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gerrit-public.fairphone.software / fp2-dev / platform / external / llvm / 3b8fb648c6e1c519b7e0f487f4fb511744869d35 / . / utils / TableGen / CodeGenSchedule.cpp
blob: 7946b42b2cfafa0f819481ea190957dceea4e38f [file] [log] [blame]
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]1//===- CodeGenSchedule.cpp - Scheduling MachineModels ---------------------===//
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 file defines structures to encapsulate the machine model as decribed in
11// the target description.
12//
13//===----------------------------------------------------------------------===//
14
15#define DEBUG_TYPE "subtarget-emitter"
16
17#include "CodeGenSchedule.h"
18#include "CodeGenTarget.h"
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]19#include "llvm/TableGen/Error.h"
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]20#include "llvm/Support/Debug.h"
21
22using namespace llvm;
23
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]24#ifndef NDEBUG
25static void dumpIdxVec(const IdxVec &V) {
26 for (unsigned i = 0, e = V.size(); i < e; ++i) {
27 dbgs() << V[i] << ", ";
28 }
29}
Andrew Trick5e613c22012-09-15 00:19:59 +0000[diff] [blame]30static void dumpIdxVec(const SmallVectorImpl<unsigned> &V) {
31 for (unsigned i = 0, e = V.size(); i < e; ++i) {
32 dbgs() << V[i] << ", ";
33 }
34}
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]35#endif
36
37/// CodeGenModels ctor interprets machine model records and populates maps.
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]38CodeGenSchedModels::CodeGenSchedModels(RecordKeeper &RK,
39 const CodeGenTarget &TGT):
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]40 Records(RK), Target(TGT), NumItineraryClasses(0) {
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]41
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]42 // Instantiate a CodeGenProcModel for each SchedMachineModel with the values
43 // that are explicitly referenced in tablegen records. Resources associated
44 // with each processor will be derived later. Populate ProcModelMap with the
45 // CodeGenProcModel instances.
46 collectProcModels();
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]47
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]48 // Instantiate a CodeGenSchedRW for each SchedReadWrite record explicitly
49 // defined, and populate SchedReads and SchedWrites vectors. Implicit
50 // SchedReadWrites that represent sequences derived from expanded variant will
51 // be inferred later.
52 collectSchedRW();
53
54 // Instantiate a CodeGenSchedClass for each unique SchedRW signature directly
55 // required by an instruction definition, and populate SchedClassIdxMap. Set
56 // NumItineraryClasses to the number of explicit itinerary classes referenced
57 // by instructions. Set NumInstrSchedClasses to the number of itinerary
58 // classes plus any classes implied by instructions that derive from class
59 // Sched and provide SchedRW list. This does not infer any new classes from
60 // SchedVariant.
61 collectSchedClasses();
62
63 // Find instruction itineraries for each processor. Sort and populate
64 // CodeGenProcMode::ItinDefList. (Cycle-to-cycle itineraries). This requires
65 // all itinerary classes to be discovered.
66 collectProcItins();
67
68 // Find ItinRW records for each processor and itinerary class.
69 // (For per-operand resources mapped to itinerary classes).
70 collectProcItinRW();
Andrew Trick5e613c22012-09-15 00:19:59 +0000[diff] [blame]71
72 // Infer new SchedClasses from SchedVariant.
73 inferSchedClasses();
74
75 DEBUG(for (unsigned i = 0; i < SchedClasses.size(); ++i)
76 SchedClasses[i].dump(this));
Andrew Trick3cbd1782012-09-15 00:20:02 +0000[diff] [blame]77
78 // Populate each CodeGenProcModel's WriteResDefs, ReadAdvanceDefs, and
79 // ProcResourceDefs.
80 collectProcResources();
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]81}
82
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]83/// Gather all processor models.
84void CodeGenSchedModels::collectProcModels() {
85 RecVec ProcRecords = Records.getAllDerivedDefinitions("Processor");
86 std::sort(ProcRecords.begin(), ProcRecords.end(), LessRecordFieldName());
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]87
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]88 // Reserve space because we can. Reallocation would be ok.
89 ProcModels.reserve(ProcRecords.size()+1);
90
91 // Use idx=0 for NoModel/NoItineraries.
92 Record *NoModelDef = Records.getDef("NoSchedModel");
93 Record *NoItinsDef = Records.getDef("NoItineraries");
94 ProcModels.push_back(CodeGenProcModel(0, "NoSchedModel",
95 NoModelDef, NoItinsDef));
96 ProcModelMap[NoModelDef] = 0;
97
98 // For each processor, find a unique machine model.
99 for (unsigned i = 0, N = ProcRecords.size(); i < N; ++i)
100 addProcModel(ProcRecords[i]);
101}
102
103/// Get a unique processor model based on the defined MachineModel and
104/// ProcessorItineraries.
105void CodeGenSchedModels::addProcModel(Record *ProcDef) {
106 Record *ModelKey = getModelOrItinDef(ProcDef);
107 if (!ProcModelMap.insert(std::make_pair(ModelKey, ProcModels.size())).second)
108 return;
109
110 std::string Name = ModelKey->getName();
111 if (ModelKey->isSubClassOf("SchedMachineModel")) {
112 Record *ItinsDef = ModelKey->getValueAsDef("Itineraries");
113 ProcModels.push_back(
114 CodeGenProcModel(ProcModels.size(), Name, ModelKey, ItinsDef));
115 }
116 else {
117 // An itinerary is defined without a machine model. Infer a new model.
118 if (!ModelKey->getValueAsListOfDefs("IID").empty())
119 Name = Name + "Model";
120 ProcModels.push_back(
121 CodeGenProcModel(ProcModels.size(), Name,
122 ProcDef->getValueAsDef("SchedModel"), ModelKey));
123 }
124 DEBUG(ProcModels.back().dump());
125}
126
127// Recursively find all reachable SchedReadWrite records.
128static void scanSchedRW(Record *RWDef, RecVec &RWDefs,
129 SmallPtrSet<Record*, 16> &RWSet) {
130 if (!RWSet.insert(RWDef))
131 return;
132 RWDefs.push_back(RWDef);
133 // Reads don't current have sequence records, but it can be added later.
134 if (RWDef->isSubClassOf("WriteSequence")) {
135 RecVec Seq = RWDef->getValueAsListOfDefs("Writes");
136 for (RecIter I = Seq.begin(), E = Seq.end(); I != E; ++I)
137 scanSchedRW(*I, RWDefs, RWSet);
138 }
139 else if (RWDef->isSubClassOf("SchedVariant")) {
140 // Visit each variant (guarded by a different predicate).
141 RecVec Vars = RWDef->getValueAsListOfDefs("Variants");
142 for (RecIter VI = Vars.begin(), VE = Vars.end(); VI != VE; ++VI) {
143 // Visit each RW in the sequence selected by the current variant.
144 RecVec Selected = (*VI)->getValueAsListOfDefs("Selected");
145 for (RecIter I = Selected.begin(), E = Selected.end(); I != E; ++I)
146 scanSchedRW(*I, RWDefs, RWSet);
147 }
148 }
149}
150
151// Collect and sort all SchedReadWrites reachable via tablegen records.
152// More may be inferred later when inferring new SchedClasses from variants.
153void CodeGenSchedModels::collectSchedRW() {
154 // Reserve idx=0 for invalid writes/reads.
155 SchedWrites.resize(1);
156 SchedReads.resize(1);
157
158 SmallPtrSet<Record*, 16> RWSet;
159
160 // Find all SchedReadWrites referenced by instruction defs.
161 RecVec SWDefs, SRDefs;
162 for (CodeGenTarget::inst_iterator I = Target.inst_begin(),
163 E = Target.inst_end(); I != E; ++I) {
164 Record *SchedDef = (*I)->TheDef;
165 if (!SchedDef->isSubClassOf("Sched"))
166 continue;
167 RecVec RWs = SchedDef->getValueAsListOfDefs("SchedRW");
168 for (RecIter RWI = RWs.begin(), RWE = RWs.end(); RWI != RWE; ++RWI) {
169 if ((*RWI)->isSubClassOf("SchedWrite"))
170 scanSchedRW(*RWI, SWDefs, RWSet);
171 else {
172 assert((*RWI)->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
173 scanSchedRW(*RWI, SRDefs, RWSet);
174 }
175 }
176 }
177 // Find all ReadWrites referenced by InstRW.
