), ForceXForm:$src),
3521          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2), sub_64),
3522                      ForceXForm:$src)>;
3523def : Pat<(store (f64 (extractelt v2f64:$A, 1)), ForceXForm:$src),
3524          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2), sub_64),
3525                      ForceXForm:$src)>;
3526} // HasVSX, HasP8Vector, NoP9Vector, IsBigEndian, IsPPC64
3527
3528// Little endian pre-Power9 VSX subtarget.
3529let Predicates = [HasVSX, HasP8Vector, NoP9Vector, IsLittleEndian] in {
3530def : Pat<(store (i64 (extractelt v2i64:$A, 0)), ForceXForm:$src),
3531          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2), sub_64),
3532                      ForceXForm:$src)>;
3533def : Pat<(store (f64 (extractelt v2f64:$A, 0)), ForceXForm:$src),
3534          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2), sub_64),
3535                      ForceXForm:$src)>;
3536def : Pat<(store (i64 (extractelt v2i64:$A, 1)), ForceXForm:$src),
3537          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3538def : Pat<(store (f64 (extractelt v2f64:$A, 1)), ForceXForm:$src),
3539          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), ForceXForm:$src)>;
3540} // HasVSX, HasP8Vector, NoP9Vector, IsLittleEndian
3541
3542// Any VSX target with direct moves.
3543let Predicates = [HasVSX, HasDirectMove] in {
3544// bitconvert f32 -> i32
3545// (convert to 32-bit fp single, shift right 1 word, move to GPR)
3546def : Pat<(i32 (bitconvert f32:$A)), Bitcast.FltToInt>;
3547
3548// bitconvert i32 -> f32
3549// (move to FPR, shift left 1 word, convert to 64-bit fp single)
3550def : Pat<(f32 (bitconvert i32:$A)),
3551          (f32 (XSCVSPDPN
3552                 (XXSLDWI MovesToVSR.LE_WORD_1, MovesToVSR.LE_WORD_1, 1)))>;
3553
3554// bitconvert f64 -> i64
3555// (move to GPR, nothing else needed)
3556def : Pat<(i64 (bitconvert f64:$A)), Bitcast.DblToLong>;
3557
3558// bitconvert i64 -> f64
3559// (move to FPR, nothing else needed)
3560def : Pat<(f64 (bitconvert i64:$S)),
3561          (f64 (MTVSRD $S))>;
3562
3563// Rounding to integer.
3564def : Pat<(i64 (lrint f64:$S)),
3565          (i64 (MFVSRD (FCTID $S)))>;
3566def : Pat<(i64 (lrint f32:$S)),
3567          (i64 (MFVSRD (FCTID (COPY_TO_REGCLASS $S, F8RC))))>;
3568def : Pat<(i64 (llrint f64:$S)),
3569          (i64 (MFVSRD (FCTID $S)))>;
3570def : Pat<(i64 (llrint f32:$S)),
3571          (i64 (MFVSRD (FCTID (COPY_TO_REGCLASS $S, F8RC))))>;
3572def : Pat<(i64 (lround f64:$S)),
3573          (i64 (MFVSRD (FCTID (XSRDPI $S))))>;
3574def : Pat<(i64 (lround f32:$S)),
3575          (i64 (MFVSRD (FCTID (XSRDPI (COPY_TO_REGCLASS $S, VSFRC)))))>;
3576def : Pat<(i64 (llround f64:$S)),
3577          (i64 (MFVSRD (FCTID (XSRDPI $S))))>;
3578def : Pat<(i64 (llround f32:$S)),
3579          (i64 (MFVSRD (FCTID (XSRDPI (COPY_TO_REGCLASS $S, VSFRC)))))>;
3580
3581// Alternate patterns for PPCmtvsrz where the output is v8i16 or v16i8 instead
3582// of f64
3583def : Pat<(v8i16 (PPCmtvsrz i32:$A)),
3584          (v8i16 (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64))>;
3585def : Pat<(v16i8 (PPCmtvsrz i32:$A)),
3586          (v16i8 (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64))>;
3587
3588// Endianness-neutral constant splat on P8 and newer targets. The reason
3589// for this pattern is that on targets with direct moves, we don't expand
3590// BUILD_VECTOR nodes for v4i32.
3591def : Pat<(v4i32 (build_vector immSExt5NonZero:$A, immSExt5NonZero:$A,
3592                               immSExt5NonZero:$A, immSExt5NonZero:$A)),
3593          (v4i32 (VSPLTISW imm:$A))>;
3594
3595// Splat loads.
3596def : Pat<(v8i16 (PPCldsplat ForceXForm:$A)),
3597          (v8i16 (VSPLTHs 3, (MTVSRWZ (LHZX ForceXForm:$A))))>;
3598def : Pat<(v16i8 (PPCldsplat ForceXForm:$A)),
3599          (v16i8 (VSPLTBs 7, (MTVSRWZ (LBZX ForceXForm:$A))))>;
3600} // HasVSX, HasDirectMove
3601
3602// Big endian VSX subtarget with direct moves.
3603let Predicates = [HasVSX, HasDirectMove, IsBigEndian] in {
3604// v16i8 scalar <-> vector conversions (BE)
3605defm : ScalToVecWPermute<
3606  v16i8, (i32 i32:$A),
3607  (SUBREG_TO_REG (i64 1), MovesToVSR.BE_BYTE_0, sub_64),
3608  (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64)>;
3609defm : ScalToVecWPermute<
3610  v8i16, (i32 i32:$A),
3611  (SUBREG_TO_REG (i64 1), MovesToVSR.BE_HALF_0, sub_64),
3612  (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64)>;
3613defm : ScalToVecWPermute<
3614  v4i32, (i32 i32:$A),
3615  (SUBREG_TO_REG (i64 1), MovesToVSR.BE_WORD_0, sub_64),
3616  (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64)>;
3617def : Pat<(v2i64 (scalar_to_vector i64:$A)),
3618          (v2i64 (SUBREG_TO_REG (i64 1), MovesToVSR.BE_DWORD_0, sub_64))>;
3619
3620// v2i64 scalar <-> vector conversions (BE)
3621def : Pat<(i64 (vector_extract v2i64:$S, 0)),
3622          (i64 VectorExtractions.LE_DWORD_1)>;
3623def : Pat<(i64 (vector_extract v2i64:$S, 1)),
3624          (i64 VectorExtractions.LE_DWORD_0)>;
3625def : Pat<(i64 (vector_extract v2i64:$S, i64:$Idx)),
3626          (i64 VectorExtractions.BE_VARIABLE_DWORD)>;
3627} // HasVSX, HasDirectMove, IsBigEndian
3628
3629// Little endian VSX subtarget with direct moves.
3630let Predicates = [HasVSX, HasDirectMove, IsLittleEndian] in {
3631  // v16i8 scalar <-> vector conversions (LE)
3632  defm : ScalToVecWPermute<v16i8, (i32 i32:$A),
3633                           (COPY_TO_REGCLASS MovesToVSR.LE_WORD_0, VSRC),
3634                           (COPY_TO_REGCLASS MovesToVSR.LE_WORD_1, VSRC)>;
3635  defm : ScalToVecWPermute<v8i16, (i32 i32:$A),
3636                           (COPY_TO_REGCLASS MovesToVSR.LE_WORD_0, VSRC),
3637                           (COPY_TO_REGCLASS MovesToVSR.LE_WORD_1, VSRC)>;
3638  defm : ScalToVecWPermute<v4i32, (i32 i32:$A), MovesToVSR.LE_WORD_0,
3639                           (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64)>;
3640  defm : ScalToVecWPermute<v2i64, (i64 i64:$A), MovesToVSR.LE_DWORD_0,
3641                           MovesToVSR.LE_DWORD_1>;
3642
3643  // v2i64 scalar <-> vector conversions (LE)
3644  def : Pat<(i64 (vector_extract v2i64:$S, 0)),
3645            (i64 VectorExtractions.LE_DWORD_0)>;
3646  def : Pat<(i64 (vector_extract v2i64:$S, 1)),
3647            (i64 VectorExtractions.LE_DWORD_1)>;
3648  def : Pat<(i64 (vector_extract v2i64:$S, i64:$Idx)),
3649            (i64 VectorExtractions.LE_VARIABLE_DWORD)>;
3650} // HasVSX, HasDirectMove, IsLittleEndian
3651
3652// Big endian pre-P9 VSX subtarget with direct moves.
3653let Predicates = [HasVSX, HasDirectMove, NoP9Altivec, IsBigEndian] in {
3654def : Pat<(i32 (vector_extract v16i8:$S, 0)),
3655          (i32 VectorExtractions.LE_BYTE_15)>;
3656def : Pat<(i32 (vector_extract v16i8:$S, 1)),
3657          (i32 VectorExtractions.LE_BYTE_14)>;
3658def : Pat<(i32 (vector_extract v16i8:$S, 2)),
3659          (i32 VectorExtractions.LE_BYTE_13)>;
3660def : Pat<(i32 (vector_extract v16i8:$S, 3)),
3661          (i32 VectorExtractions.LE_BYTE_12)>;
3662def : Pat<(i32 (vector_extract v16i8:$S, 4)),
3663          (i32 VectorExtractions.LE_BYTE_11)>;
3664def : Pat<(i32 (vector_extract v16i8:$S, 5)),
3665          (i32 VectorExtractions.LE_BYTE_10)>;
3666def : Pat<(i32 (vector_extract v16i8:$S, 6)),
3667          (i32 VectorExtractions.LE_BYTE_9)>;
3668def : Pat<(i32 (vector_extract v16i8:$S, 7)),
3669          (i32 VectorExtractions.LE_BYTE_8)>;
3670def : Pat<(i32 (vector_extract v16i8:$S, 8)),
3671          (i32 VectorExtractions.LE_BYTE_7)>;
3672def : Pat<(i32 (vector_extract v16i8:$S, 9)),
3673          (i32 VectorExtractions.LE_BYTE_6)>;
3674def : Pat<(i32 (vector_extract v16i8:$S, 10)),
3675          (i32 VectorExtractions.LE_BYTE_5)>;
3676def : Pat<(i32 (vector_extract v16i8:$S, 11)),
3677          (i32 VectorExtractions.LE_BYTE_4)>;
3678def : Pat<(i32 (vector_extract v16i8:$S, 12)),
3679          (i32 VectorExtractions.LE_BYTE_3)>;
3680def : Pat<(i32 (vector_extract v16i8:$S, 13)),
3681          (i32 VectorExtractions.LE_BYTE_2)>;
3682def : Pat<(i32 (vector_extract v16i8:$S, 14)),
3683          (i32 VectorExtractions.LE_BYTE_1)>;
3684def : Pat<(i32 (vector_extract v16i8:$S, 15)),
3685          (i32 VectorExtractions.LE_BYTE_0)>;
3686def : Pat<(i32 (vector_extract v16i8:$S, i64:$Idx)),
3687          (i32 VectorExtractions.BE_VARIABLE_BYTE)>;
3688
3689// v8i16 scalar <-> vector conversions (BE)
3690def : Pat<(i32 (vector_extract v8i16:$S, 0)),
3691          (i32 VectorExtractions.LE_HALF_7)>;
3692def : Pat<(i32 (vector_extract v8i16:$S, 1)),
3693          (i32 VectorExtractions.LE_HALF_6)>;
3694def : Pat<(i32 (vector_extract v8i16:$S, 2)),
3695          (i32 VectorExtractions.LE_HALF_5)>;
3696def : Pat<(i32 (vector_extract v8i16:$S, 3)),
3697          (i32 VectorExtractions.LE_HALF_4)>;
3698def : Pat<(i32 (vector_extract v8i16:$S, 4)),
3699          (i32 VectorExtractions.LE_HALF_3)>;
3700def : Pat<(i32 (vector_extract v8i16:$S, 5)),
3701          (i32 VectorExtractions.LE_HALF_2)>;
3702def : Pat<(i32 (vector_extract v8i16:$S, 6)),
3703          (i32 VectorExtractions.LE_HALF_1)>;
3704def : Pat<(i32 (vector_extract v8i16:$S, 7)),
3705          (i32 VectorExtractions.LE_HALF_0)>;
3706def : Pat<(i32 (vector_extract v8i16:$S, i64:$Idx)),
3707          (i32 VectorExtractions.BE_VARIABLE_HALF)>;
3708
3709// v4i32 scalar <-> vector conversions (BE)
3710def : Pat<(i32 (vector_extract v4i32:$S, 0)),
3711          (i32 VectorExtractions.LE_WORD_3)>;
3712def : Pat<(i32 (vector_extract v4i32:$S, 1)),
3713          (i32 VectorExtractions.LE_WORD_2)>;
3714def : Pat<(i32 (vector_extract v4i32:$S, 2)),
3715          (i32 VectorExtractions.LE_WORD_1)>;
3716def : Pat<(i32 (vector_extract v4i32:$S, 3)),
3717          (i32 VectorExtractions.LE_WORD_0)>;
3718def : Pat<(i32 (vector_extract v4i32:$S, i64:$Idx)),
3719          (i32 VectorExtractions.BE_VARIABLE_WORD)>;
3720} // HasVSX, HasDirectMove, NoP9Altivec, IsBigEndian
3721
3722// Little endian pre-P9 VSX subtarget with direct moves.
