187255e34SAndrew Trick //===- CodeGenSchedule.cpp - Scheduling MachineModels ---------------------===// 287255e34SAndrew Trick // 32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information. 52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 687255e34SAndrew Trick // 787255e34SAndrew Trick //===----------------------------------------------------------------------===// 887255e34SAndrew Trick // 9cb402911SAlp Toker // This file defines structures to encapsulate the machine model as described in 1087255e34SAndrew Trick // the target description. 1187255e34SAndrew Trick // 1287255e34SAndrew Trick //===----------------------------------------------------------------------===// 1387255e34SAndrew Trick 1487255e34SAndrew Trick #include "CodeGenSchedule.h" 15cbce2f02SBenjamin Kramer #include "CodeGenInstruction.h" 1687255e34SAndrew Trick #include "CodeGenTarget.h" 17f19eacfeSCraig Topper #include "llvm/ADT/MapVector.h" 18cbce2f02SBenjamin Kramer #include "llvm/ADT/STLExtras.h" 19a3fe70d2SEugene Zelenko #include "llvm/ADT/SmallPtrSet.h" 20a3fe70d2SEugene Zelenko #include "llvm/ADT/SmallSet.h" 21a3fe70d2SEugene Zelenko #include "llvm/ADT/SmallVector.h" 22a3fe70d2SEugene Zelenko #include "llvm/Support/Casting.h" 2387255e34SAndrew Trick #include "llvm/Support/Debug.h" 249e1deb69SAndrew Trick #include "llvm/Support/Regex.h" 25cbce2f02SBenjamin Kramer #include "llvm/Support/raw_ostream.h" 2691d19d8eSChandler Carruth #include "llvm/TableGen/Error.h" 27a3fe70d2SEugene Zelenko #include <algorithm> 28a3fe70d2SEugene Zelenko #include <iterator> 29a3fe70d2SEugene Zelenko #include <utility> 3087255e34SAndrew Trick 3187255e34SAndrew Trick using namespace llvm; 3287255e34SAndrew Trick 3397acce29SChandler Carruth #define DEBUG_TYPE "subtarget-emitter" 3497acce29SChandler Carruth 3576686496SAndrew Trick #ifndef NDEBUG 36e1761952SBenjamin Kramer static void dumpIdxVec(ArrayRef<unsigned> V) { 37e1761952SBenjamin Kramer for (unsigned Idx : V) 38e1761952SBenjamin Kramer dbgs() << Idx << ", "; 3933401e84SAndrew Trick } 4076686496SAndrew Trick #endif 4176686496SAndrew Trick 4205c5a932SJuergen Ributzka namespace { 43a3fe70d2SEugene Zelenko 449e1deb69SAndrew Trick // (instrs a, b, ...) Evaluate and union all arguments. Identical to AddOp. 459e1deb69SAndrew Trick struct InstrsOp : public SetTheory::Operator { 46716b0730SCraig Topper void apply(SetTheory &ST, DagInit *Expr, SetTheory::RecSet &Elts, 47716b0730SCraig Topper ArrayRef<SMLoc> Loc) override { 4870909373SJoerg Sonnenberger ST.evaluate(Expr->arg_begin(), Expr->arg_end(), Elts, Loc); 499e1deb69SAndrew Trick } 5005c5a932SJuergen Ributzka }; 519e1deb69SAndrew Trick 529e1deb69SAndrew Trick // (instregex "OpcPat",...) Find all instructions matching an opcode pattern. 539e1deb69SAndrew Trick struct InstRegexOp : public SetTheory::Operator { 549e1deb69SAndrew Trick const CodeGenTarget &Target; 559e1deb69SAndrew Trick InstRegexOp(const CodeGenTarget &t): Target(t) {} 569e1deb69SAndrew Trick 57cbce2f02SBenjamin Kramer /// Remove any text inside of parentheses from S. 58cbce2f02SBenjamin Kramer static std::string removeParens(llvm::StringRef S) { 59cbce2f02SBenjamin Kramer std::string Result; 60cbce2f02SBenjamin Kramer unsigned Paren = 0; 61cbce2f02SBenjamin Kramer // NB: We don't care about escaped parens here. 62cbce2f02SBenjamin Kramer for (char C : S) { 63cbce2f02SBenjamin Kramer switch (C) { 64cbce2f02SBenjamin Kramer case '(': 65cbce2f02SBenjamin Kramer ++Paren; 66cbce2f02SBenjamin Kramer break; 67cbce2f02SBenjamin Kramer case ')': 68cbce2f02SBenjamin Kramer --Paren; 69cbce2f02SBenjamin Kramer break; 70cbce2f02SBenjamin Kramer default: 71cbce2f02SBenjamin Kramer if (Paren == 0) 72cbce2f02SBenjamin Kramer Result += C; 73cbce2f02SBenjamin Kramer } 74cbce2f02SBenjamin Kramer } 75cbce2f02SBenjamin Kramer return Result; 76cbce2f02SBenjamin Kramer } 77cbce2f02SBenjamin Kramer 7805c5a932SJuergen Ributzka void apply(SetTheory &ST, DagInit *Expr, SetTheory::RecSet &Elts, 79716b0730SCraig Topper ArrayRef<SMLoc> Loc) override { 80d760c20cSRoman Tereshin ArrayRef<const CodeGenInstruction *> Instructions = 81d760c20cSRoman Tereshin Target.getInstructionsByEnumValue(); 82d760c20cSRoman Tereshin 83d760c20cSRoman Tereshin unsigned NumGeneric = Target.getNumFixedInstructions(); 849e493183SRoman Tereshin unsigned NumPseudos = Target.getNumPseudoInstructions(); 85d760c20cSRoman Tereshin auto Generics = Instructions.slice(0, NumGeneric); 869e493183SRoman Tereshin auto Pseudos = Instructions.slice(NumGeneric, NumPseudos); 879e493183SRoman Tereshin auto NonPseudos = Instructions.slice(NumGeneric + NumPseudos); 88d760c20cSRoman Tereshin 896a6e3821SKazu Hirata for (Init *Arg : Expr->getArgs()) { 90fc500041SJaved Absar StringInit *SI = dyn_cast<StringInit>(Arg); 919e1deb69SAndrew Trick if (!SI) 92cbce2f02SBenjamin Kramer PrintFatalError(Loc, "instregex requires pattern string: " + 93cbce2f02SBenjamin Kramer Expr->getAsString()); 9475cc2f9eSSimon Pilgrim StringRef Original = SI->getValue(); 9575cc2f9eSSimon Pilgrim 96cbce2f02SBenjamin Kramer // Extract a prefix that we can binary search on. 97cbce2f02SBenjamin Kramer static const char RegexMetachars[] = "()^$|*+?.[]\\{}"; 9875cc2f9eSSimon Pilgrim auto FirstMeta = Original.find_first_of(RegexMetachars); 9975cc2f9eSSimon Pilgrim 100cbce2f02SBenjamin Kramer // Look for top-level | or ?. We cannot optimize them to binary search. 10175cc2f9eSSimon Pilgrim if (removeParens(Original).find_first_of("|?") != std::string::npos) 102cbce2f02SBenjamin Kramer FirstMeta = 0; 10375cc2f9eSSimon Pilgrim 10475cc2f9eSSimon Pilgrim Optional<Regex> Regexpr = None; 10575cc2f9eSSimon Pilgrim StringRef Prefix = Original.substr(0, FirstMeta); 10634d512ecSSimon Pilgrim StringRef PatStr = Original.substr(FirstMeta); 10734d512ecSSimon Pilgrim if (!PatStr.empty()) { 108cbce2f02SBenjamin Kramer // For the rest use a python-style prefix match. 109adcd0268SBenjamin Kramer std::string pat = std::string(PatStr); 1109e1deb69SAndrew Trick if (pat[0] != '^') { 1119e1deb69SAndrew Trick pat.insert(0, "^("); 1129e1deb69SAndrew Trick pat.insert(pat.end(), ')'); 1139e1deb69SAndrew Trick } 11475cc2f9eSSimon Pilgrim Regexpr = Regex(pat); 1159e1deb69SAndrew Trick } 11675cc2f9eSSimon Pilgrim 117d044f9c9SSimon Pilgrim int NumMatches = 0; 118d044f9c9SSimon Pilgrim 119cbce2f02SBenjamin Kramer // The generic opcodes are unsorted, handle them manually. 12075cc2f9eSSimon Pilgrim for (auto *Inst : Generics) { 12175cc2f9eSSimon Pilgrim StringRef InstName = Inst->TheDef->getName(); 12275cc2f9eSSimon Pilgrim if (InstName.startswith(Prefix) && 123d044f9c9SSimon Pilgrim (!Regexpr || Regexpr->match(InstName.substr(Prefix.size())))) { 124cbce2f02SBenjamin Kramer Elts.insert(Inst->TheDef); 125d044f9c9SSimon Pilgrim NumMatches++; 126d044f9c9SSimon Pilgrim } 127cbce2f02SBenjamin Kramer } 128cbce2f02SBenjamin Kramer 1299e493183SRoman Tereshin // Target instructions are split into two ranges: pseudo instructions 1309e493183SRoman Tereshin // first, than non-pseudos. Each range is in lexicographical order 1319e493183SRoman Tereshin // sorted by name. Find the sub-ranges that start with our prefix. 132cbce2f02SBenjamin Kramer struct Comp { 133cbce2f02SBenjamin Kramer bool operator()(const CodeGenInstruction *LHS, StringRef RHS) { 134cbce2f02SBenjamin Kramer return LHS->TheDef->getName() < RHS; 135cbce2f02SBenjamin Kramer } 136cbce2f02SBenjamin Kramer bool operator()(StringRef LHS, const CodeGenInstruction *RHS) { 137cbce2f02SBenjamin Kramer return LHS < RHS->TheDef->getName() && 138cbce2f02SBenjamin Kramer !RHS->TheDef->getName().startswith(LHS); 139cbce2f02SBenjamin Kramer } 140cbce2f02SBenjamin Kramer }; 1419e493183SRoman Tereshin auto Range1 = 1429e493183SRoman Tereshin std::equal_range(Pseudos.begin(), Pseudos.end(), Prefix, Comp()); 1439e493183SRoman Tereshin auto Range2 = std::equal_range(NonPseudos.begin(), NonPseudos.end(), 14475cc2f9eSSimon Pilgrim Prefix, Comp()); 145cbce2f02SBenjamin Kramer 1469e493183SRoman Tereshin // For these ranges we know that instruction names start with the prefix. 1479e493183SRoman Tereshin // Check if there's a regex that needs to be checked. 148d760c20cSRoman Tereshin const auto HandleNonGeneric = [&](const CodeGenInstruction *Inst) { 14975cc2f9eSSimon Pilgrim StringRef InstName = Inst->TheDef->getName(); 150d044f9c9SSimon Pilgrim if (!Regexpr || Regexpr->match(InstName.substr(Prefix.size()))) { 1518a417c1fSCraig Topper Elts.insert(Inst->TheDef); 152d044f9c9SSimon Pilgrim NumMatches++; 1539e1deb69SAndrew Trick } 154d760c20cSRoman Tereshin }; 1559e493183SRoman Tereshin std::for_each(Range1.first, Range1.second, HandleNonGeneric); 1569e493183SRoman Tereshin std::for_each(Range2.first, Range2.second, HandleNonGeneric); 157d044f9c9SSimon Pilgrim 158d044f9c9SSimon Pilgrim if (0 == NumMatches) 159d044f9c9SSimon Pilgrim PrintFatalError(Loc, "instregex has no matches: " + Original); 160d044f9c9SSimon Pilgrim } 1619e1deb69SAndrew Trick } 16205c5a932SJuergen Ributzka }; 163a3fe70d2SEugene Zelenko 16405c5a932SJuergen Ributzka } // end anonymous namespace 1659e1deb69SAndrew Trick 16676686496SAndrew Trick /// CodeGenModels ctor interprets machine model records and populates maps. 16787255e34SAndrew Trick CodeGenSchedModels::CodeGenSchedModels(RecordKeeper &RK, 16887255e34SAndrew Trick const CodeGenTarget &TGT): 169bf8a28dcSAndrew Trick Records(RK), Target(TGT) { 17087255e34SAndrew Trick 1719e1deb69SAndrew Trick Sets.addFieldExpander("InstRW", "Instrs"); 1729e1deb69SAndrew Trick 1739e1deb69SAndrew Trick // Allow Set evaluation to recognize the dags used in InstRW records: 1749e1deb69SAndrew Trick // (instrs Op1, Op1...) 1750eaee545SJonas Devlieghere Sets.addOperator("instrs", std::make_unique<InstrsOp>()); 1760eaee545SJonas Devlieghere Sets.addOperator("instregex", std::make_unique<InstRegexOp>(Target)); 1779e1deb69SAndrew Trick 17876686496SAndrew Trick // Instantiate a CodeGenProcModel for each SchedMachineModel with the values 17976686496SAndrew Trick // that are explicitly referenced in tablegen records. Resources associated 18076686496SAndrew Trick // with each processor will be derived later. Populate ProcModelMap with the 18176686496SAndrew Trick // CodeGenProcModel instances. 18276686496SAndrew Trick collectProcModels(); 18387255e34SAndrew Trick 18476686496SAndrew Trick // Instantiate a CodeGenSchedRW for each SchedReadWrite record explicitly 18576686496SAndrew Trick // defined, and populate SchedReads and SchedWrites vectors. Implicit 18676686496SAndrew Trick // SchedReadWrites that represent sequences derived from expanded variant will 18776686496SAndrew Trick // be inferred later. 18876686496SAndrew Trick collectSchedRW(); 18976686496SAndrew Trick 19076686496SAndrew Trick // Instantiate a CodeGenSchedClass for each unique SchedRW signature directly 19176686496SAndrew Trick // required by an instruction definition, and populate SchedClassIdxMap. Set 19276686496SAndrew Trick // NumItineraryClasses to the number of explicit itinerary classes referenced 19376686496SAndrew Trick // by instructions. Set NumInstrSchedClasses to the number of itinerary 19476686496SAndrew Trick // classes plus any classes implied by instructions that derive from class 19576686496SAndrew Trick // Sched and provide SchedRW list. This does not infer any new classes from 19676686496SAndrew Trick // SchedVariant. 19776686496SAndrew Trick collectSchedClasses(); 19876686496SAndrew Trick 19976686496SAndrew Trick // Find instruction itineraries for each processor. Sort and populate 2009257b8f8SAndrew Trick // CodeGenProcModel::ItinDefList. (Cycle-to-cycle itineraries). This requires 20176686496SAndrew Trick // all itinerary classes to be discovered. 20276686496SAndrew Trick collectProcItins(); 20376686496SAndrew Trick 20476686496SAndrew Trick // Find ItinRW records for each processor and itinerary class. 20576686496SAndrew Trick // (For per-operand resources mapped to itinerary classes). 20676686496SAndrew Trick collectProcItinRW(); 20733401e84SAndrew Trick 2085f95c9afSSimon Dardis // Find UnsupportedFeatures records for each processor. 2095f95c9afSSimon Dardis // (For per-operand resources mapped to itinerary classes). 2105f95c9afSSimon Dardis collectProcUnsupportedFeatures(); 2115f95c9afSSimon Dardis 21233401e84SAndrew Trick // Infer new SchedClasses from SchedVariant. 21333401e84SAndrew Trick inferSchedClasses(); 21433401e84SAndrew Trick 2151e46d488SAndrew Trick // Populate each CodeGenProcModel's WriteResDefs, ReadAdvanceDefs, and 2161e46d488SAndrew Trick // ProcResourceDefs. 217d34e60caSNicola Zaghen LLVM_DEBUG( 218d34e60caSNicola Zaghen dbgs() << "\n+++ RESOURCE DEFINITIONS (collectProcResources) +++\n"); 2191e46d488SAndrew Trick collectProcResources(); 22017cb5799SMatthias Braun 221c74ad502SAndrea Di Biagio // Collect optional processor description. 222c74ad502SAndrea Di Biagio collectOptionalProcessorInfo(); 223c74ad502SAndrea Di Biagio 2249eaf5aa0SAndrea Di Biagio // Check MCInstPredicate definitions. 2259eaf5aa0SAndrea Di Biagio checkMCInstPredicates(); 2269eaf5aa0SAndrea Di Biagio 2278b6c314bSAndrea Di Biagio // Check STIPredicate definitions. 2288b6c314bSAndrea Di Biagio checkSTIPredicates(); 2298b6c314bSAndrea Di Biagio 2308b6c314bSAndrea Di Biagio // Find STIPredicate definitions for each processor model, and construct 2318b6c314bSAndrea Di Biagio // STIPredicateFunction objects. 2328b6c314bSAndrea Di Biagio collectSTIPredicates(); 2338b6c314bSAndrea Di Biagio 234c74ad502SAndrea Di Biagio checkCompleteness(); 235c74ad502SAndrea Di Biagio } 236c74ad502SAndrea Di Biagio 2378b6c314bSAndrea Di Biagio void CodeGenSchedModels::checkSTIPredicates() const { 2388b6c314bSAndrea Di Biagio DenseMap<StringRef, const Record *> Declarations; 2398b6c314bSAndrea Di Biagio 2408b6c314bSAndrea Di Biagio // There cannot be multiple declarations with the same name. 2418b6c314bSAndrea Di Biagio const RecVec Decls = Records.getAllDerivedDefinitions("STIPredicateDecl"); 2428b6c314bSAndrea Di Biagio for (const Record *R : Decls) { 2438b6c314bSAndrea Di Biagio StringRef Name = R->getValueAsString("Name"); 2448b6c314bSAndrea Di Biagio const auto It = Declarations.find(Name); 2458b6c314bSAndrea Di Biagio if (It == Declarations.end()) { 2468b6c314bSAndrea Di Biagio Declarations[Name] = R; 2478b6c314bSAndrea Di Biagio continue; 2488b6c314bSAndrea Di Biagio } 2498b6c314bSAndrea Di Biagio 2508b6c314bSAndrea Di Biagio PrintError(R->getLoc(), "STIPredicate " + Name + " multiply declared."); 25188ce9f9bSJon Roelofs PrintFatalNote(It->second->getLoc(), "Previous declaration was here."); 2528b6c314bSAndrea Di Biagio } 2538b6c314bSAndrea Di Biagio 2548b6c314bSAndrea Di Biagio // Disallow InstructionEquivalenceClasses with an empty instruction list. 2558b6c314bSAndrea Di Biagio const RecVec Defs = 2568b6c314bSAndrea Di Biagio Records.getAllDerivedDefinitions("InstructionEquivalenceClass"); 2578b6c314bSAndrea Di Biagio for (const Record *R : Defs) { 2588b6c314bSAndrea Di Biagio RecVec Opcodes = R->getValueAsListOfDefs("Opcodes"); 2598b6c314bSAndrea Di Biagio if (Opcodes.empty()) { 2608b6c314bSAndrea Di Biagio PrintFatalError(R->getLoc(), "Invalid InstructionEquivalenceClass " 2618b6c314bSAndrea Di Biagio "defined with an empty opcode list."); 2628b6c314bSAndrea Di Biagio } 2638b6c314bSAndrea Di Biagio } 2648b6c314bSAndrea Di Biagio } 2658b6c314bSAndrea Di Biagio 2668b6c314bSAndrea Di Biagio // Used by function `processSTIPredicate` to construct a mask of machine 2678b6c314bSAndrea Di Biagio // instruction operands. 2688b6c314bSAndrea Di Biagio static APInt constructOperandMask(ArrayRef<int64_t> Indices) { 2698b6c314bSAndrea Di Biagio APInt OperandMask; 2708b6c314bSAndrea Di Biagio if (Indices.empty()) 2718b6c314bSAndrea Di Biagio return OperandMask; 2728b6c314bSAndrea Di Biagio 2738b6c314bSAndrea Di Biagio int64_t MaxIndex = *std::max_element(Indices.begin(), Indices.end()); 2748b6c314bSAndrea Di Biagio assert(MaxIndex >= 0 && "Invalid negative indices in input!"); 2758b6c314bSAndrea Di Biagio OperandMask = OperandMask.zext(MaxIndex + 1); 2768b6c314bSAndrea Di Biagio for (const int64_t Index : Indices) { 2778b6c314bSAndrea Di Biagio assert(Index >= 0 && "Invalid negative indices!"); 2788b6c314bSAndrea Di Biagio OperandMask.setBit(Index); 2798b6c314bSAndrea Di Biagio } 2808b6c314bSAndrea Di Biagio 2818b6c314bSAndrea Di Biagio return OperandMask; 2828b6c314bSAndrea Di Biagio } 2838b6c314bSAndrea Di Biagio 2848b6c314bSAndrea Di Biagio static void 2858b6c314bSAndrea Di Biagio processSTIPredicate(STIPredicateFunction &Fn, 286993eaf2dSEvgeny Leviant const ProcModelMapTy &ProcModelMap) { 2878b6c314bSAndrea Di Biagio DenseMap<const Record *, unsigned> Opcode2Index; 2888b6c314bSAndrea Di Biagio using OpcodeMapPair = std::pair<const Record *, OpcodeInfo>; 2898b6c314bSAndrea Di Biagio std::vector<OpcodeMapPair> OpcodeMappings; 2908b6c314bSAndrea Di Biagio std::vector<std::pair<APInt, APInt>> OpcodeMasks; 2918b6c314bSAndrea Di Biagio 2928b6c314bSAndrea Di Biagio DenseMap<const Record *, unsigned> Predicate2Index; 2938b6c314bSAndrea Di Biagio unsigned NumUniquePredicates = 0; 2948b6c314bSAndrea Di Biagio 2958b6c314bSAndrea Di Biagio // Number unique predicates and opcodes used by InstructionEquivalenceClass 2968b6c314bSAndrea Di Biagio // definitions. Each unique opcode will be associated with an OpcodeInfo 2978b6c314bSAndrea Di Biagio // object. 