178 RecVec InstRWDefs = Records.getAllDerivedDefinitions("InstRW");
179 for (RecIter OI = InstRWDefs.begin(), OE = InstRWDefs.end(); OI != OE; ++OI) {
180 // For all OperandReadWrites.
181 RecVec RWDefs = (*OI)->getValueAsListOfDefs("OperandReadWrites");
182 for (RecIter RWI = RWDefs.begin(), RWE = RWDefs.end();
183 RWI != RWE; ++RWI) {
184 if ((*RWI)->isSubClassOf("SchedWrite"))
185 scanSchedRW(*RWI, SWDefs, RWSet);
186 else {
187 assert((*RWI)->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
188 scanSchedRW(*RWI, SRDefs, RWSet);
189 }
190 }
191 }
192 // Find all ReadWrites referenced by ItinRW.
193 RecVec ItinRWDefs = Records.getAllDerivedDefinitions("ItinRW");
194 for (RecIter II = ItinRWDefs.begin(), IE = ItinRWDefs.end(); II != IE; ++II) {
195 // For all OperandReadWrites.
196 RecVec RWDefs = (*II)->getValueAsListOfDefs("OperandReadWrites");
197 for (RecIter RWI = RWDefs.begin(), RWE = RWDefs.end();
198 RWI != RWE; ++RWI) {
199 if ((*RWI)->isSubClassOf("SchedWrite"))
200 scanSchedRW(*RWI, SWDefs, RWSet);
201 else {
202 assert((*RWI)->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
203 scanSchedRW(*RWI, SRDefs, RWSet);
204 }
205 }
206 }
207 // Sort and add the SchedReadWrites directly referenced by instructions or
208 // itinerary resources. Index reads and writes in separate domains.
209 std::sort(SWDefs.begin(), SWDefs.end(), LessRecord());
210 for (RecIter SWI = SWDefs.begin(), SWE = SWDefs.end(); SWI != SWE; ++SWI) {
211 assert(!getSchedRWIdx(*SWI, /*IsRead=*/false) && "duplicate SchedWrite");
212 SchedWrites.push_back(CodeGenSchedRW(*SWI));
213 }
214 std::sort(SRDefs.begin(), SRDefs.end(), LessRecord());
215 for (RecIter SRI = SRDefs.begin(), SRE = SRDefs.end(); SRI != SRE; ++SRI) {
216 assert(!getSchedRWIdx(*SRI, /*IsRead-*/true) && "duplicate SchedWrite");
217 SchedReads.push_back(CodeGenSchedRW(*SRI));
218 }
219 // Initialize WriteSequence vectors.
220 for (std::vector<CodeGenSchedRW>::iterator WI = SchedWrites.begin(),
221 WE = SchedWrites.end(); WI != WE; ++WI) {
222 if (!WI->IsSequence)
223 continue;
224 findRWs(WI->TheDef->getValueAsListOfDefs("Writes"), WI->Sequence,
225 /*IsRead=*/false);
226 }
227 DEBUG(
228 for (unsigned WIdx = 0, WEnd = SchedWrites.size(); WIdx != WEnd; ++WIdx) {
229 dbgs() << WIdx << ": ";
230 SchedWrites[WIdx].dump();
231 dbgs() << '\n';
232 }
233 for (unsigned RIdx = 0, REnd = SchedReads.size(); RIdx != REnd; ++RIdx) {
234 dbgs() << RIdx << ": ";
235 SchedReads[RIdx].dump();
236 dbgs() << '\n';
237 }
238 RecVec RWDefs = Records.getAllDerivedDefinitions("SchedReadWrite");
239 for (RecIter RI = RWDefs.begin(), RE = RWDefs.end();
240 RI != RE; ++RI) {
241 if (!getSchedRWIdx(*RI, (*RI)->isSubClassOf("SchedRead"))) {
242 const std::string &Name = (*RI)->getName();
243 if (Name != "NoWrite" && Name != "ReadDefault")
244 dbgs() << "Unused SchedReadWrite " << (*RI)->getName() << '\n';
245 }
246 });
247}
248
249/// Compute a SchedWrite name from a sequence of writes.
250std::string CodeGenSchedModels::genRWName(const IdxVec& Seq, bool IsRead) {
251 std::string Name("(");
252 for (IdxIter I = Seq.begin(), E = Seq.end(); I != E; ++I) {
253 if (I != Seq.begin())
254 Name += '_';
255 Name += getSchedRW(*I, IsRead).Name;
256 }
257 Name += ')';
258 return Name;
259}
260
261unsigned CodeGenSchedModels::getSchedRWIdx(Record *Def, bool IsRead,
262 unsigned After) const {
263 const std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites;
264 assert(After < RWVec.size() && "start position out of bounds");
265 for (std::vector<CodeGenSchedRW>::const_iterator I = RWVec.begin() + After,
266 E = RWVec.end(); I != E; ++I) {
267 if (I->TheDef == Def)
268 return I - RWVec.begin();
269 }
270 return 0;
271}
272
Andrew Trick3b8fb642012-09-19 04:43:19 +0000[diff] [blame^]273bool CodeGenSchedModels::hasReadOfWrite(Record *WriteDef) const {
274 for (unsigned i = 0, e = SchedReads.size(); i < e; ++i) {
275 Record *ReadDef = SchedReads[i].TheDef;
276 if (!ReadDef || !ReadDef->isSubClassOf("ProcReadAdvance"))
277 continue;
278
279 RecVec ValidWrites = ReadDef->getValueAsListOfDefs("ValidWrites");
280 if (std::find(ValidWrites.begin(), ValidWrites.end(), WriteDef)
281 != ValidWrites.end()) {
282 return true;
283 }
284 }
285 return false;
286}
287
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]288namespace llvm {
289void splitSchedReadWrites(const RecVec &RWDefs,
290 RecVec &WriteDefs, RecVec &ReadDefs) {
291 for (RecIter RWI = RWDefs.begin(), RWE = RWDefs.end(); RWI != RWE; ++RWI) {
292 if ((*RWI)->isSubClassOf("SchedWrite"))
293 WriteDefs.push_back(*RWI);
294 else {
295 assert((*RWI)->isSubClassOf("SchedRead") && "unknown SchedReadWrite");
296 ReadDefs.push_back(*RWI);
297 }
298 }
299}
300} // namespace llvm
301
302// Split the SchedReadWrites defs and call findRWs for each list.
303void CodeGenSchedModels::findRWs(const RecVec &RWDefs,
304 IdxVec &Writes, IdxVec &Reads) const {
305 RecVec WriteDefs;
306 RecVec ReadDefs;
307 splitSchedReadWrites(RWDefs, WriteDefs, ReadDefs);
308 findRWs(WriteDefs, Writes, false);
309 findRWs(ReadDefs, Reads, true);
310}
311
312// Call getSchedRWIdx for all elements in a sequence of SchedRW defs.
313void CodeGenSchedModels::findRWs(const RecVec &RWDefs, IdxVec &RWs,
314 bool IsRead) const {
315 for (RecIter RI = RWDefs.begin(), RE = RWDefs.end(); RI != RE; ++RI) {
316 unsigned Idx = getSchedRWIdx(*RI, IsRead);
317 assert(Idx && "failed to collect SchedReadWrite");
318 RWs.push_back(Idx);
319 }
320}
321
Andrew Trick5e613c22012-09-15 00:19:59 +0000[diff] [blame]322void CodeGenSchedModels::expandRWSequence(unsigned RWIdx, IdxVec &RWSeq,
323 bool IsRead) const {
324 const CodeGenSchedRW &SchedRW = getSchedRW(RWIdx, IsRead);
325 if (!SchedRW.IsSequence) {
326 RWSeq.push_back(RWIdx);
327 return;
328 }
329 int Repeat =
330 SchedRW.TheDef ? SchedRW.TheDef->getValueAsInt("Repeat") : 1;
331 for (int i = 0; i < Repeat; ++i) {
332 for (IdxIter I = SchedRW.Sequence.begin(), E = SchedRW.Sequence.end();
333 I != E; ++I) {
334 expandRWSequence(*I, RWSeq, IsRead);
335 }
336 }
337}
338
339// Find the existing SchedWrite that models this sequence of writes.
340unsigned CodeGenSchedModels::findRWForSequence(const IdxVec &Seq,
341 bool IsRead) {
342 std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites;
343
344 for (std::vector<CodeGenSchedRW>::iterator I = RWVec.begin(), E = RWVec.end();
345 I != E; ++I) {
346 if (I->Sequence == Seq)
347 return I - RWVec.begin();
348 }
349 // Index zero reserved for invalid RW.
