1 //===-------- CompressInstEmitter.cpp - Generator for Compression ---------===//
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 // CompressInstEmitter implements a tablegen-driven CompressPat based
8 // Instruction Compression mechanism.
9 //
10 //===----------------------------------------------------------------------===//
11 //
12 // CompressInstEmitter implements a tablegen-driven CompressPat Instruction
13 // Compression mechanism for generating compressed instructions from the
14 // expanded instruction form.
15
16 // This tablegen backend processes CompressPat declarations in a
17 // td file and generates all the required checks to validate the pattern
18 // declarations; validate the input and output operands to generate the correct
19 // compressed instructions. The checks include validating different types of
20 // operands; register operands, immediate operands, fixed register and fixed
21 // immediate inputs.
22 //
23 // Example:
24 // /// Defines a Pat match between compressed and uncompressed instruction.
25 // /// The relationship and helper function generation are handled by
26 // /// CompressInstEmitter backend.
27 // class CompressPat<dag input, dag output, list<Predicate> predicates = []> {
28 // /// Uncompressed instruction description.
29 // dag Input = input;
30 // /// Compressed instruction description.
31 // dag Output = output;
32 // /// Predicates that must be true for this to match.
33 // list<Predicate> Predicates = predicates;
34 // /// Duplicate match when tied operand is just different.
35 // bit isCompressOnly = false;
36 // }
37 //
38 // let Predicates = [HasStdExtC] in {
39 // def : CompressPat<(ADD GPRNoX0:$rs1, GPRNoX0:$rs1, GPRNoX0:$rs2),
40 // (C_ADD GPRNoX0:$rs1, GPRNoX0:$rs2)>;
41 // }
42 //
43 // The <TargetName>GenCompressInstEmitter.inc is an auto-generated header
44 // file which exports two functions for compressing/uncompressing MCInst
45 // instructions, plus some helper functions:
46 //
47 // bool compressInst(MCInst &OutInst, const MCInst &MI,
48 // const MCSubtargetInfo &STI);
49 //
50 // bool uncompressInst(MCInst &OutInst, const MCInst &MI,
51 // const MCSubtargetInfo &STI);
52 //
53 // In addition, it exports a function for checking whether
54 // an instruction is compressable:
55 //
56 // bool isCompressibleInst(const MachineInstr& MI,
57 // const <TargetName>Subtarget &STI);
58 //
59 // The clients that include this auto-generated header file and
60 // invoke these functions can compress an instruction before emitting
61 // it in the target-specific ASM or ELF streamer or can uncompress
62 // an instruction before printing it when the expanded instruction
63 // format aliases is favored.
64
65 //===----------------------------------------------------------------------===//
66
67 #include "Common/CodeGenInstruction.h"
68 #include "Common/CodeGenRegisters.h"
69 #include "Common/CodeGenTarget.h"
70 #include "llvm/ADT/IndexedMap.h"
71 #include "llvm/ADT/SmallVector.h"
72 #include "llvm/ADT/StringMap.h"
73 #include "llvm/Support/Debug.h"
74 #include "llvm/Support/ErrorHandling.h"
75 #include "llvm/TableGen/Error.h"
76 #include "llvm/TableGen/Record.h"
77 #include "llvm/TableGen/TableGenBackend.h"
78 #include <set>
79 #include <vector>
80 using namespace llvm;
81
82 #define DEBUG_TYPE "compress-inst-emitter"
83
84 namespace {
85 class CompressInstEmitter {
86 struct OpData {
87 enum MapKind { Operand, Imm, Reg };
88 MapKind Kind;
89 union {
90 // Operand number mapped to.
91 unsigned Operand;
92 // Integer immediate value.
93 int64_t Imm;
94 // Physical register.
95 Record *Reg;
96 } Data;
97 // Tied operand index within the instruction.
98 int TiedOpIdx = -1;
99 };
100 struct CompressPat {
101 // The source instruction definition.
102 CodeGenInstruction Source;
103 // The destination instruction to transform to.
104 CodeGenInstruction Dest;
105 // Required target features to enable pattern.
106 std::vector<Record *> PatReqFeatures;
107 // Maps operands in the Source Instruction to
108 // the corresponding Dest instruction operand.
109 IndexedMap<OpData> SourceOperandMap;
110 // Maps operands in the Dest Instruction
111 // to the corresponding Source instruction operand.
112 IndexedMap<OpData> DestOperandMap;
113
114 bool IsCompressOnly;
CompressPat__anon4777ea3f0111::CompressInstEmitter::CompressPat115 CompressPat(CodeGenInstruction &S, CodeGenInstruction &D,
116 std::vector<Record *> RF, IndexedMap<OpData> &SourceMap,
117 IndexedMap<OpData> &DestMap, bool IsCompressOnly)
118 : Source(S), Dest(D), PatReqFeatures(RF), SourceOperandMap(SourceMap),
119 DestOperandMap(DestMap), IsCompressOnly(IsCompressOnly) {}
120 };
121 enum EmitterType { Compress, Uncompress, CheckCompress };
122 RecordKeeper &Records;
123 CodeGenTarget Target;
124 SmallVector<CompressPat, 4> CompressPatterns;
125
126 void addDagOperandMapping(Record *Rec, DagInit *Dag, CodeGenInstruction &Inst,
127 IndexedMap<OpData> &OperandMap, bool IsSourceInst);
128 void evaluateCompressPat(Record *Compress);
129 void emitCompressInstEmitter(raw_ostream &OS, EmitterType EType);
130 bool validateTypes(Record *SubType, Record *Type, bool IsSourceInst);
131 bool validateRegister(Record *Reg, Record *RegClass);
132 void createDagOperandMapping(Record *Rec, StringMap<unsigned> &SourceOperands,
133 StringMap<unsigned> &DestOperands,
134 DagInit *SourceDag, DagInit *DestDag,
135 IndexedMap<OpData> &SourceOperandMap);
136
137 void createInstOperandMapping(Record *Rec, DagInit *SourceDag,
138 DagInit *DestDag,
139 IndexedMap<OpData> &SourceOperandMap,
140 IndexedMap<OpData> &DestOperandMap,
141 StringMap<unsigned> &SourceOperands,
142 CodeGenInstruction &DestInst);
143
144 public:
CompressInstEmitter(RecordKeeper & R)145 CompressInstEmitter(RecordKeeper &R) : Records(R), Target(R) {}
146
147 void run(raw_ostream &OS);
148 };
149 } // End anonymous namespace.