3723let Predicates = [HasVSX, HasDirectMove, NoP9Altivec, IsLittleEndian] in {
3724def : Pat<(i32 (vector_extract v16i8:$S, 0)),
3725          (i32 VectorExtractions.LE_BYTE_0)>;
3726def : Pat<(i32 (vector_extract v16i8:$S, 1)),
3727          (i32 VectorExtractions.LE_BYTE_1)>;
3728def : Pat<(i32 (vector_extract v16i8:$S, 2)),
3729          (i32 VectorExtractions.LE_BYTE_2)>;
3730def : Pat<(i32 (vector_extract v16i8:$S, 3)),
3731          (i32 VectorExtractions.LE_BYTE_3)>;
3732def : Pat<(i32 (vector_extract v16i8:$S, 4)),
3733          (i32 VectorExtractions.LE_BYTE_4)>;
3734def : Pat<(i32 (vector_extract v16i8:$S, 5)),
3735          (i32 VectorExtractions.LE_BYTE_5)>;
3736def : Pat<(i32 (vector_extract v16i8:$S, 6)),
3737          (i32 VectorExtractions.LE_BYTE_6)>;
3738def : Pat<(i32 (vector_extract v16i8:$S, 7)),
3739          (i32 VectorExtractions.LE_BYTE_7)>;
3740def : Pat<(i32 (vector_extract v16i8:$S, 8)),
3741          (i32 VectorExtractions.LE_BYTE_8)>;
3742def : Pat<(i32 (vector_extract v16i8:$S, 9)),
3743          (i32 VectorExtractions.LE_BYTE_9)>;
3744def : Pat<(i32 (vector_extract v16i8:$S, 10)),
3745          (i32 VectorExtractions.LE_BYTE_10)>;
3746def : Pat<(i32 (vector_extract v16i8:$S, 11)),
3747          (i32 VectorExtractions.LE_BYTE_11)>;
3748def : Pat<(i32 (vector_extract v16i8:$S, 12)),
3749          (i32 VectorExtractions.LE_BYTE_12)>;
3750def : Pat<(i32 (vector_extract v16i8:$S, 13)),
3751          (i32 VectorExtractions.LE_BYTE_13)>;
3752def : Pat<(i32 (vector_extract v16i8:$S, 14)),
3753          (i32 VectorExtractions.LE_BYTE_14)>;
3754def : Pat<(i32 (vector_extract v16i8:$S, 15)),
3755          (i32 VectorExtractions.LE_BYTE_15)>;
3756def : Pat<(i32 (vector_extract v16i8:$S, i64:$Idx)),
3757          (i32 VectorExtractions.LE_VARIABLE_BYTE)>;
3758
3759// v8i16 scalar <-> vector conversions (LE)
3760def : Pat<(i32 (vector_extract v8i16:$S, 0)),
3761          (i32 VectorExtractions.LE_HALF_0)>;
3762def : Pat<(i32 (vector_extract v8i16:$S, 1)),
3763          (i32 VectorExtractions.LE_HALF_1)>;
3764def : Pat<(i32 (vector_extract v8i16:$S, 2)),
3765          (i32 VectorExtractions.LE_HALF_2)>;
3766def : Pat<(i32 (vector_extract v8i16:$S, 3)),
3767          (i32 VectorExtractions.LE_HALF_3)>;
3768def : Pat<(i32 (vector_extract v8i16:$S, 4)),
3769          (i32 VectorExtractions.LE_HALF_4)>;
3770def : Pat<(i32 (vector_extract v8i16:$S, 5)),
3771          (i32 VectorExtractions.LE_HALF_5)>;
3772def : Pat<(i32 (vector_extract v8i16:$S, 6)),
3773          (i32 VectorExtractions.LE_HALF_6)>;
3774def : Pat<(i32 (vector_extract v8i16:$S, 7)),
3775          (i32 VectorExtractions.LE_HALF_7)>;
3776def : Pat<(i32 (vector_extract v8i16:$S, i64:$Idx)),
3777          (i32 VectorExtractions.LE_VARIABLE_HALF)>;
3778
3779// v4i32 scalar <-> vector conversions (LE)
3780def : Pat<(i32 (vector_extract v4i32:$S, 0)),
3781          (i32 VectorExtractions.LE_WORD_0)>;
3782def : Pat<(i32 (vector_extract v4i32:$S, 1)),
3783          (i32 VectorExtractions.LE_WORD_1)>;
3784def : Pat<(i32 (vector_extract v4i32:$S, 2)),
3785          (i32 VectorExtractions.LE_WORD_2)>;
3786def : Pat<(i32 (vector_extract v4i32:$S, 3)),
3787          (i32 VectorExtractions.LE_WORD_3)>;
3788def : Pat<(i32 (vector_extract v4i32:$S, i64:$Idx)),
3789          (i32 VectorExtractions.LE_VARIABLE_WORD)>;
3790} // HasVSX, HasDirectMove, NoP9Altivec, IsLittleEndian
3791
3792// Big endian pre-Power9 64Bit VSX subtarget that has direct moves.
3793let Predicates = [HasVSX, HasDirectMove, NoP9Vector, IsBigEndian, IsPPC64] in {
3794// Big endian integer vectors using direct moves.
3795def : Pat<(v2i64 (build_vector i64:$A, i64:$B)),
3796          (v2i64 (XXPERMDI
3797                    (SUBREG_TO_REG (i64 1), (MTVSRD $A), sub_64),
3798                    (SUBREG_TO_REG (i64 1), (MTVSRD $B), sub_64), 0))>;
3799def : Pat<(v4i32 (build_vector i32:$A, i32:$B, i32:$C, i32:$D)),
3800          (XXPERMDI
3801            (SUBREG_TO_REG (i64 1),
3802              (MTVSRD (RLDIMI AnyExts.B, AnyExts.A, 32, 0)), sub_64),
3803            (SUBREG_TO_REG (i64 1),
3804              (MTVSRD (RLDIMI AnyExts.D, AnyExts.C, 32, 0)), sub_64), 0)>;
3805def : Pat<(v4i32 (build_vector i32:$A, i32:$A, i32:$A, i32:$A)),
3806          (XXSPLTW (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64), 1)>;
3807} // HasVSX, HasDirectMove, NoP9Vector, IsBigEndian, IsPPC64
3808
3809// Little endian pre-Power9 VSX subtarget that has direct moves.
3810let Predicates = [HasVSX, HasDirectMove, NoP9Vector, IsLittleEndian] in {
3811// Little endian integer vectors using direct moves.
3812def : Pat<(v2i64 (build_vector i64:$A, i64:$B)),
3813          (v2i64 (XXPERMDI
3814                    (SUBREG_TO_REG (i64 1), (MTVSRD $B), sub_64),
3815                    (SUBREG_TO_REG (i64 1), (MTVSRD $A), sub_64), 0))>;
3816def : Pat<(v4i32 (build_vector i32:$A, i32:$B, i32:$C, i32:$D)),
3817          (XXPERMDI
3818            (SUBREG_TO_REG (i64 1),
3819              (MTVSRD (RLDIMI AnyExts.C, AnyExts.D, 32, 0)), sub_64),
3820            (SUBREG_TO_REG (i64 1),
3821              (MTVSRD (RLDIMI AnyExts.A, AnyExts.B, 32, 0)), sub_64), 0)>;
3822def : Pat<(v4i32 (build_vector i32:$A, i32:$A, i32:$A, i32:$A)),
3823          (XXSPLTW (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64), 1)>;
3824}
3825
3826// Any Power9 VSX subtarget.
3827let Predicates = [HasVSX, HasP9Vector] in {
3828// Additional fnmsub pattern for PPC specific ISD opcode
3829def : Pat<(PPCfnmsub f128:$A, f128:$B, f128:$C),
3830          (XSNMSUBQP $C, $A, $B)>;
3831def : Pat<(fneg (PPCfnmsub f128:$A, f128:$B, f128:$C)),
3832          (XSMSUBQP $C, $A, $B)>;
3833def : Pat<(PPCfnmsub f128:$A, f128:$B, (fneg f128:$C)),
3834          (XSNMADDQP $C, $A, $B)>;
3835
3836def : Pat<(f128 (any_sint_to_fp i64:$src)),
3837          (f128 (XSCVSDQP (COPY_TO_REGCLASS $src, VFRC)))>;
3838def : Pat<(f128 (any_sint_to_fp (i64 (PPCmfvsr f64:$src)))),
3839          (f128 (XSCVSDQP $src))>;
3840def : Pat<(f128 (any_sint_to_fp (i32 (PPCmfvsr f64:$src)))),
3841          (f128 (XSCVSDQP (VEXTSW2Ds $src)))>;
3842def : Pat<(f128 (any_uint_to_fp i64:$src)),
3843          (f128 (XSCVUDQP (COPY_TO_REGCLASS $src, VFRC)))>;
3844def : Pat<(f128 (any_uint_to_fp (i64 (PPCmfvsr f64:$src)))),
3845          (f128 (XSCVUDQP $src))>;
3846
3847// Convert (Un)Signed Word -> QP.
3848def : Pat<(f128 (any_sint_to_fp i32:$src)),
3849          (f128 (XSCVSDQP (MTVSRWA $src)))>;
3850def : Pat<(f128 (any_sint_to_fp (i32 (load ForceXForm:$src)))),
3851          (f128 (XSCVSDQP (LIWAX ForceXForm:$src)))>;
3852def : Pat<(f128 (any_uint_to_fp i32:$src)),
3853          (f128 (XSCVUDQP (MTVSRWZ $src)))>;
3854def : Pat<(f128 (any_uint_to_fp (i32 (load ForceXForm:$src)))),
3855          (f128 (XSCVUDQP (LIWZX ForceXForm:$src)))>;
3856
3857// Pattern for matching Vector HP -> Vector SP intrinsic. Defined as a
3858// separate pattern so that it can convert the input register class from
3859// VRRC(v8i16) to VSRC.