350 return 0;
351}
352
353/// Add this ReadWrite if it doesn't already exist.
354unsigned CodeGenSchedModels::findOrInsertRW(ArrayRef<unsigned> Seq,
355 bool IsRead) {
356 assert(!Seq.empty() && "cannot insert empty sequence");
357 if (Seq.size() == 1)
358 return Seq.back();
359
360 unsigned Idx = findRWForSequence(Seq, IsRead);
361 if (Idx)
362 return Idx;
363
364 CodeGenSchedRW SchedRW(Seq, genRWName(Seq, IsRead));
365 if (IsRead) {
366 SchedReads.push_back(SchedRW);
367 return SchedReads.size() - 1;
368 }
369 SchedWrites.push_back(SchedRW);
370 return SchedWrites.size() - 1;
371}
372
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]373/// Visit all the instruction definitions for this target to gather and
374/// enumerate the itinerary classes. These are the explicitly specified
375/// SchedClasses. More SchedClasses may be inferred.
376void CodeGenSchedModels::collectSchedClasses() {
377
378 // NoItinerary is always the first class at Idx=0
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]379 SchedClasses.resize(1);
380 SchedClasses.back().Name = "NoItinerary";
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]381 SchedClasses.back().ProcIndices.push_back(0);
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]382 SchedClassIdxMap[SchedClasses.back().Name] = 0;
383
384 // Gather and sort all itinerary classes used by instruction descriptions.
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]385 RecVec ItinClassList;
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]386 for (CodeGenTarget::inst_iterator I = Target.inst_begin(),
387 E = Target.inst_end(); I != E; ++I) {
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]388 Record *ItinDef = (*I)->TheDef->getValueAsDef("Itinerary");
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]389 // Map a new SchedClass with no index.
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]390 if (!SchedClassIdxMap.count(ItinDef->getName())) {
391 SchedClassIdxMap[ItinDef->getName()] = 0;
392 ItinClassList.push_back(ItinDef);
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]393 }
394 }
395 // Assign each itinerary class unique number, skipping NoItinerary==0
396 NumItineraryClasses = ItinClassList.size();
397 std::sort(ItinClassList.begin(), ItinClassList.end(), LessRecord());
398 for (unsigned i = 0, N = NumItineraryClasses; i < N; i++) {
399 Record *ItinDef = ItinClassList[i];
400 SchedClassIdxMap[ItinDef->getName()] = SchedClasses.size();
401 SchedClasses.push_back(CodeGenSchedClass(ItinDef));
402 }
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]403 // Infer classes from SchedReadWrite resources listed for each
404 // instruction definition that inherits from class Sched.
405 for (CodeGenTarget::inst_iterator I = Target.inst_begin(),
406 E = Target.inst_end(); I != E; ++I) {
407 if (!(*I)->TheDef->isSubClassOf("Sched"))
408 continue;
409 IdxVec Writes, Reads;
410 findRWs((*I)->TheDef->getValueAsListOfDefs("SchedRW"), Writes, Reads);
411 // ProcIdx == 0 indicates the class applies to all processors.
412 IdxVec ProcIndices(1, 0);
413 addSchedClass(Writes, Reads, ProcIndices);
414 }
415 // Create classes for InstReadWrite defs.
416 RecVec InstRWDefs = Records.getAllDerivedDefinitions("InstRW");
417 std::sort(InstRWDefs.begin(), InstRWDefs.end(), LessRecord());
418 for (RecIter OI = InstRWDefs.begin(), OE = InstRWDefs.end(); OI != OE; ++OI)
419 createInstRWClass(*OI);
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]420
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]421 NumInstrSchedClasses = SchedClasses.size();
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]422
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]423 bool EnableDump = false;
424 DEBUG(EnableDump = true);
425 if (!EnableDump)
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]426 return;
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]427 for (CodeGenTarget::inst_iterator I = Target.inst_begin(),
428 E = Target.inst_end(); I != E; ++I) {
429 Record *SchedDef = (*I)->TheDef;
430 std::string InstName = (*I)->TheDef->getName();
431 if (SchedDef->isSubClassOf("Sched")) {
432 IdxVec Writes;
433 IdxVec Reads;
434 findRWs((*I)->TheDef->getValueAsListOfDefs("SchedRW"), Writes, Reads);
435 dbgs() << "SchedRW machine model for " << InstName;
436 for (IdxIter WI = Writes.begin(), WE = Writes.end(); WI != WE; ++WI)
437 dbgs() << " " << SchedWrites[*WI].Name;
438 for (IdxIter RI = Reads.begin(), RE = Reads.end(); RI != RE; ++RI)
439 dbgs() << " " << SchedReads[*RI].Name;
440 dbgs() << '\n';
441 }
442 unsigned SCIdx = InstrClassMap.lookup((*I)->TheDef);
443 if (SCIdx) {
444 const RecVec &RWDefs = SchedClasses[SCIdx].InstRWs;
445 for (RecIter RWI = RWDefs.begin(), RWE = RWDefs.end();
446 RWI != RWE; ++RWI) {
447 const CodeGenProcModel &ProcModel =
448 getProcModel((*RWI)->getValueAsDef("SchedModel"));
449 dbgs() << "InstrRW on " << ProcModel.ModelName << " for " << InstName;
450 IdxVec Writes;
451 IdxVec Reads;
452 findRWs((*RWI)->getValueAsListOfDefs("OperandReadWrites"),
453 Writes, Reads);
454 for (IdxIter WI = Writes.begin(), WE = Writes.end(); WI != WE; ++WI)
455 dbgs() << " " << SchedWrites[*WI].Name;
456 for (IdxIter RI = Reads.begin(), RE = Reads.end(); RI != RE; ++RI)
457 dbgs() << " " << SchedReads[*RI].Name;
458 dbgs() << '\n';
459 }
460 continue;
461 }
462 if (!SchedDef->isSubClassOf("Sched")
463 && (SchedDef->getValueAsDef("Itinerary")->getName() == "NoItinerary")) {
464 dbgs() << "No machine model for " << (*I)->TheDef->getName() << '\n';
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]465 }
466 }
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]467}
468
469unsigned CodeGenSchedModels::getSchedClassIdx(
470 const RecVec &RWDefs) const {
471
472 IdxVec Writes, Reads;
473 findRWs(RWDefs, Writes, Reads);
474 return findSchedClassIdx(Writes, Reads);
475}
476
477/// Find an SchedClass that has been inferred from a per-operand list of
478/// SchedWrites and SchedReads.
479unsigned CodeGenSchedModels::findSchedClassIdx(const IdxVec &Writes,
480 const IdxVec &Reads) const {
481 for (SchedClassIter I = schedClassBegin(), E = schedClassEnd(); I != E; ++I) {
482 // Classes with InstRWs may have the same Writes/Reads as a class originally
483 // produced by a SchedRW definition. We need to be able to recover the
484 // original class index for processors that don't match any InstRWs.
485 if (I->ItinClassDef || !I->InstRWs.empty())
486 continue;
487
488 if (I->Writes == Writes && I->Reads == Reads) {
489 return I - schedClassBegin();
490 }
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]491 }
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]492 return 0;
493}
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]494
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]495// Get the SchedClass index for an instruction.
496unsigned CodeGenSchedModels::getSchedClassIdx(
497 const CodeGenInstruction &Inst) const {
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]498
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]499 unsigned SCIdx = InstrClassMap.lookup(Inst.TheDef);
500 if (SCIdx)
501 return SCIdx;
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]502
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]503 // If this opcode isn't mapped by the subtarget fallback to the instruction
504 // definition's SchedRW or ItinDef values.
505 if (Inst.TheDef->isSubClassOf("Sched")) {
506 RecVec RWs = Inst.TheDef->getValueAsListOfDefs("SchedRW");
507 return getSchedClassIdx(RWs);
508 }
509 Record *ItinDef = Inst.TheDef->getValueAsDef("Itinerary");
510 assert(SchedClassIdxMap.count(ItinDef->getName()) && "missing ItinClass");
511 unsigned Idx = SchedClassIdxMap.lookup(ItinDef->getName());
512 assert(Idx <= NumItineraryClasses && "bad ItinClass index");
513 return Idx;
514}
515
516std::string CodeGenSchedModels::createSchedClassName(
517 const IdxVec &OperWrites, const IdxVec &OperReads) {
518
519 std::string Name;
520 for (IdxIter WI = OperWrites.begin(), WE = OperWrites.end(); WI != WE; ++WI) {
521 if (WI != OperWrites.begin())
522 Name += '_';
523 Name += SchedWrites[*WI].Name;
524 }
525 for (IdxIter RI = OperReads.begin(), RE = OperReads.end(); RI != RE; ++RI) {
526 Name += '_';
527 Name += SchedReads[*RI].Name;
528 }
529 return Name;
530}
531
532std::string CodeGenSchedModels::createSchedClassName(const RecVec &InstDefs) {
533
534 std::string Name;
535 for (RecIter I = InstDefs.begin(), E = InstDefs.end(); I != E; ++I) {
536 if (I != InstDefs.begin())
537 Name += '_';
538 Name += (*I)->getName();
539 }
540 return Name;
541}
542
543/// Add an inferred sched class from a per-operand list of SchedWrites and
544/// SchedReads. ProcIndices contains the set of IDs of processors that may
545/// utilize this class.
