LLVM 23.0.0git
HexagonRegisterInfo.cpp
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1//===-- HexagonRegisterInfo.cpp - Hexagon Register Information ------------===//
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 contains the Hexagon implementation of the TargetRegisterInfo
10// class.
11//
12//===----------------------------------------------------------------------===//
13
14#include "HexagonRegisterInfo.h"
16#include "HexagonSubtarget.h"
17#include "llvm/ADT/BitVector.h"
18#include "llvm/ADT/STLExtras.h"
19#include "llvm/ADT/SmallSet.h"
29#include "llvm/IR/Function.h"
30#include "llvm/IR/Type.h"
32#include "llvm/Support/Debug.h"
36
37#define GET_REGINFO_TARGET_DESC
38#include "HexagonGenRegisterInfo.inc"
39
40using namespace llvm;
41
43 "hexagon-frame-index-search-range", cl::init(32), cl::Hidden,
44 cl::desc("Limit on instruction search range in frame index elimination"));
45
47 "hexagon-frame-index-reuse-limit", cl::init(~0), cl::Hidden,
48 cl::desc("Limit on the number of reused registers in frame index "
49 "elimination"));
50
52 : HexagonGenRegisterInfo(Hexagon::R31, 0/*DwarfFlavor*/, 0/*EHFlavor*/,
53 0/*PC*/, HwMode) {}
54
56 switch (Reg) {
57 case Hexagon::R29:
58 case Hexagon::R30:
59 case Hexagon::R31:
60 return true;
61 }
62 return false;
63}
64
66 // VF0-VF31 are fake registers used as sub-registers in HVX vector pairs
67 if (Reg >= Hexagon::VF0 && Reg <= Hexagon::VF31)
68 return true;
69 // VFR0-VFR31 are fake registers used for reversed vector pairs
70 if (Reg >= Hexagon::VFR0 && Reg <= Hexagon::VFR31)
71 return true;
72 return false;
73}
74
76 return R == Hexagon::R0 || R == Hexagon::R1 || R == Hexagon::R2 ||
77 R == Hexagon::R3 || R == Hexagon::D0 || R == Hexagon::D1;
78}
79
80const MCPhysReg *
82 const TargetRegisterClass *RC) const {
83 using namespace Hexagon;
84
85 static const MCPhysReg Int32[] = {
86 R0, R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15, 0
87 };
88 static const MCPhysReg Int64[] = {
89 D0, D1, D2, D3, D4, D5, D6, D7, 0
90 };
91 static const MCPhysReg Pred[] = {
92 P0, P1, P2, P3, 0
93 };
94 static const MCPhysReg VecSgl[] = {
95 V0, V1, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13,
96 V14, V15, V16, V17, V18, V19, V20, V21, V22, V23, V24, V25, V26, V27,
97 V28, V29, V30, V31, 0
98 };
99 static const MCPhysReg VecDbl[] = {
100 W0, W1, W2, W3, W4, W5, W6, W7, W8, W9, W10, W11, W12, W13, W14, W15, 0
101 };
102 static const MCPhysReg VecPred[] = {
103 Q0, Q1, Q2, Q3, 0
104 };
105
106 switch (RC->getID()) {
107 case IntRegsRegClassID:
108 return Int32;
109 case DoubleRegsRegClassID:
110 return Int64;
111 case PredRegsRegClassID:
112 return Pred;
113 case HvxVRRegClassID:
114 return VecSgl;
115 case HvxWRRegClassID:
116 return VecDbl;
117 case HvxQRRegClassID:
118 return VecPred;
119 default:
120 break;
121 }
122
123 static const MCPhysReg Empty[] = { 0 };
124#ifndef NDEBUG
125 dbgs() << "Register class: " << getRegClassName(RC) << "\n";
126#endif
127 llvm_unreachable("Unexpected register class");
128 return Empty;
129}
130
131
132const MCPhysReg *
134 static const MCPhysReg CalleeSavedRegsV3[] = {
135 Hexagon::R16, Hexagon::R17, Hexagon::R18, Hexagon::R19,
136 Hexagon::R20, Hexagon::R21, Hexagon::R22, Hexagon::R23,
137 Hexagon::R24, Hexagon::R25, Hexagon::R26, Hexagon::R27, 0
138 };
139
140 // Functions that contain a call to __builtin_eh_return also save the first 4
141 // parameter registers.