3860def : Pat<(v4f32 (int_ppc_vsx_xvcvhpsp v8i16:$A)),
3861          (v4f32 (XVCVHPSP (COPY_TO_REGCLASS $A, VSRC)))>;
3862
3863// Use current rounding mode
3864def : Pat<(f128 (any_fnearbyint f128:$vB)), (f128 (XSRQPI 0, $vB, 3))>;
3865// Round to nearest, ties away from zero
3866def : Pat<(f128 (any_fround f128:$vB)), (f128 (XSRQPI 0, $vB, 0))>;
3867// Round towards Zero
3868def : Pat<(f128 (any_ftrunc f128:$vB)), (f128 (XSRQPI 1, $vB, 1))>;
3869// Round towards +Inf
3870def : Pat<(f128 (any_fceil f128:$vB)), (f128 (XSRQPI 1, $vB, 2))>;
3871// Round towards -Inf
3872def : Pat<(f128 (any_ffloor f128:$vB)), (f128 (XSRQPI 1, $vB, 3))>;
3873// Use current rounding mode, [with Inexact]
3874def : Pat<(f128 (any_frint f128:$vB)), (f128 (XSRQPIX 0, $vB, 3))>;
3875
3876def : Pat<(f128 (int_ppc_scalar_insert_exp_qp f128:$vA, i64:$vB)),
3877          (f128 (XSIEXPQP $vA, (MTVSRD $vB)))>;
3878
3879def : Pat<(i64 (int_ppc_scalar_extract_expq  f128:$vA)),
3880          (i64 (MFVSRD (EXTRACT_SUBREG
3881                          (v2i64 (XSXEXPQP $vA)), sub_64)))>;
3882
3883// Extra patterns expanding to vector Extract Word/Insert Word
3884def : Pat<(v4i32 (int_ppc_vsx_xxinsertw v4i32:$A, v2i64:$B, imm:$IMM)),
3885          (v4i32 (XXINSERTW $A, $B, imm:$IMM))>;
3886def : Pat<(v2i64 (int_ppc_vsx_xxextractuw v2i64:$A, imm:$IMM)),
3887          (v2i64 (COPY_TO_REGCLASS (XXEXTRACTUW $A, imm:$IMM), VSRC))>;
3888
3889// Vector Reverse
3890def : Pat<(v8i16 (bswap v8i16 :$A)),
3891          (v8i16 (COPY_TO_REGCLASS (XXBRH (COPY_TO_REGCLASS $A, VSRC)), VRRC))>;
3892def : Pat<(v1i128 (bswap v1i128 :$A)),
3893          (v1i128 (COPY_TO_REGCLASS (XXBRQ (COPY_TO_REGCLASS $A, VSRC)), VRRC))>;
3894
3895// D-Form Load/Store
3896foreach Ty = [v4i32, v4f32, v2i64, v2f64] in {
3897  def : Pat<(Ty (load DQForm:$src)), (LXV memrix16:$src)>;
3898  def : Pat<(Ty (load XForm:$src)), (LXVX XForm:$src)>;
3899  def : Pat<(store Ty:$rS, DQForm:$dst), (STXV $rS, memrix16:$dst)>;
3900  def : Pat<(store Ty:$rS, XForm:$dst), (STXVX $rS, XForm:$dst)>;
3901}
3902
3903def : Pat<(f128 (load DQForm:$src)),
3904          (COPY_TO_REGCLASS (LXV memrix16:$src), VRRC)>;
3905def : Pat<(f128 (load XForm:$src)),
3906          (COPY_TO_REGCLASS (LXVX XForm:$src), VRRC)>;
3907def : Pat<(v4i32 (int_ppc_vsx_lxvw4x DQForm:$src)), (LXV memrix16:$src)>;
3908def : Pat<(v2f64 (int_ppc_vsx_lxvd2x DQForm:$src)), (LXV memrix16:$src)>;
3909def : Pat<(v4i32 (int_ppc_vsx_lxvw4x XForm:$src)), (LXVX XForm:$src)>;
3910def : Pat<(v2f64 (int_ppc_vsx_lxvd2x XForm:$src)), (LXVX XForm:$src)>;
3911
3912def : Pat<(store f128:$rS, DQForm:$dst),
3913          (STXV (COPY_TO_REGCLASS $rS, VSRC), memrix16:$dst)>;
3914def : Pat<(store f128:$rS, XForm:$dst),
3915          (STXVX (COPY_TO_REGCLASS $rS, VSRC), XForm:$dst)>;
3916def : Pat<(int_ppc_vsx_stxvw4x v4i32:$rS, DQForm:$dst),
3917          (STXV $rS, memrix16:$dst)>;
3918def : Pat<(int_ppc_vsx_stxvd2x v2f64:$rS, DQForm:$dst),
3919          (STXV $rS, memrix16:$dst)>;
3920def : Pat<(int_ppc_vsx_stxvw4x v4i32:$rS, XForm:$dst),
3921          (STXVX $rS, XForm:$dst)>;
3922def : Pat<(int_ppc_vsx_stxvd2x v2f64:$rS, XForm:$dst),
3923          (STXVX $rS, XForm:$dst)>;
3924
3925// Build vectors from i8 loads
3926defm : ScalToVecWPermute<v8i16, ScalarLoads.ZELi8,
3927                         (VSPLTHs 3, (LXSIBZX ForceXForm:$src)),
3928                         (SUBREG_TO_REG (i64 1), (LXSIBZX ForceXForm:$src), sub_64)>;
3929defm : ScalToVecWPermute<v4i32, ScalarLoads.ZELi8,
3930                         (XXSPLTWs (LXSIBZX ForceXForm:$src), 1),
3931                         (SUBREG_TO_REG (i64 1), (LXSIBZX ForceXForm:$src), sub_64)>;
3932defm : ScalToVecWPermute<v2i64, ScalarLoads.ZELi8i64,
3933                         (XXPERMDIs (LXSIBZX ForceXForm:$src), 0),
3934                         (SUBREG_TO_REG (i64 1), (LXSIBZX ForceXForm:$src), sub_64)>;
3935defm : ScalToVecWPermute<
3936  v4i32, ScalarLoads.SELi8,
3937  (XXSPLTWs (VEXTSB2Ws (LXSIBZX ForceXForm:$src)), 1),
3938  (SUBREG_TO_REG (i64 1), (VEXTSB2Ws (LXSIBZX ForceXForm:$src)), sub_64)>;
3939defm : ScalToVecWPermute<
3940  v2i64, ScalarLoads.SELi8i64,
3941  (XXPERMDIs (VEXTSB2Ds (LXSIBZX ForceXForm:$src)), 0),
3942  (SUBREG_TO_REG (i64 1), (VEXTSB2Ds (LXSIBZX ForceXForm:$src)), sub_64)>;
3943
3944// Build vectors from i16 loads
3945defm : ScalToVecWPermute<
3946  v4i32, ScalarLoads.ZELi16,
3947  (XXSPLTWs (LXSIHZX ForceXForm:$src), 1),
3948  (SUBREG_TO_REG (i64 1), (LXSIHZX ForceXForm:$src), sub_64)>;
3949defm : ScalToVecWPermute<
3950  v2i64, ScalarLoads.ZELi16i64,
3951  (XXPERMDIs (LXSIHZX ForceXForm:$src), 0),
3952  (SUBREG_TO_REG (i64 1), (LXSIHZX ForceXForm:$src), sub_64)>;
3953defm : ScalToVecWPermute<
3954  v4i32, ScalarLoads.SELi16,
3955  (XXSPLTWs (VEXTSH2Ws (LXSIHZX ForceXForm:$src)), 1),
3956  (SUBREG_TO_REG (i64 1), (VEXTSH2Ws (LXSIHZX ForceXForm:$src)), sub_64)>;
3957defm : ScalToVecWPermute<
3958  v2i64, ScalarLoads.SELi16i64,
3959  (XXPERMDIs (VEXTSH2Ds (LXSIHZX ForceXForm:$src)), 0),
3960  (SUBREG_TO_REG (i64 1), (VEXTSH2Ds (LXSIHZX ForceXForm:$src)), sub_64)>;
3961
3962// Load/convert and convert/store patterns for f16.
3963def : Pat<(f64 (extloadf16 ForceXForm:$src)),
3964          (f64 (XSCVHPDP (LXSIHZX ForceXForm:$src)))>;
3965def : Pat<(truncstoref16 f64:$src, ForceXForm:$dst),
3966          (STXSIHX (XSCVDPHP $src), ForceXForm:$dst)>;
3967def : Pat<(f32 (extloadf16 ForceXForm:$src)),
3968          (f32 (COPY_TO_REGCLASS (XSCVHPDP (LXSIHZX ForceXForm:$src)), VSSRC))>;
3969def : Pat<(truncstoref16 f32:$src, ForceXForm:$dst),
3970          (STXSIHX (XSCVDPHP (COPY_TO_REGCLASS $src, VSFRC)), ForceXForm:$dst)>;
3971def : Pat<(f64 (f16_to_fp i32:$A)),
3972          (f64 (XSCVHPDP (MTVSRWZ $A)))>;
3973def : Pat<(f32 (f16_to_fp i32:$A)),
3974          (f32 (COPY_TO_REGCLASS (XSCVHPDP (MTVSRWZ $A)), VSSRC))>;
3975def : Pat<(i32 (fp_to_f16 f32:$A)),
3976          (i32 (MFVSRWZ (XSCVDPHP (COPY_TO_REGCLASS $A, VSFRC))))>;
3977def : Pat<(i32 (fp_to_f16 f64:$A)), (i32 (MFVSRWZ (XSCVDPHP $A)))>;
3978
3979// Vector sign extensions
3980def : Pat<(f64 (PPCVexts f64:$A, 1)),
3981          (f64 (COPY_TO_REGCLASS (VEXTSB2Ds $A), VSFRC))>;
3982def : Pat<(f64 (PPCVexts f64:$A, 2)),
3983          (f64 (COPY_TO_REGCLASS (VEXTSH2Ds $A), VSFRC))>;
3984
3985def : Pat<(f64 (extloadf32 DSForm:$src)),
3986          (COPY_TO_REGCLASS (DFLOADf32 DSForm:$src), VSFRC)>;
3987def : Pat<(f32 (fpround (f64 (extloadf32 DSForm:$src)))),
3988          (f32 (DFLOADf32 DSForm:$src))>;
3989
3990def : Pat<(v4f32 (PPCldvsxlh XForm:$src)),
3991          (SUBREG_TO_REG (i64 1), (XFLOADf64 XForm:$src), sub_64)>;
3992def : Pat<(v4f32 (PPCldvsxlh DSForm:$src)),
3993          (SUBREG_TO_REG (i64 1), (DFLOADf64 DSForm:$src), sub_64)>;
3994
3995// Convert (Un)Signed DWord in memory -> QP
3996def : Pat<(f128 (sint_to_fp (i64 (load XForm:$src)))),
3997          (f128 (XSCVSDQP (LXSDX XForm:$src)))>;
3998def : Pat<(f128 (sint_to_fp (i64 (load DSForm:$src)))),
3999          (f128 (XSCVSDQP (LXSD DSForm:$src)))>;
4000def : Pat<(f128 (uint_to_fp (i64 (load XForm:$src)))),
4001          (f128 (XSCVUDQP (LXSDX XForm:$src)))>;
4002def : Pat<(f128 (uint_to_fp (i64 (load DSForm:$src)))),
4003          (f128 (XSCVUDQP (LXSD DSForm:$src)))>;
4004
4005// Convert Unsigned HWord in memory -> QP
4006def : Pat<(f128 (uint_to_fp ScalarLoads.ZELi16)),
4007          (f128 (XSCVUDQP (LXSIHZX XForm:$src)))>;
4008
4009// Convert Unsigned Byte in memory -> QP
4010def : Pat<(f128 (uint_to_fp ScalarLoads.ZELi8)),
4011          (f128 (XSCVUDQP (LXSIBZX ForceXForm:$src)))>;
4012
4013// Truncate & Convert QP -> (Un)Signed (D)Word.
4014def : Pat<(i64 (any_fp_to_sint f128:$src)), (i64 (MFVRD (XSCVQPSDZ $src)))>;
4015def : Pat<(i64 (any_fp_to_uint f128:$src)), (i64 (MFVRD (XSCVQPUDZ $src)))>;
4016def : Pat<(i32 (any_fp_to_sint f128:$src)),
4017          (i32 (MFVSRWZ (COPY_TO_REGCLASS (XSCVQPSWZ $src), VFRC)))>;
4018def : Pat<(i32 (any_fp_to_uint f128:$src)),
4019          (i32 (MFVSRWZ (COPY_TO_REGCLASS (XSCVQPUWZ $src), VFRC)))>;
4020
4021// Instructions for store(fptosi).
4022// The 8-byte version is repeated here due to availability of D-Form STXSD.
4023def : Pat<(PPCstore_scal_int_from_vsr
4024            (f64 (PPCcv_fp_to_sint_in_vsr f128:$src)), XForm:$dst, 8),
4025          (STXSDX (COPY_TO_REGCLASS (XSCVQPSDZ f128:$src), VFRC),
4026                  XForm:$dst)>;
4027def : Pat<(PPCstore_scal_int_from_vsr
4028            (f64 (PPCcv_fp_to_sint_in_vsr f128:$src)), DSForm:$dst, 8),
4029          (STXSD (COPY_TO_REGCLASS (XSCVQPSDZ f128:$src), VFRC),
4030                 DSForm:$dst)>;
4031def : Pat<(PPCstore_scal_int_from_vsr
4032            (f64 (PPCcv_fp_to_sint_in_vsr f128:$src)), ForceXForm:$dst, 4),
4033          (STXSIWX (COPY_TO_REGCLASS (XSCVQPSWZ $src), VFRC), ForceXForm:$dst)>;
4034def : Pat<(PPCstore_scal_int_from_vsr
4035            (f64 (PPCcv_fp_to_sint_in_vsr f128:$src)), ForceXForm:$dst, 2),
4036          (STXSIHX (COPY_TO_REGCLASS (XSCVQPSWZ $src), VFRC), ForceXForm:$dst)>;
4037def : Pat<(PPCstore_scal_int_from_vsr
4038            (f64 (PPCcv_fp_to_sint_in_vsr f128:$src)), ForceXForm:$dst, 1),
4039          (STXSIBX (COPY_TO_REGCLASS (XSCVQPSWZ $src), VFRC), ForceXForm:$dst)>;
4040def : Pat<(PPCstore_scal_int_from_vsr
4041            (f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), XForm:$dst, 8),
4042          (STXSDX (XSCVDPSXDS f64:$src), XForm:$dst)>;
4043def : Pat<(PPCstore_scal_int_from_vsr
4044            (f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), DSForm:$dst, 8),
4045          (STXSD (XSCVDPSXDS f64:$src), DSForm:$dst)>;
4046def : Pat<(PPCstore_scal_int_from_vsr
4047            (f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), ForceXForm:$dst, 2),
4048          (STXSIHX (XSCVDPSXWS f64:$src), ForceXForm:$dst)>;
4049def : Pat<(PPCstore_scal_int_from_vsr
4050            (f64 (PPCcv_fp_to_sint_in_vsr f64:$src)), ForceXForm:$dst, 1),
4051          (STXSIBX (XSCVDPSXWS f64:$src), ForceXForm:$dst)>;
4052
4053// Instructions for store(fptoui).