546unsigned CodeGenSchedModels::addSchedClass(const IdxVec &OperWrites,
547 const IdxVec &OperReads,
548 const IdxVec &ProcIndices)
549{
550 assert(!ProcIndices.empty() && "expect at least one ProcIdx");
551
552 unsigned Idx = findSchedClassIdx(OperWrites, OperReads);
553 if (Idx) {
554 IdxVec PI;
555 std::set_union(SchedClasses[Idx].ProcIndices.begin(),
556 SchedClasses[Idx].ProcIndices.end(),
557 ProcIndices.begin(), ProcIndices.end(),
558 std::back_inserter(PI));
559 SchedClasses[Idx].ProcIndices.swap(PI);
560 return Idx;
561 }
562 Idx = SchedClasses.size();
563 SchedClasses.resize(Idx+1);
564 CodeGenSchedClass &SC = SchedClasses.back();
565 SC.Name = createSchedClassName(OperWrites, OperReads);
566 SC.Writes = OperWrites;
567 SC.Reads = OperReads;
568 SC.ProcIndices = ProcIndices;
569
570 return Idx;
571}
572
573// Create classes for each set of opcodes that are in the same InstReadWrite
574// definition across all processors.
575void CodeGenSchedModels::createInstRWClass(Record *InstRWDef) {
576 // ClassInstrs will hold an entry for each subset of Instrs in InstRWDef that
577 // intersects with an existing class via a previous InstRWDef. Instrs that do
578 // not intersect with an existing class refer back to their former class as
579 // determined from ItinDef or SchedRW.
580 SmallVector<std::pair<unsigned, SmallVector<Record *, 8> >, 4> ClassInstrs;
581 // Sort Instrs into sets.
582 RecVec InstDefs = InstRWDef->getValueAsListOfDefs("Instrs");
583 std::sort(InstDefs.begin(), InstDefs.end(), LessRecord());
584 for (RecIter I = InstDefs.begin(), E = InstDefs.end(); I != E; ++I) {
585 unsigned SCIdx = 0;
586 InstClassMapTy::const_iterator Pos = InstrClassMap.find(*I);
587 if (Pos != InstrClassMap.end())
588 SCIdx = Pos->second;
589 else {
590 // This instruction has not been mapped yet. Get the original class. All
591 // instructions in the same InstrRW class must be from the same original
592 // class because that is the fall-back class for other processors.
593 Record *ItinDef = (*I)->getValueAsDef("Itinerary");
594 SCIdx = SchedClassIdxMap.lookup(ItinDef->getName());
595 if (!SCIdx && (*I)->isSubClassOf("Sched"))
596 SCIdx = getSchedClassIdx((*I)->getValueAsListOfDefs("SchedRW"));
597 }
598 unsigned CIdx = 0, CEnd = ClassInstrs.size();
599 for (; CIdx != CEnd; ++CIdx) {
600 if (ClassInstrs[CIdx].first == SCIdx)
601 break;
602 }
603 if (CIdx == CEnd) {
604 ClassInstrs.resize(CEnd + 1);
605 ClassInstrs[CIdx].first = SCIdx;
606 }
607 ClassInstrs[CIdx].second.push_back(*I);
608 }
609 // For each set of Instrs, create a new class if necessary, and map or remap
610 // the Instrs to it.
611 unsigned CIdx = 0, CEnd = ClassInstrs.size();
612 for (; CIdx != CEnd; ++CIdx) {
613 unsigned OldSCIdx = ClassInstrs[CIdx].first;
614 ArrayRef<Record*> InstDefs = ClassInstrs[CIdx].second;
615 // If the all instrs in the current class are accounted for, then leave
616 // them mapped to their old class.
617 if (SchedClasses[OldSCIdx].InstRWs.size() == InstDefs.size()) {
618 assert(SchedClasses[OldSCIdx].ProcIndices[0] == 0 &&
619 "expected a generic SchedClass");
620 continue;
621 }
622 unsigned SCIdx = SchedClasses.size();
623 SchedClasses.resize(SCIdx+1);
624 CodeGenSchedClass &SC = SchedClasses.back();
625 SC.Name = createSchedClassName(InstDefs);
626 // Preserve ItinDef and Writes/Reads for processors without an InstRW entry.
627 SC.ItinClassDef = SchedClasses[OldSCIdx].ItinClassDef;
628 SC.Writes = SchedClasses[OldSCIdx].Writes;
629 SC.Reads = SchedClasses[OldSCIdx].Reads;
630 SC.ProcIndices.push_back(0);
631 // Map each Instr to this new class.
632 // Note that InstDefs may be a smaller list than InstRWDef's "Instrs".
633 for (ArrayRef<Record*>::const_iterator
634 II = InstDefs.begin(), IE = InstDefs.end(); II != IE; ++II) {
635 unsigned OldSCIdx = InstrClassMap[*II];
636 if (OldSCIdx) {
637 SC.InstRWs.insert(SC.InstRWs.end(),
638 SchedClasses[OldSCIdx].InstRWs.begin(),
639 SchedClasses[OldSCIdx].InstRWs.end());
640 }
641 InstrClassMap[*II] = SCIdx;
642 }
643 SC.InstRWs.push_back(InstRWDef);
644 }
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]645}
646
647// Gather the processor itineraries.
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]648void CodeGenSchedModels::collectProcItins() {
649 for (std::vector<CodeGenProcModel>::iterator PI = ProcModels.begin(),
650 PE = ProcModels.end(); PI != PE; ++PI) {
651 CodeGenProcModel &ProcModel = *PI;
652 RecVec ItinRecords = ProcModel.ItinsDef->getValueAsListOfDefs("IID");
653 // Skip empty itinerary.
654 if (ItinRecords.empty())
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]655 continue;
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]656
657 ProcModel.ItinDefList.resize(NumItineraryClasses+1);
658
659 // Insert each itinerary data record in the correct position within
660 // the processor model's ItinDefList.
661 for (unsigned i = 0, N = ItinRecords.size(); i < N; i++) {
662 Record *ItinData = ItinRecords[i];
663 Record *ItinDef = ItinData->getValueAsDef("TheClass");
664 if (!SchedClassIdxMap.count(ItinDef->getName())) {
665 DEBUG(dbgs() << ProcModel.ItinsDef->getName()
666 << " has unused itinerary class " << ItinDef->getName() << '\n');
667 continue;
668 }
669 assert(SchedClassIdxMap.count(ItinDef->getName()) && "missing ItinClass");
670 unsigned Idx = SchedClassIdxMap.lookup(ItinDef->getName());
671 assert(Idx <= NumItineraryClasses && "bad ItinClass index");
672 ProcModel.ItinDefList[Idx] = ItinData;
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]673 }
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]674 // Check for missing itinerary entries.
675 assert(!ProcModel.ItinDefList[0] && "NoItinerary class can't have rec");
676 DEBUG(
677 for (unsigned i = 1, N = ProcModel.ItinDefList.size(); i < N; ++i) {
678 if (!ProcModel.ItinDefList[i])
679 dbgs() << ProcModel.ItinsDef->getName()
680 << " missing itinerary for class "
681 << SchedClasses[i].Name << '\n';
682 });
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]683 }
Andrew Trick2661b412012-07-07 04:00:00 +0000[diff] [blame]684}
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]685
686// Gather the read/write types for each itinerary class.