2988b6c314bSAndrea Di Biagio for (const Record *Def : Fn.getDefinitions()) { 2998b6c314bSAndrea Di Biagio RecVec Classes = Def->getValueAsListOfDefs("Classes"); 3008b6c314bSAndrea Di Biagio for (const Record *EC : Classes) { 3018b6c314bSAndrea Di Biagio const Record *Pred = EC->getValueAsDef("Predicate"); 3028b6c314bSAndrea Di Biagio if (Predicate2Index.find(Pred) == Predicate2Index.end()) 3038b6c314bSAndrea Di Biagio Predicate2Index[Pred] = NumUniquePredicates++; 3048b6c314bSAndrea Di Biagio 3058b6c314bSAndrea Di Biagio RecVec Opcodes = EC->getValueAsListOfDefs("Opcodes"); 3068b6c314bSAndrea Di Biagio for (const Record *Opcode : Opcodes) { 3078b6c314bSAndrea Di Biagio if (Opcode2Index.find(Opcode) == Opcode2Index.end()) { 3088b6c314bSAndrea Di Biagio Opcode2Index[Opcode] = OpcodeMappings.size(); 3098b6c314bSAndrea Di Biagio OpcodeMappings.emplace_back(Opcode, OpcodeInfo()); 3108b6c314bSAndrea Di Biagio } 3118b6c314bSAndrea Di Biagio } 3128b6c314bSAndrea Di Biagio } 3138b6c314bSAndrea Di Biagio } 3148b6c314bSAndrea Di Biagio 3158b6c314bSAndrea Di Biagio // Initialize vector `OpcodeMasks` with default values. We want to keep track 3168b6c314bSAndrea Di Biagio // of which processors "use" which opcodes. We also want to be able to 3178b6c314bSAndrea Di Biagio // identify predicates that are used by different processors for a same 3188b6c314bSAndrea Di Biagio // opcode. 3198b6c314bSAndrea Di Biagio // This information is used later on by this algorithm to sort OpcodeMapping 3208b6c314bSAndrea Di Biagio // elements based on their processor and predicate sets. 3218b6c314bSAndrea Di Biagio OpcodeMasks.resize(OpcodeMappings.size()); 3228b6c314bSAndrea Di Biagio APInt DefaultProcMask(ProcModelMap.size(), 0); 3238b6c314bSAndrea Di Biagio APInt DefaultPredMask(NumUniquePredicates, 0); 3248b6c314bSAndrea Di Biagio for (std::pair<APInt, APInt> &MaskPair : OpcodeMasks) 3258b6c314bSAndrea Di Biagio MaskPair = std::make_pair(DefaultProcMask, DefaultPredMask); 3268b6c314bSAndrea Di Biagio 3278b6c314bSAndrea Di Biagio // Construct a OpcodeInfo object for every unique opcode declared by an 3288b6c314bSAndrea Di Biagio // InstructionEquivalenceClass definition. 3298b6c314bSAndrea Di Biagio for (const Record *Def : Fn.getDefinitions()) { 3308b6c314bSAndrea Di Biagio RecVec Classes = Def->getValueAsListOfDefs("Classes"); 3318b6c314bSAndrea Di Biagio const Record *SchedModel = Def->getValueAsDef("SchedModel"); 3328b6c314bSAndrea Di Biagio unsigned ProcIndex = ProcModelMap.find(SchedModel)->second; 3338b6c314bSAndrea Di Biagio APInt ProcMask(ProcModelMap.size(), 0); 3348b6c314bSAndrea Di Biagio ProcMask.setBit(ProcIndex); 3358b6c314bSAndrea Di Biagio 3368b6c314bSAndrea Di Biagio for (const Record *EC : Classes) { 3378b6c314bSAndrea Di Biagio RecVec Opcodes = EC->getValueAsListOfDefs("Opcodes"); 3388b6c314bSAndrea Di Biagio 3398b6c314bSAndrea Di Biagio std::vector<int64_t> OpIndices = 3408b6c314bSAndrea Di Biagio EC->getValueAsListOfInts("OperandIndices"); 3418b6c314bSAndrea Di Biagio APInt OperandMask = constructOperandMask(OpIndices); 3428b6c314bSAndrea Di Biagio 3438b6c314bSAndrea Di Biagio const Record *Pred = EC->getValueAsDef("Predicate"); 3448b6c314bSAndrea Di Biagio APInt PredMask(NumUniquePredicates, 0); 3458b6c314bSAndrea Di Biagio PredMask.setBit(Predicate2Index[Pred]); 3468b6c314bSAndrea Di Biagio 3478b6c314bSAndrea Di Biagio for (const Record *Opcode : Opcodes) { 3488b6c314bSAndrea Di Biagio unsigned OpcodeIdx = Opcode2Index[Opcode]; 3498b6c314bSAndrea Di Biagio if (OpcodeMasks[OpcodeIdx].first[ProcIndex]) { 3508b6c314bSAndrea Di Biagio std::string Message = 3518b6c314bSAndrea Di Biagio "Opcode " + Opcode->getName().str() + 3528b6c314bSAndrea Di Biagio " used by multiple InstructionEquivalenceClass definitions."; 3538b6c314bSAndrea Di Biagio PrintFatalError(EC->getLoc(), Message); 3548b6c314bSAndrea Di Biagio } 3558b6c314bSAndrea Di Biagio OpcodeMasks[OpcodeIdx].first |= ProcMask; 3568b6c314bSAndrea Di Biagio OpcodeMasks[OpcodeIdx].second |= PredMask; 3578b6c314bSAndrea Di Biagio OpcodeInfo &OI = OpcodeMappings[OpcodeIdx].second; 3588b6c314bSAndrea Di Biagio 3598b6c314bSAndrea Di Biagio OI.addPredicateForProcModel(ProcMask, OperandMask, Pred); 3608b6c314bSAndrea Di Biagio } 3618b6c314bSAndrea Di Biagio } 3628b6c314bSAndrea Di Biagio } 3638b6c314bSAndrea Di Biagio 3648b6c314bSAndrea Di Biagio // Sort OpcodeMappings elements based on their CPU and predicate masks. 3658b6c314bSAndrea Di Biagio // As a last resort, order elements by opcode identifier. 3660cac726aSFangrui Song llvm::sort(OpcodeMappings, 3678b6c314bSAndrea Di Biagio [&](const OpcodeMapPair &Lhs, const OpcodeMapPair &Rhs) { 3688b6c314bSAndrea Di Biagio unsigned LhsIdx = Opcode2Index[Lhs.first]; 3698b6c314bSAndrea Di Biagio unsigned RhsIdx = Opcode2Index[Rhs.first]; 370f38b0053SAndrew Ng const std::pair<APInt, APInt> &LhsMasks = OpcodeMasks[LhsIdx]; 371f38b0053SAndrew Ng const std::pair<APInt, APInt> &RhsMasks = OpcodeMasks[RhsIdx]; 3728b6c314bSAndrea Di Biagio 373f38b0053SAndrew Ng auto LessThan = [](const APInt &Lhs, const APInt &Rhs) { 374f38b0053SAndrew Ng unsigned LhsCountPopulation = Lhs.countPopulation(); 375f38b0053SAndrew Ng unsigned RhsCountPopulation = Rhs.countPopulation(); 376f38b0053SAndrew Ng return ((LhsCountPopulation < RhsCountPopulation) || 377f38b0053SAndrew Ng ((LhsCountPopulation == RhsCountPopulation) && 378f38b0053SAndrew Ng (Lhs.countLeadingZeros() > Rhs.countLeadingZeros()))); 379f38b0053SAndrew Ng }; 3808b6c314bSAndrea Di Biagio 381f38b0053SAndrew Ng if (LhsMasks.first != RhsMasks.first) 382f38b0053SAndrew Ng return LessThan(LhsMasks.first, RhsMasks.first); 383f38b0053SAndrew Ng 384f38b0053SAndrew Ng if (LhsMasks.second != RhsMasks.second) 385f38b0053SAndrew Ng return LessThan(LhsMasks.second, RhsMasks.second); 3868b6c314bSAndrea Di Biagio 3878b6c314bSAndrea Di Biagio return LhsIdx < RhsIdx; 3888b6c314bSAndrea Di Biagio }); 3898b6c314bSAndrea Di Biagio 3908b6c314bSAndrea Di Biagio // Now construct opcode groups. Groups are used by the SubtargetEmitter when 3918b6c314bSAndrea Di Biagio // expanding the body of a STIPredicate function. In particular, each opcode 3928b6c314bSAndrea Di Biagio // group is expanded into a sequence of labels in a switch statement. 3938b6c314bSAndrea Di Biagio // It identifies opcodes for which different processors define same predicates 3948b6c314bSAndrea Di Biagio // and same opcode masks. 3958b6c314bSAndrea Di Biagio for (OpcodeMapPair &Info : OpcodeMappings) 3968b6c314bSAndrea Di Biagio Fn.addOpcode(Info.first, std::move(Info.second)); 3978b6c314bSAndrea Di Biagio } 3988b6c314bSAndrea Di Biagio 3998b6c314bSAndrea Di Biagio void CodeGenSchedModels::collectSTIPredicates() { 4008b6c314bSAndrea Di Biagio // Map STIPredicateDecl records to elements of vector 4018b6c314bSAndrea Di Biagio // CodeGenSchedModels::STIPredicates. 4028b6c314bSAndrea Di Biagio DenseMap<const Record *, unsigned> Decl2Index; 4038b6c314bSAndrea Di Biagio 4048b6c314bSAndrea Di Biagio RecVec RV = Records.getAllDerivedDefinitions("STIPredicate"); 4058b6c314bSAndrea Di Biagio for (const Record *R : RV) { 4068b6c314bSAndrea Di Biagio const Record *Decl = R->getValueAsDef("Declaration"); 4078b6c314bSAndrea Di Biagio 4088b6c314bSAndrea Di Biagio const auto It = Decl2Index.find(Decl); 4098b6c314bSAndrea Di Biagio if (It == Decl2Index.end()) { 4108b6c314bSAndrea Di Biagio Decl2Index[Decl] = STIPredicates.size(); 4118b6c314bSAndrea Di Biagio STIPredicateFunction Predicate(Decl); 4128b6c314bSAndrea Di Biagio Predicate.addDefinition(R); 4138b6c314bSAndrea Di Biagio STIPredicates.emplace_back(std::move(Predicate)); 4148b6c314bSAndrea Di Biagio continue; 4158b6c314bSAndrea Di Biagio } 4168b6c314bSAndrea Di Biagio 4178b6c314bSAndrea Di Biagio STIPredicateFunction &PreviousDef = STIPredicates[It->second]; 4188b6c314bSAndrea Di Biagio PreviousDef.addDefinition(R); 4198b6c314bSAndrea Di Biagio } 4208b6c314bSAndrea Di Biagio 4218b6c314bSAndrea Di Biagio for (STIPredicateFunction &Fn : STIPredicates) 4228b6c314bSAndrea Di Biagio processSTIPredicate(Fn, ProcModelMap); 4238b6c314bSAndrea Di Biagio } 4248b6c314bSAndrea Di Biagio 4258b6c314bSAndrea Di Biagio void OpcodeInfo::addPredicateForProcModel(const llvm::APInt &CpuMask, 4268b6c314bSAndrea Di Biagio const llvm::APInt &OperandMask, 4278b6c314bSAndrea Di Biagio const Record *Predicate) { 4288b6c314bSAndrea Di Biagio auto It = llvm::find_if( 4298b6c314bSAndrea Di Biagio Predicates, [&OperandMask, &Predicate](const PredicateInfo &P) { 4308b6c314bSAndrea Di Biagio return P.Predicate == Predicate && P.OperandMask == OperandMask; 4318b6c314bSAndrea Di Biagio }); 4328b6c314bSAndrea Di Biagio if (It == Predicates.end()) { 4338b6c314bSAndrea Di Biagio Predicates.emplace_back(CpuMask, OperandMask, Predicate); 4348b6c314bSAndrea Di Biagio return; 4358b6c314bSAndrea Di Biagio } 4368b6c314bSAndrea Di Biagio It->ProcModelMask |= CpuMask; 4378b6c314bSAndrea Di Biagio } 4388b6c314bSAndrea Di Biagio 4399eaf5aa0SAndrea Di Biagio void CodeGenSchedModels::checkMCInstPredicates() const { 4409eaf5aa0SAndrea Di Biagio RecVec MCPredicates = Records.getAllDerivedDefinitions("TIIPredicate"); 4419eaf5aa0SAndrea Di Biagio if (MCPredicates.empty()) 4429eaf5aa0SAndrea Di Biagio return; 4439eaf5aa0SAndrea Di Biagio 4449eaf5aa0SAndrea Di Biagio // A target cannot have multiple TIIPredicate definitions with a same name. 4459eaf5aa0SAndrea Di Biagio llvm::StringMap<const Record *> TIIPredicates(MCPredicates.size()); 4469eaf5aa0SAndrea Di Biagio for (const Record *TIIPred : MCPredicates) { 4479eaf5aa0SAndrea Di Biagio StringRef Name = TIIPred->getValueAsString("FunctionName"); 4489eaf5aa0SAndrea Di Biagio StringMap<const Record *>::const_iterator It = TIIPredicates.find(Name); 4499eaf5aa0SAndrea Di Biagio if (It == TIIPredicates.end()) { 4509eaf5aa0SAndrea Di Biagio TIIPredicates[Name] = TIIPred; 4519eaf5aa0SAndrea Di Biagio continue; 4529eaf5aa0SAndrea Di Biagio } 4539eaf5aa0SAndrea Di Biagio 4549eaf5aa0SAndrea Di Biagio PrintError(TIIPred->getLoc(), 4559eaf5aa0SAndrea Di Biagio "TIIPredicate " + Name + " is multiply defined."); 45688ce9f9bSJon Roelofs PrintFatalNote(It->second->getLoc(), 4579eaf5aa0SAndrea Di Biagio " Previous definition of " + Name + " was here."); 4589eaf5aa0SAndrea Di Biagio } 4599eaf5aa0SAndrea Di Biagio } 4609eaf5aa0SAndrea Di Biagio 461c74ad502SAndrea Di Biagio void CodeGenSchedModels::collectRetireControlUnits() { 462c74ad502SAndrea Di Biagio RecVec Units = Records.getAllDerivedDefinitions("RetireControlUnit"); 463c74ad502SAndrea Di Biagio 464c74ad502SAndrea Di Biagio for (Record *RCU : Units) { 465c74ad502SAndrea Di Biagio CodeGenProcModel &PM = getProcModel(RCU->getValueAsDef("SchedModel")); 466c74ad502SAndrea Di Biagio if (PM.RetireControlUnit) { 467c74ad502SAndrea Di Biagio PrintError(RCU->getLoc(), 468c74ad502SAndrea Di Biagio "Expected a single RetireControlUnit definition"); 469c74ad502SAndrea Di Biagio PrintNote(PM.RetireControlUnit->getLoc(), 470c74ad502SAndrea Di Biagio "Previous definition of RetireControlUnit was here"); 471c74ad502SAndrea Di Biagio } 472c74ad502SAndrea Di Biagio PM.RetireControlUnit = RCU; 473c74ad502SAndrea Di Biagio } 474c74ad502SAndrea Di Biagio } 475c74ad502SAndrea Di Biagio 476373a4ccfSAndrea Di Biagio void CodeGenSchedModels::collectLoadStoreQueueInfo() { 477373a4ccfSAndrea Di Biagio RecVec Queues = Records.getAllDerivedDefinitions("MemoryQueue"); 478373a4ccfSAndrea Di Biagio 479373a4ccfSAndrea Di Biagio for (Record *Queue : Queues) { 480373a4ccfSAndrea Di Biagio CodeGenProcModel &PM = getProcModel(Queue->getValueAsDef("SchedModel")); 481373a4ccfSAndrea Di Biagio if (Queue->isSubClassOf("LoadQueue")) { 482373a4ccfSAndrea Di Biagio if (PM.LoadQueue) { 483373a4ccfSAndrea Di Biagio PrintError(Queue->getLoc(), 484373a4ccfSAndrea Di Biagio "Expected a single LoadQueue definition"); 485373a4ccfSAndrea Di Biagio PrintNote(PM.LoadQueue->getLoc(), 486373a4ccfSAndrea Di Biagio "Previous definition of LoadQueue was here"); 487373a4ccfSAndrea Di Biagio } 488373a4ccfSAndrea Di Biagio 489373a4ccfSAndrea Di Biagio PM.LoadQueue = Queue; 490373a4ccfSAndrea Di Biagio } 491373a4ccfSAndrea Di Biagio 492373a4ccfSAndrea Di Biagio if (Queue->isSubClassOf("StoreQueue")) { 493373a4ccfSAndrea Di Biagio if (PM.StoreQueue) { 494373a4ccfSAndrea Di Biagio PrintError(Queue->getLoc(), 495373a4ccfSAndrea Di Biagio "Expected a single StoreQueue definition"); 496373a4ccfSAndrea Di Biagio PrintNote(PM.LoadQueue->getLoc(), 497373a4ccfSAndrea Di Biagio "Previous definition of StoreQueue was here"); 498373a4ccfSAndrea Di Biagio } 499373a4ccfSAndrea Di Biagio 500373a4ccfSAndrea Di Biagio PM.StoreQueue = Queue; 501373a4ccfSAndrea Di Biagio } 502373a4ccfSAndrea Di Biagio } 503373a4ccfSAndrea Di Biagio } 504373a4ccfSAndrea Di Biagio 505c74ad502SAndrea Di Biagio /// Collect optional processor information. 506c74ad502SAndrea Di Biagio void CodeGenSchedModels::collectOptionalProcessorInfo() { 5079da4d6dbSAndrea Di Biagio // Find register file definitions for each processor. 5089da4d6dbSAndrea Di Biagio collectRegisterFiles(); 5099da4d6dbSAndrea Di Biagio 510c74ad502SAndrea Di Biagio // Collect processor RetireControlUnit descriptors if available. 511c74ad502SAndrea Di Biagio collectRetireControlUnits(); 512b449379eSClement Courbet 513373a4ccfSAndrea Di Biagio // Collect information about load/store queues. 514373a4ccfSAndrea Di Biagio collectLoadStoreQueueInfo(); 515373a4ccfSAndrea Di Biagio 516b449379eSClement Courbet checkCompleteness(); 51787255e34SAndrew Trick } 51887255e34SAndrew Trick 51976686496SAndrew Trick /// Gather all processor models. 52076686496SAndrew Trick void CodeGenSchedModels::collectProcModels() { 52176686496SAndrew Trick RecVec ProcRecords = Records.getAllDerivedDefinitions("Processor"); 5220cac726aSFangrui Song llvm::sort(ProcRecords, LessRecordFieldName()); 52387255e34SAndrew Trick 52476686496SAndrew Trick // Reserve space because we can. Reallocation would be ok. 52576686496SAndrew Trick ProcModels.reserve(ProcRecords.size()+1); 52676686496SAndrew Trick 52776686496SAndrew Trick // Use idx=0 for NoModel/NoItineraries. 52876686496SAndrew Trick Record *NoModelDef = Records.getDef("NoSchedModel"); 52976686496SAndrew Trick Record *NoItinsDef = Records.getDef("NoItineraries"); 530f5e2fc47SBenjamin Kramer ProcModels.emplace_back(0, "NoSchedModel", NoModelDef, NoItinsDef); 53176686496SAndrew Trick ProcModelMap[NoModelDef] = 0; 53276686496SAndrew Trick 53376686496SAndrew Trick // For each processor, find a unique machine model. 534d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "+++ PROCESSOR MODELs (addProcModel) +++\n"); 53567b042c2SJaved Absar for (Record *ProcRecord : ProcRecords) 53667b042c2SJaved Absar addProcModel(ProcRecord); 53776686496SAndrew Trick } 53876686496SAndrew Trick 53976686496SAndrew Trick /// Get a unique processor model based on the defined MachineModel and 54076686496SAndrew Trick /// ProcessorItineraries. 54176686496SAndrew Trick void CodeGenSchedModels::addProcModel(Record *ProcDef) { 54276686496SAndrew Trick Record *ModelKey = getModelOrItinDef(ProcDef); 54376686496SAndrew Trick if (!ProcModelMap.insert(std::make_pair(ModelKey, ProcModels.size())).second) 54476686496SAndrew Trick return; 54576686496SAndrew Trick 546adcd0268SBenjamin Kramer std::string Name = std::string(ModelKey->getName()); 54776686496SAndrew Trick if (ModelKey->isSubClassOf("SchedMachineModel")) { 54876686496SAndrew Trick Record *ItinsDef = ModelKey->getValueAsDef("Itineraries"); 549f5e2fc47SBenjamin Kramer ProcModels.emplace_back(ProcModels.size(), Name, ModelKey, ItinsDef); 55076686496SAndrew Trick } 55176686496SAndrew Trick else { 55276686496SAndrew Trick // An itinerary is defined without a machine model. Infer a new model. 55376686496SAndrew Trick if (!ModelKey->getValueAsListOfDefs("IID").empty()) 55476686496SAndrew Trick Name = Name + "Model"; 555f5e2fc47SBenjamin Kramer ProcModels.emplace_back(ProcModels.size(), Name, 556f5e2fc47SBenjamin Kramer ProcDef->getValueAsDef("SchedModel"), ModelKey); 55776686496SAndrew Trick } 558d34e60caSNicola Zaghen LLVM_DEBUG(ProcModels.back().dump()); 55976686496SAndrew Trick } 56076686496SAndrew Trick 56176686496SAndrew Trick // Recursively find all reachable SchedReadWrite records. 56276686496SAndrew Trick static void scanSchedRW(Record *RWDef, RecVec &RWDefs, 56376686496SAndrew Trick SmallPtrSet<Record*, 16> &RWSet) { 56470573dcdSDavid Blaikie if (!RWSet.insert(RWDef).second) 56576686496SAndrew Trick return; 56676686496SAndrew Trick RWDefs.push_back(RWDef); 56767b042c2SJaved Absar // Reads don't currently have sequence records, but it can be added later. 56876686496SAndrew Trick if (RWDef->isSubClassOf("WriteSequence")) { 56976686496SAndrew Trick RecVec Seq = RWDef->getValueAsListOfDefs("Writes"); 57067b042c2SJaved Absar for (Record *WSRec : Seq) 57167b042c2SJaved Absar scanSchedRW(WSRec, RWDefs, RWSet); 57276686496SAndrew Trick } 57376686496SAndrew Trick else if (RWDef->isSubClassOf("SchedVariant")) { 57476686496SAndrew Trick // Visit each variant (guarded by a different predicate). 