4054def : Pat<(PPCstore_scal_int_from_vsr
4055            (f64 (PPCcv_fp_to_uint_in_vsr f128:$src)), XForm:$dst, 8),
4056          (STXSDX (COPY_TO_REGCLASS (XSCVQPUDZ f128:$src), VFRC),
4057                  XForm:$dst)>;
4058def : Pat<(PPCstore_scal_int_from_vsr
4059            (f64 (PPCcv_fp_to_uint_in_vsr f128:$src)), DSForm:$dst, 8),
4060          (STXSD (COPY_TO_REGCLASS (XSCVQPUDZ f128:$src), VFRC),
4061                 DSForm:$dst)>;
4062def : Pat<(PPCstore_scal_int_from_vsr
4063            (f64 (PPCcv_fp_to_uint_in_vsr f128:$src)), ForceXForm:$dst, 4),
4064          (STXSIWX (COPY_TO_REGCLASS (XSCVQPUWZ $src), VFRC), ForceXForm:$dst)>;
4065def : Pat<(PPCstore_scal_int_from_vsr
4066            (f64 (PPCcv_fp_to_uint_in_vsr f128:$src)), ForceXForm:$dst, 2),
4067          (STXSIHX (COPY_TO_REGCLASS (XSCVQPUWZ $src), VFRC), ForceXForm:$dst)>;
4068def : Pat<(PPCstore_scal_int_from_vsr
4069            (f64 (PPCcv_fp_to_uint_in_vsr f128:$src)), ForceXForm:$dst, 1),
4070          (STXSIBX (COPY_TO_REGCLASS (XSCVQPUWZ $src), VFRC), ForceXForm:$dst)>;
4071def : Pat<(PPCstore_scal_int_from_vsr
4072            (f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), XForm:$dst, 8),
4073          (STXSDX (XSCVDPUXDS f64:$src), XForm:$dst)>;
4074def : Pat<(PPCstore_scal_int_from_vsr
4075            (f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), DSForm:$dst, 8),
4076          (STXSD (XSCVDPUXDS f64:$src), DSForm:$dst)>;
4077def : Pat<(PPCstore_scal_int_from_vsr
4078            (f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), ForceXForm:$dst, 2),
4079          (STXSIHX (XSCVDPUXWS f64:$src), ForceXForm:$dst)>;
4080def : Pat<(PPCstore_scal_int_from_vsr
4081            (f64 (PPCcv_fp_to_uint_in_vsr f64:$src)), ForceXForm:$dst, 1),
4082          (STXSIBX (XSCVDPUXWS f64:$src), ForceXForm:$dst)>;
4083
4084// Round & Convert QP -> DP/SP
4085def : Pat<(f64 (any_fpround f128:$src)), (f64 (XSCVQPDP $src))>;
4086def : Pat<(f32 (any_fpround f128:$src)), (f32 (XSRSP (XSCVQPDPO $src)))>;
4087
4088// Convert SP -> QP
4089def : Pat<(f128 (any_fpextend f32:$src)),
4090          (f128 (XSCVDPQP (COPY_TO_REGCLASS $src, VFRC)))>;
4091
4092def : Pat<(f32 (PPCxsmaxc f32:$XA, f32:$XB)),
4093          (f32 (COPY_TO_REGCLASS (XSMAXCDP (COPY_TO_REGCLASS $XA, VSSRC),
4094                                           (COPY_TO_REGCLASS $XB, VSSRC)),
4095                                 VSSRC))>;
4096def : Pat<(f32 (PPCxsminc f32:$XA, f32:$XB)),
4097          (f32 (COPY_TO_REGCLASS (XSMINCDP (COPY_TO_REGCLASS $XA, VSSRC),
4098                                           (COPY_TO_REGCLASS $XB, VSSRC)),
4099                                 VSSRC))>;
4100
4101// Endianness-neutral patterns for const splats with ISA 3.0 instructions.
4102defm : ScalToVecWPermute<v4i32, (i32 i32:$A), (MTVSRWS $A),
4103                         (SUBREG_TO_REG (i64 1), (MTVSRWZ $A), sub_64)>;
4104def : Pat<(v4i32 (build_vector i32:$A, i32:$A, i32:$A, i32:$A)),
4105          (v4i32 (MTVSRWS $A))>;
4106def : Pat<(v16i8 (build_vector immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4107                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4108                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4109                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4110                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4111                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4112                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A,
4113                               immNonAllOneAnyExt8:$A, immNonAllOneAnyExt8:$A)),
4114          (v16i8 (COPY_TO_REGCLASS (XXSPLTIB imm:$A), VSRC))>;
4115defm : ScalToVecWPermute<
4116  v4i32, FltToIntLoad.A,
4117  (XVCVSPSXWS (LXVWSX ForceXForm:$A)),
4118  (XVCVSPSXWS (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$A), sub_64))>;
4119defm : ScalToVecWPermute<
4120  v4i32, FltToUIntLoad.A,
4121  (XVCVSPUXWS (LXVWSX ForceXForm:$A)),
4122  (XVCVSPUXWS (SUBREG_TO_REG (i64 1), (LIWZX ForceXForm:$A), sub_64))>;
4123defm : ScalToVecWPermute<
4124  v4i32, DblToIntLoadP9.A,
4125  (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPSXWS (DFLOADf64 DSForm:$A)), sub_64), 1),
4126  (SUBREG_TO_REG (i64 1), (XSCVDPSXWS (DFLOADf64 DSForm:$A)), sub_64)>;
4127defm : ScalToVecWPermute<
4128  v4i32, DblToUIntLoadP9.A,
4129  (XXSPLTW (SUBREG_TO_REG (i64 1), (XSCVDPUXWS (DFLOADf64 DSForm:$A)), sub_64), 1),
4130  (SUBREG_TO_REG (i64 1), (XSCVDPUXWS (DFLOADf64 DSForm:$A)), sub_64)>;
4131defm : ScalToVecWPermute<
4132  v2i64, FltToLongLoadP9.A,
4133  (XXPERMDIs (XSCVDPSXDS (COPY_TO_REGCLASS (DFLOADf32 DSForm:$A), VSFRC)), 0),
4134  (SUBREG_TO_REG
4135     (i64 1),
4136     (XSCVDPSXDS (COPY_TO_REGCLASS (DFLOADf32 DSForm:$A), VSFRC)), sub_64)>;
4137defm : ScalToVecWPermute<
4138  v2i64, FltToULongLoadP9.A,
4139  (XXPERMDIs (XSCVDPUXDS (COPY_TO_REGCLASS (DFLOADf32 DSForm:$A), VSFRC)), 0),
4140  (SUBREG_TO_REG
4141     (i64 1),
4142     (XSCVDPUXDS (COPY_TO_REGCLASS (DFLOADf32 DSForm:$A), VSFRC)), sub_64)>;
4143def : Pat<(v4f32 (PPCldsplat ForceXForm:$A)),
4144          (v4f32 (LXVWSX ForceXForm:$A))>;
4145def : Pat<(v4i32 (PPCldsplat ForceXForm:$A)),
4146          (v4i32 (LXVWSX ForceXForm:$A))>;
4147def : Pat<(v8i16 (PPCldsplat ForceXForm:$A)),
4148          (v8i16 (VSPLTHs 3, (LXSIHZX ForceXForm:$A)))>;
4149def : Pat<(v16i8 (PPCldsplat ForceXForm:$A)),
4150          (v16i8 (VSPLTBs 7, (LXSIBZX ForceXForm:$A)))>;
4151} // HasVSX, HasP9Vector
4152
4153// Any Power9 VSX subtarget with equivalent length but better Power10 VSX
4154// patterns.
4155// Two identical blocks are required due to the slightly different predicates:
4156// One without P10 instructions, the other is BigEndian only with P10 instructions.
4157let Predicates = [HasVSX, HasP9Vector, NoP10Vector] in {
4158// Little endian Power10 subtargets produce a shorter pattern but require a
4159// COPY_TO_REGCLASS. The COPY_TO_REGCLASS makes it appear to need two instructions
4160// to perform the operation, when only one instruction is produced in practice.
4161// The NoP10Vector predicate excludes these patterns from Power10 VSX subtargets.
4162defm : ScalToVecWPermute<
4163  v16i8, ScalarLoads.Li8,
4164  (VSPLTBs 7, (LXSIBZX ForceXForm:$src)),
4165  (SUBREG_TO_REG (i64 1), (LXSIBZX ForceXForm:$src), sub_64)>;
4166// Build vectors from i16 loads
4167defm : ScalToVecWPermute<
4168  v8i16, ScalarLoads.Li16,
4169  (VSPLTHs 3, (LXSIHZX ForceXForm:$src)),
4170  (SUBREG_TO_REG (i64 1), (LXSIHZX ForceXForm:$src), sub_64)>;
4171} // HasVSX, HasP9Vector, NoP10Vector
4172
4173// Any big endian Power9 VSX subtarget
4174let Predicates = [HasVSX, HasP9Vector, IsBigEndian] in {
4175// Power10 VSX subtargets produce a shorter pattern for little endian targets
4176// but this is still the best pattern for Power9 and Power10 VSX big endian
4177// Build vectors from i8 loads
4178defm : ScalToVecWPermute<
4179  v16i8, ScalarLoads.Li8,
4180  (VSPLTBs 7, (LXSIBZX ForceXForm:$src)),
4181  (SUBREG_TO_REG (i64 1), (LXSIBZX ForceXForm:$src), sub_64)>;
4182// Build vectors from i16 loads
4183defm : ScalToVecWPermute<
4184  v8i16, ScalarLoads.Li16,
4185  (VSPLTHs 3, (LXSIHZX ForceXForm:$src)),
4186  (SUBREG_TO_REG (i64 1), (LXSIHZX ForceXForm:$src), sub_64)>;
4187
4188def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 0)))))),
4189          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 0)))>;
4190def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 1)))))),
4191          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 4)))>;
4192def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 2)))))),
4193          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 8)))>;
4194def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 3)))))),
4195          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 12)))>;
4196def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 0)))))),
4197          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 0)))>;
4198def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 1)))))),
4199          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 4)))>;
4200def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 2)))))),
4201          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 8)))>;
4202def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 3)))))),
4203          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 12)))>;
4204def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 0)),
4205          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 0))>;
4206def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 0)),
4207          (v4i32 (XXINSERTW v4i32:$A,
4208                            (SUBREG_TO_REG (i64 1),
4209                                           (XSCVDPSXWS f64:$B), sub_64),
4210                            0))>;
4211def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 0)),
4212          (v4i32 (XXINSERTW v4i32:$A,
4213                            (SUBREG_TO_REG (i64 1),
4214                                           (XSCVDPUXWS f64:$B), sub_64),
4215                            0))>;
4216def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 1)),
4217          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 4))>;
4218def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 1)),
4219          (v4i32 (XXINSERTW v4i32:$A,
4220                            (SUBREG_TO_REG (i64 1),
4221                                           (XSCVDPSXWS f64:$B), sub_64),
4222                            4))>;
4223def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 1)),
4224          (v4i32 (XXINSERTW v4i32:$A,
4225                            (SUBREG_TO_REG (i64 1),
4226                                           (XSCVDPUXWS f64:$B), sub_64),
4227                            4))>;
4228def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 2)),
4229          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 8))>;
4230def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 2)),
4231          (v4i32 (XXINSERTW v4i32:$A,
4232                            (SUBREG_TO_REG (i64 1),
4233                                           (XSCVDPSXWS f64:$B), sub_64),
4234                            8))>;
4235def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 2)),
4236          (v4i32 (XXINSERTW v4i32:$A,
4237                            (SUBREG_TO_REG (i64 1),
4238                                           (XSCVDPUXWS f64:$B), sub_64),
4239                            8))>;
4240def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 3)),
4241          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 12))>;
4242def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 3)),
4243          (v4i32 (XXINSERTW v4i32:$A,
4244                            (SUBREG_TO_REG (i64 1),
4245                                           (XSCVDPSXWS f64:$B), sub_64),
4246                            12))>;
4247def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 3)),
4248          (v4i32 (XXINSERTW v4i32:$A,
4249                            (SUBREG_TO_REG (i64 1),
4250                                           (XSCVDPUXWS f64:$B), sub_64),
4251                            12))>;
4252def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 0)),
4253          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 0))>;
4254def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 1)),
4255          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 4))>;
4256def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 2)),
4257          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 8))>;
4258def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 3)),
4259          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 12))>;
4260
4261def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 0)),
4262          (v4f32 (XXINSERTW v4f32:$A,
4263                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 0))>;
4264def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 1)),
4265          (v4f32 (XXINSERTW v4f32:$A,
4266                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 4))>;
4267def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 2)),
4268          (v4f32 (XXINSERTW v4f32:$A,
4269                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 8))>;
4270def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 3)),
4271          (v4f32 (XXINSERTW v4f32:$A,
4272                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 12))>;
4273
4274// Scalar stores of i8
4275def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 0)), ForceXForm:$dst),
4276          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 9)), VSRC), ForceXForm:$dst)>;
4277def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 1)), ForceXForm:$dst),
4278          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 10)), VSRC), ForceXForm:$dst)>;
4279def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 2)), ForceXForm:$dst),
4280          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 11)), VSRC), ForceXForm:$dst)>;
4281def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 3)), ForceXForm:$dst),
4282          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 12)), VSRC), ForceXForm:$dst)>;
4283def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 4)), ForceXForm:$dst),
4284          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 13)), VSRC), ForceXForm:$dst)>;
4285def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 5)), ForceXForm:$dst),
4286          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 14)), VSRC), ForceXForm:$dst)>;
4287def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 6)), ForceXForm:$dst),
4288          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 15)), VSRC), ForceXForm:$dst)>;
4289def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 7)), ForceXForm:$dst),
4290          (STXSIBXv (COPY_TO_REGCLASS $S, VSRC), ForceXForm:$dst)>;
4291def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 8)), ForceXForm:$dst),
4292          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 1)), VSRC), ForceXForm:$dst)>;
4293def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 9)), ForceXForm:$dst),
4294          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 2)), VSRC), ForceXForm:$dst)>;
4295def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 10)), ForceXForm:$dst),
4296          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 3)), VSRC), ForceXForm:$dst)>;
4297def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 11)), ForceXForm:$dst),
4298          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 4)), VSRC), ForceXForm:$dst)>;
4299def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 12)), ForceXForm:$dst),
4300          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 5)), VSRC), ForceXForm:$dst)>;
4301def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 13)), ForceXForm:$dst),
4302          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 6)), VSRC), ForceXForm:$dst)>;
4303def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 14)), ForceXForm:$dst),
4304          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 7)), VSRC), ForceXForm:$dst)>;
4305def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 15)), ForceXForm:$dst),
4306          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 8)), VSRC), ForceXForm:$dst)>;
4307
4308// Scalar stores of i16
4309def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 0)), ForceXForm:$dst),
4310          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 10)), VSRC), ForceXForm:$dst)>;
4311def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 1)), ForceXForm:$dst),
4312          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 12)), VSRC), ForceXForm:$dst)>;
4313def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 2)), ForceXForm:$dst),
4314          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 14)), VSRC), ForceXForm:$dst)>;
4315def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 3)), ForceXForm:$dst),
4316          (STXSIHXv (COPY_TO_REGCLASS $S, VSRC), ForceXForm:$dst)>;
4317def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 4)), ForceXForm:$dst),
4318          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 2)), VSRC), ForceXForm:$dst)>;
4319def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 5)), ForceXForm:$dst),
4320          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 4)), VSRC), ForceXForm:$dst)>;
4321def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 6)), ForceXForm:$dst),
4322          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 6)), VSRC), ForceXForm:$dst)>;
4323def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 7)), ForceXForm:$dst),
4324          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 8)), VSRC), ForceXForm:$dst)>;
4325} // HasVSX, HasP9Vector, IsBigEndian
4326
4327// Big endian 64Bit Power9 subtarget.