150
validateRegister(Record * Reg,Record * RegClass)151 bool CompressInstEmitter::validateRegister(Record *Reg, Record *RegClass) {
152 assert(Reg->isSubClassOf("Register") && "Reg record should be a Register");
153 assert(RegClass->isSubClassOf("RegisterClass") &&
154 "RegClass record should be a RegisterClass");
155 const CodeGenRegisterClass &RC = Target.getRegisterClass(RegClass);
156 const CodeGenRegister *R = Target.getRegisterByName(Reg->getName().lower());
157 assert((R != nullptr) && "Register not defined!!");
158 return RC.contains(R);
159 }
160
validateTypes(Record * DagOpType,Record * InstOpType,bool IsSourceInst)161 bool CompressInstEmitter::validateTypes(Record *DagOpType, Record *InstOpType,
162 bool IsSourceInst) {
163 if (DagOpType == InstOpType)
164 return true;
165 // Only source instruction operands are allowed to not match Input Dag
166 // operands.
167 if (!IsSourceInst)
168 return false;
169
170 if (DagOpType->isSubClassOf("RegisterClass") &&
171 InstOpType->isSubClassOf("RegisterClass")) {
172 const CodeGenRegisterClass &RC = Target.getRegisterClass(InstOpType);
173 const CodeGenRegisterClass &SubRC = Target.getRegisterClass(DagOpType);
174 return RC.hasSubClass(&SubRC);
175 }
176
177 // At this point either or both types are not registers, reject the pattern.
178 if (DagOpType->isSubClassOf("RegisterClass") ||
179 InstOpType->isSubClassOf("RegisterClass"))
180 return false;
181
182 // Let further validation happen when compress()/uncompress() functions are
183 // invoked.
184 LLVM_DEBUG(dbgs() << (IsSourceInst ? "Input" : "Output")
185 << " Dag Operand Type: '" << DagOpType->getName()
186 << "' and "
187 << "Instruction Operand Type: '" << InstOpType->getName()
188 << "' can't be checked at pattern validation time!\n");
189 return true;
190 }
191
192 /// The patterns in the Dag contain different types of operands:
193 /// Register operands, e.g.: GPRC:$rs1; Fixed registers, e.g: X1; Immediate
194 /// operands, e.g.: simm6:$imm; Fixed immediate operands, e.g.: 0. This function
195 /// maps Dag operands to its corresponding instruction operands. For register
196 /// operands and fixed registers it expects the Dag operand type to be contained
197 /// in the instantiated instruction operand type. For immediate operands and
198 /// immediates no validation checks are enforced at pattern validation time.
addDagOperandMapping(Record * Rec,DagInit * Dag,CodeGenInstruction & Inst,IndexedMap<OpData> & OperandMap,bool IsSourceInst)199 void CompressInstEmitter::addDagOperandMapping(Record *Rec, DagInit *Dag,
200 CodeGenInstruction &Inst,
201 IndexedMap<OpData> &OperandMap,
202 bool IsSourceInst) {
203 // TiedCount keeps track of the number of operands skipped in Inst
204 // operands list to get to the corresponding Dag operand. This is
205 // necessary because the number of operands in Inst might be greater
206 // than number of operands in the Dag due to how tied operands
207 // are represented.
208 unsigned TiedCount = 0;
209 for (unsigned I = 0, E = Inst.Operands.size(); I != E; ++I) {
210 int TiedOpIdx = Inst.Operands[I].getTiedRegister();
211 if (-1 != TiedOpIdx) {
212 // Set the entry in OperandMap for the tied operand we're skipping.
213 OperandMap[I].Kind = OperandMap[TiedOpIdx].Kind;
214 OperandMap[I].Data = OperandMap[TiedOpIdx].Data;
215 TiedCount++;
216 continue;
217 }
218 if (DefInit *DI = dyn_cast<DefInit>(Dag->getArg(I - TiedCount))) {
219 if (DI->getDef()->isSubClassOf("Register")) {
220 // Check if the fixed register belongs to the Register class.
221 if (!validateRegister(DI->getDef(), Inst.Operands[I].Rec))
222 PrintFatalError(Rec->getLoc(),
223 "Error in Dag '" + Dag->getAsString() +
224 "'Register: '" + DI->getDef()->getName() +
225 "' is not in register class '" +
226 Inst.Operands[I].Rec->getName() + "'");
227 OperandMap[I].Kind = OpData::Reg;
228 OperandMap[I].Data.Reg = DI->getDef();
229 continue;
230 }
231 // Validate that Dag operand type matches the type defined in the
232 // corresponding instruction. Operands in the input Dag pattern are
233 // allowed to be a subclass of the type specified in corresponding
234 // instruction operand instead of being an exact match.
