1c62eefb8SMircea Trofin //===- llvm/CodeGen/GlobalISel/RegisterBankInfo.cpp --------------*- C++ -*-==//
2c62eefb8SMircea Trofin //
3c62eefb8SMircea Trofin // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4c62eefb8SMircea Trofin // See https://llvm.org/LICENSE.txt for license information.
5c62eefb8SMircea Trofin // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6c62eefb8SMircea Trofin //
7c62eefb8SMircea Trofin //===----------------------------------------------------------------------===//
8c62eefb8SMircea Trofin /// \file
9c62eefb8SMircea Trofin /// This file implements the RegisterBankInfo class.
10c62eefb8SMircea Trofin //===----------------------------------------------------------------------===//
11c62eefb8SMircea Trofin
12*cb216076SMircea Trofin #include "llvm/CodeGen/RegisterBankInfo.h"
13c62eefb8SMircea Trofin #include "llvm/ADT/SmallVector.h"
14c62eefb8SMircea Trofin #include "llvm/ADT/Statistic.h"
15c62eefb8SMircea Trofin #include "llvm/ADT/iterator_range.h"
16c62eefb8SMircea Trofin #include "llvm/CodeGen/MachineFunction.h"
17c62eefb8SMircea Trofin #include "llvm/CodeGen/MachineRegisterInfo.h"
18*cb216076SMircea Trofin #include "llvm/CodeGen/RegisterBank.h"
19c62eefb8SMircea Trofin #include "llvm/CodeGen/TargetOpcodes.h"
20c62eefb8SMircea Trofin #include "llvm/CodeGen/TargetRegisterInfo.h"
21c62eefb8SMircea Trofin #include "llvm/CodeGen/TargetSubtargetInfo.h"
22c62eefb8SMircea Trofin #include "llvm/Config/llvm-config.h"
23c62eefb8SMircea Trofin #include "llvm/Support/Debug.h"
24c62eefb8SMircea Trofin #include "llvm/Support/raw_ostream.h"
25c62eefb8SMircea Trofin
26c62eefb8SMircea Trofin #include <algorithm> // For std::max.
27c62eefb8SMircea Trofin
28c62eefb8SMircea Trofin #define DEBUG_TYPE "registerbankinfo"
29c62eefb8SMircea Trofin
30c62eefb8SMircea Trofin using namespace llvm;
31c62eefb8SMircea Trofin
32c62eefb8SMircea Trofin STATISTIC(NumPartialMappingsCreated,
33c62eefb8SMircea Trofin "Number of partial mappings dynamically created");
34c62eefb8SMircea Trofin STATISTIC(NumPartialMappingsAccessed,
35c62eefb8SMircea Trofin "Number of partial mappings dynamically accessed");
36c62eefb8SMircea Trofin STATISTIC(NumValueMappingsCreated,
37c62eefb8SMircea Trofin "Number of value mappings dynamically created");
38c62eefb8SMircea Trofin STATISTIC(NumValueMappingsAccessed,
39c62eefb8SMircea Trofin "Number of value mappings dynamically accessed");
40c62eefb8SMircea Trofin STATISTIC(NumOperandsMappingsCreated,
41c62eefb8SMircea Trofin "Number of operands mappings dynamically created");
42c62eefb8SMircea Trofin STATISTIC(NumOperandsMappingsAccessed,
43c62eefb8SMircea Trofin "Number of operands mappings dynamically accessed");
44c62eefb8SMircea Trofin STATISTIC(NumInstructionMappingsCreated,
45c62eefb8SMircea Trofin "Number of instruction mappings dynamically created");
46c62eefb8SMircea Trofin STATISTIC(NumInstructionMappingsAccessed,
47c62eefb8SMircea Trofin "Number of instruction mappings dynamically accessed");
48c62eefb8SMircea Trofin
49c62eefb8SMircea Trofin const unsigned RegisterBankInfo::DefaultMappingID = UINT_MAX;
50c62eefb8SMircea Trofin const unsigned RegisterBankInfo::InvalidMappingID = UINT_MAX - 1;
51c62eefb8SMircea Trofin
52c62eefb8SMircea Trofin //------------------------------------------------------------------------------
53c62eefb8SMircea Trofin // RegisterBankInfo implementation.
54c62eefb8SMircea Trofin //------------------------------------------------------------------------------
RegisterBankInfo(RegisterBank ** RegBanks,unsigned NumRegBanks)55c62eefb8SMircea Trofin RegisterBankInfo::RegisterBankInfo(RegisterBank **RegBanks,
56c62eefb8SMircea Trofin unsigned NumRegBanks)
57c62eefb8SMircea Trofin : RegBanks(RegBanks), NumRegBanks(NumRegBanks) {
58c62eefb8SMircea Trofin #ifndef NDEBUG
59c62eefb8SMircea Trofin for (unsigned Idx = 0, End = getNumRegBanks(); Idx != End; ++Idx) {
60c62eefb8SMircea Trofin assert(RegBanks[Idx] != nullptr && "Invalid RegisterBank");
61c62eefb8SMircea Trofin assert(RegBanks[Idx]->isValid() && "RegisterBank should be valid");
62c62eefb8SMircea Trofin }
63c62eefb8SMircea Trofin #endif // NDEBUG
64c62eefb8SMircea Trofin }
65c62eefb8SMircea Trofin
verify(const TargetRegisterInfo & TRI) const66c62eefb8SMircea Trofin bool RegisterBankInfo::verify(const TargetRegisterInfo &TRI) const {
67c62eefb8SMircea Trofin #ifndef NDEBUG
68c62eefb8SMircea Trofin for (unsigned Idx = 0, End = getNumRegBanks(); Idx != End; ++Idx) {
69c62eefb8SMircea Trofin const RegisterBank &RegBank = getRegBank(Idx);
70c62eefb8SMircea Trofin assert(Idx == RegBank.getID() &&
71c62eefb8SMircea Trofin "ID does not match the index in the array");
72c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << "Verify " << RegBank << '\n');
73c62eefb8SMircea Trofin assert(RegBank.verify(TRI) && "RegBank is invalid");
74c62eefb8SMircea Trofin }
75c62eefb8SMircea Trofin #endif // NDEBUG
76c62eefb8SMircea Trofin return true;
77c62eefb8SMircea Trofin }
78c62eefb8SMircea Trofin
79c62eefb8SMircea Trofin const RegisterBank *
getRegBank(Register Reg,const MachineRegisterInfo & MRI,const TargetRegisterInfo & TRI) const80c62eefb8SMircea Trofin RegisterBankInfo::getRegBank(Register Reg, const MachineRegisterInfo &MRI,
81c62eefb8SMircea Trofin const TargetRegisterInfo &TRI) const {
82c62eefb8SMircea Trofin if (Register::isPhysicalRegister(Reg)) {
83c62eefb8SMircea Trofin // FIXME: This was probably a copy to a virtual register that does have a
84c62eefb8SMircea Trofin // type we could use.