687void CodeGenSchedModels::collectProcItinRW() {
688 RecVec ItinRWDefs = Records.getAllDerivedDefinitions("ItinRW");
689 std::sort(ItinRWDefs.begin(), ItinRWDefs.end(), LessRecord());
690 for (RecIter II = ItinRWDefs.begin(), IE = ItinRWDefs.end(); II != IE; ++II) {
691 if (!(*II)->getValueInit("SchedModel")->isComplete())
692 throw TGError((*II)->getLoc(), "SchedModel is undefined");
693 Record *ModelDef = (*II)->getValueAsDef("SchedModel");
694 ProcModelMapTy::const_iterator I = ProcModelMap.find(ModelDef);
695 if (I == ProcModelMap.end()) {
696 throw TGError((*II)->getLoc(), "Undefined SchedMachineModel "
697 + ModelDef->getName());
698 }
699 ProcModels[I->second].ItinRWDefs.push_back(*II);
700 }
701}
702
Andrew Trick5e613c22012-09-15 00:19:59 +0000[diff] [blame]703/// Infer new classes from existing classes. In the process, this may create new
704/// SchedWrites from sequences of existing SchedWrites.
705void CodeGenSchedModels::inferSchedClasses() {
706 // Visit all existing classes and newly created classes.
707 for (unsigned Idx = 0; Idx != SchedClasses.size(); ++Idx) {
708 if (SchedClasses[Idx].ItinClassDef)
709 inferFromItinClass(SchedClasses[Idx].ItinClassDef, Idx);
710 else if (!SchedClasses[Idx].InstRWs.empty())
711 inferFromInstRWs(Idx);
712 else {
713 inferFromRW(SchedClasses[Idx].Writes, SchedClasses[Idx].Reads,
714 Idx, SchedClasses[Idx].ProcIndices);
715 }
716 assert(SchedClasses.size() < (NumInstrSchedClasses*6) &&
717 "too many SchedVariants");
718 }
719}
720
721/// Infer classes from per-processor itinerary resources.
722void CodeGenSchedModels::inferFromItinClass(Record *ItinClassDef,
723 unsigned FromClassIdx) {
724 for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) {
725 const CodeGenProcModel &PM = ProcModels[PIdx];
726 // For all ItinRW entries.
727 bool HasMatch = false;
728 for (RecIter II = PM.ItinRWDefs.begin(), IE = PM.ItinRWDefs.end();
729 II != IE; ++II) {
730 RecVec Matched = (*II)->getValueAsListOfDefs("MatchedItinClasses");
731 if (!std::count(Matched.begin(), Matched.end(), ItinClassDef))
732 continue;
733 if (HasMatch)
734 throw TGError((*II)->getLoc(), "Duplicate itinerary class "
735 + ItinClassDef->getName()
736 + " in ItinResources for " + PM.ModelName);
737 HasMatch = true;
738 IdxVec Writes, Reads;
739 findRWs((*II)->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads);
740 IdxVec ProcIndices(1, PIdx);
741 inferFromRW(Writes, Reads, FromClassIdx, ProcIndices);
742 }
743 }
744}
745
746/// Infer classes from per-processor InstReadWrite definitions.
747void CodeGenSchedModels::inferFromInstRWs(unsigned SCIdx) {
748 const RecVec &RWDefs = SchedClasses[SCIdx].InstRWs;
749 for (RecIter RWI = RWDefs.begin(), RWE = RWDefs.end(); RWI != RWE; ++RWI) {
750 RecVec Instrs = (*RWI)->getValueAsListOfDefs("Instrs");
751 RecIter II = Instrs.begin(), IE = Instrs.end();
752 for (; II != IE; ++II) {
753 if (InstrClassMap[*II] == SCIdx)
754 break;
755 }
756 // If this class no longer has any instructions mapped to it, it has become
757 // irrelevant.
758 if (II == IE)
759 continue;
760 IdxVec Writes, Reads;
761 findRWs((*RWI)->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads);
762 unsigned PIdx = getProcModel((*RWI)->getValueAsDef("SchedModel")).Index;
763 IdxVec ProcIndices(1, PIdx);
764 inferFromRW(Writes, Reads, SCIdx, ProcIndices);
765 }
766}
767
768namespace {
769// Associate a predicate with the SchedReadWrite that it guards.
770// RWIdx is the index of the read/write variant.
771struct PredCheck {
772 bool IsRead;
773 unsigned RWIdx;
774 Record *Predicate;
775
776 PredCheck(bool r, unsigned w, Record *p): IsRead(r), RWIdx(w), Predicate(p) {}
777};
778
779// A Predicate transition is a list of RW sequences guarded by a PredTerm.
780struct PredTransition {
781 // A predicate term is a conjunction of PredChecks.
782 SmallVector<PredCheck, 4> PredTerm;
783 SmallVector<SmallVector<unsigned,4>, 16> WriteSequences;
784 SmallVector<SmallVector<unsigned,4>, 16> ReadSequences;
785};
786
787// Encapsulate a set of partially constructed transitions.
788// The results are built by repeated calls to substituteVariants.
789class PredTransitions {
790 CodeGenSchedModels &SchedModels;
791
792public:
793 std::vector<PredTransition> TransVec;
794
795 PredTransitions(CodeGenSchedModels &sm): SchedModels(sm) {}
796
797 void substituteVariantOperand(const SmallVectorImpl<unsigned> &RWSeq,
798 bool IsRead, unsigned StartIdx);
799
800 void substituteVariants(const PredTransition &Trans);
801
802#ifndef NDEBUG
803 void dump() const;
804#endif
805
806private:
807 bool mutuallyExclusive(Record *PredDef, ArrayRef<PredCheck> Term);
808 void pushVariant(unsigned SchedRW, Record *Variant, PredTransition &Trans,
809 bool IsRead);
810};
811} // anonymous
812
813// Return true if this predicate is mutually exclusive with a PredTerm. This
814// degenerates into checking if the predicate is mutually exclusive with any
815// predicate in the Term's conjunction.
816//
817// All predicates associated with a given SchedRW are considered mutually
818// exclusive. This should work even if the conditions expressed by the
819// predicates are not exclusive because the predicates for a given SchedWrite
820// are always checked in the order they are defined in the .td file. Later
821// conditions implicitly negate any prior condition.
822bool PredTransitions::mutuallyExclusive(Record *PredDef,
823 ArrayRef<PredCheck> Term) {
824
825 for (ArrayRef<PredCheck>::iterator I = Term.begin(), E = Term.end();
826 I != E; ++I) {
827 if (I->Predicate == PredDef)
828 return false;
829
830 const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(I->RWIdx, I->IsRead);
831 assert(SchedRW.HasVariants && "PredCheck must refer to a SchedVariant");
832 RecVec Variants = SchedRW.TheDef->getValueAsListOfDefs("Variants");
833 for (RecIter VI = Variants.begin(), VE = Variants.end(); VI != VE; ++VI) {
834 if ((*VI)->getValueAsDef("Predicate") == PredDef)
835 return true;
836 }
837 }
838 return false;
839}
840
841// Push the Reads/Writes selected by this variant onto the given PredTransition.
842void PredTransitions::pushVariant(unsigned RWIdx, Record *Variant,
843 PredTransition &Trans, bool IsRead) {
844 Trans.PredTerm.push_back(
845 PredCheck(IsRead, RWIdx, Variant->getValueAsDef("Predicate")));
846 RecVec SelectedDefs = Variant->getValueAsListOfDefs("Selected");
847 IdxVec SelectedRWs;
848 SchedModels.findRWs(SelectedDefs, SelectedRWs, IsRead);
849
850 const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(RWIdx, IsRead);
851
852 SmallVectorImpl<SmallVector<unsigned,4> > &RWSequences = IsRead
853 ? Trans.ReadSequences : Trans.WriteSequences;
854 if (SchedRW.IsVariadic) {
855 unsigned OperIdx = RWSequences.size()-1;
856 // Make N-1 copies of this transition's last sequence.
857 for (unsigned i = 1, e = SelectedRWs.size(); i != e; ++i) {
858 RWSequences.push_back(RWSequences[OperIdx]);
859 }
860 // Push each of the N elements of the SelectedRWs onto a copy of the last
861 // sequence (split the current operand into N operands).
862 // Note that write sequences should be expanded within this loop--the entire
863 // sequence belongs to a single operand.
864 for (IdxIter RWI = SelectedRWs.begin(), RWE = SelectedRWs.end();
865 RWI != RWE; ++RWI, ++OperIdx) {
866 IdxVec ExpandedRWs;
867 if (IsRead)
868 ExpandedRWs.push_back(*RWI);
869 else
870 SchedModels.expandRWSequence(*RWI, ExpandedRWs, IsRead);
871 RWSequences[OperIdx].insert(RWSequences[OperIdx].end(),
872 ExpandedRWs.begin(), ExpandedRWs.end());
873 }
874 assert(OperIdx == RWSequences.size() && "missed a sequence");
875 }
876 else {
877 // Push this transition's expanded sequence onto this transition's last
878 // sequence (add to the current operand's sequence).