4328let Predicates = [HasVSX, HasP9Vector, IsBigEndian, IsPPC64] in {
4329def : Pat<(v2i64 (scalar_to_vector (i64 (load DSForm:$src)))),
4330          (v2i64 (SUBREG_TO_REG (i64 1), (DFLOADf64 DSForm:$src), sub_64))>;
4331def : Pat<(v2i64 (scalar_to_vector (i64 (load XForm:$src)))),
4332          (v2i64 (SUBREG_TO_REG (i64 1), (XFLOADf64 XForm:$src), sub_64))>;
4333
4334def : Pat<(v2f64 (scalar_to_vector (f64 (load DSForm:$src)))),
4335          (v2f64 (SUBREG_TO_REG (i64 1), (DFLOADf64 DSForm:$src), sub_64))>;
4336def : Pat<(v2f64 (scalar_to_vector (f64 (load XForm:$src)))),
4337          (v2f64 (SUBREG_TO_REG (i64 1), (XFLOADf64 XForm:$src), sub_64))>;
4338def : Pat<(store (i64 (extractelt v2i64:$A, 1)), XForm:$src),
4339          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4340                       sub_64), XForm:$src)>;
4341def : Pat<(store (f64 (extractelt v2f64:$A, 1)), XForm:$src),
4342          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4343                       sub_64), XForm:$src)>;
4344def : Pat<(store (i64 (extractelt v2i64:$A, 0)), XForm:$src),
4345          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), XForm:$src)>;
4346def : Pat<(store (f64 (extractelt v2f64:$A, 0)), XForm:$src),
4347          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), XForm:$src)>;
4348def : Pat<(store (i64 (extractelt v2i64:$A, 1)), DSForm:$src),
4349          (DFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4350                       sub_64), DSForm:$src)>;
4351def : Pat<(store (f64 (extractelt v2f64:$A, 1)), DSForm:$src),
4352          (DFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4353                       sub_64), DSForm:$src)>;
4354def : Pat<(store (i64 (extractelt v2i64:$A, 0)), DSForm:$src),
4355          (DFSTOREf64 (EXTRACT_SUBREG $A, sub_64), DSForm:$src)>;
4356def : Pat<(store (f64 (extractelt v2f64:$A, 0)), DSForm:$src),
4357          (DFSTOREf64 (EXTRACT_SUBREG $A, sub_64), DSForm:$src)>;
4358
4359// (Un)Signed DWord vector extract -> QP
4360def : Pat<(f128 (sint_to_fp (i64 (extractelt v2i64:$src, 0)))),
4361          (f128 (XSCVSDQP (COPY_TO_REGCLASS $src, VFRC)))>;
4362def : Pat<(f128 (sint_to_fp (i64 (extractelt v2i64:$src, 1)))),
4363          (f128 (XSCVSDQP
4364                  (EXTRACT_SUBREG (XXPERMDI $src, $src, 3), sub_64)))>;
4365def : Pat<(f128 (uint_to_fp (i64 (extractelt v2i64:$src, 0)))),
4366          (f128 (XSCVUDQP (COPY_TO_REGCLASS $src, VFRC)))>;
4367def : Pat<(f128 (uint_to_fp (i64 (extractelt v2i64:$src, 1)))),
4368          (f128 (XSCVUDQP
4369                  (EXTRACT_SUBREG (XXPERMDI $src, $src, 3), sub_64)))>;
4370
4371// (Un)Signed Word vector extract -> QP
4372def : Pat<(f128 (sint_to_fp (i32 (extractelt v4i32:$src, 1)))),
4373          (f128 (XSCVSDQP (EXTRACT_SUBREG (VEXTSW2D $src), sub_64)))>;
4374foreach Idx = [0,2,3] in {
4375  def : Pat<(f128 (sint_to_fp (i32 (extractelt v4i32:$src, Idx)))),
4376            (f128 (XSCVSDQP (EXTRACT_SUBREG
4377                            (VEXTSW2D (VSPLTW Idx, $src)), sub_64)))>;
4378}
4379foreach Idx = 0-3 in {
4380  def : Pat<(f128 (uint_to_fp (i32 (extractelt v4i32:$src, Idx)))),
4381            (f128 (XSCVUDQP (XXEXTRACTUW $src, !shl(Idx, 2))))>;
4382}
4383
4384// (Un)Signed HWord vector extract -> QP/DP/SP
4385foreach Idx = 0-7 in {
4386  def : Pat<(f128 (sint_to_fp
4387                    (i32 (sext_inreg
4388                           (vector_extract v8i16:$src, Idx), i16)))),
4389          (f128 (XSCVSDQP (EXTRACT_SUBREG
4390                            (VEXTSH2D (VEXTRACTUH !add(Idx, Idx), $src)),
4391                            sub_64)))>;
4392  // The SDAG adds the `and` since an `i16` is being extracted as an `i32`.
4393  def : Pat<(f128 (uint_to_fp
4394                    (and (i32 (vector_extract v8i16:$src, Idx)), 65535))),
4395            (f128 (XSCVUDQP (EXTRACT_SUBREG
4396                              (VEXTRACTUH !add(Idx, Idx), $src), sub_64)))>;
4397  def : Pat<(f32 (PPCfcfidus
4398                   (f64 (PPCmtvsrz (and (i32 (vector_extract v8i16:$src, Idx)),
4399                                        65535))))),
4400            (f32 (XSCVUXDSP (EXTRACT_SUBREG
4401                              (VEXTRACTUH !add(Idx, Idx), $src), sub_64)))>;
4402  def : Pat<(f32 (PPCfcfids
4403                   (f64 (PPCmtvsra
4404                          (i32 (sext_inreg (vector_extract v8i16:$src, Idx),
4405                               i16)))))),
4406          (f32 (XSCVSXDSP (EXTRACT_SUBREG
4407                            (VEXTSH2D (VEXTRACTUH !add(Idx, Idx), $src)),
4408                            sub_64)))>;
4409  def : Pat<(f64 (PPCfcfidu
4410                   (f64 (PPCmtvsrz
4411                          (and (i32 (vector_extract v8i16:$src, Idx)),
4412                               65535))))),
4413            (f64 (XSCVUXDDP (EXTRACT_SUBREG
4414                              (VEXTRACTUH !add(Idx, Idx), $src), sub_64)))>;
4415  def : Pat<(f64 (PPCfcfid
4416                   (f64 (PPCmtvsra
4417                          (i32 (sext_inreg (vector_extract v8i16:$src, Idx),
4418                               i16)))))),
4419          (f64 (XSCVSXDDP (EXTRACT_SUBREG
4420                            (VEXTSH2D (VEXTRACTUH !add(Idx, Idx), $src)),
4421                            sub_64)))>;
4422}
4423
4424// (Un)Signed Byte vector extract -> QP
4425foreach Idx = 0-15 in {
4426  def : Pat<(f128 (sint_to_fp
4427                    (i32 (sext_inreg (vector_extract v16i8:$src, Idx),
4428                                     i8)))),
4429            (f128 (XSCVSDQP (EXTRACT_SUBREG
4430                              (VEXTSB2D (VEXTRACTUB Idx, $src)), sub_64)))>;
4431  def : Pat<(f128 (uint_to_fp
4432                    (and (i32 (vector_extract v16i8:$src, Idx)), 255))),
4433            (f128 (XSCVUDQP
4434                    (EXTRACT_SUBREG (VEXTRACTUB Idx, $src), sub_64)))>;
4435
4436  def : Pat<(f32 (PPCfcfidus
4437                   (f64 (PPCmtvsrz
4438                          (and (i32 (vector_extract v16i8:$src, Idx)),
4439                               255))))),
4440            (f32 (XSCVUXDSP (EXTRACT_SUBREG
4441                              (VEXTRACTUB !add(Idx, Idx), $src), sub_64)))>;
4442  def : Pat<(f32 (PPCfcfids
4443                   (f64 (PPCmtvsra
4444                          (i32 (sext_inreg (vector_extract v16i8:$src, Idx),
4445                               i8)))))),
4446          (f32 (XSCVSXDSP (EXTRACT_SUBREG
4447                            (VEXTSH2D (VEXTRACTUB !add(Idx, Idx), $src)),
4448                            sub_64)))>;
4449  def : Pat<(f64 (PPCfcfidu
4450                   (f64 (PPCmtvsrz
4451                          (and (i32 (vector_extract v16i8:$src, Idx)),
4452                          255))))),
4453            (f64 (XSCVUXDDP (EXTRACT_SUBREG
4454                              (VEXTRACTUB !add(Idx, Idx), $src), sub_64)))>;
4455  def : Pat<(f64 (PPCfcfid
4456                   (f64 (PPCmtvsra
4457                          (i32 (sext_inreg (vector_extract v16i8:$src, Idx),
4458                               i8)))))),
4459          (f64 (XSCVSXDDP (EXTRACT_SUBREG
4460                            (VEXTSH2D (VEXTRACTUB !add(Idx, Idx), $src)),
4461                            sub_64)))>;
4462}
4463
4464// Unsiged int in vsx register -> QP
4465def : Pat<(f128 (uint_to_fp (i32 (PPCmfvsr f64:$src)))),
4466          (f128 (XSCVUDQP
4467                  (XXEXTRACTUW (SUBREG_TO_REG (i64 1), $src, sub_64), 4)))>;
4468} // HasVSX, HasP9Vector, IsBigEndian, IsPPC64
4469
4470// Little endian Power9 subtarget.