235 if (!validateTypes(DI->getDef(), Inst.Operands[I].Rec, IsSourceInst))
236 PrintFatalError(Rec->getLoc(),
237 "Error in Dag '" + Dag->getAsString() + "'. Operand '" +
238 Dag->getArgNameStr(I - TiedCount) + "' has type '" +
239 DI->getDef()->getName() +
240 "' which does not match the type '" +
241 Inst.Operands[I].Rec->getName() +
242 "' in the corresponding instruction operand!");
243
244 OperandMap[I].Kind = OpData::Operand;
245 } else if (IntInit *II = dyn_cast<IntInit>(Dag->getArg(I - TiedCount))) {
246 // Validate that corresponding instruction operand expects an immediate.
247 if (Inst.Operands[I].Rec->isSubClassOf("RegisterClass"))
248 PrintFatalError(
249 Rec->getLoc(),
250 "Error in Dag '" + Dag->getAsString() + "' Found immediate: '" +
251 II->getAsString() +
252 "' but corresponding instruction operand expected a register!");
253 // No pattern validation check possible for values of fixed immediate.
254 OperandMap[I].Kind = OpData::Imm;
255 OperandMap[I].Data.Imm = II->getValue();
256 LLVM_DEBUG(
257 dbgs() << " Found immediate '" << II->getValue() << "' at "
258 << (IsSourceInst ? "input " : "output ")
259 << "Dag. No validation time check possible for values of "
260 "fixed immediate.\n");
261 } else
262 llvm_unreachable("Unhandled CompressPat argument type!");
263 }
264 }
265
266 // Verify the Dag operand count is enough to build an instruction.
verifyDagOpCount(CodeGenInstruction & Inst,DagInit * Dag,bool IsSource)267 static bool verifyDagOpCount(CodeGenInstruction &Inst, DagInit *Dag,
268 bool IsSource) {
269 if (Dag->getNumArgs() == Inst.Operands.size())
270 return true;
271 // Source instructions are non compressed instructions and don't have tied
272 // operands.
273 if (IsSource)
274 PrintFatalError(Inst.TheDef->getLoc(),
275 "Input operands for Inst '" + Inst.TheDef->getName() +
276 "' and input Dag operand count mismatch");
277 // The Dag can't have more arguments than the Instruction.
278 if (Dag->getNumArgs() > Inst.Operands.size())
279 PrintFatalError(Inst.TheDef->getLoc(),
280 "Inst '" + Inst.TheDef->getName() +
281 "' and Dag operand count mismatch");
282
283 // The Instruction might have tied operands so the Dag might have
284 // a fewer operand count.
285 unsigned RealCount = Inst.Operands.size();
286 for (const auto &Operand : Inst.Operands)
287 if (Operand.getTiedRegister() != -1)
288 --RealCount;
289
290 if (Dag->getNumArgs() != RealCount)
291 PrintFatalError(Inst.TheDef->getLoc(),
292 "Inst '" + Inst.TheDef->getName() +
293 "' and Dag operand count mismatch");
294 return true;
295 }
296
validateArgsTypes(Init * Arg1,Init * Arg2)297 static bool validateArgsTypes(Init *Arg1, Init *Arg2) {
298 return cast<DefInit>(Arg1)->getDef() == cast<DefInit>(Arg2)->getDef();
299 }
300
301 // Creates a mapping between the operand name in the Dag (e.g. $rs1) and
302 // its index in the list of Dag operands and checks that operands with the same
303 // name have the same types. For example in 'C_ADD $rs1, $rs2' we generate the
304 // mapping $rs1 --> 0, $rs2 ---> 1. If the operand appears twice in the (tied)
305 // same Dag we use the last occurrence for indexing.
createDagOperandMapping(Record * Rec,StringMap<unsigned> & SourceOperands,StringMap<unsigned> & DestOperands,DagInit * SourceDag,DagInit * DestDag,IndexedMap<OpData> & SourceOperandMap)306 void CompressInstEmitter::createDagOperandMapping(
307 Record *Rec, StringMap<unsigned> &SourceOperands,
308 StringMap<unsigned> &DestOperands, DagInit *SourceDag, DagInit *DestDag,
309 IndexedMap<OpData> &SourceOperandMap) {
310 for (unsigned I = 0; I < DestDag->getNumArgs(); ++I) {
311 // Skip fixed immediates and registers, they were handled in
312 // addDagOperandMapping.
313 if ("" == DestDag->getArgNameStr(I))
314 continue;
315 DestOperands[DestDag->getArgNameStr(I)] = I;
316 }
317
318 for (unsigned I = 0; I < SourceDag->getNumArgs(); ++I) {
319 // Skip fixed immediates and registers, they were handled in
320 // addDagOperandMapping.
321 if ("" == SourceDag->getArgNameStr(I))
322 continue;
323
324 StringMap<unsigned>::iterator It =
325 SourceOperands.find(SourceDag->getArgNameStr(I));
326 if (It != SourceOperands.end()) {
327 // Operand sharing the same name in the Dag should be mapped as tied.
328 SourceOperandMap[I].TiedOpIdx = It->getValue();
329 if (!validateArgsTypes(SourceDag->getArg(It->getValue()),
330 SourceDag->getArg(I)))
331 PrintFatalError(Rec->getLoc(),
332 "Input Operand '" + SourceDag->getArgNameStr(I) +
333 "' has a mismatched tied operand!\n");
334 }
335 It = DestOperands.find(SourceDag->getArgNameStr(I));
336 if (It == DestOperands.end())
337 PrintFatalError(Rec->getLoc(), "Operand " + SourceDag->getArgNameStr(I) +
338 " defined in Input Dag but not used in"
339 " Output Dag!\n");
340 // Input Dag operand types must match output Dag operand type.