85c62eefb8SMircea Trofin return &getRegBankFromRegClass(getMinimalPhysRegClass(Reg, TRI), LLT());
86c62eefb8SMircea Trofin }
87c62eefb8SMircea Trofin
88c62eefb8SMircea Trofin assert(Reg && "NoRegister does not have a register bank");
89c62eefb8SMircea Trofin const RegClassOrRegBank &RegClassOrBank = MRI.getRegClassOrRegBank(Reg);
90c62eefb8SMircea Trofin if (auto *RB = RegClassOrBank.dyn_cast<const RegisterBank *>())
91c62eefb8SMircea Trofin return RB;
92c62eefb8SMircea Trofin if (auto *RC = RegClassOrBank.dyn_cast<const TargetRegisterClass *>())
93c62eefb8SMircea Trofin return &getRegBankFromRegClass(*RC, MRI.getType(Reg));
94c62eefb8SMircea Trofin return nullptr;
95c62eefb8SMircea Trofin }
96c62eefb8SMircea Trofin
97c62eefb8SMircea Trofin const TargetRegisterClass &
getMinimalPhysRegClass(Register Reg,const TargetRegisterInfo & TRI) const98c62eefb8SMircea Trofin RegisterBankInfo::getMinimalPhysRegClass(Register Reg,
99c62eefb8SMircea Trofin const TargetRegisterInfo &TRI) const {
100c62eefb8SMircea Trofin assert(Register::isPhysicalRegister(Reg) && "Reg must be a physreg");
101c62eefb8SMircea Trofin const auto &RegRCIt = PhysRegMinimalRCs.find(Reg);
102c62eefb8SMircea Trofin if (RegRCIt != PhysRegMinimalRCs.end())
103c62eefb8SMircea Trofin return *RegRCIt->second;
104c62eefb8SMircea Trofin const TargetRegisterClass *PhysRC = TRI.getMinimalPhysRegClass(Reg);
105c62eefb8SMircea Trofin PhysRegMinimalRCs[Reg] = PhysRC;
106c62eefb8SMircea Trofin return *PhysRC;
107c62eefb8SMircea Trofin }
108c62eefb8SMircea Trofin
getRegBankFromConstraints(const MachineInstr & MI,unsigned OpIdx,const TargetInstrInfo & TII,const MachineRegisterInfo & MRI) const109c62eefb8SMircea Trofin const RegisterBank *RegisterBankInfo::getRegBankFromConstraints(
110c62eefb8SMircea Trofin const MachineInstr &MI, unsigned OpIdx, const TargetInstrInfo &TII,
111c62eefb8SMircea Trofin const MachineRegisterInfo &MRI) const {
112c62eefb8SMircea Trofin const TargetRegisterInfo *TRI = MRI.getTargetRegisterInfo();
113c62eefb8SMircea Trofin
114c62eefb8SMircea Trofin // The mapping of the registers may be available via the
115c62eefb8SMircea Trofin // register class constraints.
116c62eefb8SMircea Trofin const TargetRegisterClass *RC = MI.getRegClassConstraint(OpIdx, &TII, TRI);
117c62eefb8SMircea Trofin
118c62eefb8SMircea Trofin if (!RC)
119c62eefb8SMircea Trofin return nullptr;
120c62eefb8SMircea Trofin
121c62eefb8SMircea Trofin Register Reg = MI.getOperand(OpIdx).getReg();
122c62eefb8SMircea Trofin const RegisterBank &RegBank = getRegBankFromRegClass(*RC, MRI.getType(Reg));
123c62eefb8SMircea Trofin // Check that the target properly implemented getRegBankFromRegClass.
124c62eefb8SMircea Trofin assert(RegBank.covers(*RC) &&
125c62eefb8SMircea Trofin "The mapping of the register bank does not make sense");
126c62eefb8SMircea Trofin return &RegBank;
127c62eefb8SMircea Trofin }
128c62eefb8SMircea Trofin
constrainGenericRegister(Register Reg,const TargetRegisterClass & RC,MachineRegisterInfo & MRI)129c62eefb8SMircea Trofin const TargetRegisterClass *RegisterBankInfo::constrainGenericRegister(
130c62eefb8SMircea Trofin Register Reg, const TargetRegisterClass &RC, MachineRegisterInfo &MRI) {
131c62eefb8SMircea Trofin
132c62eefb8SMircea Trofin // If the register already has a class, fallback to MRI::constrainRegClass.
133c62eefb8SMircea Trofin auto &RegClassOrBank = MRI.getRegClassOrRegBank(Reg);
134c62eefb8SMircea Trofin if (RegClassOrBank.is<const TargetRegisterClass *>())
135c62eefb8SMircea Trofin return MRI.constrainRegClass(Reg, &RC);
136c62eefb8SMircea Trofin
137c62eefb8SMircea Trofin const RegisterBank *RB = RegClassOrBank.get<const RegisterBank *>();
138c62eefb8SMircea Trofin // Otherwise, all we can do is ensure the bank covers the class, and set it.
139c62eefb8SMircea Trofin if (RB && !RB->covers(RC))
140c62eefb8SMircea Trofin return nullptr;
141c62eefb8SMircea Trofin
142c62eefb8SMircea Trofin // If nothing was set or the class is simply compatible, set it.
143c62eefb8SMircea Trofin MRI.setRegClass(Reg, &RC);
144c62eefb8SMircea Trofin return &RC;
145c62eefb8SMircea Trofin }
146c62eefb8SMircea Trofin
147c62eefb8SMircea Trofin /// Check whether or not \p MI should be treated like a copy
148c62eefb8SMircea Trofin /// for the mappings.
149c62eefb8SMircea Trofin /// Copy like instruction are special for mapping because
150c62eefb8SMircea Trofin /// they don't have actual register constraints. Moreover,
151c62eefb8SMircea Trofin /// they sometimes have register classes assigned and we can
152c62eefb8SMircea Trofin /// just use that instead of failing to provide a generic mapping.
isCopyLike(const MachineInstr & MI)153c62eefb8SMircea Trofin static bool isCopyLike(const MachineInstr &MI) {
154c62eefb8SMircea Trofin return MI.isCopy() || MI.isPHI() ||
155c62eefb8SMircea Trofin MI.getOpcode() == TargetOpcode::REG_SEQUENCE;
156c62eefb8SMircea Trofin }
157c62eefb8SMircea Trofin
158c62eefb8SMircea Trofin const RegisterBankInfo::InstructionMapping &
getInstrMappingImpl(const MachineInstr & MI) const159c62eefb8SMircea Trofin RegisterBankInfo::getInstrMappingImpl(const MachineInstr &MI) const {
160c62eefb8SMircea Trofin // For copies we want to walk over the operands and try to find one
161c62eefb8SMircea Trofin // that has a register bank since the instruction itself will not get
162c62eefb8SMircea Trofin // us any constraint.
163c62eefb8SMircea Trofin bool IsCopyLike = isCopyLike(MI);
164c62eefb8SMircea Trofin // For copy like instruction, only the mapping of the definition
165c62eefb8SMircea Trofin // is important. The rest is not constrained.
166c62eefb8SMircea Trofin unsigned NumOperandsForMapping = IsCopyLike ? 1 : MI.getNumOperands();
167c62eefb8SMircea Trofin
168c62eefb8SMircea Trofin const MachineFunction &MF = *MI.getMF();
169c62eefb8SMircea Trofin const TargetSubtargetInfo &STI = MF.getSubtarget();
170c62eefb8SMircea Trofin const TargetRegisterInfo &TRI = *STI.getRegisterInfo();
171c62eefb8SMircea Trofin const MachineRegisterInfo &MRI = MF.getRegInfo();
172c62eefb8SMircea Trofin // We may need to query the instruction encoding to guess the mapping.
173c62eefb8SMircea Trofin const TargetInstrInfo &TII = *STI.getInstrInfo();
174c62eefb8SMircea Trofin
175c62eefb8SMircea Trofin // Before doing anything complicated check if the mapping is not
176c62eefb8SMircea Trofin // directly available.
177c62eefb8SMircea Trofin bool CompleteMapping = true;
178c62eefb8SMircea Trofin
179c62eefb8SMircea Trofin SmallVector<const ValueMapping *, 8> OperandsMapping(NumOperandsForMapping);
180c62eefb8SMircea Trofin for (unsigned OpIdx = 0, EndIdx = MI.getNumOperands(); OpIdx != EndIdx;
181c62eefb8SMircea Trofin ++OpIdx) {
182c62eefb8SMircea Trofin const MachineOperand &MO = MI.getOperand(OpIdx);
183c62eefb8SMircea Trofin if (!MO.isReg())
184c62eefb8SMircea Trofin continue;
185c62eefb8SMircea Trofin Register Reg = MO.getReg();
186c62eefb8SMircea Trofin if (!Reg)
187c62eefb8SMircea Trofin continue;
188c62eefb8SMircea Trofin // The register bank of Reg is just a side effect of the current
189c62eefb8SMircea Trofin // excution and in particular, there is no reason to believe this
190c62eefb8SMircea Trofin // is the best default mapping for the current instruction. Keep
191c62eefb8SMircea Trofin // it as an alternative register bank if we cannot figure out
192c62eefb8SMircea Trofin // something.