57576686496SAndrew Trick RecVec Vars = RWDef->getValueAsListOfDefs("Variants"); 57667b042c2SJaved Absar for (Record *Variant : Vars) { 57776686496SAndrew Trick // Visit each RW in the sequence selected by the current variant. 57867b042c2SJaved Absar RecVec Selected = Variant->getValueAsListOfDefs("Selected"); 57967b042c2SJaved Absar for (Record *SelDef : Selected) 58067b042c2SJaved Absar scanSchedRW(SelDef, RWDefs, RWSet); 58176686496SAndrew Trick } 58276686496SAndrew Trick } 58376686496SAndrew Trick } 58476686496SAndrew Trick 58576686496SAndrew Trick // Collect and sort all SchedReadWrites reachable via tablegen records. 58676686496SAndrew Trick // More may be inferred later when inferring new SchedClasses from variants. 58776686496SAndrew Trick void CodeGenSchedModels::collectSchedRW() { 58876686496SAndrew Trick // Reserve idx=0 for invalid writes/reads. 58976686496SAndrew Trick SchedWrites.resize(1); 59076686496SAndrew Trick SchedReads.resize(1); 59176686496SAndrew Trick 59276686496SAndrew Trick SmallPtrSet<Record*, 16> RWSet; 59376686496SAndrew Trick 59476686496SAndrew Trick // Find all SchedReadWrites referenced by instruction defs. 59576686496SAndrew Trick RecVec SWDefs, SRDefs; 5968cc904d6SCraig Topper for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) { 5978a417c1fSCraig Topper Record *SchedDef = Inst->TheDef; 598a4a361dfSJakob Stoklund Olesen if (SchedDef->isValueUnset("SchedRW")) 59976686496SAndrew Trick continue; 60076686496SAndrew Trick RecVec RWs = SchedDef->getValueAsListOfDefs("SchedRW"); 60167b042c2SJaved Absar for (Record *RW : RWs) { 60267b042c2SJaved Absar if (RW->isSubClassOf("SchedWrite")) 60367b042c2SJaved Absar scanSchedRW(RW, SWDefs, RWSet); 60476686496SAndrew Trick else { 60567b042c2SJaved Absar assert(RW->isSubClassOf("SchedRead") && "Unknown SchedReadWrite"); 60667b042c2SJaved Absar scanSchedRW(RW, SRDefs, RWSet); 60776686496SAndrew Trick } 60876686496SAndrew Trick } 60976686496SAndrew Trick } 61076686496SAndrew Trick // Find all ReadWrites referenced by InstRW. 61176686496SAndrew Trick RecVec InstRWDefs = Records.getAllDerivedDefinitions("InstRW"); 61267b042c2SJaved Absar for (Record *InstRWDef : InstRWDefs) { 61376686496SAndrew Trick // For all OperandReadWrites. 61467b042c2SJaved Absar RecVec RWDefs = InstRWDef->getValueAsListOfDefs("OperandReadWrites"); 61567b042c2SJaved Absar for (Record *RWDef : RWDefs) { 61667b042c2SJaved Absar if (RWDef->isSubClassOf("SchedWrite")) 61767b042c2SJaved Absar scanSchedRW(RWDef, SWDefs, RWSet); 61876686496SAndrew Trick else { 61967b042c2SJaved Absar assert(RWDef->isSubClassOf("SchedRead") && "Unknown SchedReadWrite"); 62067b042c2SJaved Absar scanSchedRW(RWDef, SRDefs, RWSet); 62176686496SAndrew Trick } 62276686496SAndrew Trick } 62376686496SAndrew Trick } 62476686496SAndrew Trick // Find all ReadWrites referenced by ItinRW. 62576686496SAndrew Trick RecVec ItinRWDefs = Records.getAllDerivedDefinitions("ItinRW"); 62667b042c2SJaved Absar for (Record *ItinRWDef : ItinRWDefs) { 62776686496SAndrew Trick // For all OperandReadWrites. 62867b042c2SJaved Absar RecVec RWDefs = ItinRWDef->getValueAsListOfDefs("OperandReadWrites"); 62967b042c2SJaved Absar for (Record *RWDef : RWDefs) { 63067b042c2SJaved Absar if (RWDef->isSubClassOf("SchedWrite")) 63167b042c2SJaved Absar scanSchedRW(RWDef, SWDefs, RWSet); 63276686496SAndrew Trick else { 63367b042c2SJaved Absar assert(RWDef->isSubClassOf("SchedRead") && "Unknown SchedReadWrite"); 63467b042c2SJaved Absar scanSchedRW(RWDef, SRDefs, RWSet); 63576686496SAndrew Trick } 63676686496SAndrew Trick } 63776686496SAndrew Trick } 6389257b8f8SAndrew Trick // Find all ReadWrites referenced by SchedAlias. AliasDefs needs to be sorted 6399257b8f8SAndrew Trick // for the loop below that initializes Alias vectors. 6409257b8f8SAndrew Trick RecVec AliasDefs = Records.getAllDerivedDefinitions("SchedAlias"); 6410cac726aSFangrui Song llvm::sort(AliasDefs, LessRecord()); 64267b042c2SJaved Absar for (Record *ADef : AliasDefs) { 64367b042c2SJaved Absar Record *MatchDef = ADef->getValueAsDef("MatchRW"); 64467b042c2SJaved Absar Record *AliasDef = ADef->getValueAsDef("AliasRW"); 6459257b8f8SAndrew Trick if (MatchDef->isSubClassOf("SchedWrite")) { 6469257b8f8SAndrew Trick if (!AliasDef->isSubClassOf("SchedWrite")) 64767b042c2SJaved Absar PrintFatalError(ADef->getLoc(), "SchedWrite Alias must be SchedWrite"); 6489257b8f8SAndrew Trick scanSchedRW(AliasDef, SWDefs, RWSet); 6499257b8f8SAndrew Trick } 6509257b8f8SAndrew Trick else { 6519257b8f8SAndrew Trick assert(MatchDef->isSubClassOf("SchedRead") && "Unknown SchedReadWrite"); 6529257b8f8SAndrew Trick if (!AliasDef->isSubClassOf("SchedRead")) 65367b042c2SJaved Absar PrintFatalError(ADef->getLoc(), "SchedRead Alias must be SchedRead"); 6549257b8f8SAndrew Trick scanSchedRW(AliasDef, SRDefs, RWSet); 6559257b8f8SAndrew Trick } 6569257b8f8SAndrew Trick } 65776686496SAndrew Trick // Sort and add the SchedReadWrites directly referenced by instructions or 65876686496SAndrew Trick // itinerary resources. Index reads and writes in separate domains. 6590cac726aSFangrui Song llvm::sort(SWDefs, LessRecord()); 66067b042c2SJaved Absar for (Record *SWDef : SWDefs) { 66167b042c2SJaved Absar assert(!getSchedRWIdx(SWDef, /*IsRead=*/false) && "duplicate SchedWrite"); 66267b042c2SJaved Absar SchedWrites.emplace_back(SchedWrites.size(), SWDef); 66376686496SAndrew Trick } 6640cac726aSFangrui Song llvm::sort(SRDefs, LessRecord()); 66567b042c2SJaved Absar for (Record *SRDef : SRDefs) { 66667b042c2SJaved Absar assert(!getSchedRWIdx(SRDef, /*IsRead-*/true) && "duplicate SchedWrite"); 66767b042c2SJaved Absar SchedReads.emplace_back(SchedReads.size(), SRDef); 66876686496SAndrew Trick } 66976686496SAndrew Trick // Initialize WriteSequence vectors. 67067b042c2SJaved Absar for (CodeGenSchedRW &CGRW : SchedWrites) { 67167b042c2SJaved Absar if (!CGRW.IsSequence) 67276686496SAndrew Trick continue; 67367b042c2SJaved Absar findRWs(CGRW.TheDef->getValueAsListOfDefs("Writes"), CGRW.Sequence, 67476686496SAndrew Trick /*IsRead=*/false); 67576686496SAndrew Trick } 6769257b8f8SAndrew Trick // Initialize Aliases vectors. 67767b042c2SJaved Absar for (Record *ADef : AliasDefs) { 67867b042c2SJaved Absar Record *AliasDef = ADef->getValueAsDef("AliasRW"); 6799257b8f8SAndrew Trick getSchedRW(AliasDef).IsAlias = true; 68067b042c2SJaved Absar Record *MatchDef = ADef->getValueAsDef("MatchRW"); 6819257b8f8SAndrew Trick CodeGenSchedRW &RW = getSchedRW(MatchDef); 6829257b8f8SAndrew Trick if (RW.IsAlias) 68367b042c2SJaved Absar PrintFatalError(ADef->getLoc(), "Cannot Alias an Alias"); 68467b042c2SJaved Absar RW.Aliases.push_back(ADef); 6859257b8f8SAndrew Trick } 686d34e60caSNicola Zaghen LLVM_DEBUG( 6878037233bSJoel Jones dbgs() << "\n+++ SCHED READS and WRITES (collectSchedRW) +++\n"; 68876686496SAndrew Trick for (unsigned WIdx = 0, WEnd = SchedWrites.size(); WIdx != WEnd; ++WIdx) { 68976686496SAndrew Trick dbgs() << WIdx << ": "; 69076686496SAndrew Trick SchedWrites[WIdx].dump(); 69176686496SAndrew Trick dbgs() << '\n'; 692d34e60caSNicola Zaghen } for (unsigned RIdx = 0, REnd = SchedReads.size(); RIdx != REnd; 693d34e60caSNicola Zaghen ++RIdx) { 69476686496SAndrew Trick dbgs() << RIdx << ": "; 69576686496SAndrew Trick SchedReads[RIdx].dump(); 69676686496SAndrew Trick dbgs() << '\n'; 697d34e60caSNicola Zaghen } RecVec RWDefs = Records.getAllDerivedDefinitions("SchedReadWrite"); 698d34e60caSNicola Zaghen for (Record *RWDef 699d34e60caSNicola Zaghen : RWDefs) { 70067b042c2SJaved Absar if (!getSchedRWIdx(RWDef, RWDef->isSubClassOf("SchedRead"))) { 701494d0751SSimon Pilgrim StringRef Name = RWDef->getName(); 70276686496SAndrew Trick if (Name != "NoWrite" && Name != "ReadDefault") 703494d0751SSimon Pilgrim dbgs() << "Unused SchedReadWrite " << Name << '\n'; 70476686496SAndrew Trick } 70576686496SAndrew Trick }); 70676686496SAndrew Trick } 70776686496SAndrew Trick 70876686496SAndrew Trick /// Compute a SchedWrite name from a sequence of writes. 709e1761952SBenjamin Kramer std::string CodeGenSchedModels::genRWName(ArrayRef<unsigned> Seq, bool IsRead) { 71076686496SAndrew Trick std::string Name("("); 711e1761952SBenjamin Kramer for (auto I = Seq.begin(), E = Seq.end(); I != E; ++I) { 71276686496SAndrew Trick if (I != Seq.begin()) 71376686496SAndrew Trick Name += '_'; 71476686496SAndrew Trick Name += getSchedRW(*I, IsRead).Name; 71576686496SAndrew Trick } 71676686496SAndrew Trick Name += ')'; 71776686496SAndrew Trick return Name; 71876686496SAndrew Trick } 71976686496SAndrew Trick 72038fe227fSAndrea Di Biagio unsigned CodeGenSchedModels::getSchedRWIdx(const Record *Def, 72138fe227fSAndrea Di Biagio bool IsRead) const { 72276686496SAndrew Trick const std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites; 72338fe227fSAndrea Di Biagio const auto I = find_if( 72438fe227fSAndrea Di Biagio RWVec, [Def](const CodeGenSchedRW &RW) { return RW.TheDef == Def; }); 72538fe227fSAndrea Di Biagio return I == RWVec.end() ? 0 : std::distance(RWVec.begin(), I); 72676686496SAndrew Trick } 72776686496SAndrew Trick 728cfe222c2SAndrew Trick bool CodeGenSchedModels::hasReadOfWrite(Record *WriteDef) const { 72967b042c2SJaved Absar for (const CodeGenSchedRW &Read : SchedReads) { 73067b042c2SJaved Absar Record *ReadDef = Read.TheDef; 731cfe222c2SAndrew Trick if (!ReadDef || !ReadDef->isSubClassOf("ProcReadAdvance")) 732cfe222c2SAndrew Trick continue; 733cfe222c2SAndrew Trick 734cfe222c2SAndrew Trick RecVec ValidWrites = ReadDef->getValueAsListOfDefs("ValidWrites"); 7350d955d0bSDavid Majnemer if (is_contained(ValidWrites, WriteDef)) { 736cfe222c2SAndrew Trick return true; 737cfe222c2SAndrew Trick } 738cfe222c2SAndrew Trick } 739cfe222c2SAndrew Trick return false; 740cfe222c2SAndrew Trick } 741cfe222c2SAndrew Trick 7426f2cc9b1SCraig Topper static void splitSchedReadWrites(const RecVec &RWDefs, 74376686496SAndrew Trick RecVec &WriteDefs, RecVec &ReadDefs) { 74467b042c2SJaved Absar for (Record *RWDef : RWDefs) { 74567b042c2SJaved Absar if (RWDef->isSubClassOf("SchedWrite")) 74667b042c2SJaved Absar WriteDefs.push_back(RWDef); 74776686496SAndrew Trick else { 74867b042c2SJaved Absar assert(RWDef->isSubClassOf("SchedRead") && "unknown SchedReadWrite"); 74967b042c2SJaved Absar ReadDefs.push_back(RWDef); 75076686496SAndrew Trick } 75176686496SAndrew Trick } 75276686496SAndrew Trick } 753a3fe70d2SEugene Zelenko 75476686496SAndrew Trick // Split the SchedReadWrites defs and call findRWs for each list. 75576686496SAndrew Trick void CodeGenSchedModels::findRWs(const RecVec &RWDefs, 75676686496SAndrew Trick IdxVec &Writes, IdxVec &Reads) const { 75776686496SAndrew Trick RecVec WriteDefs; 75876686496SAndrew Trick RecVec ReadDefs; 75976686496SAndrew Trick splitSchedReadWrites(RWDefs, WriteDefs, ReadDefs); 76076686496SAndrew Trick findRWs(WriteDefs, Writes, false); 76176686496SAndrew Trick findRWs(ReadDefs, Reads, true); 76276686496SAndrew Trick } 76376686496SAndrew Trick 76476686496SAndrew Trick // Call getSchedRWIdx for all elements in a sequence of SchedRW defs. 76576686496SAndrew Trick void CodeGenSchedModels::findRWs(const RecVec &RWDefs, IdxVec &RWs, 76676686496SAndrew Trick bool IsRead) const { 76767b042c2SJaved Absar for (Record *RWDef : RWDefs) { 76867b042c2SJaved Absar unsigned Idx = getSchedRWIdx(RWDef, IsRead); 76976686496SAndrew Trick assert(Idx && "failed to collect SchedReadWrite"); 77076686496SAndrew Trick RWs.push_back(Idx); 77176686496SAndrew Trick } 77276686496SAndrew Trick } 77376686496SAndrew Trick 77433401e84SAndrew Trick void CodeGenSchedModels::expandRWSequence(unsigned RWIdx, IdxVec &RWSeq, 77533401e84SAndrew Trick bool IsRead) const { 77633401e84SAndrew Trick const CodeGenSchedRW &SchedRW = getSchedRW(RWIdx, IsRead); 77733401e84SAndrew Trick if (!SchedRW.IsSequence) { 77833401e84SAndrew Trick RWSeq.push_back(RWIdx); 77933401e84SAndrew Trick return; 78033401e84SAndrew Trick } 78133401e84SAndrew Trick int Repeat = 78233401e84SAndrew Trick SchedRW.TheDef ? SchedRW.TheDef->getValueAsInt("Repeat") : 1; 78333401e84SAndrew Trick for (int i = 0; i < Repeat; ++i) { 78467b042c2SJaved Absar for (unsigned I : SchedRW.Sequence) { 78567b042c2SJaved Absar expandRWSequence(I, RWSeq, IsRead); 78633401e84SAndrew Trick } 78733401e84SAndrew Trick } 78833401e84SAndrew Trick } 78933401e84SAndrew Trick 790da984b1aSAndrew Trick // Expand a SchedWrite as a sequence following any aliases that coincide with 791da984b1aSAndrew Trick // the given processor model. 792da984b1aSAndrew Trick void CodeGenSchedModels::expandRWSeqForProc( 793da984b1aSAndrew Trick unsigned RWIdx, IdxVec &RWSeq, bool IsRead, 794da984b1aSAndrew Trick const CodeGenProcModel &ProcModel) const { 795da984b1aSAndrew Trick 796da984b1aSAndrew Trick const CodeGenSchedRW &SchedWrite = getSchedRW(RWIdx, IsRead); 79724064771SCraig Topper Record *AliasDef = nullptr; 79838fe227fSAndrea Di Biagio for (const Record *Rec : SchedWrite.Aliases) { 79938fe227fSAndrea Di Biagio const CodeGenSchedRW &AliasRW = getSchedRW(Rec->getValueAsDef("AliasRW")); 80038fe227fSAndrea Di Biagio if (Rec->getValueInit("SchedModel")->isComplete()) { 80138fe227fSAndrea Di Biagio Record *ModelDef = Rec->getValueAsDef("SchedModel"); 802da984b1aSAndrew Trick if (&getProcModel(ModelDef) != &ProcModel) 803da984b1aSAndrew Trick continue; 804da984b1aSAndrew Trick } 805da984b1aSAndrew Trick if (AliasDef) 806635debe8SJoerg Sonnenberger PrintFatalError(AliasRW.TheDef->getLoc(), "Multiple aliases " 807da984b1aSAndrew Trick "defined for processor " + ProcModel.ModelName + 808da984b1aSAndrew Trick " Ensure only one SchedAlias exists per RW."); 809da984b1aSAndrew Trick AliasDef = AliasRW.TheDef; 810da984b1aSAndrew Trick } 811da984b1aSAndrew Trick if (AliasDef) { 812da984b1aSAndrew Trick expandRWSeqForProc(getSchedRWIdx(AliasDef, IsRead), 813da984b1aSAndrew Trick RWSeq, IsRead,ProcModel); 814da984b1aSAndrew Trick return; 815da984b1aSAndrew Trick } 816da984b1aSAndrew Trick if (!SchedWrite.IsSequence) { 817da984b1aSAndrew Trick RWSeq.push_back(RWIdx); 818da984b1aSAndrew Trick return; 819da984b1aSAndrew Trick } 820da984b1aSAndrew Trick int Repeat = 821da984b1aSAndrew Trick SchedWrite.TheDef ? SchedWrite.TheDef->getValueAsInt("Repeat") : 1; 82238fe227fSAndrea Di Biagio for (int I = 0, E = Repeat; I < E; ++I) { 82338fe227fSAndrea Di Biagio for (unsigned Idx : SchedWrite.Sequence) { 82438fe227fSAndrea Di Biagio expandRWSeqForProc(Idx, RWSeq, IsRead, ProcModel); 825da984b1aSAndrew Trick } 826da984b1aSAndrew Trick } 827da984b1aSAndrew Trick } 828da984b1aSAndrew Trick 82933401e84SAndrew Trick // Find the existing SchedWrite that models this sequence of writes. 830e1761952SBenjamin Kramer unsigned CodeGenSchedModels::findRWForSequence(ArrayRef<unsigned> Seq, 83133401e84SAndrew Trick bool IsRead) { 83233401e84SAndrew Trick std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites; 83333401e84SAndrew Trick 83438fe227fSAndrea Di Biagio auto I = find_if(RWVec, [Seq](CodeGenSchedRW &RW) { 83538fe227fSAndrea Di Biagio return makeArrayRef(RW.Sequence) == Seq; 83638fe227fSAndrea Di Biagio }); 83733401e84SAndrew Trick // Index zero reserved for invalid RW. 83838fe227fSAndrea Di Biagio return I == RWVec.end() ? 0 : std::distance(RWVec.begin(), I); 83933401e84SAndrew Trick } 84033401e84SAndrew Trick 84133401e84SAndrew Trick /// Add this ReadWrite if it doesn't already exist. 84233401e84SAndrew Trick unsigned CodeGenSchedModels::findOrInsertRW(ArrayRef<unsigned> Seq, 84333401e84SAndrew Trick bool IsRead) { 84433401e84SAndrew Trick assert(!Seq.empty() && "cannot insert empty sequence"); 84533401e84SAndrew Trick if (Seq.size() == 1) 84633401e84SAndrew Trick return Seq.back(); 84733401e84SAndrew Trick 84833401e84SAndrew Trick unsigned Idx = findRWForSequence(Seq, IsRead); 84933401e84SAndrew Trick if (Idx) 85033401e84SAndrew Trick return Idx; 85133401e84SAndrew Trick 85238fe227fSAndrea Di Biagio std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites; 85338fe227fSAndrea Di Biagio unsigned RWIdx = RWVec.size(); 854da984b1aSAndrew Trick CodeGenSchedRW SchedRW(RWIdx, IsRead, Seq, genRWName(Seq, IsRead)); 85538fe227fSAndrea Di Biagio RWVec.push_back(SchedRW); 856da984b1aSAndrew Trick return RWIdx; 85733401e84SAndrew Trick } 85833401e84SAndrew Trick 85976686496SAndrew Trick /// Visit all the instruction definitions for this target to gather and 86076686496SAndrew Trick /// enumerate the itinerary classes. These are the explicitly specified 86176686496SAndrew Trick /// SchedClasses. More SchedClasses may be inferred. 