879 SmallVectorImpl<unsigned> &Seq = RWSequences.back();
880 IdxVec ExpandedRWs;
881 for (IdxIter RWI = SelectedRWs.begin(), RWE = SelectedRWs.end();
882 RWI != RWE; ++RWI) {
883 if (IsRead)
884 ExpandedRWs.push_back(*RWI);
885 else
886 SchedModels.expandRWSequence(*RWI, ExpandedRWs, IsRead);
887 }
888 Seq.insert(Seq.end(), ExpandedRWs.begin(), ExpandedRWs.end());
889 }
890}
891
892// RWSeq is a sequence of all Reads or all Writes for the next read or write
893// operand. StartIdx is an index into TransVec where partial results
894// starts. RWSeq must be applied to all tranistions between StartIdx and the end
895// of TransVec.
896void PredTransitions::substituteVariantOperand(
897 const SmallVectorImpl<unsigned> &RWSeq, bool IsRead, unsigned StartIdx) {
898
899 // Visit each original RW within the current sequence.
900 for (SmallVectorImpl<unsigned>::const_iterator
901 RWI = RWSeq.begin(), RWE = RWSeq.end(); RWI != RWE; ++RWI) {
902 const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(*RWI, IsRead);
903 // Push this RW on all partial PredTransitions or distribute variants.
904 // New PredTransitions may be pushed within this loop which should not be
905 // revisited (TransEnd must be loop invariant).
906 for (unsigned TransIdx = StartIdx, TransEnd = TransVec.size();
907 TransIdx != TransEnd; ++TransIdx) {
908 // In the common case, push RW onto the current operand's sequence.
909 if (!SchedRW.HasVariants) {
910 if (IsRead)
911 TransVec[TransIdx].ReadSequences.back().push_back(*RWI);
912 else
913 TransVec[TransIdx].WriteSequences.back().push_back(*RWI);
914 continue;
915 }
916 // Distribute this partial PredTransition across intersecting variants.
917 RecVec Variants = SchedRW.TheDef->getValueAsListOfDefs("Variants");
918 std::vector<std::pair<Record*,unsigned> > IntersectingVariants;
919 for (RecIter VI = Variants.begin(), VE = Variants.end(); VI != VE; ++VI) {
920 Record *PredDef = (*VI)->getValueAsDef("Predicate");
921 if (mutuallyExclusive(PredDef, TransVec[TransIdx].PredTerm))
922 continue;
923 if (IntersectingVariants.empty())
924 // The first variant builds on the existing transition.
925 IntersectingVariants.push_back(std::make_pair(*VI, TransIdx));
926 else {
927 // Push another copy of the current transition for more variants.
928 IntersectingVariants.push_back(
929 std::make_pair(*VI, TransVec.size()));
930 TransVec.push_back(TransVec[TransIdx]);
931 }
932 }
933 // Now expand each variant on top of its copy of the transition.
934 for (std::vector<std::pair<Record*, unsigned> >::const_iterator
935 IVI = IntersectingVariants.begin(),
936 IVE = IntersectingVariants.end();
937 IVI != IVE; ++IVI)
938 pushVariant(*RWI, IVI->first, TransVec[IVI->second], IsRead);
939 }
940 }
941}
942
943// For each variant of a Read/Write in Trans, substitute the sequence of
944// Read/Writes guarded by the variant. This is exponential in the number of
945// variant Read/Writes, but in practice detection of mutually exclusive
946// predicates should result in linear growth in the total number variants.
947//
948// This is one step in a breadth-first search of nested variants.
949void PredTransitions::substituteVariants(const PredTransition &Trans) {
950 // Build up a set of partial results starting at the back of
951 // PredTransitions. Remember the first new transition.
952 unsigned StartIdx = TransVec.size();
953 TransVec.resize(TransVec.size() + 1);
954 TransVec.back().PredTerm = Trans.PredTerm;
955
956 // Visit each original write sequence.
957 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
958 WSI = Trans.WriteSequences.begin(), WSE = Trans.WriteSequences.end();
959 WSI != WSE; ++WSI) {
960 // Push a new (empty) write sequence onto all partial Transitions.
961 for (std::vector<PredTransition>::iterator I =
962 TransVec.begin() + StartIdx, E = TransVec.end(); I != E; ++I) {
963 I->WriteSequences.resize(I->WriteSequences.size() + 1);
964 }
965 substituteVariantOperand(*WSI, /*IsRead=*/false, StartIdx);
966 }
967 // Visit each original read sequence.
968 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
969 RSI = Trans.ReadSequences.begin(), RSE = Trans.ReadSequences.end();
970 RSI != RSE; ++RSI) {
971 // Push a new (empty) read sequence onto all partial Transitions.
972 for (std::vector<PredTransition>::iterator I =
973 TransVec.begin() + StartIdx, E = TransVec.end(); I != E; ++I) {
974 I->ReadSequences.resize(I->ReadSequences.size() + 1);
975 }
976 substituteVariantOperand(*RSI, /*IsRead=*/true, StartIdx);
977 }
978}
979
980static bool hasVariant(ArrayRef<PredTransition> Transitions,
981 CodeGenSchedModels &SchedModels) {
982 for (ArrayRef<PredTransition>::iterator
983 PTI = Transitions.begin(), PTE = Transitions.end();
984 PTI != PTE; ++PTI) {
985 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
986 WSI = PTI->WriteSequences.begin(), WSE = PTI->WriteSequences.end();
987 WSI != WSE; ++WSI) {
988 for (SmallVectorImpl<unsigned>::const_iterator
989 WI = WSI->begin(), WE = WSI->end(); WI != WE; ++WI) {
990 if (SchedModels.getSchedWrite(*WI).HasVariants)
991 return true;
992 }
993 }
994 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
995 RSI = PTI->ReadSequences.begin(), RSE = PTI->ReadSequences.end();
996 RSI != RSE; ++RSI) {
997 for (SmallVectorImpl<unsigned>::const_iterator
998 RI = RSI->begin(), RE = RSI->end(); RI != RE; ++RI) {
999 if (SchedModels.getSchedRead(*RI).HasVariants)
1000 return true;
1001 }
1002 }
1003 }
1004 return false;
1005}
1006
1007// Create a new SchedClass for each variant found by inferFromRW. Pass
1008// ProcIndices by copy to avoid referencing anything from SchedClasses.
1009static void inferFromTransitions(ArrayRef<PredTransition> LastTransitions,
1010 unsigned FromClassIdx, IdxVec ProcIndices,
1011 CodeGenSchedModels &SchedModels) {
1012 // For each PredTransition, create a new CodeGenSchedTransition, which usually
1013 // requires creating a new SchedClass.
1014 for (ArrayRef<PredTransition>::iterator
1015 I = LastTransitions.begin(), E = LastTransitions.end(); I != E; ++I) {
1016 IdxVec OperWritesVariant;
1017 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
1018 WSI = I->WriteSequences.begin(), WSE = I->WriteSequences.end();
1019 WSI != WSE; ++WSI) {
1020 // Create a new write representing the expanded sequence.
1021 OperWritesVariant.push_back(
1022 SchedModels.findOrInsertRW(*WSI, /*IsRead=*/false));
1023 }
1024 IdxVec OperReadsVariant;
1025 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
1026 RSI = I->ReadSequences.begin(), RSE = I->ReadSequences.end();
1027 RSI != RSE; ++RSI) {
1028 // Create a new write representing the expanded sequence.
1029 OperReadsVariant.push_back(
1030 SchedModels.findOrInsertRW(*RSI, /*IsRead=*/true));
1031 }
1032 CodeGenSchedTransition SCTrans;
1033 SCTrans.ToClassIdx =
1034 SchedModels.addSchedClass(OperWritesVariant, OperReadsVariant,
1035 ProcIndices);
1036 SCTrans.ProcIndices = ProcIndices;
1037 // The final PredTerm is unique set of predicates guarding the transition.
1038 RecVec Preds;
1039 for (SmallVectorImpl<PredCheck>::const_iterator
1040 PI = I->PredTerm.begin(), PE = I->PredTerm.end(); PI != PE; ++PI) {
1041 Preds.push_back(PI->Predicate);
1042 }
1043 RecIter PredsEnd = std::unique(Preds.begin(), Preds.end());
1044 Preds.resize(PredsEnd - Preds.begin());
1045 SCTrans.PredTerm = Preds;
1046 SchedModels.getSchedClass(FromClassIdx).Transitions.push_back(SCTrans);
1047 }
1048}
1049
1050/// Find each variant write that OperWrites or OperaReads refers to and create a
1051/// new SchedClass for each variant.