193c62eefb8SMircea Trofin const RegisterBank *AltRegBank = getRegBank(Reg, MRI, TRI);
194c62eefb8SMircea Trofin // For copy-like instruction, we want to reuse the register bank
195c62eefb8SMircea Trofin // that is already set on Reg, if any, since those instructions do
196c62eefb8SMircea Trofin // not have any constraints.
197c62eefb8SMircea Trofin const RegisterBank *CurRegBank = IsCopyLike ? AltRegBank : nullptr;
198c62eefb8SMircea Trofin if (!CurRegBank) {
199c62eefb8SMircea Trofin // If this is a target specific instruction, we can deduce
200c62eefb8SMircea Trofin // the register bank from the encoding constraints.
201c62eefb8SMircea Trofin CurRegBank = getRegBankFromConstraints(MI, OpIdx, TII, MRI);
202c62eefb8SMircea Trofin if (!CurRegBank) {
203c62eefb8SMircea Trofin // All our attempts failed, give up.
204c62eefb8SMircea Trofin CompleteMapping = false;
205c62eefb8SMircea Trofin
206c62eefb8SMircea Trofin if (!IsCopyLike)
207c62eefb8SMircea Trofin // MI does not carry enough information to guess the mapping.
208c62eefb8SMircea Trofin return getInvalidInstructionMapping();
209c62eefb8SMircea Trofin continue;
210c62eefb8SMircea Trofin }
211c62eefb8SMircea Trofin }
212c62eefb8SMircea Trofin
213c62eefb8SMircea Trofin unsigned Size = getSizeInBits(Reg, MRI, TRI);
214c62eefb8SMircea Trofin const ValueMapping *ValMapping = &getValueMapping(0, Size, *CurRegBank);
215c62eefb8SMircea Trofin if (IsCopyLike) {
216c62eefb8SMircea Trofin if (!OperandsMapping[0]) {
217c62eefb8SMircea Trofin if (MI.isRegSequence()) {
218c62eefb8SMircea Trofin // For reg_sequence, the result size does not match the input.
219c62eefb8SMircea Trofin unsigned ResultSize = getSizeInBits(MI.getOperand(0).getReg(),
220c62eefb8SMircea Trofin MRI, TRI);
221c62eefb8SMircea Trofin OperandsMapping[0] = &getValueMapping(0, ResultSize, *CurRegBank);
222c62eefb8SMircea Trofin } else {
223c62eefb8SMircea Trofin OperandsMapping[0] = ValMapping;
224c62eefb8SMircea Trofin }
225c62eefb8SMircea Trofin }
226c62eefb8SMircea Trofin
227c62eefb8SMircea Trofin // The default handling assumes any register bank can be copied to any
228c62eefb8SMircea Trofin // other. If this isn't the case, the target should specially deal with
229c62eefb8SMircea Trofin // reg_sequence/phi. There may also be unsatisfiable copies.
230c62eefb8SMircea Trofin for (; OpIdx != EndIdx; ++OpIdx) {
231c62eefb8SMircea Trofin const MachineOperand &MO = MI.getOperand(OpIdx);
232c62eefb8SMircea Trofin if (!MO.isReg())
233c62eefb8SMircea Trofin continue;
234c62eefb8SMircea Trofin Register Reg = MO.getReg();
235c62eefb8SMircea Trofin if (!Reg)
236c62eefb8SMircea Trofin continue;
237c62eefb8SMircea Trofin
238c62eefb8SMircea Trofin const RegisterBank *AltRegBank = getRegBank(Reg, MRI, TRI);
239c62eefb8SMircea Trofin if (AltRegBank &&
240c62eefb8SMircea Trofin cannotCopy(*CurRegBank, *AltRegBank, getSizeInBits(Reg, MRI, TRI)))
241c62eefb8SMircea Trofin return getInvalidInstructionMapping();
242c62eefb8SMircea Trofin }
243c62eefb8SMircea Trofin
244c62eefb8SMircea Trofin CompleteMapping = true;
245c62eefb8SMircea Trofin break;
246c62eefb8SMircea Trofin }
247c62eefb8SMircea Trofin
248c62eefb8SMircea Trofin OperandsMapping[OpIdx] = ValMapping;
249c62eefb8SMircea Trofin }
250c62eefb8SMircea Trofin
251c62eefb8SMircea Trofin if (IsCopyLike && !CompleteMapping) {
252c62eefb8SMircea Trofin // No way to deduce the type from what we have.
253c62eefb8SMircea Trofin return getInvalidInstructionMapping();
254c62eefb8SMircea Trofin }
255c62eefb8SMircea Trofin
256c62eefb8SMircea Trofin assert(CompleteMapping && "Setting an uncomplete mapping");
257c62eefb8SMircea Trofin return getInstructionMapping(
258c62eefb8SMircea Trofin DefaultMappingID, /*Cost*/ 1,
259c62eefb8SMircea Trofin /*OperandsMapping*/ getOperandsMapping(OperandsMapping),
260c62eefb8SMircea Trofin NumOperandsForMapping);
261c62eefb8SMircea Trofin }
262c62eefb8SMircea Trofin
263c62eefb8SMircea Trofin /// Hashing function for PartialMapping.
hashPartialMapping(unsigned StartIdx,unsigned Length,const RegisterBank * RegBank)264c62eefb8SMircea Trofin static hash_code hashPartialMapping(unsigned StartIdx, unsigned Length,
265c62eefb8SMircea Trofin const RegisterBank *RegBank) {
266c62eefb8SMircea Trofin return hash_combine(StartIdx, Length, RegBank ? RegBank->getID() : 0);
267c62eefb8SMircea Trofin }
268c62eefb8SMircea Trofin
269c62eefb8SMircea Trofin /// Overloaded version of hash_value for a PartialMapping.