341 if (!validateArgsTypes(DestDag->getArg(It->getValue()),
342 SourceDag->getArg(I)))
343 PrintFatalError(Rec->getLoc(), "Type mismatch between Input and "
344 "Output Dag operand '" +
345 SourceDag->getArgNameStr(I) + "'!");
346 SourceOperands[SourceDag->getArgNameStr(I)] = I;
347 }
348 }
349
350 /// Map operand names in the Dag to their index in both corresponding input and
351 /// output instructions. Validate that operands defined in the input are
352 /// used in the output pattern while populating the maps.
createInstOperandMapping(Record * Rec,DagInit * SourceDag,DagInit * DestDag,IndexedMap<OpData> & SourceOperandMap,IndexedMap<OpData> & DestOperandMap,StringMap<unsigned> & SourceOperands,CodeGenInstruction & DestInst)353 void CompressInstEmitter::createInstOperandMapping(
354 Record *Rec, DagInit *SourceDag, DagInit *DestDag,
355 IndexedMap<OpData> &SourceOperandMap, IndexedMap<OpData> &DestOperandMap,
356 StringMap<unsigned> &SourceOperands, CodeGenInstruction &DestInst) {
357 // TiedCount keeps track of the number of operands skipped in Inst
358 // operands list to get to the corresponding Dag operand.
359 unsigned TiedCount = 0;
360 LLVM_DEBUG(dbgs() << " Operand mapping:\n Source Dest\n");
361 for (unsigned I = 0, E = DestInst.Operands.size(); I != E; ++I) {
362 int TiedInstOpIdx = DestInst.Operands[I].getTiedRegister();
363 if (TiedInstOpIdx != -1) {
364 ++TiedCount;
365 DestOperandMap[I].Data = DestOperandMap[TiedInstOpIdx].Data;
366 DestOperandMap[I].Kind = DestOperandMap[TiedInstOpIdx].Kind;
367 if (DestOperandMap[I].Kind == OpData::Operand)
368 // No need to fill the SourceOperandMap here since it was mapped to
369 // destination operand 'TiedInstOpIdx' in a previous iteration.
370 LLVM_DEBUG(dbgs() << " " << DestOperandMap[I].Data.Operand
371 << " ====> " << I
372 << " Dest operand tied with operand '"
373 << TiedInstOpIdx << "'\n");
374 continue;
375 }
376 // Skip fixed immediates and registers, they were handled in
377 // addDagOperandMapping.
378 if (DestOperandMap[I].Kind != OpData::Operand)
379 continue;
380
381 unsigned DagArgIdx = I - TiedCount;
382 StringMap<unsigned>::iterator SourceOp =
383 SourceOperands.find(DestDag->getArgNameStr(DagArgIdx));
384 if (SourceOp == SourceOperands.end())
385 PrintFatalError(Rec->getLoc(),
386 "Output Dag operand '" +
387 DestDag->getArgNameStr(DagArgIdx) +
388 "' has no matching input Dag operand.");
389
390 assert(DestDag->getArgNameStr(DagArgIdx) ==
391 SourceDag->getArgNameStr(SourceOp->getValue()) &&
392 "Incorrect operand mapping detected!\n");
393 DestOperandMap[I].Data.Operand = SourceOp->getValue();
394 SourceOperandMap[SourceOp->getValue()].Data.Operand = I;
395 LLVM_DEBUG(dbgs() << " " << SourceOp->getValue() << " ====> " << I
396 << "\n");
397 }
398 }
399
400 /// Validates the CompressPattern and create operand mapping.
401 /// These are the checks to validate a CompressPat pattern declarations.
402 /// Error out with message under these conditions:
403 /// - Dag Input opcode is an expanded instruction and Dag Output opcode is a
404 /// compressed instruction.
405 /// - Operands in Dag Input must be all used in Dag Output.
406 /// Register Operand type in Dag Input Type must be contained in the
407 /// corresponding Source Instruction type.
408 /// - Register Operand type in Dag Input must be the same as in Dag Ouput.
409 /// - Register Operand type in Dag Output must be the same as the
410 /// corresponding Destination Inst type.
411 /// - Immediate Operand type in Dag Input must be the same as in Dag Ouput.
412 /// - Immediate Operand type in Dag Ouput must be the same as the corresponding
413 /// Destination Instruction type.
414 /// - Fixed register must be contained in the corresponding Source Instruction
415 /// type.
416 /// - Fixed register must be contained in the corresponding Destination
417 /// Instruction type.
418 /// Warning message printed under these conditions:
419 /// - Fixed immediate in Dag Input or Dag Ouput cannot be checked at this time
420 /// and generate warning.
421 /// - Immediate operand type in Dag Input differs from the corresponding Source
422 /// Instruction type and generate a warning.
evaluateCompressPat(Record * Rec)423 void CompressInstEmitter::evaluateCompressPat(Record *Rec) {
424 // Validate input Dag operands.
425 DagInit *SourceDag = Rec->getValueAsDag("Input");
426 assert(SourceDag && "Missing 'Input' in compress pattern!");
427 LLVM_DEBUG(dbgs() << "Input: " << *SourceDag << "\n");
428
429 // Checking we are transforming from compressed to uncompressed instructions.
430 Record *SourceOperator = SourceDag->getOperatorAsDef(Rec->getLoc());
431 CodeGenInstruction SourceInst(SourceOperator);
432 verifyDagOpCount(SourceInst, SourceDag, true);
433
434 // Validate output Dag operands.
435 DagInit *DestDag = Rec->getValueAsDag("Output");
436 assert(DestDag && "Missing 'Output' in compress pattern!");
437 LLVM_DEBUG(dbgs() << "Output: " << *DestDag << "\n");
438
439 Record *DestOperator = DestDag->getOperatorAsDef(Rec->getLoc());
440 CodeGenInstruction DestInst(DestOperator);
441 verifyDagOpCount(DestInst, DestDag, false);
442
443 if (SourceOperator->getValueAsInt("Size") <=
444 DestOperator->getValueAsInt("Size"))
445 PrintFatalError(
446 Rec->getLoc(),
447 "Compressed instruction '" + DestOperator->getName() +
448 "'is not strictly smaller than the uncompressed instruction '" +
449 SourceOperator->getName() + "' !");
450
451 // Fill the mapping from the source to destination instructions.