142 static const MCPhysReg CalleeSavedRegsV3EHReturn[] = {
143 Hexagon::R0, Hexagon::R1, Hexagon::R2, Hexagon::R3,
144 Hexagon::R16, Hexagon::R17, Hexagon::R18, Hexagon::R19,
145 Hexagon::R20, Hexagon::R21, Hexagon::R22, Hexagon::R23,
146 Hexagon::R24, Hexagon::R25, Hexagon::R26, Hexagon::R27, 0
147 };
148
149 bool HasEHReturn = MF->getInfo<HexagonMachineFunctionInfo>()->hasEHReturn();
150
151 return HasEHReturn ? CalleeSavedRegsV3EHReturn : CalleeSavedRegsV3;
152}
153
154
156 const MachineFunction &MF, CallingConv::ID) const {
157 return HexagonCSR_RegMask;
158}
159
160
162 const {
163 BitVector Reserved(getNumRegs());
164 Reserved.set(Hexagon::R29);
165 Reserved.set(Hexagon::R30);
166 Reserved.set(Hexagon::R31);
167 Reserved.set(Hexagon::VTMP);
168
169 // Guest registers.
170 Reserved.set(Hexagon::GELR); // G0
171 Reserved.set(Hexagon::GSR); // G1
172 Reserved.set(Hexagon::GOSP); // G2
173 Reserved.set(Hexagon::G3); // G3
174
175 // Control registers.
176 Reserved.set(Hexagon::SA0); // C0
177 Reserved.set(Hexagon::LC0); // C1
178 Reserved.set(Hexagon::SA1); // C2
179 Reserved.set(Hexagon::LC1); // C3
180 Reserved.set(Hexagon::P3_0); // C4
181 Reserved.set(Hexagon::USR); // C8
182 Reserved.set(Hexagon::PC); // C9
183 Reserved.set(Hexagon::UGP); // C10
184 Reserved.set(Hexagon::GP); // C11
185 Reserved.set(Hexagon::CS0); // C12
186 Reserved.set(Hexagon::CS1); // C13
187 Reserved.set(Hexagon::UPCYCLELO); // C14
188 Reserved.set(Hexagon::UPCYCLEHI); // C15
189 Reserved.set(Hexagon::FRAMELIMIT); // C16
190 Reserved.set(Hexagon::FRAMEKEY); // C17
191 Reserved.set(Hexagon::PKTCOUNTLO); // C18
192 Reserved.set(Hexagon::PKTCOUNTHI); // C19
193 Reserved.set(Hexagon::UTIMERLO); // C30
194 Reserved.set(Hexagon::UTIMERHI); // C31
195 // Out of the control registers, only C8 is explicitly defined in
196 // HexagonRegisterInfo.td. If others are defined, make sure to add
197 // them here as well.
198 Reserved.set(Hexagon::C8);
199 Reserved.set(Hexagon::USR_OVF);
200
201 // Leveraging these registers will require more work to recognize
202 // the new semantics posed, Hi/LoVec patterns, etc.
203 // Note well: if enabled, they should be restricted to only
204 // where `HST.useHVXOps() && HST.hasV67Ops()` is true.
205 for (auto Reg : Hexagon_MC::GetVectRegRev())
206 Reserved.set(Reg);
207
208 static const MCPhysReg RRegs[] = {
209 Hexagon::R6, Hexagon::R7, Hexagon::R8, Hexagon::R9, Hexagon::R10,
210 Hexagon::R11, Hexagon::R12, Hexagon::R13, Hexagon::R14, Hexagon::R15,
211 Hexagon::R16, Hexagon::R17, Hexagon::R18, Hexagon::R19, Hexagon::R20,
212 Hexagon::R21, Hexagon::R22, Hexagon::R23, Hexagon::R24, Hexagon::R25,
213 Hexagon::R26, Hexagon::R27, Hexagon::R28};
214 for (MCPhysReg Reg : RRegs)
216 Reserved.set(Reg);
217
218 Register AP =
219 MF.getInfo<HexagonMachineFunctionInfo>()->getStackAlignBaseReg();
220 if (AP.isValid())
221 Reserved.set(AP);
222
223 for (int x = Reserved.find_first(); x >= 0; x = Reserved.find_next(x))
224 markSuperRegs(Reserved, x);
225
226 return Reserved;
227}
228
230 int SPAdj, unsigned FIOp,
231 RegScavenger *RS) const {
232 static unsigned ReuseCount = 0;
233 //
234 // Hexagon_TODO: Do we need to enforce this for Hexagon?