270c62eefb8SMircea Trofin hash_code
hash_value(const RegisterBankInfo::PartialMapping & PartMapping)271c62eefb8SMircea Trofin llvm::hash_value(const RegisterBankInfo::PartialMapping &PartMapping) {
272c62eefb8SMircea Trofin return hashPartialMapping(PartMapping.StartIdx, PartMapping.Length,
273c62eefb8SMircea Trofin PartMapping.RegBank);
274c62eefb8SMircea Trofin }
275c62eefb8SMircea Trofin
276c62eefb8SMircea Trofin const RegisterBankInfo::PartialMapping &
getPartialMapping(unsigned StartIdx,unsigned Length,const RegisterBank & RegBank) const277c62eefb8SMircea Trofin RegisterBankInfo::getPartialMapping(unsigned StartIdx, unsigned Length,
278c62eefb8SMircea Trofin const RegisterBank &RegBank) const {
279c62eefb8SMircea Trofin ++NumPartialMappingsAccessed;
280c62eefb8SMircea Trofin
281c62eefb8SMircea Trofin hash_code Hash = hashPartialMapping(StartIdx, Length, &RegBank);
282c62eefb8SMircea Trofin const auto &It = MapOfPartialMappings.find(Hash);
283c62eefb8SMircea Trofin if (It != MapOfPartialMappings.end())
284c62eefb8SMircea Trofin return *It->second;
285c62eefb8SMircea Trofin
286c62eefb8SMircea Trofin ++NumPartialMappingsCreated;
287c62eefb8SMircea Trofin
288c62eefb8SMircea Trofin auto &PartMapping = MapOfPartialMappings[Hash];
289c62eefb8SMircea Trofin PartMapping = std::make_unique<PartialMapping>(StartIdx, Length, RegBank);
290c62eefb8SMircea Trofin return *PartMapping;
291c62eefb8SMircea Trofin }
292c62eefb8SMircea Trofin
293c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping &
getValueMapping(unsigned StartIdx,unsigned Length,const RegisterBank & RegBank) const294c62eefb8SMircea Trofin RegisterBankInfo::getValueMapping(unsigned StartIdx, unsigned Length,
295c62eefb8SMircea Trofin const RegisterBank &RegBank) const {
296c62eefb8SMircea Trofin return getValueMapping(&getPartialMapping(StartIdx, Length, RegBank), 1);
297c62eefb8SMircea Trofin }
298c62eefb8SMircea Trofin
299c62eefb8SMircea Trofin static hash_code
hashValueMapping(const RegisterBankInfo::PartialMapping * BreakDown,unsigned NumBreakDowns)300c62eefb8SMircea Trofin hashValueMapping(const RegisterBankInfo::PartialMapping *BreakDown,
301c62eefb8SMircea Trofin unsigned NumBreakDowns) {
302c62eefb8SMircea Trofin if (LLVM_LIKELY(NumBreakDowns == 1))
303c62eefb8SMircea Trofin return hash_value(*BreakDown);
304c62eefb8SMircea Trofin SmallVector<size_t, 8> Hashes(NumBreakDowns);
305c62eefb8SMircea Trofin for (unsigned Idx = 0; Idx != NumBreakDowns; ++Idx)
306c62eefb8SMircea Trofin Hashes.push_back(hash_value(BreakDown[Idx]));
307c62eefb8SMircea Trofin return hash_combine_range(Hashes.begin(), Hashes.end());
308c62eefb8SMircea Trofin }
309c62eefb8SMircea Trofin
310c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping &
getValueMapping(const PartialMapping * BreakDown,unsigned NumBreakDowns) const311c62eefb8SMircea Trofin RegisterBankInfo::getValueMapping(const PartialMapping *BreakDown,
312c62eefb8SMircea Trofin unsigned NumBreakDowns) const {
313c62eefb8SMircea Trofin ++NumValueMappingsAccessed;
314c62eefb8SMircea Trofin
315c62eefb8SMircea Trofin hash_code Hash = hashValueMapping(BreakDown, NumBreakDowns);
316c62eefb8SMircea Trofin const auto &It = MapOfValueMappings.find(Hash);
317c62eefb8SMircea Trofin if (It != MapOfValueMappings.end())
318c62eefb8SMircea Trofin return *It->second;
319c62eefb8SMircea Trofin
320c62eefb8SMircea Trofin ++NumValueMappingsCreated;
321c62eefb8SMircea Trofin
322c62eefb8SMircea Trofin auto &ValMapping = MapOfValueMappings[Hash];
323c62eefb8SMircea Trofin ValMapping = std::make_unique<ValueMapping>(BreakDown, NumBreakDowns);
324c62eefb8SMircea Trofin return *ValMapping;
325c62eefb8SMircea Trofin }
326c62eefb8SMircea Trofin
327c62eefb8SMircea Trofin template <typename Iterator>
328c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping *
getOperandsMapping(Iterator Begin,Iterator End) const329c62eefb8SMircea Trofin RegisterBankInfo::getOperandsMapping(Iterator Begin, Iterator End) const {
330c62eefb8SMircea Trofin
331c62eefb8SMircea Trofin ++NumOperandsMappingsAccessed;
332c62eefb8SMircea Trofin
333c62eefb8SMircea Trofin // The addresses of the value mapping are unique.
334c62eefb8SMircea Trofin // Therefore, we can use them directly to hash the operand mapping.
335c62eefb8SMircea Trofin hash_code Hash = hash_combine_range(Begin, End);
336c62eefb8SMircea Trofin auto &Res = MapOfOperandsMappings[Hash];
337c62eefb8SMircea Trofin if (Res)
338c62eefb8SMircea Trofin return Res.get();
339c62eefb8SMircea Trofin
340c62eefb8SMircea Trofin ++NumOperandsMappingsCreated;
341c62eefb8SMircea Trofin
342c62eefb8SMircea Trofin // Create the array of ValueMapping.
343c62eefb8SMircea Trofin // Note: this array will not hash to this instance of operands
344c62eefb8SMircea Trofin // mapping, because we use the pointer of the ValueMapping
345c62eefb8SMircea Trofin // to hash and we expect them to uniquely identify an instance
346c62eefb8SMircea Trofin // of value mapping.
347c62eefb8SMircea Trofin Res = std::make_unique<ValueMapping[]>(std::distance(Begin, End));
348c62eefb8SMircea Trofin unsigned Idx = 0;
349c62eefb8SMircea Trofin for (Iterator It = Begin; It != End; ++It, ++Idx) {
350c62eefb8SMircea Trofin const ValueMapping *ValMap = *It;
351c62eefb8SMircea Trofin if (!ValMap)
352c62eefb8SMircea Trofin continue;
353c62eefb8SMircea Trofin Res[Idx] = *ValMap;
354c62eefb8SMircea Trofin }
355c62eefb8SMircea Trofin return Res.get();
356c62eefb8SMircea Trofin }
357c62eefb8SMircea Trofin
getOperandsMapping(const SmallVectorImpl<const RegisterBankInfo::ValueMapping * > & OpdsMapping) const358c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping *RegisterBankInfo::getOperandsMapping(
359c62eefb8SMircea Trofin const SmallVectorImpl<const RegisterBankInfo::ValueMapping *> &OpdsMapping)
360c62eefb8SMircea Trofin const {
361c62eefb8SMircea Trofin return getOperandsMapping(OpdsMapping.begin(), OpdsMapping.end());
362c62eefb8SMircea Trofin }
363c62eefb8SMircea Trofin
getOperandsMapping(std::initializer_list<const RegisterBankInfo::ValueMapping * > OpdsMapping) const364c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping *RegisterBankInfo::getOperandsMapping(
365c62eefb8SMircea Trofin std::initializer_list<const RegisterBankInfo::ValueMapping *> OpdsMapping)
366c62eefb8SMircea Trofin const {
367c62eefb8SMircea Trofin return getOperandsMapping(OpdsMapping.begin(), OpdsMapping.end());
368c62eefb8SMircea Trofin }
369c62eefb8SMircea Trofin
370c62eefb8SMircea Trofin static hash_code
hashInstructionMapping(unsigned ID,unsigned Cost,const RegisterBankInfo::ValueMapping * OperandsMapping,unsigned NumOperands)371c62eefb8SMircea Trofin hashInstructionMapping(unsigned ID, unsigned Cost,
372c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping *OperandsMapping,
373c62eefb8SMircea Trofin unsigned NumOperands) {
374c62eefb8SMircea Trofin return hash_combine(ID, Cost, OperandsMapping, NumOperands);
375c62eefb8SMircea Trofin }
376c62eefb8SMircea Trofin
377c62eefb8SMircea Trofin const RegisterBankInfo::InstructionMapping &
getInstructionMappingImpl(bool IsInvalid,unsigned ID,unsigned Cost,const RegisterBankInfo::ValueMapping * OperandsMapping,unsigned NumOperands) const378c62eefb8SMircea Trofin RegisterBankInfo::getInstructionMappingImpl(
379c62eefb8SMircea Trofin bool IsInvalid, unsigned ID, unsigned Cost,
380c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping *OperandsMapping,
381c62eefb8SMircea Trofin unsigned NumOperands) const {
382c62eefb8SMircea Trofin assert(((IsInvalid && ID == InvalidMappingID && Cost == 0 &&
383c62eefb8SMircea Trofin OperandsMapping == nullptr && NumOperands == 0) ||
384c62eefb8SMircea Trofin !IsInvalid) &&
385c62eefb8SMircea Trofin "Mismatch argument for invalid input");
386c62eefb8SMircea Trofin ++NumInstructionMappingsAccessed;
387c62eefb8SMircea Trofin
388c62eefb8SMircea Trofin hash_code Hash =
389c62eefb8SMircea Trofin hashInstructionMapping(ID, Cost, OperandsMapping, NumOperands);
390c62eefb8SMircea Trofin const auto &It = MapOfInstructionMappings.find(Hash);
391c62eefb8SMircea Trofin if (It != MapOfInstructionMappings.end())
392c62eefb8SMircea Trofin return *It->second;
393c62eefb8SMircea Trofin
394c62eefb8SMircea Trofin ++NumInstructionMappingsCreated;
395c62eefb8SMircea Trofin
396c62eefb8SMircea Trofin auto &InstrMapping = MapOfInstructionMappings[Hash];
397c62eefb8SMircea Trofin InstrMapping = std::make_unique<InstructionMapping>(
398c62eefb8SMircea Trofin ID, Cost, OperandsMapping, NumOperands);
399c62eefb8SMircea Trofin return *InstrMapping;
400c62eefb8SMircea Trofin }
401c62eefb8SMircea Trofin
402c62eefb8SMircea Trofin const RegisterBankInfo::InstructionMapping &
getInstrMapping(const MachineInstr & MI) const403c62eefb8SMircea Trofin RegisterBankInfo::getInstrMapping(const MachineInstr &MI) const {
404c62eefb8SMircea Trofin const RegisterBankInfo::InstructionMapping &Mapping = getInstrMappingImpl(MI);
405c62eefb8SMircea Trofin if (Mapping.isValid())
406c62eefb8SMircea Trofin return Mapping;
407c62eefb8SMircea Trofin llvm_unreachable("The target must implement this");
408c62eefb8SMircea Trofin }
409c62eefb8SMircea Trofin
410c62eefb8SMircea Trofin RegisterBankInfo::InstructionMappings
getInstrPossibleMappings(const MachineInstr & MI) const411c62eefb8SMircea Trofin RegisterBankInfo::getInstrPossibleMappings(const MachineInstr &MI) const {
412c62eefb8SMircea Trofin InstructionMappings PossibleMappings;
413c62eefb8SMircea Trofin const auto &Mapping = getInstrMapping(MI);
414c62eefb8SMircea Trofin if (Mapping.isValid()) {
415c62eefb8SMircea Trofin // Put the default mapping first.