4471let Predicates = [HasVSX, HasP9Vector, IsLittleEndian] in {
4472def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 0)))))),
4473          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 12)))>;
4474def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 1)))))),
4475          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 8)))>;
4476def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 2)))))),
4477          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 4)))>;
4478def : Pat<(f32 (PPCfcfidus (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 3)))))),
4479          (f32 (XSCVUXDSP (XXEXTRACTUW $A, 0)))>;
4480def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 0)))))),
4481          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 12)))>;
4482def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 1)))))),
4483          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 8)))>;
4484def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 2)))))),
4485          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 4)))>;
4486def : Pat<(f64 (PPCfcfidu (f64 (PPCmtvsrz (i32 (extractelt v4i32:$A, 3)))))),
4487          (f64 (XSCVUXDDP (XXEXTRACTUW $A, 0)))>;
4488def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 0)),
4489          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 12))>;
4490def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 0)),
4491          (v4i32 (XXINSERTW v4i32:$A,
4492                            (SUBREG_TO_REG (i64 1),
4493                                           (XSCVDPSXWS f64:$B), sub_64),
4494                            12))>;
4495def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 0)),
4496          (v4i32 (XXINSERTW v4i32:$A,
4497                            (SUBREG_TO_REG (i64 1),
4498                                           (XSCVDPUXWS f64:$B), sub_64),
4499                            12))>;
4500def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 1)),
4501          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 8))>;
4502def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 1)),
4503          (v4i32 (XXINSERTW v4i32:$A,
4504                            (SUBREG_TO_REG (i64 1),
4505                                           (XSCVDPSXWS f64:$B), sub_64),
4506                            8))>;
4507def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 1)),
4508          (v4i32 (XXINSERTW v4i32:$A,
4509                            (SUBREG_TO_REG (i64 1),
4510                                           (XSCVDPUXWS f64:$B), sub_64),
4511                            8))>;
4512def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 2)),
4513          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 4))>;
4514def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 2)),
4515          (v4i32 (XXINSERTW v4i32:$A,
4516                            (SUBREG_TO_REG (i64 1),
4517                                           (XSCVDPSXWS f64:$B), sub_64),
4518                            4))>;
4519def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 2)),
4520          (v4i32 (XXINSERTW v4i32:$A,
4521                            (SUBREG_TO_REG (i64 1),
4522                                           (XSCVDPUXWS f64:$B), sub_64),
4523                            4))>;
4524def : Pat<(v4i32 (insertelt v4i32:$A, i32:$B, 3)),
4525          (v4i32 (XXINSERTW v4i32:$A, AlignValues.I32_TO_BE_WORD1, 0))>;
4526def : Pat<(v4i32 (insertelt v4i32:$A, DblToInt.B, 3)),
4527          (v4i32 (XXINSERTW v4i32:$A,
4528                            (SUBREG_TO_REG (i64 1),
4529                                           (XSCVDPSXWS f64:$B), sub_64),
4530                            0))>;
4531def : Pat<(v4i32 (insertelt v4i32:$A, DblToUInt.B, 3)),
4532          (v4i32 (XXINSERTW v4i32:$A,
4533                            (SUBREG_TO_REG (i64 1),
4534                                           (XSCVDPUXWS f64:$B), sub_64),
4535                            0))>;
4536def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 0)),
4537          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 12))>;
4538def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 1)),
4539          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 8))>;
4540def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 2)),
4541          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 4))>;
4542def : Pat<(v4f32 (insertelt v4f32:$A, f32:$B, 3)),
4543          (v4f32 (XXINSERTW v4f32:$A, AlignValues.F32_TO_BE_WORD1, 0))>;
4544
4545def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 0)),
4546          (v4f32 (XXINSERTW v4f32:$A,
4547                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 12))>;
4548def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 1)),
4549          (v4f32 (XXINSERTW v4f32:$A,
4550                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 8))>;
4551def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 2)),
4552          (v4f32 (XXINSERTW v4f32:$A,
4553                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 4))>;
4554def : Pat<(v4f32 (insertelt v4f32:$A, (f32 (fpround f64:$B)), 3)),
4555          (v4f32 (XXINSERTW v4f32:$A,
4556                  (SUBREG_TO_REG (i64 1), (XSCVDPSP f64:$B), sub_64), 0))>;
4557
4558def : Pat<(v8i16 (PPCld_vec_be ForceXForm:$src)),
4559          (COPY_TO_REGCLASS (LXVH8X ForceXForm:$src), VRRC)>;
4560def : Pat<(PPCst_vec_be v8i16:$rS, ForceXForm:$dst),
4561          (STXVH8X (COPY_TO_REGCLASS $rS, VSRC), ForceXForm:$dst)>;
4562
4563def : Pat<(v16i8 (PPCld_vec_be ForceXForm:$src)),
4564          (COPY_TO_REGCLASS (LXVB16X ForceXForm:$src), VRRC)>;
4565def : Pat<(PPCst_vec_be v16i8:$rS, ForceXForm:$dst),
4566          (STXVB16X (COPY_TO_REGCLASS $rS, VSRC), ForceXForm:$dst)>;
4567
4568// Scalar stores of i8
4569def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 0)), ForceXForm:$dst),
4570          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 8)), VSRC), ForceXForm:$dst)>;
4571def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 1)), ForceXForm:$dst),
4572          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 7)), VSRC), ForceXForm:$dst)>;
4573def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 2)), ForceXForm:$dst),
4574          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 6)), VSRC), ForceXForm:$dst)>;
4575def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 3)), ForceXForm:$dst),
4576          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 5)), VSRC), ForceXForm:$dst)>;
4577def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 4)), ForceXForm:$dst),
4578          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 4)), VSRC), ForceXForm:$dst)>;
4579def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 5)), ForceXForm:$dst),
4580          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 3)), VSRC), ForceXForm:$dst)>;
4581def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 6)), ForceXForm:$dst),
4582          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 2)), VSRC), ForceXForm:$dst)>;
4583def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 7)), ForceXForm:$dst),
4584          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 1)), VSRC), ForceXForm:$dst)>;
4585def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 8)), ForceXForm:$dst),
4586          (STXSIBXv (COPY_TO_REGCLASS $S, VSRC), ForceXForm:$dst)>;
4587def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 9)), ForceXForm:$dst),
4588          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 15)), VSRC), ForceXForm:$dst)>;
4589def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 10)), ForceXForm:$dst),
4590          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 14)), VSRC), ForceXForm:$dst)>;
4591def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 11)), ForceXForm:$dst),
4592          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 13)), VSRC), ForceXForm:$dst)>;
4593def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 12)), ForceXForm:$dst),
4594          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 12)), VSRC), ForceXForm:$dst)>;
4595def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 13)), ForceXForm:$dst),
4596          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 11)), VSRC), ForceXForm:$dst)>;
4597def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 14)), ForceXForm:$dst),
4598          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 10)), VSRC), ForceXForm:$dst)>;
4599def : Pat<(truncstorei8 (i32 (vector_extract v16i8:$S, 15)), ForceXForm:$dst),
4600          (STXSIBXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 9)), VSRC), ForceXForm:$dst)>;
4601
4602// Scalar stores of i16
4603def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 0)), ForceXForm:$dst),
4604          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 8)), VSRC), ForceXForm:$dst)>;
4605def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 1)), ForceXForm:$dst),
4606          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 6)), VSRC), ForceXForm:$dst)>;
4607def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 2)), ForceXForm:$dst),
4608          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 4)), VSRC), ForceXForm:$dst)>;
4609def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 3)), ForceXForm:$dst),
4610          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 2)), VSRC), ForceXForm:$dst)>;
4611def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 4)), ForceXForm:$dst),
4612          (STXSIHXv (COPY_TO_REGCLASS $S, VSRC), ForceXForm:$dst)>;
4613def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 5)), ForceXForm:$dst),
4614          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 14)), VSRC), ForceXForm:$dst)>;
4615def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 6)), ForceXForm:$dst),
4616          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 12)), VSRC), ForceXForm:$dst)>;
4617def : Pat<(truncstorei16 (i32 (vector_extract v8i16:$S, 7)), ForceXForm:$dst),
4618          (STXSIHXv (COPY_TO_REGCLASS (v16i8 (VSLDOI $S, $S, 10)), VSRC), ForceXForm:$dst)>;
4619
4620defm : ScalToVecWPermute<
4621  v2i64, (i64 (load DSForm:$src)),
4622  (XXPERMDIs (DFLOADf64 DSForm:$src), 2),
4623  (SUBREG_TO_REG (i64 1), (DFLOADf64 DSForm:$src), sub_64)>;
4624defm : ScalToVecWPermute<
4625  v2i64, (i64 (load XForm:$src)),
4626  (XXPERMDIs (XFLOADf64 XForm:$src), 2),
4627  (SUBREG_TO_REG (i64 1), (XFLOADf64 XForm:$src), sub_64)>;
4628defm : ScalToVecWPermute<
4629  v2f64, (f64 (load DSForm:$src)),
4630  (XXPERMDIs (DFLOADf64 DSForm:$src), 2),
4631  (SUBREG_TO_REG (i64 1), (DFLOADf64 DSForm:$src), sub_64)>;
4632defm : ScalToVecWPermute<
4633  v2f64, (f64 (load XForm:$src)),
4634  (XXPERMDIs (XFLOADf64 XForm:$src), 2),
4635  (SUBREG_TO_REG (i64 1), (XFLOADf64 XForm:$src), sub_64)>;
4636
4637def : Pat<(store (i64 (extractelt v2i64:$A, 0)), XForm:$src),
4638          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4639                       sub_64), XForm:$src)>;
4640def : Pat<(store (f64 (extractelt v2f64:$A, 0)), XForm:$src),
4641          (XFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4642                       sub_64), XForm:$src)>;
4643def : Pat<(store (i64 (extractelt v2i64:$A, 1)), XForm:$src),
4644          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), XForm:$src)>;
4645def : Pat<(store (f64 (extractelt v2f64:$A, 1)), XForm:$src),
4646          (XFSTOREf64 (EXTRACT_SUBREG $A, sub_64), XForm:$src)>;
4647def : Pat<(store (i64 (extractelt v2i64:$A, 0)), DSForm:$src),
4648          (DFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2),
4649                       sub_64), DSForm:$src)>;
4650def : Pat<(store (f64 (extractelt v2f64:$A, 0)), DSForm:$src),
4651          (DFSTOREf64 (EXTRACT_SUBREG (XXPERMDI $A, $A, 2), sub_64),
4652                      DSForm:$src)>;
4653def : Pat<(store (i64 (extractelt v2i64:$A, 1)), DSForm:$src),
4654          (DFSTOREf64 (EXTRACT_SUBREG $A, sub_64), DSForm:$src)>;
4655def : Pat<(store (f64 (extractelt v2f64:$A, 1)), DSForm:$src),
4656          (DFSTOREf64 (EXTRACT_SUBREG $A, sub_64), DSForm:$src)>;
4657
4658// (Un)Signed DWord vector extract -> QP
4659def : Pat<(f128 (sint_to_fp (i64 (extractelt v2i64:$src, 0)))),
4660          (f128 (XSCVSDQP
4661                  (EXTRACT_SUBREG (XXPERMDI $src, $src, 3), sub_64)))>;
4662def : Pat<(f128 (sint_to_fp (i64 (extractelt v2i64:$src, 1)))),
4663          (f128 (XSCVSDQP (COPY_TO_REGCLASS $src, VFRC)))>;
4664def : Pat<(f128 (uint_to_fp (i64 (extractelt v2i64:$src, 0)))),
4665          (f128 (XSCVUDQP
4666                  (EXTRACT_SUBREG (XXPERMDI $src, $src, 3), sub_64)))>;
4667def : Pat<(f128 (uint_to_fp (i64 (extractelt v2i64:$src, 1)))),
4668          (f128 (XSCVUDQP (COPY_TO_REGCLASS $src, VFRC)))>;
4669
4670// (Un)Signed Word vector extract -> QP
4671foreach Idx = [[0,3],[1,2],[3,0]] in {
4672  def : Pat<(f128 (sint_to_fp (i32 (extractelt v4i32:$src, !head(Idx))))),
4673            (f128 (XSCVSDQP (EXTRACT_SUBREG
4674                              (VEXTSW2D (VSPLTW !head(!tail(Idx)), $src)),
4675                              sub_64)))>;
4676}
4677def : Pat<(f128 (sint_to_fp (i32 (extractelt v4i32:$src, 2)))),
4678          (f128 (XSCVSDQP (EXTRACT_SUBREG (VEXTSW2D $src), sub_64)))>;
4679
4680foreach Idx = [[0,12],[1,8],[2,4],[3,0]] in {
4681  def : Pat<(f128 (uint_to_fp (i32 (extractelt v4i32:$src, !head(Idx))))),
4682            (f128 (XSCVUDQP (XXEXTRACTUW $src, !head(!tail(Idx)))))>;
4683}
4684
4685// (Un)Signed HWord vector extract -> QP/DP/SP
4686// The Nested foreach lists identifies the vector element and corresponding
4687// register byte location.
4688foreach Idx = [[0,14],[1,12],[2,10],[3,8],[4,6],[5,4],[6,2],[7,0]] in {
4689  def : Pat<(f128 (sint_to_fp
4690                    (i32 (sext_inreg
4691                           (vector_extract v8i16:$src, !head(Idx)), i16)))),
4692            (f128 (XSCVSDQP
4693                    (EXTRACT_SUBREG (VEXTSH2D
4694                                      (VEXTRACTUH !head(!tail(Idx)), $src)),
4695                                    sub_64)))>;
4696  def : Pat<(f128 (uint_to_fp
4697                    (and (i32 (vector_extract v8i16:$src, !head(Idx))),
4698                         65535))),
4699            (f128 (XSCVUDQP (EXTRACT_SUBREG
4700                              (VEXTRACTUH !head(!tail(Idx)), $src), sub_64)))>;
4701  def : Pat<(f32 (PPCfcfidus
4702                   (f64 (PPCmtvsrz
4703                          (and (i32 (vector_extract v8i16:$src, !head(Idx))),
4704                          65535))))),
4705            (f32 (XSCVUXDSP (EXTRACT_SUBREG
4706                              (VEXTRACTUH !head(!tail(Idx)), $src), sub_64)))>;
4707  def : Pat<(f32 (PPCfcfids
4708                   (f64 (PPCmtvsra
4709                          (i32 (sext_inreg (vector_extract v8i16:$src,
4710                                           !head(Idx)), i16)))))),
4711            (f32 (XSCVSXDSP
4712                    (EXTRACT_SUBREG
4713                     (VEXTSH2D (VEXTRACTUH !head(!tail(Idx)), $src)),
4714                     sub_64)))>;
4715  def : Pat<(f64 (PPCfcfidu
4716                   (f64 (PPCmtvsrz
4717                          (and (i32 (vector_extract v8i16:$src, !head(Idx))),
4718                          65535))))),
4719            (f64 (XSCVUXDDP (EXTRACT_SUBREG
4720                              (VEXTRACTUH !head(!tail(Idx)), $src), sub_64)))>;
4721  def : Pat<(f64 (PPCfcfid
4722                   (f64 (PPCmtvsra
4723                        (i32 (sext_inreg
4724                            (vector_extract v8i16:$src, !head(Idx)), i16)))))),
4725            (f64 (XSCVSXDDP
4726                    (EXTRACT_SUBREG (VEXTSH2D
4727                                      (VEXTRACTUH !head(!tail(Idx)), $src)),
4728                                    sub_64)))>;
4729}
4730
4731// (Un)Signed Byte vector extract -> QP/DP/SP
4732foreach Idx = [[0,15],[1,14],[2,13],[3,12],[4,11],[5,10],[6,9],[7,8],[8,7],
4733               [9,6],[10,5],[11,4],[12,3],[13,2],[14,1],[15,0]] in {
4734  def : Pat<(f128 (sint_to_fp
4735                    (i32 (sext_inreg
4736                           (vector_extract v16i8:$src, !head(Idx)), i8)))),
4737            (f128 (XSCVSDQP
4738                    (EXTRACT_SUBREG
4739                      (VEXTSB2D (VEXTRACTUB !head(!tail(Idx)), $src)),
4740                      sub_64)))>;
4741  def : Pat<(f128 (uint_to_fp
4742                    (and (i32 (vector_extract v16i8:$src, !head(Idx))),
4743                         255))),
4744            (f128 (XSCVUDQP
4745                    (EXTRACT_SUBREG
4746                      (VEXTRACTUB !head(!tail(Idx)), $src), sub_64)))>;
4747
4748  def : Pat<(f32 (PPCfcfidus
4749                   (f64 (PPCmtvsrz
4750                          (and (i32 (vector_extract v16i8:$src, !head(Idx))),
4751                          255))))),
4752            (f32 (XSCVUXDSP (EXTRACT_SUBREG
4753                              (VEXTRACTUB !head(!tail(Idx)), $src), sub_64)))>;
4754  def : Pat<(f32 (PPCfcfids
4755                   (f64 (PPCmtvsra
4756                          (i32 (sext_inreg
4757                            (vector_extract v16i8:$src, !head(Idx)), i8)))))),
4758            (f32 (XSCVSXDSP
4759                    (EXTRACT_SUBREG (VEXTSH2D
4760                                      (VEXTRACTUB !head(!tail(Idx)), $src)),
4761                                    sub_64)))>;
4762  def : Pat<(f64 (PPCfcfidu
4763                   (f64 (PPCmtvsrz
4764                          (and (i32
4765                            (vector_extract v16i8:$src, !head(Idx))), 255))))),
4766            (f64 (XSCVUXDDP (EXTRACT_SUBREG
4767                              (VEXTRACTUB !head(!tail(Idx)), $src), sub_64)))>;
4768  def : Pat<(f64 (PPCfcfidu
4769                   (f64 (PPCmtvsra
4770                        (i32 (sext_inreg
4771                            (vector_extract v16i8:$src, !head(Idx)), i8)))))),
4772            (f64 (XSCVSXDDP
4773                    (EXTRACT_SUBREG (VEXTSH2D
4774                                      (VEXTRACTUB !head(!tail(Idx)), $src)),
4775                                    sub_64)))>;
4776
4777  def : Pat<(f64 (PPCfcfid
4778                   (f64 (PPCmtvsra
4779                        (i32 (sext_inreg
4780                          (vector_extract v16i8:$src, !head(Idx)), i8)))))),
4781            (f64 (XSCVSXDDP
4782                    (EXTRACT_SUBREG (VEXTSH2D
4783                                      (VEXTRACTUH !head(!tail(Idx)), $src)),
4784                                    sub_64)))>;
4785}
4786
4787// Unsiged int in vsx register -> QP
4788def : Pat<(f128 (uint_to_fp (i32 (PPCmfvsr f64:$src)))),
4789          (f128 (XSCVUDQP
4790                  (XXEXTRACTUW (SUBREG_TO_REG (i64 1), $src, sub_64), 8)))>;
4791} // HasVSX, HasP9Vector, IsLittleEndian
4792
4793// Any Power9 VSX subtarget that supports Power9 Altivec.
