1 //===- RegisterBankEmitter.cpp - Generate a Register Bank Desc. -*- C++ -*-===//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 //
10 // This tablegen backend is responsible for emitting a description of a target
11 // register bank for a code generator.
12 //
13 //===----------------------------------------------------------------------===//
14
15 #include "llvm/ADT/BitVector.h"
16 #include "llvm/Support/Debug.h"
17 #include "llvm/TableGen/Error.h"
18 #include "llvm/TableGen/Record.h"
19 #include "llvm/TableGen/TableGenBackend.h"
20
21 #include "CodeGenHwModes.h"
22 #include "CodeGenRegisters.h"
23
24 #define DEBUG_TYPE "register-bank-emitter"
25
26 using namespace llvm;
27
28 namespace {
29 class RegisterBank {
30
31 /// A vector of register classes that are included in the register bank.
32 typedef std::vector<const CodeGenRegisterClass *> RegisterClassesTy;
33
34 private:
35 const Record &TheDef;
36
37 /// The register classes that are covered by the register bank.
38 RegisterClassesTy RCs;
39
40 /// The register class with the largest register size.
41 const CodeGenRegisterClass *RCWithLargestRegsSize;
42
43 public:
RegisterBank(const Record & TheDef)44 RegisterBank(const Record &TheDef)
45 : TheDef(TheDef), RCs(), RCWithLargestRegsSize(nullptr) {}
46
47 /// Get the human-readable name for the bank.
getName() const48 StringRef getName() const { return TheDef.getValueAsString("Name"); }
49 /// Get the name of the enumerator in the ID enumeration.
getEnumeratorName() const50 std::string getEnumeratorName() const { return (TheDef.getName() + "ID").str(); }
51
52 /// Get the name of the array holding the register class coverage data;
getCoverageArrayName() const53 std::string getCoverageArrayName() const {
54 return (TheDef.getName() + "CoverageData").str();
55 }
56
57 /// Get the name of the global instance variable.
getInstanceVarName() const58 StringRef getInstanceVarName() const { return TheDef.getName(); }
59
getDef() const60 const Record &getDef() const { return TheDef; }
61
62 /// Get the register classes listed in the RegisterBank.RegisterClasses field.
63 std::vector<const CodeGenRegisterClass *>
getExplictlySpecifiedRegisterClasses(CodeGenRegBank & RegisterClassHierarchy) const64 getExplictlySpecifiedRegisterClasses(
65 CodeGenRegBank &RegisterClassHierarchy) const {
66 std::vector<const CodeGenRegisterClass *> RCs;
67 for (const auto &RCDef : getDef().getValueAsListOfDefs("RegisterClasses"))
68 RCs.push_back(RegisterClassHierarchy.getRegClass(RCDef));
69 return RCs;
70 }
71
72 /// Add a register class to the bank without duplicates.
addRegisterClass(const CodeGenRegisterClass * RC)73 void addRegisterClass(const CodeGenRegisterClass *RC) {
74 if (std::find_if(RCs.begin(), RCs.end(),
75 [&RC](const CodeGenRegisterClass *X) {
76 return X == RC;
77 }) != RCs.end())
78 return;
79
80 // FIXME? We really want the register size rather than the spill size
81 // since the spill size may be bigger on some targets with
82 // limited load/store instructions. However, we don't store the
83 // register size anywhere (we could sum the sizes of the subregisters
84 // but there may be additional bits too) and we can't derive it from
85 // the VT's reliably due to Untyped.