452
453 IndexedMap<OpData> SourceOperandMap;
454 SourceOperandMap.grow(SourceInst.Operands.size());
455 // Create a mapping between source Dag operands and source Inst operands.
456 addDagOperandMapping(Rec, SourceDag, SourceInst, SourceOperandMap,
457 /*IsSourceInst*/ true);
458
459 IndexedMap<OpData> DestOperandMap;
460 DestOperandMap.grow(DestInst.Operands.size());
461 // Create a mapping between destination Dag operands and destination Inst
462 // operands.
463 addDagOperandMapping(Rec, DestDag, DestInst, DestOperandMap,
464 /*IsSourceInst*/ false);
465
466 StringMap<unsigned> SourceOperands;
467 StringMap<unsigned> DestOperands;
468 createDagOperandMapping(Rec, SourceOperands, DestOperands, SourceDag, DestDag,
469 SourceOperandMap);
470 // Create operand mapping between the source and destination instructions.
471 createInstOperandMapping(Rec, SourceDag, DestDag, SourceOperandMap,
472 DestOperandMap, SourceOperands, DestInst);
473
474 // Get the target features for the CompressPat.
475 std::vector<Record *> PatReqFeatures;
476 std::vector<Record *> RF = Rec->getValueAsListOfDefs("Predicates");
477 copy_if(RF, std::back_inserter(PatReqFeatures), [](Record *R) {
478 return R->getValueAsBit("AssemblerMatcherPredicate");
479 });
480
481 CompressPatterns.push_back(CompressPat(SourceInst, DestInst, PatReqFeatures,
482 SourceOperandMap, DestOperandMap,
483 Rec->getValueAsBit("isCompressOnly")));
484 }
485
486 static void
getReqFeatures(std::set<std::pair<bool,StringRef>> & FeaturesSet,std::set<std::set<std::pair<bool,StringRef>>> & AnyOfFeatureSets,const std::vector<Record * > & ReqFeatures)487 getReqFeatures(std::set<std::pair<bool, StringRef>> &FeaturesSet,
488 std::set<std::set<std::pair<bool, StringRef>>> &AnyOfFeatureSets,
489 const std::vector<Record *> &ReqFeatures) {
490 for (auto &R : ReqFeatures) {
491 const DagInit *D = R->getValueAsDag("AssemblerCondDag");
492 std::string CombineType = D->getOperator()->getAsString();
493 if (CombineType != "any_of" && CombineType != "all_of")
494 PrintFatalError(R->getLoc(), "Invalid AssemblerCondDag!");
495 if (D->getNumArgs() == 0)
496 PrintFatalError(R->getLoc(), "Invalid AssemblerCondDag!");
497 bool IsOr = CombineType == "any_of";
498 std::set<std::pair<bool, StringRef>> AnyOfSet;
499
500 for (auto *Arg : D->getArgs()) {
501 bool IsNot = false;
502 if (auto *NotArg = dyn_cast<DagInit>(Arg)) {
503 if (NotArg->getOperator()->getAsString() != "not" ||
504 NotArg->getNumArgs() != 1)
505 PrintFatalError(R->getLoc(), "Invalid AssemblerCondDag!");
506 Arg = NotArg->getArg(0);
507 IsNot = true;
508 }
509 if (!isa<DefInit>(Arg) ||
510 !cast<DefInit>(Arg)->getDef()->isSubClassOf("SubtargetFeature"))
511 PrintFatalError(R->getLoc(), "Invalid AssemblerCondDag!");
512 if (IsOr)
513 AnyOfSet.insert({IsNot, cast<DefInit>(Arg)->getDef()->getName()});
514 else
515 FeaturesSet.insert({IsNot, cast<DefInit>(Arg)->getDef()->getName()});
516 }
517
518 if (IsOr)
519 AnyOfFeatureSets.insert(AnyOfSet);
520 }
521 }
522
getPredicates(DenseMap<const Record *,unsigned> & PredicateMap,std::vector<const Record * > & Predicates,Record * Rec,StringRef Name)523 static unsigned getPredicates(DenseMap<const Record *, unsigned> &PredicateMap,
524 std::vector<const Record *> &Predicates,
525 Record *Rec, StringRef Name) {
526 unsigned &Entry = PredicateMap[Rec];
527 if (Entry)
528 return Entry;
529
530 if (!Rec->isValueUnset(Name)) {
531 Predicates.push_back(Rec);
532 Entry = Predicates.size();
533 return Entry;
534 }
535
536 PrintFatalError(Rec->getLoc(), "No " + Name +
537 " predicate on this operand at all: '" +
538 Rec->getName() + "'");
539 return 0;
540 }
541
printPredicates(const std::vector<const Record * > & Predicates,StringRef Name,raw_ostream & OS)542 static void printPredicates(const std::vector<const Record *> &Predicates,
543 StringRef Name, raw_ostream &OS) {
544 for (unsigned I = 0; I < Predicates.size(); ++I) {
545 StringRef Pred = Predicates[I]->getValueAsString(Name);
546 OS << " case " << I + 1 << ": {\n"
547 << " // " << Predicates[I]->getName() << "\n"
548 << " " << Pred << "\n"
549 << " }\n";
550 }
551 }
552
mergeCondAndCode(raw_ostream & CombinedStream,StringRef CondStr,StringRef CodeStr)553 static void mergeCondAndCode(raw_ostream &CombinedStream, StringRef CondStr,
554 StringRef CodeStr) {
555 // Remove first indentation and last '&&'.