1052void CodeGenSchedModels::inferFromRW(const IdxVec &OperWrites,
1053 const IdxVec &OperReads,
1054 unsigned FromClassIdx,
1055 const IdxVec &ProcIndices) {
1056 DEBUG(dbgs() << "INFERRW Writes: ");
1057
1058 // Create a seed transition with an empty PredTerm and the expanded sequences
1059 // of SchedWrites for the current SchedClass.
1060 std::vector<PredTransition> LastTransitions;
1061 LastTransitions.resize(1);
1062 for (IdxIter I = OperWrites.begin(), E = OperWrites.end(); I != E; ++I) {
1063 IdxVec WriteSeq;
1064 expandRWSequence(*I, WriteSeq, /*IsRead=*/false);
1065 unsigned Idx = LastTransitions[0].WriteSequences.size();
1066 LastTransitions[0].WriteSequences.resize(Idx + 1);
1067 SmallVectorImpl<unsigned> &Seq = LastTransitions[0].WriteSequences[Idx];
1068 for (IdxIter WI = WriteSeq.begin(), WE = WriteSeq.end(); WI != WE; ++WI)
1069 Seq.push_back(*WI);
1070 DEBUG(dbgs() << "("; dumpIdxVec(Seq); dbgs() << ") ");
1071 }
1072 DEBUG(dbgs() << " Reads: ");
1073 for (IdxIter I = OperReads.begin(), E = OperReads.end(); I != E; ++I) {
1074 IdxVec ReadSeq;
1075 expandRWSequence(*I, ReadSeq, /*IsRead=*/true);
1076 unsigned Idx = LastTransitions[0].ReadSequences.size();
1077 LastTransitions[0].ReadSequences.resize(Idx + 1);
1078 SmallVectorImpl<unsigned> &Seq = LastTransitions[0].ReadSequences[Idx];
1079 for (IdxIter RI = ReadSeq.begin(), RE = ReadSeq.end(); RI != RE; ++RI)
1080 Seq.push_back(*RI);
1081 DEBUG(dbgs() << "("; dumpIdxVec(Seq); dbgs() << ") ");
1082 }
1083 DEBUG(dbgs() << '\n');
1084
1085 // Collect all PredTransitions for individual operands.
1086 // Iterate until no variant writes remain.
1087 while (hasVariant(LastTransitions, *this)) {
1088 PredTransitions Transitions(*this);
1089 for (std::vector<PredTransition>::const_iterator
1090 I = LastTransitions.begin(), E = LastTransitions.end();
1091 I != E; ++I) {
1092 Transitions.substituteVariants(*I);
1093 }
1094 DEBUG(Transitions.dump());
1095 LastTransitions.swap(Transitions.TransVec);
1096 }
1097 // If the first transition has no variants, nothing to do.
1098 if (LastTransitions[0].PredTerm.empty())
1099 return;
1100
1101 // WARNING: We are about to mutate the SchedClasses vector. Do not refer to
1102 // OperWrites, OperReads, or ProcIndices after calling inferFromTransitions.
1103 inferFromTransitions(LastTransitions, FromClassIdx, ProcIndices, *this);
1104}
1105
Andrew Trick3cbd1782012-09-15 00:20:02 +0000[diff] [blame]1106// Collect and sort WriteRes, ReadAdvance, and ProcResources.
1107void CodeGenSchedModels::collectProcResources() {
1108 // Add any subtarget-specific SchedReadWrites that are directly associated
1109 // with processor resources. Refer to the parent SchedClass's ProcIndices to
1110 // determine which processors they apply to.
1111 for (SchedClassIter SCI = schedClassBegin(), SCE = schedClassEnd();
1112 SCI != SCE; ++SCI) {
1113 if (SCI->ItinClassDef)
1114 collectItinProcResources(SCI->ItinClassDef);
1115 else
1116 collectRWResources(SCI->Writes, SCI->Reads, SCI->ProcIndices);
1117 }
1118 // Add resources separately defined by each subtarget.
1119 RecVec WRDefs = Records.getAllDerivedDefinitions("WriteRes");
1120 for (RecIter WRI = WRDefs.begin(), WRE = WRDefs.end(); WRI != WRE; ++WRI) {
1121 Record *ModelDef = (*WRI)->getValueAsDef("SchedModel");
1122 addWriteRes(*WRI, getProcModel(ModelDef).Index);
1123 }
1124 RecVec RADefs = Records.getAllDerivedDefinitions("ReadAdvance");
1125 for (RecIter RAI = RADefs.begin(), RAE = RADefs.end(); RAI != RAE; ++RAI) {
1126 Record *ModelDef = (*RAI)->getValueAsDef("SchedModel");
1127 addReadAdvance(*RAI, getProcModel(ModelDef).Index);
1128 }
1129 // Finalize each ProcModel by sorting the record arrays.
1130 for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) {
1131 CodeGenProcModel &PM = ProcModels[PIdx];
1132 std::sort(PM.WriteResDefs.begin(), PM.WriteResDefs.end(),
1133 LessRecord());
1134 std::sort(PM.ReadAdvanceDefs.begin(), PM.ReadAdvanceDefs.end(),
1135 LessRecord());
1136 std::sort(PM.ProcResourceDefs.begin(), PM.ProcResourceDefs.end(),
1137 LessRecord());
1138 DEBUG(
1139 PM.dump();
1140 dbgs() << "WriteResDefs: ";
1141 for (RecIter RI = PM.WriteResDefs.begin(),
1142 RE = PM.WriteResDefs.end(); RI != RE; ++RI) {
1143 if ((*RI)->isSubClassOf("WriteRes"))
1144 dbgs() << (*RI)->getValueAsDef("WriteType")->getName() << " ";
1145 else
1146 dbgs() << (*RI)->getName() << " ";
1147 }
1148 dbgs() << "\nReadAdvanceDefs: ";
1149 for (RecIter RI = PM.ReadAdvanceDefs.begin(),
1150 RE = PM.ReadAdvanceDefs.end(); RI != RE; ++RI) {
1151 if ((*RI)->isSubClassOf("ReadAdvance"))
1152 dbgs() << (*RI)->getValueAsDef("ReadType")->getName() << " ";
1153 else
1154 dbgs() << (*RI)->getName() << " ";
1155 }
1156 dbgs() << "\nProcResourceDefs: ";
1157 for (RecIter RI = PM.ProcResourceDefs.begin(),
1158 RE = PM.ProcResourceDefs.end(); RI != RE; ++RI) {
1159 dbgs() << (*RI)->getName() << " ";
1160 }
1161 dbgs() << '\n');
1162 }
1163}
1164
1165// Collect itinerary class resources for each processor.
1166void CodeGenSchedModels::collectItinProcResources(Record *ItinClassDef) {
1167 for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) {
1168 const CodeGenProcModel &PM = ProcModels[PIdx];
1169 // For all ItinRW entries.
1170 bool HasMatch = false;
1171 for (RecIter II = PM.ItinRWDefs.begin(), IE = PM.ItinRWDefs.end();
1172 II != IE; ++II) {
1173 RecVec Matched = (*II)->getValueAsListOfDefs("MatchedItinClasses");
1174 if (!std::count(Matched.begin(), Matched.end(), ItinClassDef))
1175 continue;
1176 if (HasMatch)
1177 throw TGError((*II)->getLoc(), "Duplicate itinerary class "
1178 + ItinClassDef->getName()
1179 + " in ItinResources for " + PM.ModelName);
1180 HasMatch = true;
1181 IdxVec Writes, Reads;
1182 findRWs((*II)->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads);
1183 IdxVec ProcIndices(1, PIdx);
1184 collectRWResources(Writes, Reads, ProcIndices);
1185 }
1186 }
1187}
1188
1189
1190// Collect resources for a set of read/write types and processor indices.