86 if (RCWithLargestRegsSize == nullptr)
87 RCWithLargestRegsSize = RC;
88 else if (RCWithLargestRegsSize->RSI.get(DefaultMode).SpillSize <
89 RC->RSI.get(DefaultMode).SpillSize)
90 RCWithLargestRegsSize = RC;
91 assert(RCWithLargestRegsSize && "RC was nullptr?");
92
93 RCs.emplace_back(RC);
94 }
95
getRCWithLargestRegsSize() const96 const CodeGenRegisterClass *getRCWithLargestRegsSize() const {
97 return RCWithLargestRegsSize;
98 }
99
100 iterator_range<typename RegisterClassesTy::const_iterator>
register_classes() const101 register_classes() const {
102 return llvm::make_range(RCs.begin(), RCs.end());
103 }
104 };
105
106 class RegisterBankEmitter {
107 private:
108 RecordKeeper &Records;
109 CodeGenRegBank RegisterClassHierarchy;
110
111 void emitHeader(raw_ostream &OS, const StringRef TargetName,
112 const std::vector<RegisterBank> &Banks);
113 void emitBaseClassDefinition(raw_ostream &OS, const StringRef TargetName,
114 const std::vector<RegisterBank> &Banks);
115 void emitBaseClassImplementation(raw_ostream &OS, const StringRef TargetName,
116 std::vector<RegisterBank> &Banks);
117
118 public:
RegisterBankEmitter(RecordKeeper & R)119 RegisterBankEmitter(RecordKeeper &R)
120 : Records(R), RegisterClassHierarchy(Records, CodeGenHwModes(R)) {}
121
122 void run(raw_ostream &OS);
123 };
124
125 } // end anonymous namespace
126
127 /// Emit code to declare the ID enumeration and external global instance
128 /// variables.
emitHeader(raw_ostream & OS,const StringRef TargetName,const std::vector<RegisterBank> & Banks)129 void RegisterBankEmitter::emitHeader(raw_ostream &OS,
130 const StringRef TargetName,
131 const std::vector<RegisterBank> &Banks) {
132 // <Target>RegisterBankInfo.h
133 OS << "namespace llvm {\n"
134 << "namespace " << TargetName << " {\n"
135 << "enum {\n";
136 for (const auto &Bank : Banks)
137 OS << " " << Bank.getEnumeratorName() << ",\n";
138 OS << " NumRegisterBanks,\n"
139 << "};\n"
140 << "} // end namespace " << TargetName << "\n"
141 << "} // end namespace llvm\n";
142 }
143
144 /// Emit declarations of the <Target>GenRegisterBankInfo class.
emitBaseClassDefinition(raw_ostream & OS,const StringRef TargetName,const std::vector<RegisterBank> & Banks)145 void RegisterBankEmitter::emitBaseClassDefinition(
146 raw_ostream &OS, const StringRef TargetName,
147 const std::vector<RegisterBank> &Banks) {
148 OS << "private:\n"
149 << " static RegisterBank *RegBanks[];\n\n"
150 << "protected:\n"
151 << " " << TargetName << "GenRegisterBankInfo();\n"
152 << "\n";
153 }
154
155 /// Visit each register class belonging to the given register bank.
156 ///
157 /// A class belongs to the bank iff any of these apply:
158 /// * It is explicitly specified
159 /// * It is a subclass of a class that is a member.
160 /// * It is a class containing subregisters of the registers of a class that
161 /// is a member. This is known as a subreg-class.
162 ///
163 /// This function must be called for each explicitly specified register class.
164 ///
165 /// \param RC The register class to search.
166 /// \param Kind A debug string containing the path the visitor took to reach RC.
167 /// \param VisitFn The action to take for each class visited. It may be called
168 /// multiple times for a given class if there are multiple paths
169 /// to the class.
visitRegisterBankClasses(CodeGenRegBank & RegisterClassHierarchy,const CodeGenRegisterClass * RC,const Twine Kind,std::function<void (const CodeGenRegisterClass *,StringRef)> VisitFn,SmallPtrSetImpl<const CodeGenRegisterClass * > & VisitedRCs)170 static void visitRegisterBankClasses(
171 CodeGenRegBank &RegisterClassHierarchy, const CodeGenRegisterClass *RC,
172 const Twine Kind,
173 std::function<void(const CodeGenRegisterClass *, StringRef)> VisitFn,
174 SmallPtrSetImpl<const CodeGenRegisterClass *> &VisitedRCs) {
175
176 // Make sure we only visit each class once to avoid infinite loops.
177 if (VisitedRCs.count(RC))
178 return;
179 VisitedRCs.insert(RC);
180
181 // Visit each explicitly named class.