4794let Predicates = [HasVSX, HasP9Altivec] in {
4795// Put this P9Altivec related definition here since it's possible to be
4796// selected to VSX instruction xvnegsp, avoid possible undef.
4797def : Pat<(v4i32 (PPCvabsd v4i32:$A, v4i32:$B, (i32 0))),
4798          (v4i32 (VABSDUW $A, $B))>;
4799
4800def : Pat<(v8i16 (PPCvabsd v8i16:$A, v8i16:$B, (i32 0))),
4801          (v8i16 (VABSDUH $A, $B))>;
4802
4803def : Pat<(v16i8 (PPCvabsd v16i8:$A, v16i8:$B, (i32 0))),
4804          (v16i8 (VABSDUB $A, $B))>;
4805
4806// As PPCVABSD description, the last operand indicates whether do the
4807// sign bit flip.
4808def : Pat<(v4i32 (PPCvabsd v4i32:$A, v4i32:$B, (i32 1))),
4809          (v4i32 (VABSDUW (XVNEGSP $A), (XVNEGSP $B)))>;
4810} // HasVSX, HasP9Altivec
4811
4812// Big endian Power9 64Bit VSX subtargets with P9 Altivec support.
4813let Predicates = [HasVSX, HasP9Altivec, IsBigEndian, IsPPC64] in {
4814def : Pat<(i64 (anyext (i32 (vector_extract v16i8:$S, i64:$Idx)))),
4815          (VEXTUBLX $Idx, $S)>;
4816
4817def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, i64:$Idx)))),
4818          (VEXTUHLX (RLWINM8 $Idx, 1, 28, 30), $S)>;
4819def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 0)))),
4820          (VEXTUHLX (LI8 0), $S)>;
4821def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 1)))),
4822          (VEXTUHLX (LI8 2), $S)>;
4823def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 2)))),
4824          (VEXTUHLX (LI8 4), $S)>;
4825def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 3)))),
4826          (VEXTUHLX (LI8 6), $S)>;
4827def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 4)))),
4828          (VEXTUHLX (LI8 8), $S)>;
4829def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 5)))),
4830          (VEXTUHLX (LI8 10), $S)>;
4831def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 6)))),
4832          (VEXTUHLX (LI8 12), $S)>;
4833def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 7)))),
4834          (VEXTUHLX (LI8 14), $S)>;
4835
4836def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, i64:$Idx)))),
4837          (VEXTUWLX (RLWINM8 $Idx, 2, 28, 29), $S)>;
4838def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 0)))),
4839          (VEXTUWLX (LI8 0), $S)>;
4840
4841// For extracting BE word 1, MFVSRWZ is better than VEXTUWLX
4842def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 1)))),
4843          (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
4844          (i32 VectorExtractions.LE_WORD_2), sub_32)>;
4845def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 2)))),
4846          (VEXTUWLX (LI8 8), $S)>;
4847def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 3)))),
4848          (VEXTUWLX (LI8 12), $S)>;
4849
4850def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, i64:$Idx)))),
4851          (EXTSW (VEXTUWLX (RLWINM8 $Idx, 2, 28, 29), $S))>;
4852def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 0)))),
4853          (EXTSW (VEXTUWLX (LI8 0), $S))>;
4854// For extracting BE word 1, MFVSRWZ is better than VEXTUWLX
4855def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 1)))),
4856          (EXTSW (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
4857          (i32 VectorExtractions.LE_WORD_2), sub_32))>;
4858def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 2)))),
4859          (EXTSW (VEXTUWLX (LI8 8), $S))>;
4860def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 3)))),
4861          (EXTSW (VEXTUWLX (LI8 12), $S))>;
4862
4863def : Pat<(i32 (vector_extract v16i8:$S, i64:$Idx)),
4864          (i32 (EXTRACT_SUBREG (VEXTUBLX $Idx, $S), sub_32))>;
4865def : Pat<(i32 (vector_extract v16i8:$S, 0)),
4866          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 0), $S), sub_32))>;
4867def : Pat<(i32 (vector_extract v16i8:$S, 1)),
4868          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 1), $S), sub_32))>;
4869def : Pat<(i32 (vector_extract v16i8:$S, 2)),
4870          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 2), $S), sub_32))>;
4871def : Pat<(i32 (vector_extract v16i8:$S, 3)),
4872          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 3), $S), sub_32))>;
4873def : Pat<(i32 (vector_extract v16i8:$S, 4)),
4874          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 4), $S), sub_32))>;
4875def : Pat<(i32 (vector_extract v16i8:$S, 5)),
4876          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 5), $S), sub_32))>;
4877def : Pat<(i32 (vector_extract v16i8:$S, 6)),
4878          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 6), $S), sub_32))>;
4879def : Pat<(i32 (vector_extract v16i8:$S, 7)),
4880          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 7), $S), sub_32))>;
4881def : Pat<(i32 (vector_extract v16i8:$S, 8)),
4882          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 8), $S), sub_32))>;
4883def : Pat<(i32 (vector_extract v16i8:$S, 9)),
4884          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 9), $S), sub_32))>;
4885def : Pat<(i32 (vector_extract v16i8:$S, 10)),
4886          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 10), $S), sub_32))>;
4887def : Pat<(i32 (vector_extract v16i8:$S, 11)),
4888          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 11), $S), sub_32))>;
4889def : Pat<(i32 (vector_extract v16i8:$S, 12)),
4890          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 12), $S), sub_32))>;
4891def : Pat<(i32 (vector_extract v16i8:$S, 13)),
4892          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 13), $S), sub_32))>;
4893def : Pat<(i32 (vector_extract v16i8:$S, 14)),
4894          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 14), $S), sub_32))>;
4895def : Pat<(i32 (vector_extract v16i8:$S, 15)),
4896          (i32 (EXTRACT_SUBREG (VEXTUBLX (LI8 15), $S), sub_32))>;
4897
4898def : Pat<(i32 (vector_extract v8i16:$S, i64:$Idx)),
4899          (i32 (EXTRACT_SUBREG (VEXTUHLX
4900          (RLWINM8 $Idx, 1, 28, 30), $S), sub_32))>;
4901def : Pat<(i32 (vector_extract v8i16:$S, 0)),
4902          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 0), $S), sub_32))>;
4903def : Pat<(i32 (vector_extract v8i16:$S, 1)),
4904          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 2), $S), sub_32))>;
4905def : Pat<(i32 (vector_extract v8i16:$S, 2)),
4906          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 4), $S), sub_32))>;
4907def : Pat<(i32 (vector_extract v8i16:$S, 3)),
4908          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 6), $S), sub_32))>;
4909def : Pat<(i32 (vector_extract v8i16:$S, 4)),
4910          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 8), $S), sub_32))>;
4911def : Pat<(i32 (vector_extract v8i16:$S, 5)),
4912          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 10), $S), sub_32))>;
4913def : Pat<(i32 (vector_extract v8i16:$S, 6)),
4914          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 12), $S), sub_32))>;
4915def : Pat<(i32 (vector_extract v8i16:$S, 6)),
4916          (i32 (EXTRACT_SUBREG (VEXTUHLX (LI8 14), $S), sub_32))>;
4917
4918def : Pat<(i32 (vector_extract v4i32:$S, i64:$Idx)),
4919          (i32 (EXTRACT_SUBREG (VEXTUWLX
4920          (RLWINM8 $Idx, 2, 28, 29), $S), sub_32))>;
4921def : Pat<(i32 (vector_extract v4i32:$S, 0)),
4922          (i32 (EXTRACT_SUBREG (VEXTUWLX (LI8 0), $S), sub_32))>;
4923// For extracting BE word 1, MFVSRWZ is better than VEXTUWLX
4924def : Pat<(i32 (vector_extract v4i32:$S, 1)),
4925          (i32 VectorExtractions.LE_WORD_2)>;
4926def : Pat<(i32 (vector_extract v4i32:$S, 2)),
4927          (i32 (EXTRACT_SUBREG (VEXTUWLX (LI8 8), $S), sub_32))>;
4928def : Pat<(i32 (vector_extract v4i32:$S, 3)),
4929          (i32 (EXTRACT_SUBREG (VEXTUWLX (LI8 12), $S), sub_32))>;
4930
4931// P9 Altivec instructions that can be used to build vectors.
4932// Adding them to PPCInstrVSX.td rather than PPCAltivecVSX.td to compete
4933// with complexities of existing build vector patterns in this file.
4934def : Pat<(v2i64 (build_vector WordToDWord.BE_A0, WordToDWord.BE_A1)),
4935          (v2i64 (VEXTSW2D $A))>;
4936def : Pat<(v2i64 (build_vector HWordToDWord.BE_A0, HWordToDWord.BE_A1)),
4937          (v2i64 (VEXTSH2D $A))>;
4938def : Pat<(v4i32 (build_vector HWordToWord.BE_A0, HWordToWord.BE_A1,
4939                  HWordToWord.BE_A2, HWordToWord.BE_A3)),
4940          (v4i32 (VEXTSH2W $A))>;
4941def : Pat<(v4i32 (build_vector ByteToWord.BE_A0, ByteToWord.BE_A1,
4942                  ByteToWord.BE_A2, ByteToWord.BE_A3)),
4943          (v4i32 (VEXTSB2W $A))>;
4944def : Pat<(v2i64 (build_vector ByteToDWord.BE_A0, ByteToDWord.BE_A1)),
4945          (v2i64 (VEXTSB2D $A))>;
4946} // HasVSX, HasP9Altivec, IsBigEndian, IsPPC64
4947
4948// Little endian Power9 VSX subtargets with P9 Altivec support.