235 assert(SPAdj == 0 && "Unexpected");
236
237 MachineInstr &MI = *II;
238 MachineBasicBlock &MB = *MI.getParent();
239 MachineFunction &MF = *MB.getParent();
240 auto &HST = MF.getSubtarget<HexagonSubtarget>();
241 auto &HII = *HST.getInstrInfo();
242 auto &HFI = *HST.getFrameLowering();
243
244 Register BP;
245 int FI = MI.getOperand(FIOp).getIndex();
246 // Select the base pointer (BP) and calculate the actual offset from BP
247 // to the beginning of the object at index FI.
248 int Offset = HFI.getFrameIndexReference(MF, FI, BP).getFixed();
249 // Add the offset from the instruction.
250 int RealOffset = Offset + MI.getOperand(FIOp+1).getImm();
251
252 unsigned Opc = MI.getOpcode();
253 switch (Opc) {
254 case Hexagon::PS_fia:
255 MI.setDesc(HII.get(Hexagon::A2_addi));
256 MI.getOperand(FIOp).ChangeToImmediate(RealOffset);
257 MI.removeOperand(FIOp+1);
258 return false;
259 case Hexagon::PS_fi:
260 // Set up the instruction for updating below.
261 MI.setDesc(HII.get(Hexagon::A2_addi));
262 break;
263 }
264
265 if (!HII.isValidOffset(Opc, RealOffset, this)) {
266 // If the offset is not valid, calculate the address in a temporary
267 // register and use it with offset 0.
268 int InstOffset = 0;
269 // The actual base register (BP) is typically shared between many
270 // instructions where frame indices are being replaced. In scalar
271 // instructions the offset range is large, and the need for an extra
272 // add instruction is infrequent. Vector loads/stores, however, have
273 // a much smaller offset range: [-8, 7), or #s4. In those cases it
274 // makes sense to "standardize" the immediate in the "addi" instruction
275 // so that multiple loads/stores could be based on it.
276 bool IsPair = false;
277 switch (MI.getOpcode()) {
278 // All of these instructions have the same format: base+#s4.
279 case Hexagon::PS_vloadrw_ai:
280 case Hexagon::PS_vloadrw_nt_ai:
281 case Hexagon::PS_vstorerw_ai:
282 case Hexagon::PS_vstorerw_nt_ai:
283 IsPair = true;
284 [[fallthrough]];
285 case Hexagon::PS_vloadrv_ai:
286 case Hexagon::PS_vloadrv_nt_ai:
287 case Hexagon::PS_vstorerv_ai:
288 case Hexagon::PS_vstorerv_nt_ai:
289 case Hexagon::V6_vL32b_ai:
290 case Hexagon::V6_vS32b_ai: {
291 unsigned HwLen = HST.getVectorLength();
292 if (RealOffset % HwLen == 0) {
293 int VecOffset = RealOffset / HwLen;
294 // Rewrite the offset as "base + [-8, 7)".
295 VecOffset += 8;
296 // Pairs are expanded into two instructions: make sure that both
297 // can use the same base (i.e. VecOffset+1 is not a different
298 // multiple of 16 than VecOffset).
299 if (!IsPair || (VecOffset + 1) % 16 != 0) {
300 RealOffset = (VecOffset & -16) * HwLen;
301 InstOffset = (VecOffset % 16 - 8) * HwLen;
302 }
303 }
304 }
305 }
306
307 // Search backwards in the block for "Reg = A2_addi BP, RealOffset".
308 // This will give us a chance to avoid creating a new register.