86276686496SAndrew Trick void CodeGenSchedModels::collectSchedClasses() { 86376686496SAndrew Trick 86476686496SAndrew Trick // NoItinerary is always the first class at Idx=0 865281a19cfSCraig Topper assert(SchedClasses.empty() && "Expected empty sched class"); 866281a19cfSCraig Topper SchedClasses.emplace_back(0, "NoInstrModel", 867281a19cfSCraig Topper Records.getDef("NoItinerary")); 86876686496SAndrew Trick SchedClasses.back().ProcIndices.push_back(0); 86987255e34SAndrew Trick 870bf8a28dcSAndrew Trick // Create a SchedClass for each unique combination of itinerary class and 871bf8a28dcSAndrew Trick // SchedRW list. 8728cc904d6SCraig Topper for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) { 8738a417c1fSCraig Topper Record *ItinDef = Inst->TheDef->getValueAsDef("Itinerary"); 87476686496SAndrew Trick IdxVec Writes, Reads; 8758a417c1fSCraig Topper if (!Inst->TheDef->isValueUnset("SchedRW")) 8768a417c1fSCraig Topper findRWs(Inst->TheDef->getValueAsListOfDefs("SchedRW"), Writes, Reads); 877bf8a28dcSAndrew Trick 87876686496SAndrew Trick // ProcIdx == 0 indicates the class applies to all processors. 879281a19cfSCraig Topper unsigned SCIdx = addSchedClass(ItinDef, Writes, Reads, /*ProcIndices*/{0}); 8808a417c1fSCraig Topper InstrClassMap[Inst->TheDef] = SCIdx; 88187255e34SAndrew Trick } 8829257b8f8SAndrew Trick // Create classes for InstRW defs. 88376686496SAndrew Trick RecVec InstRWDefs = Records.getAllDerivedDefinitions("InstRW"); 8840cac726aSFangrui Song llvm::sort(InstRWDefs, LessRecord()); 885d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\n+++ SCHED CLASSES (createInstRWClass) +++\n"); 88667b042c2SJaved Absar for (Record *RWDef : InstRWDefs) 88767b042c2SJaved Absar createInstRWClass(RWDef); 88887255e34SAndrew Trick 88976686496SAndrew Trick NumInstrSchedClasses = SchedClasses.size(); 89087255e34SAndrew Trick 89176686496SAndrew Trick bool EnableDump = false; 892d34e60caSNicola Zaghen LLVM_DEBUG(EnableDump = true); 89376686496SAndrew Trick if (!EnableDump) 89487255e34SAndrew Trick return; 895bf8a28dcSAndrew Trick 896d34e60caSNicola Zaghen LLVM_DEBUG( 89738fe227fSAndrea Di Biagio dbgs() 89838fe227fSAndrea Di Biagio << "\n+++ ITINERARIES and/or MACHINE MODELS (collectSchedClasses) +++\n"); 8998cc904d6SCraig Topper for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) { 900bcd3c37fSCraig Topper StringRef InstName = Inst->TheDef->getName(); 901949437e8SSimon Pilgrim unsigned SCIdx = getSchedClassIdx(*Inst); 902bf8a28dcSAndrew Trick if (!SCIdx) { 903d34e60caSNicola Zaghen LLVM_DEBUG({ 9048e0a734fSMatthias Braun if (!Inst->hasNoSchedulingInfo) 9058a417c1fSCraig Topper dbgs() << "No machine model for " << Inst->TheDef->getName() << '\n'; 90638fe227fSAndrea Di Biagio }); 907bf8a28dcSAndrew Trick continue; 908bf8a28dcSAndrew Trick } 909bf8a28dcSAndrew Trick CodeGenSchedClass &SC = getSchedClass(SCIdx); 910bf8a28dcSAndrew Trick if (SC.ProcIndices[0] != 0) 9118a417c1fSCraig Topper PrintFatalError(Inst->TheDef->getLoc(), "Instruction's sched class " 912bf8a28dcSAndrew Trick "must not be subtarget specific."); 913bf8a28dcSAndrew Trick 914bf8a28dcSAndrew Trick IdxVec ProcIndices; 915bf8a28dcSAndrew Trick if (SC.ItinClassDef->getName() != "NoItinerary") { 916bf8a28dcSAndrew Trick ProcIndices.push_back(0); 917bf8a28dcSAndrew Trick dbgs() << "Itinerary for " << InstName << ": " 918bf8a28dcSAndrew Trick << SC.ItinClassDef->getName() << '\n'; 919bf8a28dcSAndrew Trick } 920bf8a28dcSAndrew Trick if (!SC.Writes.empty()) { 921bf8a28dcSAndrew Trick ProcIndices.push_back(0); 922d34e60caSNicola Zaghen LLVM_DEBUG({ 92376686496SAndrew Trick dbgs() << "SchedRW machine model for " << InstName; 92438fe227fSAndrea Di Biagio for (IdxIter WI = SC.Writes.begin(), WE = SC.Writes.end(); WI != WE; 92538fe227fSAndrea Di Biagio ++WI) 92676686496SAndrew Trick dbgs() << " " << SchedWrites[*WI].Name; 927bf8a28dcSAndrew Trick for (IdxIter RI = SC.Reads.begin(), RE = SC.Reads.end(); RI != RE; ++RI) 92876686496SAndrew Trick dbgs() << " " << SchedReads[*RI].Name; 92976686496SAndrew Trick dbgs() << '\n'; 93038fe227fSAndrea Di Biagio }); 93176686496SAndrew Trick } 93276686496SAndrew Trick const RecVec &RWDefs = SchedClasses[SCIdx].InstRWs; 93367b042c2SJaved Absar for (Record *RWDef : RWDefs) { 93476686496SAndrew Trick const CodeGenProcModel &ProcModel = 93567b042c2SJaved Absar getProcModel(RWDef->getValueAsDef("SchedModel")); 936bf8a28dcSAndrew Trick ProcIndices.push_back(ProcModel.Index); 937d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "InstRW on " << ProcModel.ModelName << " for " 938d34e60caSNicola Zaghen << InstName); 93976686496SAndrew Trick IdxVec Writes; 94076686496SAndrew Trick IdxVec Reads; 94167b042c2SJaved Absar findRWs(RWDef->getValueAsListOfDefs("OperandReadWrites"), 94276686496SAndrew Trick Writes, Reads); 943d34e60caSNicola Zaghen LLVM_DEBUG({ 94467b042c2SJaved Absar for (unsigned WIdx : Writes) 94567b042c2SJaved Absar dbgs() << " " << SchedWrites[WIdx].Name; 94667b042c2SJaved Absar for (unsigned RIdx : Reads) 94767b042c2SJaved Absar dbgs() << " " << SchedReads[RIdx].Name; 94876686496SAndrew Trick dbgs() << '\n'; 94938fe227fSAndrea Di Biagio }); 95076686496SAndrew Trick } 951f9df92c9SAndrew Trick // If ProcIndices contains zero, the class applies to all processors. 952d34e60caSNicola Zaghen LLVM_DEBUG({ 953e4a23a41SKazu Hirata if (!llvm::is_contained(ProcIndices, 0)) { 95421c75912SJaved Absar for (const CodeGenProcModel &PM : ProcModels) { 955e4a23a41SKazu Hirata if (!llvm::is_contained(ProcIndices, PM.Index)) 9568a417c1fSCraig Topper dbgs() << "No machine model for " << Inst->TheDef->getName() 957fc500041SJaved Absar << " on processor " << PM.ModelName << '\n'; 95887255e34SAndrew Trick } 95987255e34SAndrew Trick } 96038fe227fSAndrea Di Biagio }); 96176686496SAndrew Trick } 962f9df92c9SAndrew Trick } 96376686496SAndrew Trick 96476686496SAndrew Trick // Get the SchedClass index for an instruction. 96538fe227fSAndrea Di Biagio unsigned 96638fe227fSAndrea Di Biagio CodeGenSchedModels::getSchedClassIdx(const CodeGenInstruction &Inst) const { 967bf8a28dcSAndrew Trick return InstrClassMap.lookup(Inst.TheDef); 96876686496SAndrew Trick } 96976686496SAndrew Trick 970e1761952SBenjamin Kramer std::string 971e1761952SBenjamin Kramer CodeGenSchedModels::createSchedClassName(Record *ItinClassDef, 972e1761952SBenjamin Kramer ArrayRef<unsigned> OperWrites, 973e1761952SBenjamin Kramer ArrayRef<unsigned> OperReads) { 97476686496SAndrew Trick 97576686496SAndrew Trick std::string Name; 976bf8a28dcSAndrew Trick if (ItinClassDef && ItinClassDef->getName() != "NoItinerary") 977adcd0268SBenjamin Kramer Name = std::string(ItinClassDef->getName()); 978e1761952SBenjamin Kramer for (unsigned Idx : OperWrites) { 979bf8a28dcSAndrew Trick if (!Name.empty()) 98076686496SAndrew Trick Name += '_'; 981e1761952SBenjamin Kramer Name += SchedWrites[Idx].Name; 98276686496SAndrew Trick } 983e1761952SBenjamin Kramer for (unsigned Idx : OperReads) { 98476686496SAndrew Trick Name += '_'; 985e1761952SBenjamin Kramer Name += SchedReads[Idx].Name; 98676686496SAndrew Trick } 98776686496SAndrew Trick return Name; 98876686496SAndrew Trick } 98976686496SAndrew Trick 99076686496SAndrew Trick std::string CodeGenSchedModels::createSchedClassName(const RecVec &InstDefs) { 99176686496SAndrew Trick 99276686496SAndrew Trick std::string Name; 99376686496SAndrew Trick for (RecIter I = InstDefs.begin(), E = InstDefs.end(); I != E; ++I) { 99476686496SAndrew Trick if (I != InstDefs.begin()) 99576686496SAndrew Trick Name += '_'; 99676686496SAndrew Trick Name += (*I)->getName(); 99776686496SAndrew Trick } 99876686496SAndrew Trick return Name; 99976686496SAndrew Trick } 100076686496SAndrew Trick 1001bf8a28dcSAndrew Trick /// Add an inferred sched class from an itinerary class and per-operand list of 1002bf8a28dcSAndrew Trick /// SchedWrites and SchedReads. ProcIndices contains the set of IDs of 1003bf8a28dcSAndrew Trick /// processors that may utilize this class. 1004bf8a28dcSAndrew Trick unsigned CodeGenSchedModels::addSchedClass(Record *ItinClassDef, 1005e1761952SBenjamin Kramer ArrayRef<unsigned> OperWrites, 1006e1761952SBenjamin Kramer ArrayRef<unsigned> OperReads, 1007e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) { 100876686496SAndrew Trick assert(!ProcIndices.empty() && "expect at least one ProcIdx"); 100976686496SAndrew Trick 101038fe227fSAndrea Di Biagio auto IsKeyEqual = [=](const CodeGenSchedClass &SC) { 101138fe227fSAndrea Di Biagio return SC.isKeyEqual(ItinClassDef, OperWrites, OperReads); 101238fe227fSAndrea Di Biagio }; 101338fe227fSAndrea Di Biagio 101438fe227fSAndrea Di Biagio auto I = find_if(make_range(schedClassBegin(), schedClassEnd()), IsKeyEqual); 101538fe227fSAndrea Di Biagio unsigned Idx = I == schedClassEnd() ? 0 : std::distance(schedClassBegin(), I); 1016bf8a28dcSAndrew Trick if (Idx || SchedClasses[0].isKeyEqual(ItinClassDef, OperWrites, OperReads)) { 101776686496SAndrew Trick IdxVec PI; 101876686496SAndrew Trick std::set_union(SchedClasses[Idx].ProcIndices.begin(), 101976686496SAndrew Trick SchedClasses[Idx].ProcIndices.end(), 102076686496SAndrew Trick ProcIndices.begin(), ProcIndices.end(), 102176686496SAndrew Trick std::back_inserter(PI)); 102259d13776SCraig Topper SchedClasses[Idx].ProcIndices = std::move(PI); 102376686496SAndrew Trick return Idx; 102476686496SAndrew Trick } 102576686496SAndrew Trick Idx = SchedClasses.size(); 1026281a19cfSCraig Topper SchedClasses.emplace_back(Idx, 1027281a19cfSCraig Topper createSchedClassName(ItinClassDef, OperWrites, 1028281a19cfSCraig Topper OperReads), 1029281a19cfSCraig Topper ItinClassDef); 103076686496SAndrew Trick CodeGenSchedClass &SC = SchedClasses.back(); 103176686496SAndrew Trick SC.Writes = OperWrites; 103276686496SAndrew Trick SC.Reads = OperReads; 103376686496SAndrew Trick SC.ProcIndices = ProcIndices; 103476686496SAndrew Trick 103576686496SAndrew Trick return Idx; 103676686496SAndrew Trick } 103776686496SAndrew Trick 103876686496SAndrew Trick // Create classes for each set of opcodes that are in the same InstReadWrite 103976686496SAndrew Trick // definition across all processors. 104076686496SAndrew Trick void CodeGenSchedModels::createInstRWClass(Record *InstRWDef) { 104176686496SAndrew Trick // ClassInstrs will hold an entry for each subset of Instrs in InstRWDef that 104276686496SAndrew Trick // intersects with an existing class via a previous InstRWDef. Instrs that do 104376686496SAndrew Trick // not intersect with an existing class refer back to their former class as 104476686496SAndrew Trick // determined from ItinDef or SchedRW. 1045f19eacfeSCraig Topper SmallMapVector<unsigned, SmallVector<Record *, 8>, 4> ClassInstrs; 104676686496SAndrew Trick // Sort Instrs into sets. 10479e1deb69SAndrew Trick const RecVec *InstDefs = Sets.expand(InstRWDef); 10489e1deb69SAndrew Trick if (InstDefs->empty()) 1049635debe8SJoerg Sonnenberger PrintFatalError(InstRWDef->getLoc(), "No matching instruction opcodes"); 10509e1deb69SAndrew Trick 105193dd77d2SCraig Topper for (Record *InstDef : *InstDefs) { 1052fc500041SJaved Absar InstClassMapTy::const_iterator Pos = InstrClassMap.find(InstDef); 1053bf8a28dcSAndrew Trick if (Pos == InstrClassMap.end()) 1054fc500041SJaved Absar PrintFatalError(InstDef->getLoc(), "No sched class for instruction."); 1055bf8a28dcSAndrew Trick unsigned SCIdx = Pos->second; 1056f19eacfeSCraig Topper ClassInstrs[SCIdx].push_back(InstDef); 105776686496SAndrew Trick } 105876686496SAndrew Trick // For each set of Instrs, create a new class if necessary, and map or remap 105976686496SAndrew Trick // the Instrs to it. 1060f19eacfeSCraig Topper for (auto &Entry : ClassInstrs) { 1061f19eacfeSCraig Topper unsigned OldSCIdx = Entry.first; 1062f19eacfeSCraig Topper ArrayRef<Record*> InstDefs = Entry.second; 106376686496SAndrew Trick // If the all instrs in the current class are accounted for, then leave 106476686496SAndrew Trick // them mapped to their old class. 106578a08517SAndrew Trick if (OldSCIdx) { 106678a08517SAndrew Trick const RecVec &RWDefs = SchedClasses[OldSCIdx].InstRWs; 106778a08517SAndrew Trick if (!RWDefs.empty()) { 106878a08517SAndrew Trick const RecVec *OrigInstDefs = Sets.expand(RWDefs[0]); 106906d78376SCraig Topper unsigned OrigNumInstrs = 107006d78376SCraig Topper count_if(*OrigInstDefs, [&](Record *OIDef) { 107106d78376SCraig Topper return InstrClassMap[OIDef] == OldSCIdx; 107206d78376SCraig Topper }); 107378a08517SAndrew Trick if (OrigNumInstrs == InstDefs.size()) { 107476686496SAndrew Trick assert(SchedClasses[OldSCIdx].ProcIndices[0] == 0 && 107576686496SAndrew Trick "expected a generic SchedClass"); 1076e1d6a4dfSCraig Topper Record *RWModelDef = InstRWDef->getValueAsDef("SchedModel"); 1077e1d6a4dfSCraig Topper // Make sure we didn't already have a InstRW containing this 1078e1d6a4dfSCraig Topper // instruction on this model. 1079e1d6a4dfSCraig Topper for (Record *RWD : RWDefs) { 1080e1d6a4dfSCraig Topper if (RWD->getValueAsDef("SchedModel") == RWModelDef && 1081e1d6a4dfSCraig Topper RWModelDef->getValueAsBit("FullInstRWOverlapCheck")) { 1082d7888149SNico Weber assert(!InstDefs.empty()); // Checked at function start. 108388ce9f9bSJon Roelofs PrintError( 108488ce9f9bSJon Roelofs InstRWDef->getLoc(), 1085e139a73cSEvandro Menezes "Overlapping InstRW definition for \"" + 1086d7888149SNico Weber InstDefs.front()->getName() + 1087e139a73cSEvandro Menezes "\" also matches previous \"" + 1088e139a73cSEvandro Menezes RWD->getValue("Instrs")->getValue()->getAsString() + 1089e139a73cSEvandro Menezes "\"."); 109088ce9f9bSJon Roelofs PrintFatalNote(RWD->getLoc(), "Previous match was here."); 1091e1d6a4dfSCraig Topper } 1092e1d6a4dfSCraig Topper } 1093d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "InstRW: Reuse SC " << OldSCIdx << ":" 109478a08517SAndrew Trick << SchedClasses[OldSCIdx].Name << " on " 1095e1d6a4dfSCraig Topper << RWModelDef->getName() << "\n"); 109678a08517SAndrew Trick SchedClasses[OldSCIdx].InstRWs.push_back(InstRWDef); 109776686496SAndrew Trick continue; 109876686496SAndrew Trick } 109978a08517SAndrew Trick } 110078a08517SAndrew Trick } 110176686496SAndrew Trick unsigned SCIdx = SchedClasses.size(); 1102281a19cfSCraig Topper SchedClasses.emplace_back(SCIdx, createSchedClassName(InstDefs), nullptr); 110376686496SAndrew Trick CodeGenSchedClass &SC = SchedClasses.back(); 1104d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "InstRW: New SC " << SCIdx << ":" << SC.Name << " on " 1105d34e60caSNicola Zaghen << InstRWDef->getValueAsDef("SchedModel")->getName() 1106d34e60caSNicola Zaghen << "\n"); 110778a08517SAndrew Trick 110876686496SAndrew Trick // Preserve ItinDef and Writes/Reads for processors without an InstRW entry. 110976686496SAndrew Trick SC.ItinClassDef = SchedClasses[OldSCIdx].ItinClassDef; 111076686496SAndrew Trick SC.Writes = SchedClasses[OldSCIdx].Writes; 111176686496SAndrew Trick SC.Reads = SchedClasses[OldSCIdx].Reads; 111276686496SAndrew Trick SC.ProcIndices.push_back(0); 1113989d94ddSCraig Topper // If we had an old class, copy it's InstRWs to this new class. 1114989d94ddSCraig Topper if (OldSCIdx) { 11159e1deb69SAndrew Trick Record *RWModelDef = InstRWDef->getValueAsDef("SchedModel"); 11169fbbe5d9SCraig Topper for (Record *OldRWDef : SchedClasses[OldSCIdx].InstRWs) { 11179fbbe5d9SCraig Topper if (OldRWDef->getValueAsDef("SchedModel") == RWModelDef) { 1118d7888149SNico Weber assert(!InstDefs.empty()); // Checked at function start. 111988ce9f9bSJon Roelofs PrintError( 112088ce9f9bSJon Roelofs InstRWDef->getLoc(), 1121e139a73cSEvandro Menezes "Overlapping InstRW definition for \"" + 112288ce9f9bSJon Roelofs InstDefs.front()->getName() + "\" also matches previous \"" + 1123e139a73cSEvandro Menezes OldRWDef->getValue("Instrs")->getValue()->getAsString() + 1124e139a73cSEvandro Menezes "\"."); 112588ce9f9bSJon Roelofs PrintFatalNote(OldRWDef->getLoc(), "Previous match was here."); 11269e1deb69SAndrew Trick } 11279fbbe5d9SCraig Topper assert(OldRWDef != InstRWDef && 11289fbbe5d9SCraig Topper "SchedClass has duplicate InstRW def"); 11299fbbe5d9SCraig Topper SC.InstRWs.push_back(OldRWDef); 11309e1deb69SAndrew Trick } 113176686496SAndrew Trick } 1132989d94ddSCraig Topper // Map each Instr to this new class. 1133989d94ddSCraig Topper for (Record *InstDef : InstDefs) 11349fbbe5d9SCraig Topper InstrClassMap[InstDef] = SCIdx; 113576686496SAndrew Trick SC.InstRWs.push_back(InstRWDef); 113676686496SAndrew Trick } 113787255e34SAndrew Trick } 113887255e34SAndrew Trick 1139bf8a28dcSAndrew Trick // True if collectProcItins found anything. 1140bf8a28dcSAndrew Trick bool CodeGenSchedModels::hasItineraries() const { 114138fe227fSAndrea Di Biagio for (const CodeGenProcModel &PM : make_range(procModelBegin(),procModelEnd())) 114267b042c2SJaved Absar if (PM.hasItineraries()) 1143bf8a28dcSAndrew Trick return true; 1144bf8a28dcSAndrew Trick return false; 1145bf8a28dcSAndrew Trick } 1146bf8a28dcSAndrew Trick 114787255e34SAndrew Trick // Gather the processor itineraries. 114876686496SAndrew Trick void CodeGenSchedModels::collectProcItins() { 1149d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\n+++ PROBLEM ITINERARIES (collectProcItins) +++\n"); 11508a417c1fSCraig Topper for (CodeGenProcModel &ProcModel : ProcModels) { 1151bf8a28dcSAndrew Trick if (!ProcModel.hasItineraries()) 115276686496SAndrew Trick continue; 115387255e34SAndrew Trick 1154bf8a28dcSAndrew Trick RecVec ItinRecords = ProcModel.ItinsDef->getValueAsListOfDefs("IID"); 1155bf8a28dcSAndrew Trick assert(!ItinRecords.empty() && "ProcModel.hasItineraries is incorrect"); 1156bf8a28dcSAndrew Trick 1157bf8a28dcSAndrew Trick // Populate ItinDefList with Itinerary records. 