4949let Predicates = [HasVSX, HasP9Altivec, IsLittleEndian] in {
4950def : Pat<(i64 (anyext (i32 (vector_extract v16i8:$S, i64:$Idx)))),
4951          (VEXTUBRX $Idx, $S)>;
4952
4953def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, i64:$Idx)))),
4954          (VEXTUHRX (RLWINM8 $Idx, 1, 28, 30), $S)>;
4955def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 0)))),
4956          (VEXTUHRX (LI8 0), $S)>;
4957def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 1)))),
4958          (VEXTUHRX (LI8 2), $S)>;
4959def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 2)))),
4960          (VEXTUHRX (LI8 4), $S)>;
4961def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 3)))),
4962          (VEXTUHRX (LI8 6), $S)>;
4963def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 4)))),
4964          (VEXTUHRX (LI8 8), $S)>;
4965def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 5)))),
4966          (VEXTUHRX (LI8 10), $S)>;
4967def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 6)))),
4968          (VEXTUHRX (LI8 12), $S)>;
4969def : Pat<(i64 (anyext (i32 (vector_extract v8i16:$S, 7)))),
4970          (VEXTUHRX (LI8 14), $S)>;
4971
4972def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, i64:$Idx)))),
4973          (VEXTUWRX (RLWINM8 $Idx, 2, 28, 29), $S)>;
4974def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 0)))),
4975          (VEXTUWRX (LI8 0), $S)>;
4976def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 1)))),
4977          (VEXTUWRX (LI8 4), $S)>;
4978// For extracting LE word 2, MFVSRWZ is better than VEXTUWRX
4979def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 2)))),
4980          (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
4981          (i32 VectorExtractions.LE_WORD_2), sub_32)>;
4982def : Pat<(i64 (zext (i32 (vector_extract v4i32:$S, 3)))),
4983          (VEXTUWRX (LI8 12), $S)>;
4984
4985def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, i64:$Idx)))),
4986          (EXTSW (VEXTUWRX (RLWINM8 $Idx, 2, 28, 29), $S))>;
4987def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 0)))),
4988          (EXTSW (VEXTUWRX (LI8 0), $S))>;
4989def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 1)))),
4990          (EXTSW (VEXTUWRX (LI8 4), $S))>;
4991// For extracting LE word 2, MFVSRWZ is better than VEXTUWRX
4992def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 2)))),
4993          (EXTSW (INSERT_SUBREG (i64 (IMPLICIT_DEF)),
4994          (i32 VectorExtractions.LE_WORD_2), sub_32))>;
4995def : Pat<(i64 (sext (i32 (vector_extract v4i32:$S, 3)))),
4996          (EXTSW (VEXTUWRX (LI8 12), $S))>;
4997
4998def : Pat<(i32 (vector_extract v16i8:$S, i64:$Idx)),
4999          (i32 (EXTRACT_SUBREG (VEXTUBRX $Idx, $S), sub_32))>;
5000def : Pat<(i32 (vector_extract v16i8:$S, 0)),
5001          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 0), $S), sub_32))>;
5002def : Pat<(i32 (vector_extract v16i8:$S, 1)),
5003          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 1), $S), sub_32))>;
5004def : Pat<(i32 (vector_extract v16i8:$S, 2)),
5005          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 2), $S), sub_32))>;
5006def : Pat<(i32 (vector_extract v16i8:$S, 3)),
5007          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 3), $S), sub_32))>;
5008def : Pat<(i32 (vector_extract v16i8:$S, 4)),
5009          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 4), $S), sub_32))>;
5010def : Pat<(i32 (vector_extract v16i8:$S, 5)),
5011          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 5), $S), sub_32))>;
5012def : Pat<(i32 (vector_extract v16i8:$S, 6)),
5013          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 6), $S), sub_32))>;
5014def : Pat<(i32 (vector_extract v16i8:$S, 7)),
5015          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 7), $S), sub_32))>;
5016def : Pat<(i32 (vector_extract v16i8:$S, 8)),
5017          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 8), $S), sub_32))>;
5018def : Pat<(i32 (vector_extract v16i8:$S, 9)),
5019          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 9), $S), sub_32))>;
5020def : Pat<(i32 (vector_extract v16i8:$S, 10)),
5021          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 10), $S), sub_32))>;
5022def : Pat<(i32 (vector_extract v16i8:$S, 11)),
5023          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 11), $S), sub_32))>;
5024def : Pat<(i32 (vector_extract v16i8:$S, 12)),
5025          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 12), $S), sub_32))>;
5026def : Pat<(i32 (vector_extract v16i8:$S, 13)),
5027          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 13), $S), sub_32))>;
5028def : Pat<(i32 (vector_extract v16i8:$S, 14)),
5029          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 14), $S), sub_32))>;
5030def : Pat<(i32 (vector_extract v16i8:$S, 15)),
5031          (i32 (EXTRACT_SUBREG (VEXTUBRX (LI8 15), $S), sub_32))>;
5032
5033def : Pat<(i32 (vector_extract v8i16:$S, i64:$Idx)),
5034          (i32 (EXTRACT_SUBREG (VEXTUHRX
5035          (RLWINM8 $Idx, 1, 28, 30), $S), sub_32))>;
5036def : Pat<(i32 (vector_extract v8i16:$S, 0)),
5037          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 0), $S), sub_32))>;
5038def : Pat<(i32 (vector_extract v8i16:$S, 1)),
5039          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 2), $S), sub_32))>;
5040def : Pat<(i32 (vector_extract v8i16:$S, 2)),
5041          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 4), $S), sub_32))>;
5042def : Pat<(i32 (vector_extract v8i16:$S, 3)),
5043          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 6), $S), sub_32))>;
5044def : Pat<(i32 (vector_extract v8i16:$S, 4)),
5045          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 8), $S), sub_32))>;
5046def : Pat<(i32 (vector_extract v8i16:$S, 5)),
5047          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 10), $S), sub_32))>;
5048def : Pat<(i32 (vector_extract v8i16:$S, 6)),
5049          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 12), $S), sub_32))>;
5050def : Pat<(i32 (vector_extract v8i16:$S, 6)),
5051          (i32 (EXTRACT_SUBREG (VEXTUHRX (LI8 14), $S), sub_32))>;
5052
5053def : Pat<(i32 (vector_extract v4i32:$S, i64:$Idx)),
5054          (i32 (EXTRACT_SUBREG (VEXTUWRX
5055          (RLWINM8 $Idx, 2, 28, 29), $S), sub_32))>;
5056def : Pat<(i32 (vector_extract v4i32:$S, 0)),
5057          (i32 (EXTRACT_SUBREG (VEXTUWRX (LI8 0), $S), sub_32))>;
5058def : Pat<(i32 (vector_extract v4i32:$S, 1)),
5059          (i32 (EXTRACT_SUBREG (VEXTUWRX (LI8 4), $S), sub_32))>;
5060// For extracting LE word 2, MFVSRWZ is better than VEXTUWRX
5061def : Pat<(i32 (vector_extract v4i32:$S, 2)),
5062          (i32 VectorExtractions.LE_WORD_2)>;
5063def : Pat<(i32 (vector_extract v4i32:$S, 3)),
5064          (i32 (EXTRACT_SUBREG (VEXTUWRX (LI8 12), $S), sub_32))>;
5065
5066// P9 Altivec instructions that can be used to build vectors.
5067// Adding them to PPCInstrVSX.td rather than PPCAltivecVSX.td to compete
5068// with complexities of existing build vector patterns in this file.
5069def : Pat<(v2i64 (build_vector WordToDWord.LE_A0, WordToDWord.LE_A1)),
5070          (v2i64 (VEXTSW2D $A))>;
5071def : Pat<(v2i64 (build_vector HWordToDWord.LE_A0, HWordToDWord.LE_A1)),
5072          (v2i64 (VEXTSH2D $A))>;
5073def : Pat<(v4i32 (build_vector HWordToWord.LE_A0, HWordToWord.LE_A1,
5074                  HWordToWord.LE_A2, HWordToWord.LE_A3)),
5075          (v4i32 (VEXTSH2W $A))>;
5076def : Pat<(v4i32 (build_vector ByteToWord.LE_A0, ByteToWord.LE_A1,
5077                  ByteToWord.LE_A2, ByteToWord.LE_A3)),
5078          (v4i32 (VEXTSB2W $A))>;
5079def : Pat<(v2i64 (build_vector ByteToDWord.LE_A0, ByteToDWord.LE_A1)),
5080          (v2i64 (VEXTSB2D $A))>;
5081} // HasVSX, HasP9Altivec, IsLittleEndian
5082
5083// Big endian 64Bit VSX subtarget that supports additional direct moves from
5084// ISA3.0.
5085let Predicates = [HasVSX, IsISA3_0, HasDirectMove, IsBigEndian, IsPPC64] in {
5086def : Pat<(i64 (extractelt v2i64:$A, 1)),
5087          (i64 (MFVSRLD $A))>;
5088// Better way to build integer vectors if we have MTVSRDD. Big endian.
5089def : Pat<(v2i64 (build_vector i64:$rB, i64:$rA)),
5090          (v2i64 (MTVSRDD $rB, $rA))>;
5091def : Pat<(v4i32 (build_vector i32:$A, i32:$B, i32:$C, i32:$D)),
5092          (MTVSRDD
5093            (RLDIMI AnyExts.B, AnyExts.A, 32, 0),
5094            (RLDIMI AnyExts.D, AnyExts.C, 32, 0))>;
5095
5096def : Pat<(f128 (PPCbuild_fp128 i64:$rB, i64:$rA)),
5097          (f128 (COPY_TO_REGCLASS (MTVSRDD $rB, $rA), VRRC))>;
5098} // HasVSX, IsISA3_0, HasDirectMove, IsBigEndian, IsPPC64
5099
5100// Little endian VSX subtarget that supports direct moves from ISA3.0.
5101let Predicates = [HasVSX, IsISA3_0, HasDirectMove, IsLittleEndian] in {
5102def : Pat<(i64 (extractelt v2i64:$A, 0)),
5103          (i64 (MFVSRLD $A))>;
5104// Better way to build integer vectors if we have MTVSRDD. Little endian.
5105def : Pat<(v2i64 (build_vector i64:$rA, i64:$rB)),
5106          (v2i64 (MTVSRDD $rB, $rA))>;
5107def : Pat<(v4i32 (build_vector i32:$A, i32:$B, i32:$C, i32:$D)),
5108          (MTVSRDD
5109            (RLDIMI AnyExts.C, AnyExts.D, 32, 0),
5110            (RLDIMI AnyExts.A, AnyExts.B, 32, 0))>;
5111
5112def : Pat<(f128 (PPCbuild_fp128 i64:$rA, i64:$rB)),
5113          (f128 (COPY_TO_REGCLASS (MTVSRDD $rB, $rA), VRRC))>;
5114} // HasVSX, IsISA3_0, HasDirectMove, IsLittleEndian
5115} // AddedComplexity = 400
5116
5117//---------------------------- Instruction aliases ---------------------------//
5118def : InstAlias<"xvmovdp $XT, $XB",
5119                (XVCPSGNDP vsrc:$XT, vsrc:$XB, vsrc:$XB)>;
5120def : InstAlias<"xvmovsp $XT, $XB",
5121                (XVCPSGNSP vsrc:$XT, vsrc:$XB, vsrc:$XB)>;
5122
5123// Certain versions of the AIX assembler may missassemble these mnemonics.
5124let Predicates = [ModernAs] in {
5125  def : InstAlias<"xxspltd $XT, $XB, 0",
5126                  (XXPERMDI vsrc:$XT, vsrc:$XB, vsrc:$XB, 0)>;
5127  def : InstAlias<"xxspltd $XT, $XB, 1",
5128                  (XXPERMDI vsrc:$XT, vsrc:$XB, vsrc:$XB, 3)>;
5129  def : InstAlias<"xxspltd $XT, $XB, 0",
5130                  (XXPERMDIs vsrc:$XT, vsfrc:$XB, 0)>;
5131  def : InstAlias<"xxspltd $XT, $XB, 1",
5132                  (XXPERMDIs vsrc:$XT, vsfrc:$XB, 3)>;
5133}
5134
5135def : InstAlias<"xxmrghd $XT, $XA, $XB",
5136                (XXPERMDI vsrc:$XT, vsrc:$XA, vsrc:$XB, 0)>;
5137def : InstAlias<"xxmrgld $XT, $XA, $XB",
5138                (XXPERMDI vsrc:$XT, vsrc:$XA, vsrc:$XB, 3)>;
5139def : InstAlias<"xxswapd $XT, $XB",
5140                (XXPERMDI vsrc:$XT, vsrc:$XB, vsrc:$XB, 2)>;
5141def : InstAlias<"xxswapd $XT, $XB",
5142                (XXPERMDIs vsrc:$XT, vsfrc:$XB, 2)>;
5143def : InstAlias<"mfvrd $rA, $XT",
5144                (MFVRD g8rc:$rA, vrrc:$XT), 0>;
5145def : InstAlias<"mffprd $rA, $src",
5146                (MFVSRD g8rc:$rA, f8rc:$src)>;
5147def : InstAlias<"mtvrd $XT, $rA",
5148                (MTVRD vrrc:$XT, g8rc:$rA), 0>;
5149def : InstAlias<"mtfprd $dst, $rA",
5150                (MTVSRD f8rc:$dst, g8rc:$rA)>;
5151def : InstAlias<"mfvrwz $rA, $XT",
5152                (MFVRWZ gprc:$rA, vrrc:$XT), 0>;
5153def : InstAlias<"mffprwz $rA, $src",
5154                (MFVSRWZ gprc:$rA, f8rc:$src)>;
5155def : InstAlias<"mtvrwa $XT, $rA",
5156                (MTVRWA vrrc:$XT, gprc:$rA), 0>;
5157def : InstAlias<"mtfprwa $dst, $rA",
5158                (MTVSRWA f8rc:$dst, gprc:$rA)>;
5159def : InstAlias<"mtvrwz $XT, $rA",
5160                (MTVRWZ vrrc:$XT, gprc:$rA), 0>;
5161def : InstAlias<"mtfprwz $dst, $rA",
5162                (MTVSRWZ f8rc:$dst, gprc:$rA)>;
5163