309 Register ReuseBP;
310
311 if (ReuseCount < FrameIndexReuseLimit) {
312 unsigned SearchCount = 0, SearchRange = FrameIndexSearchRange;
313 SmallSet<Register,2> SeenVRegs;
314 bool PassedCall = false;
315 LiveRegUnits Defs(*this), Uses(*this);
316
317 for (auto I = std::next(II.getReverse()), E = MB.rend(); I != E; ++I) {
318 if (SearchCount == SearchRange)
319 break;
320 ++SearchCount;
321 const MachineInstr &BI = *I;
323 PassedCall |= BI.isCall();
324 for (const MachineOperand &Op : BI.operands()) {
325 if (SeenVRegs.size() > 1)
326 break;
327 if (Op.isReg() && Op.getReg().isVirtual())
328 SeenVRegs.insert(Op.getReg());
329 }
330 if (BI.getOpcode() != Hexagon::A2_addi)
331 continue;
332 if (BI.getOperand(1).getReg() != BP)
333 continue;
334 const auto &Op2 = BI.getOperand(2);
335 if (!Op2.isImm() || Op2.getImm() != RealOffset)
336 continue;
337
338 Register R = BI.getOperand(0).getReg();
339 if (R.isPhysical()) {
340 if (Defs.available(R))
341 ReuseBP = R;
342 } else if (R.isVirtual()) {
343 // Extending a range of a virtual register can be dangerous,
344 // since the scavenger will need to find a physical register
345 // for it. Avoid extending the range past a function call,
346 // and avoid overlapping it with another virtual register.
347 if (!PassedCall && SeenVRegs.size() <= 1)
348 ReuseBP = R;
349 }
350 break;
351 }
352 if (ReuseBP)
353 ++ReuseCount;
354 }
355
356 auto &MRI = MF.getRegInfo();
357 if (!ReuseBP) {
358 ReuseBP = MRI.createVirtualRegister(&Hexagon::IntRegsRegClass);
359 const DebugLoc &DL = MI.getDebugLoc();
360 BuildMI(MB, II, DL, HII.get(Hexagon::A2_addi), ReuseBP)
361 .addReg(BP)
362 .addImm(RealOffset);
363 }
364 BP = ReuseBP;
365 RealOffset = InstOffset;
366 }
367
368 MI.getOperand(FIOp).ChangeToRegister(BP, false, false, false);
369 MI.getOperand(FIOp+1).ChangeToImmediate(RealOffset);
370 return false;
371}
372
373
375 const TargetRegisterClass *SrcRC, unsigned SubReg,
376 const TargetRegisterClass *DstRC, unsigned DstSubReg,
377 const TargetRegisterClass *NewRC, LiveIntervals &LIS) const {
378 // Coalescing will extend the live interval of the destination register.
379 // If the destination register is a vector pair, avoid introducing function
380 // calls into the interval, since it could result in a spilling of a pair
381 // instead of a single vector.
382 MachineFunction &MF = *MI->getParent()->getParent();
384 if (!HST.useHVXOps() || NewRC->getID() != Hexagon::HvxWRRegClass.getID())
385 return true;
386 bool SmallSrc = SrcRC->getID() == Hexagon::HvxVRRegClass.getID();
387 bool SmallDst = DstRC->getID() == Hexagon::HvxVRRegClass.getID();
388 if (!SmallSrc && !SmallDst)
389 return true;
390
391 Register DstReg = MI->getOperand(0).getReg();
392 Register SrcReg = MI->getOperand(1).getReg();
393 const SlotIndexes &Indexes = *LIS.getSlotIndexes();
394 auto HasCall = [&Indexes] (const LiveInterval::Segment &S) {
395 for (SlotIndex I = S.start.getBaseIndex(), E = S.end.getBaseIndex();
396 I != E; I = I.getNextIndex()) {
397 if (const MachineInstr *MI = Indexes.getInstructionFromIndex(I))
398 if (MI->isCall())
399 return true;
400 }
401 return false;
402 };
403
404 if (SmallSrc == SmallDst) {
405 // Both must be true, because the case for both being false was
406 // checked earlier. Both registers will be coalesced into a register
407 // of a wider class (HvxWR), and we don't want its live range to
408 // span over calls.
409 return !any_of(LIS.getInterval(DstReg), HasCall) &&
410 !any_of(LIS.getInterval(SrcReg), HasCall);
411 }
412
413 // If one register is large (HvxWR) and the other is small (HvxVR), then
414 // coalescing is ok if the large is already live across a function call,
415 // or if the small one is not.