556 CondStr = CondStr.drop_front(6).drop_back(4);
557 CombinedStream.indent(4) << "if (" << CondStr << ") {\n";
558 CombinedStream << CodeStr;
559 CombinedStream.indent(4) << " return true;\n";
560 CombinedStream.indent(4) << "} // if\n";
561 }
562
emitCompressInstEmitter(raw_ostream & OS,EmitterType EType)563 void CompressInstEmitter::emitCompressInstEmitter(raw_ostream &OS,
564 EmitterType EType) {
565 Record *AsmWriter = Target.getAsmWriter();
566 if (!AsmWriter->getValueAsInt("PassSubtarget"))
567 PrintFatalError(AsmWriter->getLoc(),
568 "'PassSubtarget' is false. SubTargetInfo object is needed "
569 "for target features.\n");
570
571 StringRef TargetName = Target.getName();
572
573 // Sort entries in CompressPatterns to handle instructions that can have more
574 // than one candidate for compression\uncompression, e.g ADD can be
575 // transformed to a C_ADD or a C_MV. When emitting 'uncompress()' function the
576 // source and destination are flipped and the sort key needs to change
577 // accordingly.
578 llvm::stable_sort(CompressPatterns, [EType](const CompressPat &LHS,
579 const CompressPat &RHS) {
580 if (EType == EmitterType::Compress || EType == EmitterType::CheckCompress)
581 return (LHS.Source.TheDef->getName() < RHS.Source.TheDef->getName());
582 return (LHS.Dest.TheDef->getName() < RHS.Dest.TheDef->getName());
583 });
584
585 // A list of MCOperandPredicates for all operands in use, and the reverse map.
586 std::vector<const Record *> MCOpPredicates;
587 DenseMap<const Record *, unsigned> MCOpPredicateMap;
588 // A list of ImmLeaf Predicates for all operands in use, and the reverse map.
589 std::vector<const Record *> ImmLeafPredicates;
590 DenseMap<const Record *, unsigned> ImmLeafPredicateMap;
591
592 std::string F;
593 std::string FH;
594 raw_string_ostream Func(F);
595 raw_string_ostream FuncH(FH);
596
597 if (EType == EmitterType::Compress)
598 OS << "\n#ifdef GEN_COMPRESS_INSTR\n"
599 << "#undef GEN_COMPRESS_INSTR\n\n";
600 else if (EType == EmitterType::Uncompress)
601 OS << "\n#ifdef GEN_UNCOMPRESS_INSTR\n"
602 << "#undef GEN_UNCOMPRESS_INSTR\n\n";
603 else if (EType == EmitterType::CheckCompress)
604 OS << "\n#ifdef GEN_CHECK_COMPRESS_INSTR\n"
605 << "#undef GEN_CHECK_COMPRESS_INSTR\n\n";
606
607 if (EType == EmitterType::Compress) {
608 FuncH << "static bool compressInst(MCInst &OutInst,\n";
609 FuncH.indent(25) << "const MCInst &MI,\n";
610 FuncH.indent(25) << "const MCSubtargetInfo &STI) {\n";
611 } else if (EType == EmitterType::Uncompress) {
612 FuncH << "static bool uncompressInst(MCInst &OutInst,\n";
613 FuncH.indent(27) << "const MCInst &MI,\n";
614 FuncH.indent(27) << "const MCSubtargetInfo &STI) {\n";
615 } else if (EType == EmitterType::CheckCompress) {
616 FuncH << "static bool isCompressibleInst(const MachineInstr &MI,\n";
617 FuncH.indent(31) << "const " << TargetName << "Subtarget &STI) {\n";
618 }
619
620 if (CompressPatterns.empty()) {
621 OS << FH;
622 OS.indent(2) << "return false;\n}\n";
623 if (EType == EmitterType::Compress)
624 OS << "\n#endif //GEN_COMPRESS_INSTR\n";
625 else if (EType == EmitterType::Uncompress)
626 OS << "\n#endif //GEN_UNCOMPRESS_INSTR\n\n";
627 else if (EType == EmitterType::CheckCompress)
628 OS << "\n#endif //GEN_CHECK_COMPRESS_INSTR\n\n";
629 return;
630 }
631
632 std::string CaseString;
633 raw_string_ostream CaseStream(CaseString);
634 StringRef PrevOp;
635 StringRef CurOp;
636 CaseStream << " switch (MI.getOpcode()) {\n";
637 CaseStream << " default: return false;\n";
638
639 bool CompressOrCheck =
640 EType == EmitterType::Compress || EType == EmitterType::CheckCompress;
641 bool CompressOrUncompress =
642 EType == EmitterType::Compress || EType == EmitterType::Uncompress;
643 std::string ValidatorName =
644 CompressOrUncompress
645 ? (TargetName + "ValidateMCOperandFor" +
646 (EType == EmitterType::Compress ? "Compress" : "Uncompress"))
647 .str()
648 : "";
649
650 for (auto &CompressPat : CompressPatterns) {
651 if (EType == EmitterType::Uncompress && CompressPat.IsCompressOnly)
652 continue;
653
654 std::string CondString;
655 std::string CodeString;
656 raw_string_ostream CondStream(CondString);
657 raw_string_ostream CodeStream(CodeString);
658 CodeGenInstruction &Source =
659 CompressOrCheck ? CompressPat.Source : CompressPat.Dest;
660 CodeGenInstruction &Dest =
661 CompressOrCheck ? CompressPat.Dest : CompressPat.Source;
662 IndexedMap<OpData> SourceOperandMap = CompressOrCheck
663 ? CompressPat.SourceOperandMap
664 : CompressPat.DestOperandMap;
665 IndexedMap<OpData> &DestOperandMap = CompressOrCheck
666 ? CompressPat.DestOperandMap
667 : CompressPat.SourceOperandMap;
668
669 CurOp = Source.TheDef->getName();
670 // Check current and previous opcode to decide to continue or end a case.