182 VisitFn(RC, Kind.str());
183
184 for (const auto &PossibleSubclass : RegisterClassHierarchy.getRegClasses()) {
185 std::string TmpKind =
186 (Twine(Kind) + " (" + PossibleSubclass.getName() + ")").str();
187
188 // Visit each subclass of an explicitly named class.
189 if (RC != &PossibleSubclass && RC->hasSubClass(&PossibleSubclass))
190 visitRegisterBankClasses(RegisterClassHierarchy, &PossibleSubclass,
191 TmpKind + " " + RC->getName() + " subclass",
192 VisitFn, VisitedRCs);
193
194 // Visit each class that contains only subregisters of RC with a common
195 // subregister-index.
196 //
197 // More precisely, PossibleSubclass is a subreg-class iff Reg:SubIdx is in
198 // PossibleSubclass for all registers Reg from RC using any
199 // subregister-index SubReg
200 for (const auto &SubIdx : RegisterClassHierarchy.getSubRegIndices()) {
201 BitVector BV(RegisterClassHierarchy.getRegClasses().size());
202 PossibleSubclass.getSuperRegClasses(&SubIdx, BV);
203 if (BV.test(RC->EnumValue)) {
204 std::string TmpKind2 = (Twine(TmpKind) + " " + RC->getName() +
205 " class-with-subregs: " + RC->getName())
206 .str();
207 VisitFn(&PossibleSubclass, TmpKind2);
208 }
209 }
210 }
211 }
212
emitBaseClassImplementation(raw_ostream & OS,StringRef TargetName,std::vector<RegisterBank> & Banks)213 void RegisterBankEmitter::emitBaseClassImplementation(
214 raw_ostream &OS, StringRef TargetName,
215 std::vector<RegisterBank> &Banks) {
216
217 OS << "namespace llvm {\n"
218 << "namespace " << TargetName << " {\n";
219 for (const auto &Bank : Banks) {
220 std::vector<std::vector<const CodeGenRegisterClass *>> RCsGroupedByWord(
221 (RegisterClassHierarchy.getRegClasses().size() + 31) / 32);
222
223 for (const auto &RC : Bank.register_classes())
224 RCsGroupedByWord[RC->EnumValue / 32].push_back(RC);
225
226 OS << "const uint32_t " << Bank.getCoverageArrayName() << "[] = {\n";
227 unsigned LowestIdxInWord = 0;
228 for (const auto &RCs : RCsGroupedByWord) {
229 OS << " // " << LowestIdxInWord << "-" << (LowestIdxInWord + 31) << "\n";
230 for (const auto &RC : RCs) {
231 std::string QualifiedRegClassID =
232 (Twine(RC->Namespace) + "::" + RC->getName() + "RegClassID").str();
233 OS << " (1u << (" << QualifiedRegClassID << " - "
234 << LowestIdxInWord << ")) |\n";
235 }
236 OS << " 0,\n";
237 LowestIdxInWord += 32;
238 }
239 OS << "};\n";
240 }
241 OS << "\n";
242
243 for (const auto &Bank : Banks) {
244 std::string QualifiedBankID =
245 (TargetName + "::" + Bank.getEnumeratorName()).str();
246 const CodeGenRegisterClass &RC = *Bank.getRCWithLargestRegsSize();
247 unsigned Size = RC.RSI.get(DefaultMode).SpillSize;
248 OS << "RegisterBank " << Bank.getInstanceVarName() << "(/* ID */ "
249 << QualifiedBankID << ", /* Name */ \"" << Bank.getName()
250 << "\", /* Size */ " << Size << ", "
251 << "/* CoveredRegClasses */ " << Bank.getCoverageArrayName()
252 << ", /* NumRegClasses */ "
253 << RegisterClassHierarchy.getRegClasses().size() << ");\n";
254 }
255 OS << "} // end namespace " << TargetName << "\n"
256 << "\n";
257
258 OS << "RegisterBank *" << TargetName