416 Register SmallReg = SmallSrc ? SrcReg : DstReg;
417 Register LargeReg = SmallSrc ? DstReg : SrcReg;
418 return any_of(LIS.getInterval(LargeReg), HasCall) ||
419 !any_of(LIS.getInterval(SmallReg), HasCall);
420}
421
422
424 &MF) const {
425 const HexagonFrameLowering *TFI = getFrameLowering(MF);
426 if (TFI->hasFP(MF))
427 return getFrameRegister();
428 return getStackRegister();
429}
430
431
433 return Hexagon::R30;
434}
435
436
438 return Hexagon::R29;
439}
440
441
443 const TargetRegisterClass &RC, unsigned GenIdx) const {
444 assert(GenIdx == Hexagon::ps_sub_lo || GenIdx == Hexagon::ps_sub_hi);
445
446 static const unsigned ISub[] = { Hexagon::isub_lo, Hexagon::isub_hi };
447 static const unsigned VSub[] = { Hexagon::vsub_lo, Hexagon::vsub_hi };
448 static const unsigned WSub[] = { Hexagon::wsub_lo, Hexagon::wsub_hi };
449
450 switch (RC.getID()) {
451 case Hexagon::CtrRegs64RegClassID:
452 case Hexagon::DoubleRegsRegClassID:
453 return ISub[GenIdx];
454 case Hexagon::HvxWRRegClassID:
455 return VSub[GenIdx];
456 case Hexagon::HvxVQRRegClassID:
457 return WSub[GenIdx];
458 }
459
460 if (!RC.superclasses().empty())
462 GenIdx);
463
464 llvm_unreachable("Invalid register class");
465}
466
468 const {
469 return MF.getSubtarget<HexagonSubtarget>().getFrameLowering()->hasFP(MF);
470}
471
474 return &Hexagon::IntRegsRegClass;
475}
static const TargetRegisterClass * getRegClass(const MachineInstr &MI, Register Reg)
assert(UImm &&(UImm !=~static_cast< T >(0)) &&"Invalid immediate!")
MachineBasicBlock MachineBasicBlock::iterator DebugLoc DL
This file implements the BitVector class.
static cl::opt< unsigned > FrameIndexReuseLimit("hexagon-frame-index-reuse-limit", cl::init(~0), cl::Hidden, cl::desc("Limit on the number of reused registers in frame index " "elimination"))
static cl::opt< unsigned > FrameIndexSearchRange("hexagon-frame-index-search-range", cl::init(32), cl::Hidden, cl::desc("Limit on instruction search range in frame index elimination"))
IRTranslator LLVM IR MI
A set of register units.
#define I(x, y, z)
Definition MD5.cpp:57
#define R4(n)
#define R2(n)
#define R6(n)
uint64_t IntrinsicInst * II
This file declares the machine register scavenger class.
Remove Loads Into Fake Uses
This file contains some templates that are useful if you are working with the STL at all.
This file defines the SmallSet class.
LocallyHashedType DenseMapInfo< LocallyHashedType >::Empty
iterator begin() const
Definition ArrayRef.h:129
bool empty() const
Check if the array is empty.
Definition ArrayRef.h:136
A debug info location.
Definition DebugLoc.h:126
Hexagon target-specific information for each MachineFunction.
bool eliminateFrameIndex(MachineBasicBlock::iterator II, int SPAdj, unsigned FIOperandNum, RegScavenger *RS=nullptr) const override
bool isEHReturnCalleeSaveReg(Register Reg) const
BitVector getReservedRegs(const MachineFunction &MF) const override
const TargetRegisterClass * getPointerRegClass(unsigned Kind=0) const override
bool useFPForScavengingIndex(const MachineFunction &MF) const override
Returns true if the frame pointer is valid.
const MCPhysReg * getCalleeSavedRegs(const MachineFunction *MF) const override
Code Generation virtual methods...
unsigned getHexagonSubRegIndex(const TargetRegisterClass &RC, unsigned GenIdx) const
bool shouldCoalesce(MachineInstr *MI, const TargetRegisterClass *SrcRC, unsigned SubReg, const TargetRegisterClass *DstRC, unsigned DstSubReg, const TargetRegisterClass *NewRC, LiveIntervals &LIS) const override
const uint32_t * getCallPreservedMask(const MachineFunction &MF, CallingConv::ID) const override
bool isFakeReg(MCPhysReg Reg) const
Returns true if the given reserved physical register Reg is live across function calls/returns.