1158bf8a28dcSAndrew Trick ProcModel.ItinDefList.resize(NumInstrSchedClasses); 115987255e34SAndrew Trick 116087255e34SAndrew Trick // Insert each itinerary data record in the correct position within 116187255e34SAndrew Trick // the processor model's ItinDefList. 1162fc500041SJaved Absar for (Record *ItinData : ItinRecords) { 116338fe227fSAndrea Di Biagio const Record *ItinDef = ItinData->getValueAsDef("TheClass"); 1164e7bac5f5SAndrew Trick bool FoundClass = false; 116538fe227fSAndrea Di Biagio 116638fe227fSAndrea Di Biagio for (const CodeGenSchedClass &SC : 116738fe227fSAndrea Di Biagio make_range(schedClassBegin(), schedClassEnd())) { 1168e7bac5f5SAndrew Trick // Multiple SchedClasses may share an itinerary. Update all of them. 116938fe227fSAndrea Di Biagio if (SC.ItinClassDef == ItinDef) { 117038fe227fSAndrea Di Biagio ProcModel.ItinDefList[SC.Index] = ItinData; 1171e7bac5f5SAndrew Trick FoundClass = true; 117287255e34SAndrew Trick } 1173bf8a28dcSAndrew Trick } 1174e7bac5f5SAndrew Trick if (!FoundClass) { 1175d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << ProcModel.ItinsDef->getName() 1176d34e60caSNicola Zaghen << " missing class for itinerary " 1177d34e60caSNicola Zaghen << ItinDef->getName() << '\n'); 1178bf8a28dcSAndrew Trick } 117987255e34SAndrew Trick } 118087255e34SAndrew Trick // Check for missing itinerary entries. 118187255e34SAndrew Trick assert(!ProcModel.ItinDefList[0] && "NoItinerary class can't have rec"); 1182d34e60caSNicola Zaghen LLVM_DEBUG( 118387255e34SAndrew Trick for (unsigned i = 1, N = ProcModel.ItinDefList.size(); i < N; ++i) { 118487255e34SAndrew Trick if (!ProcModel.ItinDefList[i]) 118576686496SAndrew Trick dbgs() << ProcModel.ItinsDef->getName() 1186d34e60caSNicola Zaghen << " missing itinerary for class " << SchedClasses[i].Name 1187d34e60caSNicola Zaghen << '\n'; 118876686496SAndrew Trick }); 118987255e34SAndrew Trick } 119087255e34SAndrew Trick } 119176686496SAndrew Trick 119276686496SAndrew Trick // Gather the read/write types for each itinerary class. 119376686496SAndrew Trick void CodeGenSchedModels::collectProcItinRW() { 119476686496SAndrew Trick RecVec ItinRWDefs = Records.getAllDerivedDefinitions("ItinRW"); 11950cac726aSFangrui Song llvm::sort(ItinRWDefs, LessRecord()); 119621c75912SJaved Absar for (Record *RWDef : ItinRWDefs) { 1197f45d0b98SJaved Absar if (!RWDef->getValueInit("SchedModel")->isComplete()) 1198f45d0b98SJaved Absar PrintFatalError(RWDef->getLoc(), "SchedModel is undefined"); 1199f45d0b98SJaved Absar Record *ModelDef = RWDef->getValueAsDef("SchedModel"); 120076686496SAndrew Trick ProcModelMapTy::const_iterator I = ProcModelMap.find(ModelDef); 120176686496SAndrew Trick if (I == ProcModelMap.end()) { 1202f45d0b98SJaved Absar PrintFatalError(RWDef->getLoc(), "Undefined SchedMachineModel " 120376686496SAndrew Trick + ModelDef->getName()); 120476686496SAndrew Trick } 1205f45d0b98SJaved Absar ProcModels[I->second].ItinRWDefs.push_back(RWDef); 120676686496SAndrew Trick } 120776686496SAndrew Trick } 120876686496SAndrew Trick 12095f95c9afSSimon Dardis // Gather the unsupported features for processor models. 12105f95c9afSSimon Dardis void CodeGenSchedModels::collectProcUnsupportedFeatures() { 12115d3f3d3aSKazu Hirata for (CodeGenProcModel &ProcModel : ProcModels) 12125d3f3d3aSKazu Hirata append_range( 12135d3f3d3aSKazu Hirata ProcModel.UnsupportedFeaturesDefs, 12145d3f3d3aSKazu Hirata ProcModel.ModelDef->getValueAsListOfDefs("UnsupportedFeatures")); 12155f95c9afSSimon Dardis } 12165f95c9afSSimon Dardis 121733401e84SAndrew Trick /// Infer new classes from existing classes. In the process, this may create new 121833401e84SAndrew Trick /// SchedWrites from sequences of existing SchedWrites. 121933401e84SAndrew Trick void CodeGenSchedModels::inferSchedClasses() { 1220d34e60caSNicola Zaghen LLVM_DEBUG( 1221d34e60caSNicola Zaghen dbgs() << "\n+++ INFERRING SCHED CLASSES (inferSchedClasses) +++\n"); 1222d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << NumInstrSchedClasses << " instr sched classes.\n"); 1223bf8a28dcSAndrew Trick 122433401e84SAndrew Trick // Visit all existing classes and newly created classes. 122533401e84SAndrew Trick for (unsigned Idx = 0; Idx != SchedClasses.size(); ++Idx) { 1226bf8a28dcSAndrew Trick assert(SchedClasses[Idx].Index == Idx && "bad SCIdx"); 1227bf8a28dcSAndrew Trick 122833401e84SAndrew Trick if (SchedClasses[Idx].ItinClassDef) 122933401e84SAndrew Trick inferFromItinClass(SchedClasses[Idx].ItinClassDef, Idx); 1230bf8a28dcSAndrew Trick if (!SchedClasses[Idx].InstRWs.empty()) 123133401e84SAndrew Trick inferFromInstRWs(Idx); 1232bf8a28dcSAndrew Trick if (!SchedClasses[Idx].Writes.empty()) { 123333401e84SAndrew Trick inferFromRW(SchedClasses[Idx].Writes, SchedClasses[Idx].Reads, 123433401e84SAndrew Trick Idx, SchedClasses[Idx].ProcIndices); 123533401e84SAndrew Trick } 123633401e84SAndrew Trick assert(SchedClasses.size() < (NumInstrSchedClasses*6) && 123733401e84SAndrew Trick "too many SchedVariants"); 123833401e84SAndrew Trick } 123933401e84SAndrew Trick } 124033401e84SAndrew Trick 124133401e84SAndrew Trick /// Infer classes from per-processor itinerary resources. 124233401e84SAndrew Trick void CodeGenSchedModels::inferFromItinClass(Record *ItinClassDef, 124333401e84SAndrew Trick unsigned FromClassIdx) { 124433401e84SAndrew Trick for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) { 124533401e84SAndrew Trick const CodeGenProcModel &PM = ProcModels[PIdx]; 124633401e84SAndrew Trick // For all ItinRW entries. 124733401e84SAndrew Trick bool HasMatch = false; 124838fe227fSAndrea Di Biagio for (const Record *Rec : PM.ItinRWDefs) { 124938fe227fSAndrea Di Biagio RecVec Matched = Rec->getValueAsListOfDefs("MatchedItinClasses"); 1250e4a23a41SKazu Hirata if (!llvm::is_contained(Matched, ItinClassDef)) 125133401e84SAndrew Trick continue; 125233401e84SAndrew Trick if (HasMatch) 125338fe227fSAndrea Di Biagio PrintFatalError(Rec->getLoc(), "Duplicate itinerary class " 125433401e84SAndrew Trick + ItinClassDef->getName() 125533401e84SAndrew Trick + " in ItinResources for " + PM.ModelName); 125633401e84SAndrew Trick HasMatch = true; 125733401e84SAndrew Trick IdxVec Writes, Reads; 125838fe227fSAndrea Di Biagio findRWs(Rec->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads); 12599f3293a9SCraig Topper inferFromRW(Writes, Reads, FromClassIdx, PIdx); 126033401e84SAndrew Trick } 126133401e84SAndrew Trick } 126233401e84SAndrew Trick } 126333401e84SAndrew Trick 126433401e84SAndrew Trick /// Infer classes from per-processor InstReadWrite definitions. 126533401e84SAndrew Trick void CodeGenSchedModels::inferFromInstRWs(unsigned SCIdx) { 126658bd79c4SBenjamin Kramer for (unsigned I = 0, E = SchedClasses[SCIdx].InstRWs.size(); I != E; ++I) { 1267b22643a4SBenjamin Kramer assert(SchedClasses[SCIdx].InstRWs.size() == E && "InstrRWs was mutated!"); 126858bd79c4SBenjamin Kramer Record *Rec = SchedClasses[SCIdx].InstRWs[I]; 126958bd79c4SBenjamin Kramer const RecVec *InstDefs = Sets.expand(Rec); 12709e1deb69SAndrew Trick RecIter II = InstDefs->begin(), IE = InstDefs->end(); 127133401e84SAndrew Trick for (; II != IE; ++II) { 127233401e84SAndrew Trick if (InstrClassMap[*II] == SCIdx) 127333401e84SAndrew Trick break; 127433401e84SAndrew Trick } 127533401e84SAndrew Trick // If this class no longer has any instructions mapped to it, it has become 127633401e84SAndrew Trick // irrelevant. 127733401e84SAndrew Trick if (II == IE) 127833401e84SAndrew Trick continue; 127933401e84SAndrew Trick IdxVec Writes, Reads; 128058bd79c4SBenjamin Kramer findRWs(Rec->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads); 128158bd79c4SBenjamin Kramer unsigned PIdx = getProcModel(Rec->getValueAsDef("SchedModel")).Index; 12829f3293a9SCraig Topper inferFromRW(Writes, Reads, SCIdx, PIdx); // May mutate SchedClasses. 12836e56046fSEvgeny Leviant SchedClasses[SCIdx].InstRWProcIndices.insert(PIdx); 128433401e84SAndrew Trick } 128533401e84SAndrew Trick } 128633401e84SAndrew Trick 128733401e84SAndrew Trick namespace { 1288a3fe70d2SEugene Zelenko 12899257b8f8SAndrew Trick // Helper for substituteVariantOperand. 12909257b8f8SAndrew Trick struct TransVariant { 1291da984b1aSAndrew Trick Record *VarOrSeqDef; // Variant or sequence. 1292da984b1aSAndrew Trick unsigned RWIdx; // Index of this variant or sequence's matched type. 12939257b8f8SAndrew Trick unsigned ProcIdx; // Processor model index or zero for any. 12949257b8f8SAndrew Trick unsigned TransVecIdx; // Index into PredTransitions::TransVec. 12959257b8f8SAndrew Trick 12969257b8f8SAndrew Trick TransVariant(Record *def, unsigned rwi, unsigned pi, unsigned ti): 1297da984b1aSAndrew Trick VarOrSeqDef(def), RWIdx(rwi), ProcIdx(pi), TransVecIdx(ti) {} 12989257b8f8SAndrew Trick }; 12999257b8f8SAndrew Trick 130033401e84SAndrew Trick // Associate a predicate with the SchedReadWrite that it guards. 130133401e84SAndrew Trick // RWIdx is the index of the read/write variant. 130233401e84SAndrew Trick struct PredCheck { 130333401e84SAndrew Trick bool IsRead; 130433401e84SAndrew Trick unsigned RWIdx; 130533401e84SAndrew Trick Record *Predicate; 130633401e84SAndrew Trick 130733401e84SAndrew Trick PredCheck(bool r, unsigned w, Record *p): IsRead(r), RWIdx(w), Predicate(p) {} 130833401e84SAndrew Trick }; 130933401e84SAndrew Trick 131033401e84SAndrew Trick // A Predicate transition is a list of RW sequences guarded by a PredTerm. 131133401e84SAndrew Trick struct PredTransition { 131233401e84SAndrew Trick // A predicate term is a conjunction of PredChecks. 131333401e84SAndrew Trick SmallVector<PredCheck, 4> PredTerm; 131433401e84SAndrew Trick SmallVector<SmallVector<unsigned,4>, 16> WriteSequences; 131533401e84SAndrew Trick SmallVector<SmallVector<unsigned,4>, 16> ReadSequences; 131653401e8eSEvgeny Leviant unsigned ProcIndex = 0; 1317cc96a822SEvgeny Leviant 1318cc96a822SEvgeny Leviant PredTransition() = default; 131953401e8eSEvgeny Leviant PredTransition(ArrayRef<PredCheck> PT, unsigned ProcId) { 1320cc96a822SEvgeny Leviant PredTerm.assign(PT.begin(), PT.end()); 132153401e8eSEvgeny Leviant ProcIndex = ProcId; 1322cc96a822SEvgeny Leviant } 132333401e84SAndrew Trick }; 132433401e84SAndrew Trick 132533401e84SAndrew Trick // Encapsulate a set of partially constructed transitions. 132633401e84SAndrew Trick // The results are built by repeated calls to substituteVariants. 132733401e84SAndrew Trick class PredTransitions { 132833401e84SAndrew Trick CodeGenSchedModels &SchedModels; 132933401e84SAndrew Trick 133033401e84SAndrew Trick public: 133133401e84SAndrew Trick std::vector<PredTransition> TransVec; 133233401e84SAndrew Trick 133333401e84SAndrew Trick PredTransitions(CodeGenSchedModels &sm): SchedModels(sm) {} 133433401e84SAndrew Trick 13354c419c45SEvgeny Leviant bool substituteVariantOperand(const SmallVectorImpl<unsigned> &RWSeq, 1336993eaf2dSEvgeny Leviant bool IsRead, unsigned StartIdx); 133733401e84SAndrew Trick 13384c419c45SEvgeny Leviant bool substituteVariants(const PredTransition &Trans); 133933401e84SAndrew Trick 134033401e84SAndrew Trick #ifndef NDEBUG 134133401e84SAndrew Trick void dump() const; 134233401e84SAndrew Trick #endif 134333401e84SAndrew Trick 134433401e84SAndrew Trick private: 134550bd6866SEvgeny Leviant bool mutuallyExclusive(Record *PredDef, ArrayRef<Record *> Preds, 134650bd6866SEvgeny Leviant ArrayRef<PredCheck> Term); 1347da984b1aSAndrew Trick void getIntersectingVariants( 1348da984b1aSAndrew Trick const CodeGenSchedRW &SchedRW, unsigned TransIdx, 1349da984b1aSAndrew Trick std::vector<TransVariant> &IntersectingVariants); 13509257b8f8SAndrew Trick void pushVariant(const TransVariant &VInfo, bool IsRead); 135133401e84SAndrew Trick }; 1352a3fe70d2SEugene Zelenko 1353a3fe70d2SEugene Zelenko } // end anonymous namespace 135433401e84SAndrew Trick 135533401e84SAndrew Trick // Return true if this predicate is mutually exclusive with a PredTerm. This 135633401e84SAndrew Trick // degenerates into checking if the predicate is mutually exclusive with any 135733401e84SAndrew Trick // predicate in the Term's conjunction. 135833401e84SAndrew Trick // 135933401e84SAndrew Trick // All predicates associated with a given SchedRW are considered mutually 136033401e84SAndrew Trick // exclusive. This should work even if the conditions expressed by the 136133401e84SAndrew Trick // predicates are not exclusive because the predicates for a given SchedWrite 136233401e84SAndrew Trick // are always checked in the order they are defined in the .td file. Later 136333401e84SAndrew Trick // conditions implicitly negate any prior condition. 136433401e84SAndrew Trick bool PredTransitions::mutuallyExclusive(Record *PredDef, 136550bd6866SEvgeny Leviant ArrayRef<Record *> Preds, 136633401e84SAndrew Trick ArrayRef<PredCheck> Term) { 136721c75912SJaved Absar for (const PredCheck &PC: Term) { 1368fc500041SJaved Absar if (PC.Predicate == PredDef) 136933401e84SAndrew Trick return false; 137033401e84SAndrew Trick 1371fc500041SJaved Absar const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(PC.RWIdx, PC.IsRead); 137233401e84SAndrew Trick assert(SchedRW.HasVariants && "PredCheck must refer to a SchedVariant"); 137333401e84SAndrew Trick RecVec Variants = SchedRW.TheDef->getValueAsListOfDefs("Variants"); 137438fe227fSAndrea Di Biagio if (any_of(Variants, [PredDef](const Record *R) { 137538fe227fSAndrea Di Biagio return R->getValueAsDef("Predicate") == PredDef; 137650bd6866SEvgeny Leviant })) { 137750bd6866SEvgeny Leviant // To check if PredDef is mutually exclusive with PC we also need to 137850bd6866SEvgeny Leviant // check that PC.Predicate is exclusive with all predicates from variant 137950bd6866SEvgeny Leviant // we're expanding. Consider following RW sequence with two variants 138050bd6866SEvgeny Leviant // (1 & 2), where A, B and C are predicates from corresponding SchedVars: 138150bd6866SEvgeny Leviant // 138250bd6866SEvgeny Leviant // 1:A/B - 2:C/B 138350bd6866SEvgeny Leviant // 138450bd6866SEvgeny Leviant // Here C is not mutually exclusive with variant (1), because A doesn't 138550bd6866SEvgeny Leviant // exist in variant (2). This means we have possible transitions from A 138650bd6866SEvgeny Leviant // to C and from A to B, and fully expanded sequence would look like: 138750bd6866SEvgeny Leviant // 138850bd6866SEvgeny Leviant // if (A & C) return ...; 138950bd6866SEvgeny Leviant // if (A & B) return ...; 139050bd6866SEvgeny Leviant // if (B) return ...; 139150bd6866SEvgeny Leviant // 139250bd6866SEvgeny Leviant // Now let's consider another sequence: 139350bd6866SEvgeny Leviant // 139450bd6866SEvgeny Leviant // 1:A/B - 2:A/B 139550bd6866SEvgeny Leviant // 139650bd6866SEvgeny Leviant // Here A in variant (2) is mutually exclusive with variant (1), because 139750bd6866SEvgeny Leviant // A also exists in (2). This means A->B transition is impossible and 139850bd6866SEvgeny Leviant // expanded sequence would look like: 139950bd6866SEvgeny Leviant // 140050bd6866SEvgeny Leviant // if (A) return ...; 140150bd6866SEvgeny Leviant // if (B) return ...; 140250bd6866SEvgeny Leviant if (!count(Preds, PC.Predicate)) 140350bd6866SEvgeny Leviant continue; 140433401e84SAndrew Trick return true; 140533401e84SAndrew Trick } 140650bd6866SEvgeny Leviant } 140733401e84SAndrew Trick return false; 140833401e84SAndrew Trick } 140933401e84SAndrew Trick 141078caf4f1SEvgeny Leviant static std::vector<Record *> getAllPredicates(ArrayRef<TransVariant> Variants, 141153401e8eSEvgeny Leviant unsigned ProcId) { 141250bd6866SEvgeny Leviant std::vector<Record *> Preds; 141350bd6866SEvgeny Leviant for (auto &Variant : Variants) { 1414d8f22c77SEvgeny Leviant if (!Variant.VarOrSeqDef->isSubClassOf("SchedVar")) 1415d8f22c77SEvgeny Leviant continue; 141650bd6866SEvgeny Leviant Preds.push_back(Variant.VarOrSeqDef->getValueAsDef("Predicate")); 141750bd6866SEvgeny Leviant } 141850bd6866SEvgeny Leviant return Preds; 141950bd6866SEvgeny Leviant } 142050bd6866SEvgeny Leviant 1421da984b1aSAndrew Trick // Populate IntersectingVariants with any variants or aliased sequences of the 1422da984b1aSAndrew Trick // given SchedRW whose processor indices and predicates are not mutually 1423d97ff1fcSAndrew Trick // exclusive with the given transition. 1424da984b1aSAndrew Trick void PredTransitions::getIntersectingVariants( 1425da984b1aSAndrew Trick const CodeGenSchedRW &SchedRW, unsigned TransIdx, 1426da984b1aSAndrew Trick std::vector<TransVariant> &IntersectingVariants) { 1427da984b1aSAndrew Trick 1428d97ff1fcSAndrew Trick bool GenericRW = false; 1429d97ff1fcSAndrew Trick 1430da984b1aSAndrew Trick std::vector<TransVariant> Variants; 1431da984b1aSAndrew Trick if (SchedRW.HasVariants) { 1432da984b1aSAndrew Trick unsigned VarProcIdx = 0; 1433da984b1aSAndrew Trick if (SchedRW.TheDef->getValueInit("SchedModel")->isComplete()) { 1434da984b1aSAndrew Trick Record *ModelDef = SchedRW.TheDef->getValueAsDef("SchedModel"); 1435da984b1aSAndrew Trick VarProcIdx = SchedModels.getProcModel(ModelDef).Index; 1436da984b1aSAndrew Trick } 143753401e8eSEvgeny Leviant if (VarProcIdx == 0 || VarProcIdx == TransVec[TransIdx].ProcIndex) { 1438da984b1aSAndrew Trick // Push each variant. Assign TransVecIdx later. 