259 << "GenRegisterBankInfo::RegBanks[] = {\n";
260 for (const auto &Bank : Banks)
261 OS << " &" << TargetName << "::" << Bank.getInstanceVarName() << ",\n";
262 OS << "};\n\n";
263
264 OS << TargetName << "GenRegisterBankInfo::" << TargetName
265 << "GenRegisterBankInfo()\n"
266 << " : RegisterBankInfo(RegBanks, " << TargetName
267 << "::NumRegisterBanks) {\n"
268 << " // Assert that RegBank indices match their ID's\n"
269 << "#ifndef NDEBUG\n"
270 << " unsigned Index = 0;\n"
271 << " for (const auto &RB : RegBanks)\n"
272 << " assert(Index++ == RB->getID() && \"Index != ID\");\n"
273 << "#endif // NDEBUG\n"
274 << "}\n"
275 << "} // end namespace llvm\n";
276 }
277
run(raw_ostream & OS)278 void RegisterBankEmitter::run(raw_ostream &OS) {
279 std::vector<Record*> Targets = Records.getAllDerivedDefinitions("Target");
280 if (Targets.size() != 1)
281 PrintFatalError("ERROR: Too many or too few subclasses of Target defined!");
282 StringRef TargetName = Targets[0]->getName();
283
284 std::vector<RegisterBank> Banks;
285 for (const auto &V : Records.getAllDerivedDefinitions("RegisterBank")) {
286 SmallPtrSet<const CodeGenRegisterClass *, 8> VisitedRCs;
287 RegisterBank Bank(*V);
288
289 for (const CodeGenRegisterClass *RC :
290 Bank.getExplictlySpecifiedRegisterClasses(RegisterClassHierarchy)) {
291 visitRegisterBankClasses(
292 RegisterClassHierarchy, RC, "explicit",
293 [&Bank](const CodeGenRegisterClass *RC, StringRef Kind) {
294 LLVM_DEBUG(dbgs()
295 << "Added " << RC->getName() << "(" << Kind << ")\n");
296 Bank.addRegisterClass(RC);
297 },
298 VisitedRCs);
299 }
300
301 Banks.push_back(Bank);
302 }
303
304 // Warn about ambiguous MIR caused by register bank/class name clashes.
305 for (const auto &Class : Records.getAllDerivedDefinitions("RegisterClass")) {
306 for (const auto &Bank : Banks) {
307 if (Bank.getName().lower() == Class->getName().lower()) {
308 PrintWarning(Bank.getDef().getLoc(), "Register bank names should be "
309 "distinct from register classes "
310 "to avoid ambiguous MIR");
311 PrintNote(Bank.getDef().getLoc(), "RegisterBank was declared here");
312 PrintNote(Class->getLoc(), "RegisterClass was declared here");
313 }
314 }
315 }
316
317 emitSourceFileHeader("Register Bank Source Fragments", OS);
318 OS << "#ifdef GET_REGBANK_DECLARATIONS\n"
319 << "#undef GET_REGBANK_DECLARATIONS\n";
320 emitHeader(OS, TargetName, Banks);
321 OS << "#endif // GET_REGBANK_DECLARATIONS\n\n"
322 << "#ifdef GET_TARGET_REGBANK_CLASS\n"
323 << "#undef GET_TARGET_REGBANK_CLASS\n";
324 emitBaseClassDefinition(OS, TargetName, Banks);
325 OS << "#endif // GET_TARGET_REGBANK_CLASS\n\n"
326 << "#ifdef GET_TARGET_REGBANK_IMPL\n"
327 << "#undef GET_TARGET_REGBANK_IMPL\n";
328 emitBaseClassImplementation(OS, TargetName, Banks);
329 OS << "#endif // GET_TARGET_REGBANK_IMPL\n";
330 }
331
332 namespace llvm {
333
EmitRegisterBank(RecordKeeper & RK,raw_ostream & OS)334 void EmitRegisterBank(RecordKeeper &RK, raw_ostream &OS) {
335 RegisterBankEmitter(RK).run(OS);
336 }
337
338 } // end namespace llvm
339