const MCPhysReg * getCallerSavedRegs(const MachineFunction *MF, const TargetRegisterClass *RC) const
bool isGlobalReg(MCPhysReg Reg) const
Returns true if the given reserved physical register is live across function calls/returns.
const HexagonInstrInfo * getInstrInfo() const override
SlotIndexes * getSlotIndexes() const
LiveInterval & getInterval(Register Reg)
A set of register units used to track register liveness.
static void accumulateUsedDefed(const MachineInstr &MI, LiveRegUnits &ModifiedRegUnits, LiveRegUnits &UsedRegUnits, const TargetRegisterInfo *TRI)
For a machine instruction MI, adds all register units used in UsedRegUnits and defined or clobbered i...
ArrayRef< unsigned > superclasses() const
Returns a list of super-classes.
unsigned getID() const
getID() - Return the register class ID number.
const MachineFunction * getParent() const
Return the MachineFunction containing this basic block.
MachineInstrBundleIterator< MachineInstr > iterator
const TargetSubtargetInfo & getSubtarget() const
getSubtarget - Return the subtarget for which this machine code is being compiled.
MachineRegisterInfo & getRegInfo()
getRegInfo - Return information about the registers currently in use.
Ty * getInfo()
getInfo - Keep track of various per-function pieces of information for backends that would like to do...
const MachineInstrBuilder & addReg(Register RegNo, RegState Flags={}, unsigned SubReg=0) const
Add a new virtual register operand.
const MachineInstrBuilder & addImm(int64_t Val) const
Add a new immediate operand.
Representation of each machine instruction.
unsigned getOpcode() const
Returns the opcode of this MachineInstr.
bool isCall(QueryType Type=AnyInBundle) const
mop_range operands()
const MachineOperand & getOperand(unsigned i) const
MachineOperand class - Representation of each machine instruction operand.
Register getReg() const
getReg - Returns the register number.
Wrapper class representing virtual and physical registers.
Definition Register.h:20
constexpr bool isValid() const
Definition Register.h:112
SlotIndex - An opaque wrapper around machine indexes.
Definition SlotIndexes.h:66
SlotIndexes pass.
MachineInstr * getInstructionFromIndex(SlotIndex index) const
Returns the instruction for the given index, or null if the given index has no instruction associated...
SmallSet - This maintains a set of unique values, optimizing for the case when the set is small (less...
Definition SmallSet.h:134
std::pair< const_iterator, bool > insert(const T &V)
insert - Insert an element into the set if it isn't already there.
Definition SmallSet.h:184
size_type size() const
Definition SmallSet.h:171
bool hasFP(const MachineFunction &MF) const
hasFP - Return true if the specified function should have a dedicated frame pointer register.
virtual bool isRegisterReservedByUser(Register R) const
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
unsigned ID
LLVM IR allows to use arbitrary numbers as calling convention identifiers.
Definition CallingConv.h:24
llvm::ArrayRef< MCPhysReg > GetVectRegRev()
initializer< Ty > init(const Ty &Val)
This is an optimization pass for GlobalISel generic memory operations.
@ Offset
Definition DWP.cpp:573
MachineInstrBuilder BuildMI(MachineFunction &MF, const MIMetadata &MIMD, const MCInstrDesc &MCID)
Builder interface. Specify how to create the initial instruction itself.
bool any_of(R &&range, UnaryPredicate P)
Provide wrappers to std::any_of which take ranges instead of having to pass begin/end explicitly.
Definition STLExtras.h:1746
LLVM_ABI raw_ostream & dbgs()
dbgs() - This returns a reference to a raw_ostream for debugging messages.
Definition Debug.cpp:209
uint16_t MCPhysReg
An unsigned integer type large enough to represent all physical registers, but not necessarily virtua...
Definition MCRegister.h:21
DWARFExpression::Operation Op
MCRegisterClass TargetRegisterClass
Definition FastISel.h:58
This represents a simple continuous liveness interval for a value.