416c62eefb8SMircea Trofin PossibleMappings.push_back(&Mapping);
417c62eefb8SMircea Trofin }
418c62eefb8SMircea Trofin
419c62eefb8SMircea Trofin // Then the alternative mapping, if any.
420c62eefb8SMircea Trofin InstructionMappings AltMappings = getInstrAlternativeMappings(MI);
421c62eefb8SMircea Trofin append_range(PossibleMappings, AltMappings);
422c62eefb8SMircea Trofin #ifndef NDEBUG
423c62eefb8SMircea Trofin for (const InstructionMapping *Mapping : PossibleMappings)
424c62eefb8SMircea Trofin assert(Mapping->verify(MI) && "Mapping is invalid");
425c62eefb8SMircea Trofin #endif
426c62eefb8SMircea Trofin return PossibleMappings;
427c62eefb8SMircea Trofin }
428c62eefb8SMircea Trofin
429c62eefb8SMircea Trofin RegisterBankInfo::InstructionMappings
getInstrAlternativeMappings(const MachineInstr & MI) const430c62eefb8SMircea Trofin RegisterBankInfo::getInstrAlternativeMappings(const MachineInstr &MI) const {
431c62eefb8SMircea Trofin // No alternative for MI.
432c62eefb8SMircea Trofin return InstructionMappings();
433c62eefb8SMircea Trofin }
434c62eefb8SMircea Trofin
applyDefaultMapping(const OperandsMapper & OpdMapper)435c62eefb8SMircea Trofin void RegisterBankInfo::applyDefaultMapping(const OperandsMapper &OpdMapper) {
436c62eefb8SMircea Trofin MachineInstr &MI = OpdMapper.getMI();
437c62eefb8SMircea Trofin MachineRegisterInfo &MRI = OpdMapper.getMRI();
438c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << "Applying default-like mapping\n");
439c62eefb8SMircea Trofin for (unsigned OpIdx = 0,
440c62eefb8SMircea Trofin EndIdx = OpdMapper.getInstrMapping().getNumOperands();
441c62eefb8SMircea Trofin OpIdx != EndIdx; ++OpIdx) {
442c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << "OpIdx " << OpIdx);
443c62eefb8SMircea Trofin MachineOperand &MO = MI.getOperand(OpIdx);
444c62eefb8SMircea Trofin if (!MO.isReg()) {
445c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << " is not a register, nothing to be done\n");
446c62eefb8SMircea Trofin continue;
447c62eefb8SMircea Trofin }
448c62eefb8SMircea Trofin if (!MO.getReg()) {
449c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << " is $noreg, nothing to be done\n");
450c62eefb8SMircea Trofin continue;
451c62eefb8SMircea Trofin }
452c62eefb8SMircea Trofin assert(OpdMapper.getInstrMapping().getOperandMapping(OpIdx).NumBreakDowns !=
453c62eefb8SMircea Trofin 0 &&
454c62eefb8SMircea Trofin "Invalid mapping");
455c62eefb8SMircea Trofin assert(OpdMapper.getInstrMapping().getOperandMapping(OpIdx).NumBreakDowns ==
456c62eefb8SMircea Trofin 1 &&
457c62eefb8SMircea Trofin "This mapping is too complex for this function");
458c62eefb8SMircea Trofin iterator_range<SmallVectorImpl<Register>::const_iterator> NewRegs =
459c62eefb8SMircea Trofin OpdMapper.getVRegs(OpIdx);
460c62eefb8SMircea Trofin if (NewRegs.empty()) {
461c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << " has not been repaired, nothing to be done\n");
462c62eefb8SMircea Trofin continue;
463c62eefb8SMircea Trofin }
464c62eefb8SMircea Trofin Register OrigReg = MO.getReg();
465c62eefb8SMircea Trofin Register NewReg = *NewRegs.begin();
466c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << " changed, replace " << printReg(OrigReg, nullptr));
467c62eefb8SMircea Trofin MO.setReg(NewReg);
468c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << " with " << printReg(NewReg, nullptr));
469c62eefb8SMircea Trofin
470c62eefb8SMircea Trofin // The OperandsMapper creates plain scalar, we may have to fix that.
471c62eefb8SMircea Trofin // Check if the types match and if not, fix that.
472c62eefb8SMircea Trofin LLT OrigTy = MRI.getType(OrigReg);
473c62eefb8SMircea Trofin LLT NewTy = MRI.getType(NewReg);
474c62eefb8SMircea Trofin if (OrigTy != NewTy) {
475c62eefb8SMircea Trofin // The default mapping is not supposed to change the size of
476c62eefb8SMircea Trofin // the storage. However, right now we don't necessarily bump all
477c62eefb8SMircea Trofin // the types to storage size. For instance, we can consider
478c62eefb8SMircea Trofin // s16 G_AND legal whereas the storage size is going to be 32.
479c62eefb8SMircea Trofin assert(OrigTy.getSizeInBits() <= NewTy.getSizeInBits() &&
480c62eefb8SMircea Trofin "Types with difference size cannot be handled by the default "
481c62eefb8SMircea Trofin "mapping");
482c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << "\nChange type of new opd from " << NewTy << " to "
483c62eefb8SMircea Trofin << OrigTy);
484c62eefb8SMircea Trofin MRI.setType(NewReg, OrigTy);
485c62eefb8SMircea Trofin }
486c62eefb8SMircea Trofin LLVM_DEBUG(dbgs() << '\n');
487c62eefb8SMircea Trofin }
488c62eefb8SMircea Trofin }
489c62eefb8SMircea Trofin
getSizeInBits(Register Reg,const MachineRegisterInfo & MRI,const TargetRegisterInfo & TRI) const490c62eefb8SMircea Trofin unsigned RegisterBankInfo::getSizeInBits(Register Reg,
491c62eefb8SMircea Trofin const MachineRegisterInfo &MRI,
492c62eefb8SMircea Trofin const TargetRegisterInfo &TRI) const {
493c62eefb8SMircea Trofin if (Register::isPhysicalRegister(Reg)) {
494c62eefb8SMircea Trofin // The size is not directly available for physical registers.
495c62eefb8SMircea Trofin // Instead, we need to access a register class that contains Reg and
496c62eefb8SMircea Trofin // get the size of that register class.
497c62eefb8SMircea Trofin // Because this is expensive, we'll cache the register class by calling
498c62eefb8SMircea Trofin auto *RC = &getMinimalPhysRegClass(Reg, TRI);
499c62eefb8SMircea Trofin assert(RC && "Expecting Register class");
500c62eefb8SMircea Trofin return TRI.getRegSizeInBits(*RC);
501c62eefb8SMircea Trofin }
502c62eefb8SMircea Trofin return TRI.getRegSizeInBits(Reg, MRI);
503c62eefb8SMircea Trofin }
504c62eefb8SMircea Trofin
505c62eefb8SMircea Trofin //------------------------------------------------------------------------------
506c62eefb8SMircea Trofin // Helper classes implementation.