1439da984b1aSAndrew Trick const RecVec VarDefs = SchedRW.TheDef->getValueAsListOfDefs("Variants"); 1440f45d0b98SJaved Absar for (Record *VarDef : VarDefs) 144138fe227fSAndrea Di Biagio Variants.emplace_back(VarDef, SchedRW.Index, VarProcIdx, 0); 1442d97ff1fcSAndrew Trick if (VarProcIdx == 0) 1443d97ff1fcSAndrew Trick GenericRW = true; 1444da984b1aSAndrew Trick } 144553401e8eSEvgeny Leviant } 1446da984b1aSAndrew Trick for (RecIter AI = SchedRW.Aliases.begin(), AE = SchedRW.Aliases.end(); 1447da984b1aSAndrew Trick AI != AE; ++AI) { 1448da984b1aSAndrew Trick // If either the SchedAlias itself or the SchedReadWrite that it aliases 1449da984b1aSAndrew Trick // to is defined within a processor model, constrain all variants to 1450da984b1aSAndrew Trick // that processor. 1451da984b1aSAndrew Trick unsigned AliasProcIdx = 0; 1452da984b1aSAndrew Trick if ((*AI)->getValueInit("SchedModel")->isComplete()) { 1453da984b1aSAndrew Trick Record *ModelDef = (*AI)->getValueAsDef("SchedModel"); 1454da984b1aSAndrew Trick AliasProcIdx = SchedModels.getProcModel(ModelDef).Index; 1455da984b1aSAndrew Trick } 145653401e8eSEvgeny Leviant if (AliasProcIdx && AliasProcIdx != TransVec[TransIdx].ProcIndex) 145753401e8eSEvgeny Leviant continue; 145853401e8eSEvgeny Leviant if (!Variants.empty()) { 145953401e8eSEvgeny Leviant const CodeGenProcModel &PM = 146053401e8eSEvgeny Leviant *(SchedModels.procModelBegin() + AliasProcIdx); 146153401e8eSEvgeny Leviant PrintFatalError((*AI)->getLoc(), 146253401e8eSEvgeny Leviant "Multiple variants defined for processor " + 146353401e8eSEvgeny Leviant PM.ModelName + 146453401e8eSEvgeny Leviant " Ensure only one SchedAlias exists per RW."); 146553401e8eSEvgeny Leviant } 146653401e8eSEvgeny Leviant 1467da984b1aSAndrew Trick const CodeGenSchedRW &AliasRW = 1468da984b1aSAndrew Trick SchedModels.getSchedRW((*AI)->getValueAsDef("AliasRW")); 1469da984b1aSAndrew Trick 1470da984b1aSAndrew Trick if (AliasRW.HasVariants) { 1471da984b1aSAndrew Trick const RecVec VarDefs = AliasRW.TheDef->getValueAsListOfDefs("Variants"); 14729003dd78SJaved Absar for (Record *VD : VarDefs) 147338fe227fSAndrea Di Biagio Variants.emplace_back(VD, AliasRW.Index, AliasProcIdx, 0); 1474da984b1aSAndrew Trick } 147538fe227fSAndrea Di Biagio if (AliasRW.IsSequence) 147638fe227fSAndrea Di Biagio Variants.emplace_back(AliasRW.TheDef, SchedRW.Index, AliasProcIdx, 0); 1477d97ff1fcSAndrew Trick if (AliasProcIdx == 0) 1478d97ff1fcSAndrew Trick GenericRW = true; 1479da984b1aSAndrew Trick } 148078caf4f1SEvgeny Leviant std::vector<Record *> AllPreds = 148153401e8eSEvgeny Leviant getAllPredicates(Variants, TransVec[TransIdx].ProcIndex); 1482f45d0b98SJaved Absar for (TransVariant &Variant : Variants) { 1483da984b1aSAndrew Trick // Don't expand variants if the processor models don't intersect. 1484da984b1aSAndrew Trick // A zero processor index means any processor. 1485d8f22c77SEvgeny Leviant if (Variant.VarOrSeqDef->isSubClassOf("SchedVar")) { 1486da984b1aSAndrew Trick Record *PredDef = Variant.VarOrSeqDef->getValueAsDef("Predicate"); 148750bd6866SEvgeny Leviant if (mutuallyExclusive(PredDef, AllPreds, TransVec[TransIdx].PredTerm)) 1488da984b1aSAndrew Trick continue; 1489d8f22c77SEvgeny Leviant } 149050bd6866SEvgeny Leviant 1491da984b1aSAndrew Trick if (IntersectingVariants.empty()) { 1492da984b1aSAndrew Trick // The first variant builds on the existing transition. 1493da984b1aSAndrew Trick Variant.TransVecIdx = TransIdx; 1494da984b1aSAndrew Trick IntersectingVariants.push_back(Variant); 1495da984b1aSAndrew Trick } 1496da984b1aSAndrew Trick else { 1497da984b1aSAndrew Trick // Push another copy of the current transition for more variants. 1498da984b1aSAndrew Trick Variant.TransVecIdx = TransVec.size(); 1499da984b1aSAndrew Trick IntersectingVariants.push_back(Variant); 1500f6169d02SDan Gohman TransVec.push_back(TransVec[TransIdx]); 1501da984b1aSAndrew Trick } 1502da984b1aSAndrew Trick } 1503d97ff1fcSAndrew Trick if (GenericRW && IntersectingVariants.empty()) { 1504d97ff1fcSAndrew Trick PrintFatalError(SchedRW.TheDef->getLoc(), "No variant of this type has " 1505d97ff1fcSAndrew Trick "a matching predicate on any processor"); 1506d97ff1fcSAndrew Trick } 1507da984b1aSAndrew Trick } 1508da984b1aSAndrew Trick 15099257b8f8SAndrew Trick // Push the Reads/Writes selected by this variant onto the PredTransition 15109257b8f8SAndrew Trick // specified by VInfo. 15119257b8f8SAndrew Trick void PredTransitions:: 15129257b8f8SAndrew Trick pushVariant(const TransVariant &VInfo, bool IsRead) { 15139257b8f8SAndrew Trick PredTransition &Trans = TransVec[VInfo.TransVecIdx]; 15149257b8f8SAndrew Trick 15159257b8f8SAndrew Trick // If this operand transition is reached through a processor-specific alias, 15169257b8f8SAndrew Trick // then the whole transition is specific to this processor. 151733401e84SAndrew Trick IdxVec SelectedRWs; 1518da984b1aSAndrew Trick if (VInfo.VarOrSeqDef->isSubClassOf("SchedVar")) { 1519da984b1aSAndrew Trick Record *PredDef = VInfo.VarOrSeqDef->getValueAsDef("Predicate"); 152038fe227fSAndrea Di Biagio Trans.PredTerm.emplace_back(IsRead, VInfo.RWIdx,PredDef); 1521da984b1aSAndrew Trick RecVec SelectedDefs = VInfo.VarOrSeqDef->getValueAsListOfDefs("Selected"); 152233401e84SAndrew Trick SchedModels.findRWs(SelectedDefs, SelectedRWs, IsRead); 1523da984b1aSAndrew Trick } 1524da984b1aSAndrew Trick else { 1525da984b1aSAndrew Trick assert(VInfo.VarOrSeqDef->isSubClassOf("WriteSequence") && 1526da984b1aSAndrew Trick "variant must be a SchedVariant or aliased WriteSequence"); 1527da984b1aSAndrew Trick SelectedRWs.push_back(SchedModels.getSchedRWIdx(VInfo.VarOrSeqDef, IsRead)); 1528da984b1aSAndrew Trick } 152933401e84SAndrew Trick 15309257b8f8SAndrew Trick const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(VInfo.RWIdx, IsRead); 153133401e84SAndrew Trick 153233401e84SAndrew Trick SmallVectorImpl<SmallVector<unsigned,4>> &RWSequences = IsRead 153333401e84SAndrew Trick ? Trans.ReadSequences : Trans.WriteSequences; 153433401e84SAndrew Trick if (SchedRW.IsVariadic) { 153533401e84SAndrew Trick unsigned OperIdx = RWSequences.size()-1; 153633401e84SAndrew Trick // Make N-1 copies of this transition's last sequence. 15375abf76fbSDuncan P. N. Exon Smith RWSequences.reserve(RWSequences.size() + SelectedRWs.size() - 1); 153838fe227fSAndrea Di Biagio RWSequences.insert(RWSequences.end(), SelectedRWs.size() - 1, 153938fe227fSAndrea Di Biagio RWSequences[OperIdx]); 154033401e84SAndrew Trick // Push each of the N elements of the SelectedRWs onto a copy of the last 154133401e84SAndrew Trick // sequence (split the current operand into N operands). 154233401e84SAndrew Trick // Note that write sequences should be expanded within this loop--the entire 154333401e84SAndrew Trick // sequence belongs to a single operand. 154433401e84SAndrew Trick for (IdxIter RWI = SelectedRWs.begin(), RWE = SelectedRWs.end(); 154533401e84SAndrew Trick RWI != RWE; ++RWI, ++OperIdx) { 154633401e84SAndrew Trick IdxVec ExpandedRWs; 154733401e84SAndrew Trick if (IsRead) 154833401e84SAndrew Trick ExpandedRWs.push_back(*RWI); 154933401e84SAndrew Trick else 155033401e84SAndrew Trick SchedModels.expandRWSequence(*RWI, ExpandedRWs, IsRead); 1551f7f42e64SKazu Hirata llvm::append_range(RWSequences[OperIdx], ExpandedRWs); 155233401e84SAndrew Trick } 155333401e84SAndrew Trick assert(OperIdx == RWSequences.size() && "missed a sequence"); 155433401e84SAndrew Trick } 155533401e84SAndrew Trick else { 155633401e84SAndrew Trick // Push this transition's expanded sequence onto this transition's last 155733401e84SAndrew Trick // sequence (add to the current operand's sequence). 155833401e84SAndrew Trick SmallVectorImpl<unsigned> &Seq = RWSequences.back(); 155933401e84SAndrew Trick IdxVec ExpandedRWs; 156033401e84SAndrew Trick for (IdxIter RWI = SelectedRWs.begin(), RWE = SelectedRWs.end(); 156133401e84SAndrew Trick RWI != RWE; ++RWI) { 156233401e84SAndrew Trick if (IsRead) 156333401e84SAndrew Trick ExpandedRWs.push_back(*RWI); 156433401e84SAndrew Trick else 156533401e84SAndrew Trick SchedModels.expandRWSequence(*RWI, ExpandedRWs, IsRead); 156633401e84SAndrew Trick } 1567f7f42e64SKazu Hirata llvm::append_range(Seq, ExpandedRWs); 156833401e84SAndrew Trick } 156933401e84SAndrew Trick } 157033401e84SAndrew Trick 157133401e84SAndrew Trick // RWSeq is a sequence of all Reads or all Writes for the next read or write 157233401e84SAndrew Trick // operand. StartIdx is an index into TransVec where partial results 15739257b8f8SAndrew Trick // starts. RWSeq must be applied to all transitions between StartIdx and the end 157433401e84SAndrew Trick // of TransVec. 15754c419c45SEvgeny Leviant bool PredTransitions::substituteVariantOperand( 1576993eaf2dSEvgeny Leviant const SmallVectorImpl<unsigned> &RWSeq, bool IsRead, unsigned StartIdx) { 15774c419c45SEvgeny Leviant bool Subst = false; 157833401e84SAndrew Trick // Visit each original RW within the current sequence. 157933401e84SAndrew Trick for (SmallVectorImpl<unsigned>::const_iterator 158033401e84SAndrew Trick RWI = RWSeq.begin(), RWE = RWSeq.end(); RWI != RWE; ++RWI) { 158133401e84SAndrew Trick const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(*RWI, IsRead); 158233401e84SAndrew Trick // Push this RW on all partial PredTransitions or distribute variants. 158333401e84SAndrew Trick // New PredTransitions may be pushed within this loop which should not be 158433401e84SAndrew Trick // revisited (TransEnd must be loop invariant). 158533401e84SAndrew Trick for (unsigned TransIdx = StartIdx, TransEnd = TransVec.size(); 158633401e84SAndrew Trick TransIdx != TransEnd; ++TransIdx) { 1587993eaf2dSEvgeny Leviant // Distribute this partial PredTransition across intersecting variants. 1588993eaf2dSEvgeny Leviant // This will push a copies of TransVec[TransIdx] on the back of TransVec. 1589993eaf2dSEvgeny Leviant std::vector<TransVariant> IntersectingVariants; 1590993eaf2dSEvgeny Leviant getIntersectingVariants(SchedRW, TransIdx, IntersectingVariants); 1591993eaf2dSEvgeny Leviant // Now expand each variant on top of its copy of the transition. 1592993eaf2dSEvgeny Leviant for (const TransVariant &IV : IntersectingVariants) 1593993eaf2dSEvgeny Leviant pushVariant(IV, IsRead); 1594993eaf2dSEvgeny Leviant if (IntersectingVariants.empty()) { 159533401e84SAndrew Trick if (IsRead) 159633401e84SAndrew Trick TransVec[TransIdx].ReadSequences.back().push_back(*RWI); 159733401e84SAndrew Trick else 159833401e84SAndrew Trick TransVec[TransIdx].WriteSequences.back().push_back(*RWI); 159933401e84SAndrew Trick continue; 1600993eaf2dSEvgeny Leviant } else { 1601993eaf2dSEvgeny Leviant Subst = true; 160233401e84SAndrew Trick } 160333401e84SAndrew Trick } 160433401e84SAndrew Trick } 16054c419c45SEvgeny Leviant return Subst; 160633401e84SAndrew Trick } 160733401e84SAndrew Trick 160833401e84SAndrew Trick // For each variant of a Read/Write in Trans, substitute the sequence of 160933401e84SAndrew Trick // Read/Writes guarded by the variant. This is exponential in the number of 161033401e84SAndrew Trick // variant Read/Writes, but in practice detection of mutually exclusive 161133401e84SAndrew Trick // predicates should result in linear growth in the total number variants. 161233401e84SAndrew Trick // 161333401e84SAndrew Trick // This is one step in a breadth-first search of nested variants. 16144c419c45SEvgeny Leviant bool PredTransitions::substituteVariants(const PredTransition &Trans) { 161533401e84SAndrew Trick // Build up a set of partial results starting at the back of 161633401e84SAndrew Trick // PredTransitions. Remember the first new transition. 161733401e84SAndrew Trick unsigned StartIdx = TransVec.size(); 16184c419c45SEvgeny Leviant bool Subst = false; 161953401e8eSEvgeny Leviant assert(Trans.ProcIndex != 0); 162053401e8eSEvgeny Leviant TransVec.emplace_back(Trans.PredTerm, Trans.ProcIndex); 162133401e84SAndrew Trick 162233401e84SAndrew Trick // Visit each original write sequence. 162333401e84SAndrew Trick for (SmallVectorImpl<SmallVector<unsigned,4>>::const_iterator 162433401e84SAndrew Trick WSI = Trans.WriteSequences.begin(), WSE = Trans.WriteSequences.end(); 162533401e84SAndrew Trick WSI != WSE; ++WSI) { 162633401e84SAndrew Trick // Push a new (empty) write sequence onto all partial Transitions. 162733401e84SAndrew Trick for (std::vector<PredTransition>::iterator I = 162833401e84SAndrew Trick TransVec.begin() + StartIdx, E = TransVec.end(); I != E; ++I) { 1629195aaaf5SCraig Topper I->WriteSequences.emplace_back(); 163033401e84SAndrew Trick } 1631993eaf2dSEvgeny Leviant Subst |= substituteVariantOperand(*WSI, /*IsRead=*/false, StartIdx); 163233401e84SAndrew Trick } 163333401e84SAndrew Trick // Visit each original read sequence. 163433401e84SAndrew Trick for (SmallVectorImpl<SmallVector<unsigned,4>>::const_iterator 163533401e84SAndrew Trick RSI = Trans.ReadSequences.begin(), RSE = Trans.ReadSequences.end(); 163633401e84SAndrew Trick RSI != RSE; ++RSI) { 163733401e84SAndrew Trick // Push a new (empty) read sequence onto all partial Transitions. 163833401e84SAndrew Trick for (std::vector<PredTransition>::iterator I = 163933401e84SAndrew Trick TransVec.begin() + StartIdx, E = TransVec.end(); I != E; ++I) { 1640195aaaf5SCraig Topper I->ReadSequences.emplace_back(); 164133401e84SAndrew Trick } 1642993eaf2dSEvgeny Leviant Subst |= substituteVariantOperand(*RSI, /*IsRead=*/true, StartIdx); 164333401e84SAndrew Trick } 16444c419c45SEvgeny Leviant return Subst; 164533401e84SAndrew Trick } 164633401e84SAndrew Trick 16476e56046fSEvgeny Leviant static void addSequences(CodeGenSchedModels &SchedModels, 16486e56046fSEvgeny Leviant const SmallVectorImpl<SmallVector<unsigned, 4>> &Seqs, 16496e56046fSEvgeny Leviant IdxVec &Result, bool IsRead) { 16506e56046fSEvgeny Leviant for (const auto &S : Seqs) 16516e56046fSEvgeny Leviant if (!S.empty()) 16526e56046fSEvgeny Leviant Result.push_back(SchedModels.findOrInsertRW(S, IsRead)); 16536e56046fSEvgeny Leviant } 16546e56046fSEvgeny Leviant 1655a2b59048SEvgeny Leviant #ifndef NDEBUG 1656a2b59048SEvgeny Leviant static void dumpRecVec(const RecVec &RV) { 1657a2b59048SEvgeny Leviant for (const Record *R : RV) 1658a2b59048SEvgeny Leviant dbgs() << R->getName() << ", "; 1659a2b59048SEvgeny Leviant } 1660a2b59048SEvgeny Leviant #endif 1661a2b59048SEvgeny Leviant 16626e56046fSEvgeny Leviant static void dumpTransition(const CodeGenSchedModels &SchedModels, 16636e56046fSEvgeny Leviant const CodeGenSchedClass &FromSC, 1664a2b59048SEvgeny Leviant const CodeGenSchedTransition &SCTrans, 1665a2b59048SEvgeny Leviant const RecVec &Preds) { 16666e56046fSEvgeny Leviant LLVM_DEBUG(dbgs() << "Adding transition from " << FromSC.Name << "(" 16676e56046fSEvgeny Leviant << FromSC.Index << ") to " 16686e56046fSEvgeny Leviant << SchedModels.getSchedClass(SCTrans.ToClassIdx).Name << "(" 1669a2b59048SEvgeny Leviant << SCTrans.ToClassIdx << ") on pred term: ("; 167053401e8eSEvgeny Leviant dumpRecVec(Preds); 167153401e8eSEvgeny Leviant dbgs() << ") on processor (" << SCTrans.ProcIndex << ")\n"); 16726e56046fSEvgeny Leviant } 167333401e84SAndrew Trick // Create a new SchedClass for each variant found by inferFromRW. Pass 167433401e84SAndrew Trick static void inferFromTransitions(ArrayRef<PredTransition> LastTransitions, 16759257b8f8SAndrew Trick unsigned FromClassIdx, 167633401e84SAndrew Trick CodeGenSchedModels &SchedModels) { 167733401e84SAndrew Trick // For each PredTransition, create a new CodeGenSchedTransition, which usually 167833401e84SAndrew Trick // requires creating a new SchedClass. 167933401e84SAndrew Trick for (ArrayRef<PredTransition>::iterator 168033401e84SAndrew Trick I = LastTransitions.begin(), E = LastTransitions.end(); I != E; ++I) { 1681993eaf2dSEvgeny Leviant // Variant expansion (substituteVariants) may create unconditional 1682993eaf2dSEvgeny Leviant // transitions. We don't need to build sched classes for them. 1683993eaf2dSEvgeny Leviant if (I->PredTerm.empty()) 1684993eaf2dSEvgeny Leviant continue; 16856e56046fSEvgeny Leviant IdxVec OperWritesVariant, OperReadsVariant; 16866e56046fSEvgeny Leviant addSequences(SchedModels, I->WriteSequences, OperWritesVariant, false); 16876e56046fSEvgeny Leviant addSequences(SchedModels, I->ReadSequences, OperReadsVariant, true); 168833401e84SAndrew Trick CodeGenSchedTransition SCTrans; 16896e56046fSEvgeny Leviant 16906e56046fSEvgeny Leviant // Transition should not contain processor indices already assigned to 16916e56046fSEvgeny Leviant // InstRWs in this scheduling class. 1692836d0addSEvgeny Leviant const CodeGenSchedClass &FromSC = SchedModels.getSchedClass(FromClassIdx); 169353401e8eSEvgeny Leviant if (FromSC.InstRWProcIndices.count(I->ProcIndex)) 16946e56046fSEvgeny Leviant continue; 169553401e8eSEvgeny Leviant SCTrans.ProcIndex = I->ProcIndex; 169633401e84SAndrew Trick SCTrans.ToClassIdx = 169724064771SCraig Topper SchedModels.addSchedClass(/*ItinClassDef=*/nullptr, OperWritesVariant, 169853401e8eSEvgeny Leviant OperReadsVariant, I->ProcIndex); 1699a2b59048SEvgeny Leviant 170033401e84SAndrew Trick // The final PredTerm is unique set of predicates guarding the transition. 