671 if (CurOp != PrevOp) {
672 if (!PrevOp.empty())
673 CaseStream.indent(6) << "break;\n } // case " + PrevOp + "\n";
674 CaseStream.indent(4) << "case " + TargetName + "::" + CurOp + ": {\n";
675 }
676
677 std::set<std::pair<bool, StringRef>> FeaturesSet;
678 std::set<std::set<std::pair<bool, StringRef>>> AnyOfFeatureSets;
679 // Add CompressPat required features.
680 getReqFeatures(FeaturesSet, AnyOfFeatureSets, CompressPat.PatReqFeatures);
681
682 // Add Dest instruction required features.
683 std::vector<Record *> ReqFeatures;
684 std::vector<Record *> RF = Dest.TheDef->getValueAsListOfDefs("Predicates");
685 copy_if(RF, std::back_inserter(ReqFeatures), [](Record *R) {
686 return R->getValueAsBit("AssemblerMatcherPredicate");
687 });
688 getReqFeatures(FeaturesSet, AnyOfFeatureSets, ReqFeatures);
689
690 // Emit checks for all required features.
691 for (auto &Op : FeaturesSet) {
692 StringRef Not = Op.first ? "!" : "";
693 CondStream.indent(6) << Not << "STI.getFeatureBits()[" << TargetName
694 << "::" << Op.second << "]"
695 << " &&\n";
696 }
697
698 // Emit checks for all required feature groups.
699 for (auto &Set : AnyOfFeatureSets) {
700 CondStream.indent(6) << "(";
701 for (auto &Op : Set) {
702 bool IsLast = &Op == &*Set.rbegin();
703 StringRef Not = Op.first ? "!" : "";
704 CondStream << Not << "STI.getFeatureBits()[" << TargetName
705 << "::" << Op.second << "]";
706 if (!IsLast)
707 CondStream << " || ";
708 }
709 CondStream << ") &&\n";
710 }
711
712 // Start Source Inst operands validation.
713 unsigned OpNo = 0;
714 for (OpNo = 0; OpNo < Source.Operands.size(); ++OpNo) {
715 if (SourceOperandMap[OpNo].TiedOpIdx != -1) {
716 if (Source.Operands[OpNo].Rec->isSubClassOf("RegisterClass"))
717 CondStream.indent(6)
718 << "(MI.getOperand(" << OpNo << ").isReg()) && (MI.getOperand("
719 << SourceOperandMap[OpNo].TiedOpIdx << ").isReg()) &&\n"
720 << " (MI.getOperand(" << OpNo
721 << ").getReg() == MI.getOperand("
722 << SourceOperandMap[OpNo].TiedOpIdx << ").getReg()) &&\n";
723 else
724 PrintFatalError("Unexpected tied operand types!\n");
725 }
726 // Check for fixed immediates\registers in the source instruction.
727 switch (SourceOperandMap[OpNo].Kind) {
728 case OpData::Operand:
729 // We don't need to do anything for source instruction operand checks.
730 break;
731 case OpData::Imm:
732 CondStream.indent(6)
733 << "(MI.getOperand(" << OpNo << ").isImm()) &&\n"
734 << " (MI.getOperand(" << OpNo
735 << ").getImm() == " << SourceOperandMap[OpNo].Data.Imm << ") &&\n";
736 break;
737 case OpData::Reg: {
738 Record *Reg = SourceOperandMap[OpNo].Data.Reg;
739 CondStream.indent(6)
740 << "(MI.getOperand(" << OpNo << ").isReg()) &&\n"
741 << " (MI.getOperand(" << OpNo << ").getReg() == " << TargetName
742 << "::" << Reg->getName() << ") &&\n";
743 break;
744 }
745 }
746 }
747 CodeStream.indent(6) << "// " << Dest.AsmString << "\n";
748 if (CompressOrUncompress)
749 CodeStream.indent(6) << "OutInst.setOpcode(" << TargetName
750 << "::" << Dest.TheDef->getName() << ");\n";
751 OpNo = 0;
752 for (const auto &DestOperand : Dest.Operands) {
753 CodeStream.indent(6) << "// Operand: " << DestOperand.Name << "\n";
754 switch (DestOperandMap[OpNo].Kind) {
755 case OpData::Operand: {
756 unsigned OpIdx = DestOperandMap[OpNo].Data.Operand;
757 // Check that the operand in the Source instruction fits
758 // the type for the Dest instruction.
759 if (DestOperand.Rec->isSubClassOf("RegisterClass") ||
760 DestOperand.Rec->isSubClassOf("RegisterOperand")) {
761 auto *ClassRec = DestOperand.Rec->isSubClassOf("RegisterClass")
762 ? DestOperand.Rec
763 : DestOperand.Rec->getValueAsDef("RegClass");
764 // This is a register operand. Check the register class.
765 // Don't check register class if this is a tied operand, it was done
766 // for the operand its tied to.
767 if (DestOperand.getTiedRegister() == -1)
768 CondStream.indent(6)
769 << "(MI.getOperand(" << OpIdx << ").isReg()) &&\n"
770 << " (" << TargetName << "MCRegisterClasses[" << TargetName
771 << "::" << ClassRec->getName()
772 << "RegClassID].contains(MI.getOperand(" << OpIdx
773 << ").getReg())) &&\n";
774
775 if (CompressOrUncompress)
776 CodeStream.indent(6)
777 << "OutInst.addOperand(MI.getOperand(" << OpIdx << "));\n";
778 } else {
779 // Handling immediate operands.