507c62eefb8SMircea Trofin //------------------------------------------------------------------------------
508c62eefb8SMircea Trofin #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
dump() const509c62eefb8SMircea Trofin LLVM_DUMP_METHOD void RegisterBankInfo::PartialMapping::dump() const {
510c62eefb8SMircea Trofin print(dbgs());
511c62eefb8SMircea Trofin dbgs() << '\n';
512c62eefb8SMircea Trofin }
513c62eefb8SMircea Trofin #endif
514c62eefb8SMircea Trofin
verify() const515c62eefb8SMircea Trofin bool RegisterBankInfo::PartialMapping::verify() const {
516c62eefb8SMircea Trofin assert(RegBank && "Register bank not set");
517c62eefb8SMircea Trofin assert(Length && "Empty mapping");
518c62eefb8SMircea Trofin assert((StartIdx <= getHighBitIdx()) && "Overflow, switch to APInt?");
519c62eefb8SMircea Trofin // Check if the minimum width fits into RegBank.
520c62eefb8SMircea Trofin assert(RegBank->getSize() >= Length && "Register bank too small for Mask");
521c62eefb8SMircea Trofin return true;
522c62eefb8SMircea Trofin }
523c62eefb8SMircea Trofin
print(raw_ostream & OS) const524c62eefb8SMircea Trofin void RegisterBankInfo::PartialMapping::print(raw_ostream &OS) const {
525c62eefb8SMircea Trofin OS << "[" << StartIdx << ", " << getHighBitIdx() << "], RegBank = ";
526c62eefb8SMircea Trofin if (RegBank)
527c62eefb8SMircea Trofin OS << *RegBank;
528c62eefb8SMircea Trofin else
529c62eefb8SMircea Trofin OS << "nullptr";
530c62eefb8SMircea Trofin }
531c62eefb8SMircea Trofin
partsAllUniform() const532c62eefb8SMircea Trofin bool RegisterBankInfo::ValueMapping::partsAllUniform() const {
533c62eefb8SMircea Trofin if (NumBreakDowns < 2)
534c62eefb8SMircea Trofin return true;
535c62eefb8SMircea Trofin
536c62eefb8SMircea Trofin const PartialMapping *First = begin();
537c62eefb8SMircea Trofin for (const PartialMapping *Part = First + 1; Part != end(); ++Part) {
538c62eefb8SMircea Trofin if (Part->Length != First->Length || Part->RegBank != First->RegBank)
539c62eefb8SMircea Trofin return false;
540c62eefb8SMircea Trofin }
541c62eefb8SMircea Trofin
542c62eefb8SMircea Trofin return true;
543c62eefb8SMircea Trofin }
544c62eefb8SMircea Trofin
verify(unsigned MeaningfulBitWidth) const545c62eefb8SMircea Trofin bool RegisterBankInfo::ValueMapping::verify(unsigned MeaningfulBitWidth) const {
546c62eefb8SMircea Trofin assert(NumBreakDowns && "Value mapped nowhere?!");
547c62eefb8SMircea Trofin unsigned OrigValueBitWidth = 0;
548c62eefb8SMircea Trofin for (const RegisterBankInfo::PartialMapping &PartMap : *this) {
549c62eefb8SMircea Trofin // Check that each register bank is big enough to hold the partial value:
550c62eefb8SMircea Trofin // this check is done by PartialMapping::verify
551c62eefb8SMircea Trofin assert(PartMap.verify() && "Partial mapping is invalid");
552c62eefb8SMircea Trofin // The original value should completely be mapped.
553c62eefb8SMircea Trofin // Thus the maximum accessed index + 1 is the size of the original value.
554c62eefb8SMircea Trofin OrigValueBitWidth =
555c62eefb8SMircea Trofin std::max(OrigValueBitWidth, PartMap.getHighBitIdx() + 1);
556c62eefb8SMircea Trofin }
557c62eefb8SMircea Trofin assert(OrigValueBitWidth >= MeaningfulBitWidth &&
558c62eefb8SMircea Trofin "Meaningful bits not covered by the mapping");
559c62eefb8SMircea Trofin APInt ValueMask(OrigValueBitWidth, 0);
560c62eefb8SMircea Trofin for (const RegisterBankInfo::PartialMapping &PartMap : *this) {
561c62eefb8SMircea Trofin // Check that the union of the partial mappings covers the whole value,
562c62eefb8SMircea Trofin // without overlaps.
563c62eefb8SMircea Trofin // The high bit is exclusive in the APInt API, thus getHighBitIdx + 1.
564c62eefb8SMircea Trofin APInt PartMapMask = APInt::getBitsSet(OrigValueBitWidth, PartMap.StartIdx,
565c62eefb8SMircea Trofin PartMap.getHighBitIdx() + 1);
566c62eefb8SMircea Trofin ValueMask ^= PartMapMask;
567c62eefb8SMircea Trofin assert((ValueMask & PartMapMask) == PartMapMask &&
568c62eefb8SMircea Trofin "Some partial mappings overlap");
569c62eefb8SMircea Trofin }
570c62eefb8SMircea Trofin assert(ValueMask.isAllOnes() && "Value is not fully mapped");
571c62eefb8SMircea Trofin return true;
572c62eefb8SMircea Trofin }
573c62eefb8SMircea Trofin
574c62eefb8SMircea Trofin #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
dump() const575c62eefb8SMircea Trofin LLVM_DUMP_METHOD void RegisterBankInfo::ValueMapping::dump() const {
576c62eefb8SMircea Trofin print(dbgs());
577c62eefb8SMircea Trofin dbgs() << '\n';
578c62eefb8SMircea Trofin }
579c62eefb8SMircea Trofin #endif
580c62eefb8SMircea Trofin
print(raw_ostream & OS) const581c62eefb8SMircea Trofin void RegisterBankInfo::ValueMapping::print(raw_ostream &OS) const {
582c62eefb8SMircea Trofin OS << "#BreakDown: " << NumBreakDowns << " ";
583c62eefb8SMircea Trofin bool IsFirst = true;
584c62eefb8SMircea Trofin for (const PartialMapping &PartMap : *this) {
585c62eefb8SMircea Trofin if (!IsFirst)
586c62eefb8SMircea Trofin OS << ", ";
587c62eefb8SMircea Trofin OS << '[' << PartMap << ']';
588c62eefb8SMircea Trofin IsFirst = false;
589c62eefb8SMircea Trofin }
590c62eefb8SMircea Trofin }
591c62eefb8SMircea Trofin
verify(const MachineInstr & MI) const592c62eefb8SMircea Trofin bool RegisterBankInfo::InstructionMapping::verify(
593c62eefb8SMircea Trofin const MachineInstr &MI) const {
594c62eefb8SMircea Trofin // Check that all the register operands are properly mapped.
595c62eefb8SMircea Trofin // Check the constructor invariant.
596c62eefb8SMircea Trofin // For PHI, we only care about mapping the definition.
597c62eefb8SMircea Trofin assert(NumOperands == (isCopyLike(MI) ? 1 : MI.getNumOperands()) &&
598c62eefb8SMircea Trofin "NumOperands must match, see constructor");
599c62eefb8SMircea Trofin assert(MI.getParent() && MI.getMF() &&
600c62eefb8SMircea Trofin "MI must be connected to a MachineFunction");
601c62eefb8SMircea Trofin const MachineFunction &MF = *MI.getMF();
602c62eefb8SMircea Trofin const RegisterBankInfo *RBI = MF.getSubtarget().getRegBankInfo();
603c62eefb8SMircea Trofin (void)RBI;
604c62eefb8SMircea Trofin
605c62eefb8SMircea Trofin for (unsigned Idx = 0; Idx < NumOperands; ++Idx) {
606c62eefb8SMircea Trofin const MachineOperand &MO = MI.getOperand(Idx);
607c62eefb8SMircea Trofin if (!MO.isReg()) {
608c62eefb8SMircea Trofin assert(!getOperandMapping(Idx).isValid() &&
609c62eefb8SMircea Trofin "We should not care about non-reg mapping");
610c62eefb8SMircea Trofin continue;
611c62eefb8SMircea Trofin }
612c62eefb8SMircea Trofin Register Reg = MO.getReg();
613c62eefb8SMircea Trofin if (!Reg)
614c62eefb8SMircea Trofin continue;
615c62eefb8SMircea Trofin assert(getOperandMapping(Idx).isValid() &&
616c62eefb8SMircea Trofin "We must have a mapping for reg operands");
617c62eefb8SMircea Trofin const RegisterBankInfo::ValueMapping &MOMapping = getOperandMapping(Idx);
618c62eefb8SMircea Trofin (void)MOMapping;
619c62eefb8SMircea Trofin // Register size in bits.