170133401e84SAndrew Trick RecVec Preds; 17021970e955SCraig Topper transform(I->PredTerm, std::back_inserter(Preds), 17031970e955SCraig Topper [](const PredCheck &P) { 17041970e955SCraig Topper return P.Predicate; 17051970e955SCraig Topper }); 1706b5ed2750SCraig Topper Preds.erase(std::unique(Preds.begin(), Preds.end()), Preds.end()); 1707a2b59048SEvgeny Leviant dumpTransition(SchedModels, FromSC, SCTrans, Preds); 170818cfa2c7SCraig Topper SCTrans.PredTerm = std::move(Preds); 170918cfa2c7SCraig Topper SchedModels.getSchedClass(FromClassIdx) 171018cfa2c7SCraig Topper .Transitions.push_back(std::move(SCTrans)); 171133401e84SAndrew Trick } 171233401e84SAndrew Trick } 171333401e84SAndrew Trick 1714993eaf2dSEvgeny Leviant std::vector<unsigned> CodeGenSchedModels::getAllProcIndices() const { 1715993eaf2dSEvgeny Leviant std::vector<unsigned> ProcIdVec; 1716993eaf2dSEvgeny Leviant for (const auto &PM : ProcModelMap) 1717993eaf2dSEvgeny Leviant if (PM.second != 0) 1718993eaf2dSEvgeny Leviant ProcIdVec.push_back(PM.second); 17199c978dd6SFangrui Song // The order of the keys (Record pointers) of ProcModelMap are not stable. 17209c978dd6SFangrui Song // Sort to stabalize the values. 17219c978dd6SFangrui Song llvm::sort(ProcIdVec); 1722993eaf2dSEvgeny Leviant return ProcIdVec; 1723993eaf2dSEvgeny Leviant } 1724993eaf2dSEvgeny Leviant 1725993eaf2dSEvgeny Leviant static std::vector<PredTransition> 1726993eaf2dSEvgeny Leviant makePerProcessorTransitions(const PredTransition &Trans, 1727993eaf2dSEvgeny Leviant ArrayRef<unsigned> ProcIndices) { 1728993eaf2dSEvgeny Leviant std::vector<PredTransition> PerCpuTransVec; 1729993eaf2dSEvgeny Leviant for (unsigned ProcId : ProcIndices) { 1730993eaf2dSEvgeny Leviant assert(ProcId != 0); 1731993eaf2dSEvgeny Leviant PerCpuTransVec.push_back(Trans); 173253401e8eSEvgeny Leviant PerCpuTransVec.back().ProcIndex = ProcId; 1733993eaf2dSEvgeny Leviant } 1734993eaf2dSEvgeny Leviant return PerCpuTransVec; 1735993eaf2dSEvgeny Leviant } 1736993eaf2dSEvgeny Leviant 17379257b8f8SAndrew Trick // Create new SchedClasses for the given ReadWrite list. If any of the 17389257b8f8SAndrew Trick // ReadWrites refers to a SchedVariant, create a new SchedClass for each variant 17399257b8f8SAndrew Trick // of the ReadWrite list, following Aliases if necessary. 1740e1761952SBenjamin Kramer void CodeGenSchedModels::inferFromRW(ArrayRef<unsigned> OperWrites, 1741e1761952SBenjamin Kramer ArrayRef<unsigned> OperReads, 174233401e84SAndrew Trick unsigned FromClassIdx, 1743e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) { 1744d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "INFER RW proc("; dumpIdxVec(ProcIndices); 1745d34e60caSNicola Zaghen dbgs() << ") "); 174633401e84SAndrew Trick // Create a seed transition with an empty PredTerm and the expanded sequences 174733401e84SAndrew Trick // of SchedWrites for the current SchedClass. 174833401e84SAndrew Trick std::vector<PredTransition> LastTransitions; 1749195aaaf5SCraig Topper LastTransitions.emplace_back(); 17509257b8f8SAndrew Trick 1751e1761952SBenjamin Kramer for (unsigned WriteIdx : OperWrites) { 175233401e84SAndrew Trick IdxVec WriteSeq; 1753e1761952SBenjamin Kramer expandRWSequence(WriteIdx, WriteSeq, /*IsRead=*/false); 1754195aaaf5SCraig Topper LastTransitions[0].WriteSequences.emplace_back(); 1755195aaaf5SCraig Topper SmallVectorImpl<unsigned> &Seq = LastTransitions[0].WriteSequences.back(); 17561f57456cSCraig Topper Seq.append(WriteSeq.begin(), WriteSeq.end()); 1757d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "("; dumpIdxVec(Seq); dbgs() << ") "); 175833401e84SAndrew Trick } 1759d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << " Reads: "); 1760e1761952SBenjamin Kramer for (unsigned ReadIdx : OperReads) { 176133401e84SAndrew Trick IdxVec ReadSeq; 1762e1761952SBenjamin Kramer expandRWSequence(ReadIdx, ReadSeq, /*IsRead=*/true); 1763195aaaf5SCraig Topper LastTransitions[0].ReadSequences.emplace_back(); 1764195aaaf5SCraig Topper SmallVectorImpl<unsigned> &Seq = LastTransitions[0].ReadSequences.back(); 17651f57456cSCraig Topper Seq.append(ReadSeq.begin(), ReadSeq.end()); 1766d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "("; dumpIdxVec(Seq); dbgs() << ") "); 176733401e84SAndrew Trick } 1768d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << '\n'); 176933401e84SAndrew Trick 1770993eaf2dSEvgeny Leviant LastTransitions = makePerProcessorTransitions( 1771e4a23a41SKazu Hirata LastTransitions[0], llvm::is_contained(ProcIndices, 0) 1772993eaf2dSEvgeny Leviant ? ArrayRef<unsigned>(getAllProcIndices()) 1773993eaf2dSEvgeny Leviant : ProcIndices); 177433401e84SAndrew Trick // Collect all PredTransitions for individual operands. 177533401e84SAndrew Trick // Iterate until no variant writes remain. 17764c419c45SEvgeny Leviant bool SubstitutedAny; 17774c419c45SEvgeny Leviant do { 17784c419c45SEvgeny Leviant SubstitutedAny = false; 177933401e84SAndrew Trick PredTransitions Transitions(*this); 1780f6114259SCraig Topper for (const PredTransition &Trans : LastTransitions) 17814c419c45SEvgeny Leviant SubstitutedAny |= Transitions.substituteVariants(Trans); 1782d34e60caSNicola Zaghen LLVM_DEBUG(Transitions.dump()); 178333401e84SAndrew Trick LastTransitions.swap(Transitions.TransVec); 17844c419c45SEvgeny Leviant } while (SubstitutedAny); 178533401e84SAndrew Trick 178633401e84SAndrew Trick // WARNING: We are about to mutate the SchedClasses vector. Do not refer to 178733401e84SAndrew Trick // OperWrites, OperReads, or ProcIndices after calling inferFromTransitions. 17889257b8f8SAndrew Trick inferFromTransitions(LastTransitions, FromClassIdx, *this); 178933401e84SAndrew Trick } 179033401e84SAndrew Trick 1791cf398b22SAndrew Trick // Check if any processor resource group contains all resource records in 1792cf398b22SAndrew Trick // SubUnits. 1793cf398b22SAndrew Trick bool CodeGenSchedModels::hasSuperGroup(RecVec &SubUnits, CodeGenProcModel &PM) { 1794cf398b22SAndrew Trick for (unsigned i = 0, e = PM.ProcResourceDefs.size(); i < e; ++i) { 1795cf398b22SAndrew Trick if (!PM.ProcResourceDefs[i]->isSubClassOf("ProcResGroup")) 1796cf398b22SAndrew Trick continue; 1797cf398b22SAndrew Trick RecVec SuperUnits = 1798cf398b22SAndrew Trick PM.ProcResourceDefs[i]->getValueAsListOfDefs("Resources"); 1799cf398b22SAndrew Trick RecIter RI = SubUnits.begin(), RE = SubUnits.end(); 1800cf398b22SAndrew Trick for ( ; RI != RE; ++RI) { 18010d955d0bSDavid Majnemer if (!is_contained(SuperUnits, *RI)) { 1802cf398b22SAndrew Trick break; 1803cf398b22SAndrew Trick } 1804cf398b22SAndrew Trick } 1805cf398b22SAndrew Trick if (RI == RE) 1806cf398b22SAndrew Trick return true; 1807cf398b22SAndrew Trick } 1808cf398b22SAndrew Trick return false; 1809cf398b22SAndrew Trick } 1810cf398b22SAndrew Trick 1811cf398b22SAndrew Trick // Verify that overlapping groups have a common supergroup. 1812cf398b22SAndrew Trick void CodeGenSchedModels::verifyProcResourceGroups(CodeGenProcModel &PM) { 1813cf398b22SAndrew Trick for (unsigned i = 0, e = PM.ProcResourceDefs.size(); i < e; ++i) { 1814cf398b22SAndrew Trick if (!PM.ProcResourceDefs[i]->isSubClassOf("ProcResGroup")) 1815cf398b22SAndrew Trick continue; 1816cf398b22SAndrew Trick RecVec CheckUnits = 1817cf398b22SAndrew Trick PM.ProcResourceDefs[i]->getValueAsListOfDefs("Resources"); 1818cf398b22SAndrew Trick for (unsigned j = i+1; j < e; ++j) { 1819cf398b22SAndrew Trick if (!PM.ProcResourceDefs[j]->isSubClassOf("ProcResGroup")) 1820cf398b22SAndrew Trick continue; 1821cf398b22SAndrew Trick RecVec OtherUnits = 1822cf398b22SAndrew Trick PM.ProcResourceDefs[j]->getValueAsListOfDefs("Resources"); 1823cf398b22SAndrew Trick if (std::find_first_of(CheckUnits.begin(), CheckUnits.end(), 1824cf398b22SAndrew Trick OtherUnits.begin(), OtherUnits.end()) 1825cf398b22SAndrew Trick != CheckUnits.end()) { 1826cf398b22SAndrew Trick // CheckUnits and OtherUnits overlap 1827f7f42e64SKazu Hirata llvm::append_range(OtherUnits, CheckUnits); 1828cf398b22SAndrew Trick if (!hasSuperGroup(OtherUnits, PM)) { 1829cf398b22SAndrew Trick PrintFatalError((PM.ProcResourceDefs[i])->getLoc(), 1830cf398b22SAndrew Trick "proc resource group overlaps with " 1831cf398b22SAndrew Trick + PM.ProcResourceDefs[j]->getName() 1832cf398b22SAndrew Trick + " but no supergroup contains both."); 1833cf398b22SAndrew Trick } 1834cf398b22SAndrew Trick } 1835cf398b22SAndrew Trick } 1836cf398b22SAndrew Trick } 1837cf398b22SAndrew Trick } 1838cf398b22SAndrew Trick 18399da4d6dbSAndrea Di Biagio // Collect all the RegisterFile definitions available in this target. 18409da4d6dbSAndrea Di Biagio void CodeGenSchedModels::collectRegisterFiles() { 18419da4d6dbSAndrea Di Biagio RecVec RegisterFileDefs = Records.getAllDerivedDefinitions("RegisterFile"); 18429da4d6dbSAndrea Di Biagio 18439da4d6dbSAndrea Di Biagio // RegisterFiles is the vector of CodeGenRegisterFile. 18449da4d6dbSAndrea Di Biagio for (Record *RF : RegisterFileDefs) { 18459da4d6dbSAndrea Di Biagio // For each register file definition, construct a CodeGenRegisterFile object 18469da4d6dbSAndrea Di Biagio // and add it to the appropriate scheduling model. 18479da4d6dbSAndrea Di Biagio CodeGenProcModel &PM = getProcModel(RF->getValueAsDef("SchedModel")); 18489da4d6dbSAndrea Di Biagio PM.RegisterFiles.emplace_back(CodeGenRegisterFile(RF->getName(),RF)); 18499da4d6dbSAndrea Di Biagio CodeGenRegisterFile &CGRF = PM.RegisterFiles.back(); 18506eebbe0aSAndrea Di Biagio CGRF.MaxMovesEliminatedPerCycle = 18516eebbe0aSAndrea Di Biagio RF->getValueAsInt("MaxMovesEliminatedPerCycle"); 18526eebbe0aSAndrea Di Biagio CGRF.AllowZeroMoveEliminationOnly = 18536eebbe0aSAndrea Di Biagio RF->getValueAsBit("AllowZeroMoveEliminationOnly"); 18549da4d6dbSAndrea Di Biagio 18559da4d6dbSAndrea Di Biagio // Now set the number of physical registers as well as the cost of registers 18569da4d6dbSAndrea Di Biagio // in each register class. 18579da4d6dbSAndrea Di Biagio CGRF.NumPhysRegs = RF->getValueAsInt("NumPhysRegs"); 1858f455e356SAndrea Di Biagio if (!CGRF.NumPhysRegs) { 1859f455e356SAndrea Di Biagio PrintFatalError(RF->getLoc(), 1860f455e356SAndrea Di Biagio "Invalid RegisterFile with zero physical registers"); 1861f455e356SAndrea Di Biagio } 1862f455e356SAndrea Di Biagio 18639da4d6dbSAndrea Di Biagio RecVec RegisterClasses = RF->getValueAsListOfDefs("RegClasses"); 18649da4d6dbSAndrea Di Biagio std::vector<int64_t> RegisterCosts = RF->getValueAsListOfInts("RegCosts"); 18656eebbe0aSAndrea Di Biagio ListInit *MoveElimInfo = RF->getValueAsListInit("AllowMoveElimination"); 18669da4d6dbSAndrea Di Biagio for (unsigned I = 0, E = RegisterClasses.size(); I < E; ++I) { 18679da4d6dbSAndrea Di Biagio int Cost = RegisterCosts.size() > I ? RegisterCosts[I] : 1; 18686eebbe0aSAndrea Di Biagio 18696eebbe0aSAndrea Di Biagio bool AllowMoveElim = false; 18706eebbe0aSAndrea Di Biagio if (MoveElimInfo->size() > I) { 18716eebbe0aSAndrea Di Biagio BitInit *Val = cast<BitInit>(MoveElimInfo->getElement(I)); 18726eebbe0aSAndrea Di Biagio AllowMoveElim = Val->getValue(); 18736eebbe0aSAndrea Di Biagio } 18746eebbe0aSAndrea Di Biagio 18756eebbe0aSAndrea Di Biagio CGRF.Costs.emplace_back(RegisterClasses[I], Cost, AllowMoveElim); 18769da4d6dbSAndrea Di Biagio } 18779da4d6dbSAndrea Di Biagio } 18789da4d6dbSAndrea Di Biagio } 18799da4d6dbSAndrea Di Biagio 18801e46d488SAndrew Trick // Collect and sort WriteRes, ReadAdvance, and ProcResources. 18811e46d488SAndrew Trick void CodeGenSchedModels::collectProcResources() { 18826b1fd9aaSMatthias Braun ProcResourceDefs = Records.getAllDerivedDefinitions("ProcResourceUnits"); 18836b1fd9aaSMatthias Braun ProcResGroups = Records.getAllDerivedDefinitions("ProcResGroup"); 18846b1fd9aaSMatthias Braun 18851e46d488SAndrew Trick // Add any subtarget-specific SchedReadWrites that are directly associated 18861e46d488SAndrew Trick // with processor resources. Refer to the parent SchedClass's ProcIndices to 18871e46d488SAndrew Trick // determine which processors they apply to. 188838fe227fSAndrea Di Biagio for (const CodeGenSchedClass &SC : 188938fe227fSAndrea Di Biagio make_range(schedClassBegin(), schedClassEnd())) { 189038fe227fSAndrea Di Biagio if (SC.ItinClassDef) { 189138fe227fSAndrea Di Biagio collectItinProcResources(SC.ItinClassDef); 189238fe227fSAndrea Di Biagio continue; 189338fe227fSAndrea Di Biagio } 189438fe227fSAndrea Di Biagio 18954fe440d4SAndrew Trick // This class may have a default ReadWrite list which can be overriden by 18964fe440d4SAndrew Trick // InstRW definitions. 189738fe227fSAndrea Di Biagio for (Record *RW : SC.InstRWs) { 189838fe227fSAndrea Di Biagio Record *RWModelDef = RW->getValueAsDef("SchedModel"); 18999f3293a9SCraig Topper unsigned PIdx = getProcModel(RWModelDef).Index; 19004fe440d4SAndrew Trick IdxVec Writes, Reads; 190138fe227fSAndrea Di Biagio findRWs(RW->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads); 19029f3293a9SCraig Topper collectRWResources(Writes, Reads, PIdx); 19034fe440d4SAndrew Trick } 190438fe227fSAndrea Di Biagio 190538fe227fSAndrea Di Biagio collectRWResources(SC.Writes, SC.Reads, SC.ProcIndices); 19064fe440d4SAndrew Trick } 19071e46d488SAndrew Trick // Add resources separately defined by each subtarget. 19081e46d488SAndrew Trick RecVec WRDefs = Records.getAllDerivedDefinitions("WriteRes"); 19092c9570c0SJaved Absar for (Record *WR : WRDefs) { 19102c9570c0SJaved Absar Record *ModelDef = WR->getValueAsDef("SchedModel"); 19112c9570c0SJaved Absar addWriteRes(WR, getProcModel(ModelDef).Index); 19121e46d488SAndrew Trick } 1913dca870b2SAndrew Trick RecVec SWRDefs = Records.getAllDerivedDefinitions("SchedWriteRes"); 19142c9570c0SJaved Absar for (Record *SWR : SWRDefs) { 19152c9570c0SJaved Absar Record *ModelDef = SWR->getValueAsDef("SchedModel"); 19162c9570c0SJaved Absar addWriteRes(SWR, getProcModel(ModelDef).Index); 1917dca870b2SAndrew Trick } 19181e46d488SAndrew Trick RecVec RADefs = Records.getAllDerivedDefinitions("ReadAdvance"); 19192c9570c0SJaved Absar for (Record *RA : RADefs) { 19202c9570c0SJaved Absar Record *ModelDef = RA->getValueAsDef("SchedModel"); 19212c9570c0SJaved Absar addReadAdvance(RA, getProcModel(ModelDef).Index); 19221e46d488SAndrew Trick } 1923dca870b2SAndrew Trick RecVec SRADefs = Records.getAllDerivedDefinitions("SchedReadAdvance"); 19242c9570c0SJaved Absar for (Record *SRA : SRADefs) { 19252c9570c0SJaved Absar if (SRA->getValueInit("SchedModel")->isComplete()) { 19262c9570c0SJaved Absar Record *ModelDef = SRA->getValueAsDef("SchedModel"); 19272c9570c0SJaved Absar addReadAdvance(SRA, getProcModel(ModelDef).Index); 1928dca870b2SAndrew Trick } 1929dca870b2SAndrew Trick } 193040c4f380SAndrew Trick // Add ProcResGroups that are defined within this processor model, which may 193140c4f380SAndrew Trick // not be directly referenced but may directly specify a buffer size. 193240c4f380SAndrew Trick RecVec ProcResGroups = Records.getAllDerivedDefinitions("ProcResGroup"); 193321c75912SJaved Absar for (Record *PRG : ProcResGroups) { 1934fc500041SJaved Absar if (!PRG->getValueInit("SchedModel")->isComplete()) 193540c4f380SAndrew Trick continue; 1936fc500041SJaved Absar CodeGenProcModel &PM = getProcModel(PRG->getValueAsDef("SchedModel")); 1937fc500041SJaved Absar if (!is_contained(PM.ProcResourceDefs, PRG)) 1938fc500041SJaved Absar PM.ProcResourceDefs.push_back(PRG); 193940c4f380SAndrew Trick } 1940eb4f5d28SClement Courbet // Add ProcResourceUnits unconditionally. 1941eb4f5d28SClement Courbet for (Record *PRU : Records.getAllDerivedDefinitions("ProcResourceUnits")) { 1942eb4f5d28SClement Courbet if (!PRU->getValueInit("SchedModel")->isComplete()) 1943eb4f5d28SClement Courbet continue; 1944eb4f5d28SClement Courbet CodeGenProcModel &PM = getProcModel(PRU->getValueAsDef("SchedModel")); 1945eb4f5d28SClement Courbet if (!is_contained(PM.ProcResourceDefs, PRU)) 1946eb4f5d28SClement Courbet PM.ProcResourceDefs.push_back(PRU); 1947eb4f5d28SClement Courbet } 19481e46d488SAndrew Trick // Finalize each ProcModel by sorting the record arrays. 