1191void CodeGenSchedModels::collectRWResources(const IdxVec &Writes,
1192 const IdxVec &Reads,
1193 const IdxVec &ProcIndices) {
1194
1195 for (IdxIter WI = Writes.begin(), WE = Writes.end(); WI != WE; ++WI) {
1196 const CodeGenSchedRW &SchedRW = getSchedRW(*WI, /*IsRead=*/false);
1197 if (SchedRW.TheDef && SchedRW.TheDef->isSubClassOf("SchedWriteRes")) {
1198 for (IdxIter PI = ProcIndices.begin(), PE = ProcIndices.end();
1199 PI != PE; ++PI) {
1200 addWriteRes(SchedRW.TheDef, *PI);
1201 }
1202 }
1203 }
1204 for (IdxIter RI = Reads.begin(), RE = Reads.end(); RI != RE; ++RI) {
1205 const CodeGenSchedRW &SchedRW = getSchedRW(*RI, /*IsRead=*/true);
1206 if (SchedRW.TheDef && SchedRW.TheDef->isSubClassOf("SchedReadAdvance")) {
1207 for (IdxIter PI = ProcIndices.begin(), PE = ProcIndices.end();
1208 PI != PE; ++PI) {
1209 addReadAdvance(SchedRW.TheDef, *PI);
1210 }
1211 }
1212 }
1213}
1214
1215// Find the processor's resource units for this kind of resource.
1216Record *CodeGenSchedModels::findProcResUnits(Record *ProcResKind,
1217 const CodeGenProcModel &PM) const {
1218 if (ProcResKind->isSubClassOf("ProcResourceUnits"))
1219 return ProcResKind;
1220
1221 Record *ProcUnitDef = 0;
1222 RecVec ProcResourceDefs =
1223 Records.getAllDerivedDefinitions("ProcResourceUnits");
1224
1225 for (RecIter RI = ProcResourceDefs.begin(), RE = ProcResourceDefs.end();
1226 RI != RE; ++RI) {
1227
1228 if ((*RI)->getValueAsDef("Kind") == ProcResKind
1229 && (*RI)->getValueAsDef("SchedModel") == PM.ModelDef) {
1230 if (ProcUnitDef) {
1231 throw TGError((*RI)->getLoc(),
1232 "Multiple ProcessorResourceUnits associated with "
1233 + ProcResKind->getName());
1234 }
1235 ProcUnitDef = *RI;
1236 }
1237 }
1238 if (!ProcUnitDef) {
1239 throw TGError(ProcResKind->getLoc(),
1240 "No ProcessorResources associated with "
1241 + ProcResKind->getName());
1242 }
1243 return ProcUnitDef;
1244}
1245
1246// Iteratively add a resource and its super resources.
1247void CodeGenSchedModels::addProcResource(Record *ProcResKind,
1248 CodeGenProcModel &PM) {
1249 for (;;) {
1250 Record *ProcResUnits = findProcResUnits(ProcResKind, PM);
1251
1252 // See if this ProcResource is already associated with this processor.
1253 RecIter I = std::find(PM.ProcResourceDefs.begin(),
1254 PM.ProcResourceDefs.end(), ProcResUnits);
1255 if (I != PM.ProcResourceDefs.end())
1256 return;
1257
1258 PM.ProcResourceDefs.push_back(ProcResUnits);
1259 if (!ProcResUnits->getValueInit("Super")->isComplete())
1260 return;
1261
1262 ProcResKind = ProcResUnits->getValueAsDef("Super");
1263 }
1264}
1265
1266// Add resources for a SchedWrite to this processor if they don't exist.
1267void CodeGenSchedModels::addWriteRes(Record *ProcWriteResDef, unsigned PIdx) {
1268 RecVec &WRDefs = ProcModels[PIdx].WriteResDefs;
1269 RecIter WRI = std::find(WRDefs.begin(), WRDefs.end(), ProcWriteResDef);
1270 if (WRI != WRDefs.end())
1271 return;
1272 WRDefs.push_back(ProcWriteResDef);
1273
1274 // Visit ProcResourceKinds referenced by the newly discovered WriteRes.
1275 RecVec ProcResDefs = ProcWriteResDef->getValueAsListOfDefs("ProcResources");
1276 for (RecIter WritePRI = ProcResDefs.begin(), WritePRE = ProcResDefs.end();
1277 WritePRI != WritePRE; ++WritePRI) {
1278 addProcResource(*WritePRI, ProcModels[PIdx]);
1279 }
1280}
1281
1282// Add resources for a ReadAdvance to this processor if they don't exist.
1283void CodeGenSchedModels::addReadAdvance(Record *ProcReadAdvanceDef,
1284 unsigned PIdx) {
1285 RecVec &RADefs = ProcModels[PIdx].ReadAdvanceDefs;
1286 RecIter I = std::find(RADefs.begin(), RADefs.end(), ProcReadAdvanceDef);
1287 if (I != RADefs.end())
1288 return;
1289 RADefs.push_back(ProcReadAdvanceDef);
1290}
1291
Andrew Trickbc4ff6e2012-09-17 22:18:43 +0000[diff] [blame]1292unsigned CodeGenProcModel::getProcResourceIdx(Record *PRDef) const {
1293 RecIter PRPos = std::find(ProcResourceDefs.begin(), ProcResourceDefs.end(),
1294 PRDef);
1295 if (PRPos == ProcResourceDefs.end())
1296 throw TGError(PRDef->getLoc(), "ProcResource def is not included in "
1297 "the ProcResources list for " + ModelName);
1298 // Idx=0 is reserved for invalid.
1299 return 1 + PRPos - ProcResourceDefs.begin();
1300}
1301
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]1302#ifndef NDEBUG
1303void CodeGenProcModel::dump() const {
1304 dbgs() << Index << ": " << ModelName << " "
1305 << (ModelDef ? ModelDef->getName() : "inferred") << " "
1306 << (ItinsDef ? ItinsDef->getName() : "no itinerary") << '\n';
1307}
1308
1309void CodeGenSchedRW::dump() const {
1310 dbgs() << Name << (IsVariadic ? " (V) " : " ");
1311 if (IsSequence) {
1312 dbgs() << "(";
1313 dumpIdxVec(Sequence);
1314 dbgs() << ")";
1315 }
1316}
1317
1318void CodeGenSchedClass::dump(const CodeGenSchedModels* SchedModels) const {
1319 dbgs() << "SCHEDCLASS " << Name << '\n'
1320 << " Writes: ";
1321 for (unsigned i = 0, N = Writes.size(); i < N; ++i) {
1322 SchedModels->getSchedWrite(Writes[i]).dump();
1323 if (i < N-1) {
1324 dbgs() << '\n';
1325 dbgs().indent(10);
1326 }
1327 }
1328 dbgs() << "\n Reads: ";
1329 for (unsigned i = 0, N = Reads.size(); i < N; ++i) {
1330 SchedModels->getSchedRead(Reads[i]).dump();
1331 if (i < N-1) {
1332 dbgs() << '\n';
1333 dbgs().indent(10);
1334 }
1335 }
1336 dbgs() << "\n ProcIdx: "; dumpIdxVec(ProcIndices); dbgs() << '\n';
1337}
Andrew Trick5e613c22012-09-15 00:19:59 +0000[diff] [blame]1338
1339void PredTransitions::dump() const {
1340 dbgs() << "Expanded Variants:\n";
1341 for (std::vector<PredTransition>::const_iterator
1342 TI = TransVec.begin(), TE = TransVec.end(); TI != TE; ++TI) {
1343 dbgs() << "{";
1344 for (SmallVectorImpl<PredCheck>::const_iterator
1345 PCI = TI->PredTerm.begin(), PCE = TI->PredTerm.end();
1346 PCI != PCE; ++PCI) {
1347 if (PCI != TI->PredTerm.begin())
1348 dbgs() << ", ";
1349 dbgs() << SchedModels.getSchedRW(PCI->RWIdx, PCI->IsRead).Name
1350 << ":" << PCI->Predicate->getName();
1351 }
1352 dbgs() << "},\n => {";
1353 for (SmallVectorImpl<SmallVector<unsigned,4> >::const_iterator
1354 WSI = TI->WriteSequences.begin(), WSE = TI->WriteSequences.end();
1355 WSI != WSE; ++WSI) {
1356 dbgs() << "(";
1357 for (SmallVectorImpl<unsigned>::const_iterator
1358 WI = WSI->begin(), WE = WSI->end(); WI != WE; ++WI) {
1359 if (WI != WSI->begin())
1360 dbgs() << ", ";
1361 dbgs() << SchedModels.getSchedWrite(*WI).Name;
1362 }
1363 dbgs() << "),";
1364 }
1365 dbgs() << "}\n";
1366 }
1367}
Andrew Trick48605c32012-09-15 00:19:57 +0000[diff] [blame]1368#endif // NDEBUG