620c62eefb8SMircea Trofin // This size must match what the mapping expects.
621c62eefb8SMircea Trofin assert(MOMapping.verify(RBI->getSizeInBits(
622c62eefb8SMircea Trofin Reg, MF.getRegInfo(), *MF.getSubtarget().getRegisterInfo())) &&
623c62eefb8SMircea Trofin "Value mapping is invalid");
624c62eefb8SMircea Trofin }
625c62eefb8SMircea Trofin return true;
626c62eefb8SMircea Trofin }
627c62eefb8SMircea Trofin
628c62eefb8SMircea Trofin #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
dump() const629c62eefb8SMircea Trofin LLVM_DUMP_METHOD void RegisterBankInfo::InstructionMapping::dump() const {
630c62eefb8SMircea Trofin print(dbgs());
631c62eefb8SMircea Trofin dbgs() << '\n';
632c62eefb8SMircea Trofin }
633c62eefb8SMircea Trofin #endif
634c62eefb8SMircea Trofin
print(raw_ostream & OS) const635c62eefb8SMircea Trofin void RegisterBankInfo::InstructionMapping::print(raw_ostream &OS) const {
636c62eefb8SMircea Trofin OS << "ID: " << getID() << " Cost: " << getCost() << " Mapping: ";
637c62eefb8SMircea Trofin
638c62eefb8SMircea Trofin for (unsigned OpIdx = 0; OpIdx != NumOperands; ++OpIdx) {
639c62eefb8SMircea Trofin const ValueMapping &ValMapping = getOperandMapping(OpIdx);
640c62eefb8SMircea Trofin if (OpIdx)
641c62eefb8SMircea Trofin OS << ", ";
642c62eefb8SMircea Trofin OS << "{ Idx: " << OpIdx << " Map: " << ValMapping << '}';
643c62eefb8SMircea Trofin }
644c62eefb8SMircea Trofin }
645c62eefb8SMircea Trofin
646c62eefb8SMircea Trofin const int RegisterBankInfo::OperandsMapper::DontKnowIdx = -1;
647c62eefb8SMircea Trofin
OperandsMapper(MachineInstr & MI,const InstructionMapping & InstrMapping,MachineRegisterInfo & MRI)648c62eefb8SMircea Trofin RegisterBankInfo::OperandsMapper::OperandsMapper(
649c62eefb8SMircea Trofin MachineInstr &MI, const InstructionMapping &InstrMapping,
650c62eefb8SMircea Trofin MachineRegisterInfo &MRI)
651c62eefb8SMircea Trofin : MRI(MRI), MI(MI), InstrMapping(InstrMapping) {
652c62eefb8SMircea Trofin unsigned NumOpds = InstrMapping.getNumOperands();
653c62eefb8SMircea Trofin OpToNewVRegIdx.resize(NumOpds, OperandsMapper::DontKnowIdx);
654c62eefb8SMircea Trofin assert(InstrMapping.verify(MI) && "Invalid mapping for MI");
655c62eefb8SMircea Trofin }
656c62eefb8SMircea Trofin
657c62eefb8SMircea Trofin iterator_range<SmallVectorImpl<Register>::iterator>
getVRegsMem(unsigned OpIdx)658c62eefb8SMircea Trofin RegisterBankInfo::OperandsMapper::getVRegsMem(unsigned OpIdx) {
659c62eefb8SMircea Trofin assert(OpIdx < getInstrMapping().getNumOperands() && "Out-of-bound access");
660c62eefb8SMircea Trofin unsigned NumPartialVal =
661c62eefb8SMircea Trofin getInstrMapping().getOperandMapping(OpIdx).NumBreakDowns;
662c62eefb8SMircea Trofin int StartIdx = OpToNewVRegIdx[OpIdx];
663c62eefb8SMircea Trofin
664c62eefb8SMircea Trofin if (StartIdx == OperandsMapper::DontKnowIdx) {
665c62eefb8SMircea Trofin // This is the first time we try to access OpIdx.
666c62eefb8SMircea Trofin // Create the cells that will hold all the partial values at the
667c62eefb8SMircea Trofin // end of the list of NewVReg.
668c62eefb8SMircea Trofin StartIdx = NewVRegs.size();
669c62eefb8SMircea Trofin OpToNewVRegIdx[OpIdx] = StartIdx;
670c62eefb8SMircea Trofin for (unsigned i = 0; i < NumPartialVal; ++i)
671c62eefb8SMircea Trofin NewVRegs.push_back(0);
672c62eefb8SMircea Trofin }
673c62eefb8SMircea Trofin SmallVectorImpl<Register>::iterator End =
674c62eefb8SMircea Trofin getNewVRegsEnd(StartIdx, NumPartialVal);
675c62eefb8SMircea Trofin
676c62eefb8SMircea Trofin return make_range(&NewVRegs[StartIdx], End);
677c62eefb8SMircea Trofin }
678c62eefb8SMircea Trofin
679c62eefb8SMircea Trofin SmallVectorImpl<Register>::const_iterator
getNewVRegsEnd(unsigned StartIdx,unsigned NumVal) const680c62eefb8SMircea Trofin RegisterBankInfo::OperandsMapper::getNewVRegsEnd(unsigned StartIdx,
681c62eefb8SMircea Trofin unsigned NumVal) const {
682c62eefb8SMircea Trofin return const_cast<OperandsMapper *>(this)->getNewVRegsEnd(StartIdx, NumVal);
683c62eefb8SMircea Trofin }
684c62eefb8SMircea Trofin SmallVectorImpl<Register>::iterator
getNewVRegsEnd(unsigned StartIdx,unsigned NumVal)685c62eefb8SMircea Trofin RegisterBankInfo::OperandsMapper::getNewVRegsEnd(unsigned StartIdx,
686c62eefb8SMircea Trofin unsigned NumVal) {
687c62eefb8SMircea Trofin assert((NewVRegs.size() == StartIdx + NumVal ||
688c62eefb8SMircea Trofin NewVRegs.size() > StartIdx + NumVal) &&
689c62eefb8SMircea Trofin "NewVRegs too small to contain all the partial mapping");
690c62eefb8SMircea Trofin return NewVRegs.size() <= StartIdx + NumVal ? NewVRegs.end()
691c62eefb8SMircea Trofin : &NewVRegs[StartIdx + NumVal];
692c62eefb8SMircea Trofin }
693c62eefb8SMircea Trofin
createVRegs(unsigned OpIdx)694c62eefb8SMircea Trofin void RegisterBankInfo::OperandsMapper::createVRegs(unsigned OpIdx) {
695c62eefb8SMircea Trofin assert(OpIdx < getInstrMapping().getNumOperands() && "Out-of-bound access");
696c62eefb8SMircea Trofin iterator_range<SmallVectorImpl<Register>::iterator> NewVRegsForOpIdx =
697c62eefb8SMircea Trofin getVRegsMem(OpIdx);
698c62eefb8SMircea Trofin const ValueMapping &ValMapping = getInstrMapping().getOperandMapping(OpIdx);
699c62eefb8SMircea Trofin const PartialMapping *PartMap = ValMapping.begin();
700c62eefb8SMircea Trofin for (Register &NewVReg : NewVRegsForOpIdx) {
701c62eefb8SMircea Trofin assert(PartMap != ValMapping.end() && "Out-of-bound access");
702c62eefb8SMircea Trofin assert(NewVReg == 0 && "Register has already been created");
703c62eefb8SMircea Trofin // The new registers are always bound to scalar with the right size.