780 if (CompressOrUncompress) {
781 unsigned Entry =
782 getPredicates(MCOpPredicateMap, MCOpPredicates, DestOperand.Rec,
783 "MCOperandPredicate");
784 CondStream.indent(6)
785 << ValidatorName << "("
786 << "MI.getOperand(" << OpIdx << "), STI, " << Entry << ") &&\n";
787 } else {
788 unsigned Entry =
789 getPredicates(ImmLeafPredicateMap, ImmLeafPredicates,
790 DestOperand.Rec, "ImmediateCode");
791 CondStream.indent(6)
792 << "MI.getOperand(" << OpIdx << ").isImm() &&\n";
793 CondStream.indent(6) << TargetName << "ValidateMachineOperand("
794 << "MI.getOperand(" << OpIdx << "), &STI, "
795 << Entry << ") &&\n";
796 }
797 if (CompressOrUncompress)
798 CodeStream.indent(6)
799 << "OutInst.addOperand(MI.getOperand(" << OpIdx << "));\n";
800 }
801 break;
802 }
803 case OpData::Imm: {
804 if (CompressOrUncompress) {
805 unsigned Entry = getPredicates(MCOpPredicateMap, MCOpPredicates,
806 DestOperand.Rec, "MCOperandPredicate");
807 CondStream.indent(6)
808 << ValidatorName << "("
809 << "MCOperand::createImm(" << DestOperandMap[OpNo].Data.Imm
810 << "), STI, " << Entry << ") &&\n";
811 } else {
812 unsigned Entry = getPredicates(ImmLeafPredicateMap, ImmLeafPredicates,
813 DestOperand.Rec, "ImmediateCode");
814 CondStream.indent(6)
815 << TargetName
816 << "ValidateMachineOperand(MachineOperand::CreateImm("
817 << DestOperandMap[OpNo].Data.Imm << "), &STI, " << Entry
818 << ") &&\n";
819 }
820 if (CompressOrUncompress)
821 CodeStream.indent(6) << "OutInst.addOperand(MCOperand::createImm("
822 << DestOperandMap[OpNo].Data.Imm << "));\n";
823 } break;
824 case OpData::Reg: {
825 if (CompressOrUncompress) {
826 // Fixed register has been validated at pattern validation time.
827 Record *Reg = DestOperandMap[OpNo].Data.Reg;
828 CodeStream.indent(6)
829 << "OutInst.addOperand(MCOperand::createReg(" << TargetName
830 << "::" << Reg->getName() << "));\n";
831 }
832 } break;
833 }
834 ++OpNo;
835 }
836 if (CompressOrUncompress)
837 CodeStream.indent(6) << "OutInst.setLoc(MI.getLoc());\n";
838 mergeCondAndCode(CaseStream, CondString, CodeString);
839 PrevOp = CurOp;
840 }
841 Func << CaseString << "\n";
842 // Close brace for the last case.
843 Func.indent(4) << "} // case " << CurOp << "\n";
844 Func.indent(2) << "} // switch\n";
845 Func.indent(2) << "return false;\n}\n";
846
847 if (!MCOpPredicates.empty()) {
848 OS << "static bool " << ValidatorName << "(const MCOperand &MCOp,\n"
849 << " const MCSubtargetInfo &STI,\n"
850 << " unsigned PredicateIndex) {\n"
851 << " switch (PredicateIndex) {\n"
852 << " default:\n"
853 << " llvm_unreachable(\"Unknown MCOperandPredicate kind\");\n"
854 << " break;\n";
855
856 printPredicates(MCOpPredicates, "MCOperandPredicate", OS);
857
858 OS << " }\n"
859 << "}\n\n";
860 }
861
862 if (!ImmLeafPredicates.empty()) {
863 OS << "static bool " << TargetName
864 << "ValidateMachineOperand(const MachineOperand &MO,\n"
865 << " const " << TargetName << "Subtarget *Subtarget,\n"
866 << " unsigned PredicateIndex) {\n"
867 << " int64_t Imm = MO.getImm();\n"
868 << " switch (PredicateIndex) {\n"
869 << " default:\n"
870 << " llvm_unreachable(\"Unknown ImmLeaf Predicate kind\");\n"
871 << " break;\n";
872
873 printPredicates(ImmLeafPredicates, "ImmediateCode", OS);
874
875 OS << " }\n"
876 << "}\n\n";
877 }
878
879 OS << FH;
880 OS << F;
881
882 if (EType == EmitterType::Compress)
883 OS << "\n#endif //GEN_COMPRESS_INSTR\n";
884 else if (EType == EmitterType::Uncompress)
885 OS << "\n#endif //GEN_UNCOMPRESS_INSTR\n\n";
886 else if (EType == EmitterType::CheckCompress)
887 OS << "\n#endif //GEN_CHECK_COMPRESS_INSTR\n\n";
888 }
889
run(raw_ostream & OS)890 void CompressInstEmitter::run(raw_ostream &OS) {
891 std::vector<Record *> Insts = Records.getAllDerivedDefinitions("CompressPat");
892
893 // Process the CompressPat definitions, validating them as we do so.
894 for (unsigned I = 0, E = Insts.size(); I != E; ++I)
895 evaluateCompressPat(Insts[I]);
896
897 // Emit file header.
898 emitSourceFileHeader("Compress instruction Source Fragment", OS, Records);
899 // Generate compressInst() function.
900 emitCompressInstEmitter(OS, EmitterType::Compress);
901 // Generate uncompressInst() function.
902 emitCompressInstEmitter(OS, EmitterType::Uncompress);
903 // Generate isCompressibleInst() function.
904 emitCompressInstEmitter(OS, EmitterType::CheckCompress);
905 }
906
907 static TableGen::Emitter::OptClass<CompressInstEmitter>
908 X("gen-compress-inst-emitter", "Generate compressed instructions.");
909