704c62eefb8SMircea Trofin // The actual type has to be set when the target does the mapping
705c62eefb8SMircea Trofin // of the instruction.
706c62eefb8SMircea Trofin // The rationale is that this generic code cannot guess how the
707c62eefb8SMircea Trofin // target plans to split the input type.
708c62eefb8SMircea Trofin NewVReg = MRI.createGenericVirtualRegister(LLT::scalar(PartMap->Length));
709c62eefb8SMircea Trofin MRI.setRegBank(NewVReg, *PartMap->RegBank);
710c62eefb8SMircea Trofin ++PartMap;
711c62eefb8SMircea Trofin }
712c62eefb8SMircea Trofin }
713c62eefb8SMircea Trofin
setVRegs(unsigned OpIdx,unsigned PartialMapIdx,Register NewVReg)714c62eefb8SMircea Trofin void RegisterBankInfo::OperandsMapper::setVRegs(unsigned OpIdx,
715c62eefb8SMircea Trofin unsigned PartialMapIdx,
716c62eefb8SMircea Trofin Register NewVReg) {
717c62eefb8SMircea Trofin assert(OpIdx < getInstrMapping().getNumOperands() && "Out-of-bound access");
718c62eefb8SMircea Trofin assert(getInstrMapping().getOperandMapping(OpIdx).NumBreakDowns >
719c62eefb8SMircea Trofin PartialMapIdx &&
720c62eefb8SMircea Trofin "Out-of-bound access for partial mapping");
721c62eefb8SMircea Trofin // Make sure the memory is initialized for that operand.
722c62eefb8SMircea Trofin (void)getVRegsMem(OpIdx);
723c62eefb8SMircea Trofin assert(NewVRegs[OpToNewVRegIdx[OpIdx] + PartialMapIdx] == 0 &&
724c62eefb8SMircea Trofin "This value is already set");
725c62eefb8SMircea Trofin NewVRegs[OpToNewVRegIdx[OpIdx] + PartialMapIdx] = NewVReg;
726c62eefb8SMircea Trofin }
727c62eefb8SMircea Trofin
728c62eefb8SMircea Trofin iterator_range<SmallVectorImpl<Register>::const_iterator>
getVRegs(unsigned OpIdx,bool ForDebug) const729c62eefb8SMircea Trofin RegisterBankInfo::OperandsMapper::getVRegs(unsigned OpIdx,
730c62eefb8SMircea Trofin bool ForDebug) const {
731c62eefb8SMircea Trofin (void)ForDebug;
732c62eefb8SMircea Trofin assert(OpIdx < getInstrMapping().getNumOperands() && "Out-of-bound access");
733c62eefb8SMircea Trofin int StartIdx = OpToNewVRegIdx[OpIdx];
734c62eefb8SMircea Trofin
735c62eefb8SMircea Trofin if (StartIdx == OperandsMapper::DontKnowIdx)
736c62eefb8SMircea Trofin return make_range(NewVRegs.end(), NewVRegs.end());
737c62eefb8SMircea Trofin
738c62eefb8SMircea Trofin unsigned PartMapSize =
739c62eefb8SMircea Trofin getInstrMapping().getOperandMapping(OpIdx).NumBreakDowns;
740c62eefb8SMircea Trofin SmallVectorImpl<Register>::const_iterator End =
741c62eefb8SMircea Trofin getNewVRegsEnd(StartIdx, PartMapSize);
742c62eefb8SMircea Trofin iterator_range<SmallVectorImpl<Register>::const_iterator> Res =
743c62eefb8SMircea Trofin make_range(&NewVRegs[StartIdx], End);
744c62eefb8SMircea Trofin #ifndef NDEBUG
745c62eefb8SMircea Trofin for (Register VReg : Res)
746c62eefb8SMircea Trofin assert((VReg || ForDebug) && "Some registers are uninitialized");
747c62eefb8SMircea Trofin #endif
748c62eefb8SMircea Trofin return Res;
749c62eefb8SMircea Trofin }
750c62eefb8SMircea Trofin
751c62eefb8SMircea Trofin #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
dump() const752c62eefb8SMircea Trofin LLVM_DUMP_METHOD void RegisterBankInfo::OperandsMapper::dump() const {
753c62eefb8SMircea Trofin print(dbgs(), true);
754c62eefb8SMircea Trofin dbgs() << '\n';
755c62eefb8SMircea Trofin }
756c62eefb8SMircea Trofin #endif
757c62eefb8SMircea Trofin
print(raw_ostream & OS,bool ForDebug) const758c62eefb8SMircea Trofin void RegisterBankInfo::OperandsMapper::print(raw_ostream &OS,
759c62eefb8SMircea Trofin bool ForDebug) const {
760c62eefb8SMircea Trofin unsigned NumOpds = getInstrMapping().getNumOperands();
761c62eefb8SMircea Trofin if (ForDebug) {
762c62eefb8SMircea Trofin OS << "Mapping for " << getMI() << "\nwith " << getInstrMapping() << '\n';
763c62eefb8SMircea Trofin // Print out the internal state of the index table.
764c62eefb8SMircea Trofin OS << "Populated indices (CellNumber, IndexInNewVRegs): ";
765c62eefb8SMircea Trofin bool IsFirst = true;
766c62eefb8SMircea Trofin for (unsigned Idx = 0; Idx != NumOpds; ++Idx) {
767c62eefb8SMircea Trofin if (OpToNewVRegIdx[Idx] != DontKnowIdx) {
768c62eefb8SMircea Trofin if (!IsFirst)
769c62eefb8SMircea Trofin OS << ", ";
770c62eefb8SMircea Trofin OS << '(' << Idx << ", " << OpToNewVRegIdx[Idx] << ')';
771c62eefb8SMircea Trofin IsFirst = false;
772c62eefb8SMircea Trofin }
773c62eefb8SMircea Trofin }
774c62eefb8SMircea Trofin OS << '\n';
775c62eefb8SMircea Trofin } else
776c62eefb8SMircea Trofin OS << "Mapping ID: " << getInstrMapping().getID() << ' ';
777c62eefb8SMircea Trofin
778c62eefb8SMircea Trofin OS << "Operand Mapping: ";
779c62eefb8SMircea Trofin // If we have a function, we can pretty print the name of the registers.
780c62eefb8SMircea Trofin // Otherwise we will print the raw numbers.
781c62eefb8SMircea Trofin const TargetRegisterInfo *TRI =
782c62eefb8SMircea Trofin getMI().getParent() && getMI().getMF()
783c62eefb8SMircea Trofin ? getMI().getMF()->getSubtarget().getRegisterInfo()
784c62eefb8SMircea Trofin : nullptr;
785c62eefb8SMircea Trofin bool IsFirst = true;
786c62eefb8SMircea Trofin for (unsigned Idx = 0; Idx != NumOpds; ++Idx) {
787c62eefb8SMircea Trofin if (OpToNewVRegIdx[Idx] == DontKnowIdx)
788c62eefb8SMircea Trofin continue;
789c62eefb8SMircea Trofin if (!IsFirst)
790c62eefb8SMircea Trofin OS << ", ";
791c62eefb8SMircea Trofin IsFirst = false;
792c62eefb8SMircea Trofin OS << '(' << printReg(getMI().getOperand(Idx).getReg(), TRI) << ", [";
793c62eefb8SMircea Trofin bool IsFirstNewVReg = true;
794c62eefb8SMircea Trofin for (Register VReg : getVRegs(Idx)) {
795c62eefb8SMircea Trofin if (!IsFirstNewVReg)
796c62eefb8SMircea Trofin OS << ", ";
797c62eefb8SMircea Trofin IsFirstNewVReg = false;
798c62eefb8SMircea Trofin OS << printReg(VReg, TRI);
799c62eefb8SMircea Trofin }
800c62eefb8SMircea Trofin OS << "])";
801c62eefb8SMircea Trofin }
802c62eefb8SMircea Trofin }
803