19498a417c1fSCraig Topper for (CodeGenProcModel &PM : ProcModels) { 19503507c6e8SFangrui Song llvm::sort(PM.WriteResDefs, LessRecord()); 19513507c6e8SFangrui Song llvm::sort(PM.ReadAdvanceDefs, LessRecord()); 19523507c6e8SFangrui Song llvm::sort(PM.ProcResourceDefs, LessRecord()); 1953d34e60caSNicola Zaghen LLVM_DEBUG( 19541e46d488SAndrew Trick PM.dump(); 1955d34e60caSNicola Zaghen dbgs() << "WriteResDefs: "; for (RecIter RI = PM.WriteResDefs.begin(), 1956d34e60caSNicola Zaghen RE = PM.WriteResDefs.end(); 1957d34e60caSNicola Zaghen RI != RE; ++RI) { 19581e46d488SAndrew Trick if ((*RI)->isSubClassOf("WriteRes")) 19591e46d488SAndrew Trick dbgs() << (*RI)->getValueAsDef("WriteType")->getName() << " "; 19601e46d488SAndrew Trick else 19611e46d488SAndrew Trick dbgs() << (*RI)->getName() << " "; 1962d34e60caSNicola Zaghen } dbgs() << "\nReadAdvanceDefs: "; 19631e46d488SAndrew Trick for (RecIter RI = PM.ReadAdvanceDefs.begin(), 1964d34e60caSNicola Zaghen RE = PM.ReadAdvanceDefs.end(); 1965d34e60caSNicola Zaghen RI != RE; ++RI) { 19661e46d488SAndrew Trick if ((*RI)->isSubClassOf("ReadAdvance")) 19671e46d488SAndrew Trick dbgs() << (*RI)->getValueAsDef("ReadType")->getName() << " "; 19681e46d488SAndrew Trick else 19691e46d488SAndrew Trick dbgs() << (*RI)->getName() << " "; 1970d34e60caSNicola Zaghen } dbgs() 1971d34e60caSNicola Zaghen << "\nProcResourceDefs: "; 19721e46d488SAndrew Trick for (RecIter RI = PM.ProcResourceDefs.begin(), 1973d34e60caSNicola Zaghen RE = PM.ProcResourceDefs.end(); 1974d34e60caSNicola Zaghen RI != RE; ++RI) { dbgs() << (*RI)->getName() << " "; } dbgs() 1975d34e60caSNicola Zaghen << '\n'); 1976cf398b22SAndrew Trick verifyProcResourceGroups(PM); 19771e46d488SAndrew Trick } 19786b1fd9aaSMatthias Braun 19796b1fd9aaSMatthias Braun ProcResourceDefs.clear(); 19806b1fd9aaSMatthias Braun ProcResGroups.clear(); 19811e46d488SAndrew Trick } 19821e46d488SAndrew Trick 198317cb5799SMatthias Braun void CodeGenSchedModels::checkCompleteness() { 198417cb5799SMatthias Braun bool Complete = true; 198517cb5799SMatthias Braun bool HadCompleteModel = false; 198617cb5799SMatthias Braun for (const CodeGenProcModel &ProcModel : procModels()) { 19871d793b8aSSimon Pilgrim const bool HasItineraries = ProcModel.hasItineraries(); 198817cb5799SMatthias Braun if (!ProcModel.ModelDef->getValueAsBit("CompleteModel")) 198917cb5799SMatthias Braun continue; 199017cb5799SMatthias Braun for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) { 199117cb5799SMatthias Braun if (Inst->hasNoSchedulingInfo) 199217cb5799SMatthias Braun continue; 19935f95c9afSSimon Dardis if (ProcModel.isUnsupported(*Inst)) 19945f95c9afSSimon Dardis continue; 199517cb5799SMatthias Braun unsigned SCIdx = getSchedClassIdx(*Inst); 199617cb5799SMatthias Braun if (!SCIdx) { 199717cb5799SMatthias Braun if (Inst->TheDef->isValueUnset("SchedRW") && !HadCompleteModel) { 1998dff673bbSDaniel Sanders PrintError(Inst->TheDef->getLoc(), 1999dff673bbSDaniel Sanders "No schedule information for instruction '" + 2000301ed1cbSSimon Tatham Inst->TheDef->getName() + "' in SchedMachineModel '" + 2001301ed1cbSSimon Tatham ProcModel.ModelDef->getName() + "'"); 200217cb5799SMatthias Braun Complete = false; 200317cb5799SMatthias Braun } 200417cb5799SMatthias Braun continue; 200517cb5799SMatthias Braun } 200617cb5799SMatthias Braun 200717cb5799SMatthias Braun const CodeGenSchedClass &SC = getSchedClass(SCIdx); 200817cb5799SMatthias Braun if (!SC.Writes.empty()) 200917cb5799SMatthias Braun continue; 20101d793b8aSSimon Pilgrim if (HasItineraries && SC.ItinClassDef != nullptr && 201175cda2f2SUlrich Weigand SC.ItinClassDef->getName() != "NoItinerary") 201242d9ad9cSMatthias Braun continue; 201317cb5799SMatthias Braun 201417cb5799SMatthias Braun const RecVec &InstRWs = SC.InstRWs; 2015562e8294SDavid Majnemer auto I = find_if(InstRWs, [&ProcModel](const Record *R) { 2016562e8294SDavid Majnemer return R->getValueAsDef("SchedModel") == ProcModel.ModelDef; 201717cb5799SMatthias Braun }); 201817cb5799SMatthias Braun if (I == InstRWs.end()) { 2019dff673bbSDaniel Sanders PrintError(Inst->TheDef->getLoc(), "'" + ProcModel.ModelName + 2020dff673bbSDaniel Sanders "' lacks information for '" + 202117cb5799SMatthias Braun Inst->TheDef->getName() + "'"); 202217cb5799SMatthias Braun Complete = false; 202317cb5799SMatthias Braun } 202417cb5799SMatthias Braun } 202517cb5799SMatthias Braun HadCompleteModel = true; 202617cb5799SMatthias Braun } 2027a939bd07SMatthias Braun if (!Complete) { 2028a939bd07SMatthias Braun errs() << "\n\nIncomplete schedule models found.\n" 2029a939bd07SMatthias Braun << "- Consider setting 'CompleteModel = 0' while developing new models.\n" 2030a939bd07SMatthias Braun << "- Pseudo instructions can be marked with 'hasNoSchedulingInfo = 1'.\n" 2031a939bd07SMatthias Braun << "- Instructions should usually have Sched<[...]> as a superclass, " 20325f95c9afSSimon Dardis "you may temporarily use an empty list.\n" 20335f95c9afSSimon Dardis << "- Instructions related to unsupported features can be excluded with " 20345f95c9afSSimon Dardis "list<Predicate> UnsupportedFeatures = [HasA,..,HasY]; in the " 20355f95c9afSSimon Dardis "processor model.\n\n"; 203617cb5799SMatthias Braun PrintFatalError("Incomplete schedule model"); 203717cb5799SMatthias Braun } 2038a939bd07SMatthias Braun } 203917cb5799SMatthias Braun 20401e46d488SAndrew Trick // Collect itinerary class resources for each processor. 20411e46d488SAndrew Trick void CodeGenSchedModels::collectItinProcResources(Record *ItinClassDef) { 20421e46d488SAndrew Trick for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) { 20431e46d488SAndrew Trick const CodeGenProcModel &PM = ProcModels[PIdx]; 20441e46d488SAndrew Trick // For all ItinRW entries. 20451e46d488SAndrew Trick bool HasMatch = false; 20461e46d488SAndrew Trick for (RecIter II = PM.ItinRWDefs.begin(), IE = PM.ItinRWDefs.end(); 20471e46d488SAndrew Trick II != IE; ++II) { 20481e46d488SAndrew Trick RecVec Matched = (*II)->getValueAsListOfDefs("MatchedItinClasses"); 2049e4a23a41SKazu Hirata if (!llvm::is_contained(Matched, ItinClassDef)) 20501e46d488SAndrew Trick continue; 20511e46d488SAndrew Trick if (HasMatch) 2052635debe8SJoerg Sonnenberger PrintFatalError((*II)->getLoc(), "Duplicate itinerary class " 20531e46d488SAndrew Trick + ItinClassDef->getName() 20541e46d488SAndrew Trick + " in ItinResources for " + PM.ModelName); 20551e46d488SAndrew Trick HasMatch = true; 20561e46d488SAndrew Trick IdxVec Writes, Reads; 20571e46d488SAndrew Trick findRWs((*II)->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads); 20589f3293a9SCraig Topper collectRWResources(Writes, Reads, PIdx); 20591e46d488SAndrew Trick } 20601e46d488SAndrew Trick } 20611e46d488SAndrew Trick } 20621e46d488SAndrew Trick 2063d0b9c445SAndrew Trick void CodeGenSchedModels::collectRWResources(unsigned RWIdx, bool IsRead, 2064e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) { 2065d0b9c445SAndrew Trick const CodeGenSchedRW &SchedRW = getSchedRW(RWIdx, IsRead); 2066d0b9c445SAndrew Trick if (SchedRW.TheDef) { 2067d0b9c445SAndrew Trick if (!IsRead && SchedRW.TheDef->isSubClassOf("SchedWriteRes")) { 2068e1761952SBenjamin Kramer for (unsigned Idx : ProcIndices) 2069e1761952SBenjamin Kramer addWriteRes(SchedRW.TheDef, Idx); 2070d0b9c445SAndrew Trick } 2071d0b9c445SAndrew Trick else if (IsRead && SchedRW.TheDef->isSubClassOf("SchedReadAdvance")) { 2072e1761952SBenjamin Kramer for (unsigned Idx : ProcIndices) 2073e1761952SBenjamin Kramer addReadAdvance(SchedRW.TheDef, Idx); 2074d0b9c445SAndrew Trick } 2075d0b9c445SAndrew Trick } 2076d0b9c445SAndrew Trick for (RecIter AI = SchedRW.Aliases.begin(), AE = SchedRW.Aliases.end(); 2077d0b9c445SAndrew Trick AI != AE; ++AI) { 2078d0b9c445SAndrew Trick IdxVec AliasProcIndices; 2079d0b9c445SAndrew Trick if ((*AI)->getValueInit("SchedModel")->isComplete()) { 2080d0b9c445SAndrew Trick AliasProcIndices.push_back( 2081d0b9c445SAndrew Trick getProcModel((*AI)->getValueAsDef("SchedModel")).Index); 2082d0b9c445SAndrew Trick } 2083d0b9c445SAndrew Trick else 2084d0b9c445SAndrew Trick AliasProcIndices = ProcIndices; 2085d0b9c445SAndrew Trick const CodeGenSchedRW &AliasRW = getSchedRW((*AI)->getValueAsDef("AliasRW")); 2086d0b9c445SAndrew Trick assert(AliasRW.IsRead == IsRead && "cannot alias reads to writes"); 2087d0b9c445SAndrew Trick 2088d0b9c445SAndrew Trick IdxVec ExpandedRWs; 2089d0b9c445SAndrew Trick expandRWSequence(AliasRW.Index, ExpandedRWs, IsRead); 2090d0b9c445SAndrew Trick for (IdxIter SI = ExpandedRWs.begin(), SE = ExpandedRWs.end(); 2091d0b9c445SAndrew Trick SI != SE; ++SI) { 2092d0b9c445SAndrew Trick collectRWResources(*SI, IsRead, AliasProcIndices); 2093d0b9c445SAndrew Trick } 2094d0b9c445SAndrew Trick } 2095d0b9c445SAndrew Trick } 20961e46d488SAndrew Trick 20971e46d488SAndrew Trick // Collect resources for a set of read/write types and processor indices. 2098e1761952SBenjamin Kramer void CodeGenSchedModels::collectRWResources(ArrayRef<unsigned> Writes, 2099e1761952SBenjamin Kramer ArrayRef<unsigned> Reads, 2100e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) { 2101e1761952SBenjamin Kramer for (unsigned Idx : Writes) 2102e1761952SBenjamin Kramer collectRWResources(Idx, /*IsRead=*/false, ProcIndices); 2103d0b9c445SAndrew Trick 2104e1761952SBenjamin Kramer for (unsigned Idx : Reads) 2105e1761952SBenjamin Kramer collectRWResources(Idx, /*IsRead=*/true, ProcIndices); 21061e46d488SAndrew Trick } 2107d0b9c445SAndrew Trick 21081e46d488SAndrew Trick // Find the processor's resource units for this kind of resource. 21091e46d488SAndrew Trick Record *CodeGenSchedModels::findProcResUnits(Record *ProcResKind, 21109dc54e25SEvandro Menezes const CodeGenProcModel &PM, 21119dc54e25SEvandro Menezes ArrayRef<SMLoc> Loc) const { 21121e46d488SAndrew Trick if (ProcResKind->isSubClassOf("ProcResourceUnits")) 21131e46d488SAndrew Trick return ProcResKind; 21141e46d488SAndrew Trick 211524064771SCraig Topper Record *ProcUnitDef = nullptr; 21166b1fd9aaSMatthias Braun assert(!ProcResourceDefs.empty()); 21176b1fd9aaSMatthias Braun assert(!ProcResGroups.empty()); 21181e46d488SAndrew Trick 211967b042c2SJaved Absar for (Record *ProcResDef : ProcResourceDefs) { 212067b042c2SJaved Absar if (ProcResDef->getValueAsDef("Kind") == ProcResKind 212167b042c2SJaved Absar && ProcResDef->getValueAsDef("SchedModel") == PM.ModelDef) { 21221e46d488SAndrew Trick if (ProcUnitDef) { 21239dc54e25SEvandro Menezes PrintFatalError(Loc, 21241e46d488SAndrew Trick "Multiple ProcessorResourceUnits associated with " 21251e46d488SAndrew Trick + ProcResKind->getName()); 21261e46d488SAndrew Trick } 212767b042c2SJaved Absar ProcUnitDef = ProcResDef; 21281e46d488SAndrew Trick } 21291e46d488SAndrew Trick } 213067b042c2SJaved Absar for (Record *ProcResGroup : ProcResGroups) { 213167b042c2SJaved Absar if (ProcResGroup == ProcResKind 213267b042c2SJaved Absar && ProcResGroup->getValueAsDef("SchedModel") == PM.ModelDef) { 21334e67cba8SAndrew Trick if (ProcUnitDef) { 21349dc54e25SEvandro Menezes PrintFatalError(Loc, 21354e67cba8SAndrew Trick "Multiple ProcessorResourceUnits associated with " 21364e67cba8SAndrew Trick + ProcResKind->getName()); 21374e67cba8SAndrew Trick } 213867b042c2SJaved Absar ProcUnitDef = ProcResGroup; 21394e67cba8SAndrew Trick } 21404e67cba8SAndrew Trick } 21411e46d488SAndrew Trick if (!ProcUnitDef) { 21429dc54e25SEvandro Menezes PrintFatalError(Loc, 21431e46d488SAndrew Trick "No ProcessorResources associated with " 21441e46d488SAndrew Trick + ProcResKind->getName()); 21451e46d488SAndrew Trick } 21461e46d488SAndrew Trick return ProcUnitDef; 21471e46d488SAndrew Trick } 21481e46d488SAndrew Trick 21491e46d488SAndrew Trick // Iteratively add a resource and its super resources. 21501e46d488SAndrew Trick void CodeGenSchedModels::addProcResource(Record *ProcResKind, 21519dc54e25SEvandro Menezes CodeGenProcModel &PM, 21529dc54e25SEvandro Menezes ArrayRef<SMLoc> Loc) { 2153a3fe70d2SEugene Zelenko while (true) { 21549dc54e25SEvandro Menezes Record *ProcResUnits = findProcResUnits(ProcResKind, PM, Loc); 21551e46d488SAndrew Trick 21561e46d488SAndrew Trick // See if this ProcResource is already associated with this processor. 215742531260SDavid Majnemer if (is_contained(PM.ProcResourceDefs, ProcResUnits)) 21581e46d488SAndrew Trick return; 21591e46d488SAndrew Trick 21601e46d488SAndrew Trick PM.ProcResourceDefs.push_back(ProcResUnits); 21614e67cba8SAndrew Trick if (ProcResUnits->isSubClassOf("ProcResGroup")) 21624e67cba8SAndrew Trick return; 21634e67cba8SAndrew Trick 21641e46d488SAndrew Trick if (!ProcResUnits->getValueInit("Super")->isComplete()) 21651e46d488SAndrew Trick return; 21661e46d488SAndrew Trick 21671e46d488SAndrew Trick ProcResKind = ProcResUnits->getValueAsDef("Super"); 21681e46d488SAndrew Trick } 21691e46d488SAndrew Trick } 21701e46d488SAndrew Trick 21711e46d488SAndrew Trick // Add resources for a SchedWrite to this processor if they don't exist. 21721e46d488SAndrew Trick void CodeGenSchedModels::addWriteRes(Record *ProcWriteResDef, unsigned PIdx) { 21739257b8f8SAndrew Trick assert(PIdx && "don't add resources to an invalid Processor model"); 21749257b8f8SAndrew Trick 21751e46d488SAndrew Trick RecVec &WRDefs = ProcModels[PIdx].WriteResDefs; 217642531260SDavid Majnemer if (is_contained(WRDefs, ProcWriteResDef)) 21771e46d488SAndrew Trick return; 21781e46d488SAndrew Trick WRDefs.push_back(ProcWriteResDef); 21791e46d488SAndrew Trick 21801e46d488SAndrew Trick // Visit ProcResourceKinds referenced by the newly discovered WriteRes. 21811e46d488SAndrew Trick RecVec ProcResDefs = ProcWriteResDef->getValueAsListOfDefs("ProcResources"); 21821e46d488SAndrew Trick for (RecIter WritePRI = ProcResDefs.begin(), WritePRE = ProcResDefs.end(); 21831e46d488SAndrew Trick WritePRI != WritePRE; ++WritePRI) { 21849dc54e25SEvandro Menezes addProcResource(*WritePRI, ProcModels[PIdx], ProcWriteResDef->getLoc()); 21851e46d488SAndrew Trick } 21861e46d488SAndrew Trick } 21871e46d488SAndrew Trick 21881e46d488SAndrew Trick // Add resources for a ReadAdvance to this processor if they don't exist. 21891e46d488SAndrew Trick void CodeGenSchedModels::addReadAdvance(Record *ProcReadAdvanceDef, 21901e46d488SAndrew Trick unsigned PIdx) { 21911e46d488SAndrew Trick RecVec &RADefs = ProcModels[PIdx].ReadAdvanceDefs; 219242531260SDavid Majnemer if (is_contained(RADefs, ProcReadAdvanceDef)) 21931e46d488SAndrew Trick return; 21941e46d488SAndrew Trick RADefs.push_back(ProcReadAdvanceDef); 21951e46d488SAndrew Trick } 21961e46d488SAndrew Trick 21978fa00f50SAndrew Trick unsigned CodeGenProcModel::getProcResourceIdx(Record *PRDef) const { 21980d955d0bSDavid Majnemer RecIter PRPos = find(ProcResourceDefs, PRDef); 21998fa00f50SAndrew Trick if (PRPos == ProcResourceDefs.end()) 2200635debe8SJoerg Sonnenberger PrintFatalError(PRDef->getLoc(), "ProcResource def is not included in " 22018fa00f50SAndrew Trick "the ProcResources list for " + ModelName); 22028fa00f50SAndrew Trick // Idx=0 is reserved for invalid. 22037296139dSRafael Espindola return 1 + (PRPos - ProcResourceDefs.begin()); 22048fa00f50SAndrew Trick } 22058fa00f50SAndrew Trick 22065f95c9afSSimon Dardis bool CodeGenProcModel::isUnsupported(const CodeGenInstruction &Inst) const { 22075f95c9afSSimon Dardis for (const Record *TheDef : UnsupportedFeaturesDefs) { 22085f95c9afSSimon Dardis for (const Record *PredDef : Inst.TheDef->getValueAsListOfDefs("Predicates")) { 22095f95c9afSSimon Dardis if (TheDef->getName() == PredDef->getName()) 22105f95c9afSSimon Dardis return true; 22115f95c9afSSimon Dardis } 22125f95c9afSSimon Dardis } 22135f95c9afSSimon Dardis return false; 22145f95c9afSSimon Dardis } 22155f95c9afSSimon Dardis 221676686496SAndrew Trick #ifndef NDEBUG 221776686496SAndrew Trick void CodeGenProcModel::dump() const { 221876686496SAndrew Trick dbgs() << Index << ": " << ModelName << " " 221976686496SAndrew Trick << (ModelDef ? ModelDef->getName() : "inferred") << " " 222076686496SAndrew Trick << (ItinsDef ? ItinsDef->getName() : "no itinerary") << '\n'; 222176686496SAndrew Trick } 222276686496SAndrew Trick 222376686496SAndrew Trick void CodeGenSchedRW::dump() const { 222476686496SAndrew Trick dbgs() << Name << (IsVariadic ? " (V) " : " "); 222576686496SAndrew Trick if (IsSequence) { 222676686496SAndrew Trick dbgs() << "("; 222776686496SAndrew Trick dumpIdxVec(Sequence); 222876686496SAndrew Trick dbgs() << ")"; 222976686496SAndrew Trick } 223076686496SAndrew Trick } 223176686496SAndrew Trick 223276686496SAndrew Trick void CodeGenSchedClass::dump(const CodeGenSchedModels* SchedModels) const { 2233bf8a28dcSAndrew Trick dbgs() << "SCHEDCLASS " << Index << ":" << Name << '\n' 223476686496SAndrew Trick << " Writes: "; 223576686496SAndrew Trick for (unsigned i = 0, N = Writes.size(); i < N; ++i) { 223676686496SAndrew Trick SchedModels->getSchedWrite(Writes[i]).dump(); 223776686496SAndrew Trick if (i < N-1) { 223876686496SAndrew Trick dbgs() << '\n'; 223976686496SAndrew Trick dbgs().indent(10); 224076686496SAndrew Trick } 224176686496SAndrew Trick } 224276686496SAndrew Trick dbgs() << "\n Reads: "; 224376686496SAndrew Trick for (unsigned i = 0, N = Reads.size(); i < N; ++i) { 224476686496SAndrew Trick SchedModels->getSchedRead(Reads[i]).dump(); 224576686496SAndrew Trick if (i < N-1) { 224676686496SAndrew Trick dbgs() << '\n'; 224776686496SAndrew Trick dbgs().indent(10); 224876686496SAndrew Trick } 224976686496SAndrew Trick } 2250f2741f2aSDavid Green dbgs() << "\n ProcIdx: "; dumpIdxVec(ProcIndices); 2251e97978f9SAndrew Trick if (!Transitions.empty()) { 2252e97978f9SAndrew Trick dbgs() << "\n Transitions for Proc "; 225367b042c2SJaved Absar for (const CodeGenSchedTransition &Transition : Transitions) { 225453401e8eSEvgeny Leviant dbgs() << Transition.ProcIndex << ", "; 2255e97978f9SAndrew Trick } 2256e97978f9SAndrew Trick } 2257f2741f2aSDavid Green dbgs() << '\n'; 225876686496SAndrew Trick } 225933401e84SAndrew Trick 226033401e84SAndrew Trick void PredTransitions::dump() const { 226133401e84SAndrew Trick dbgs() << "Expanded Variants:\n"; 226233401e84SAndrew Trick for (std::vector<PredTransition>::const_iterator 226333401e84SAndrew Trick TI = TransVec.begin(), TE = TransVec.end(); TI != TE; ++TI) { 226433401e84SAndrew Trick dbgs() << "{"; 2265*643c00f7SKazu Hirata ListSeparator LS; 2266*643c00f7SKazu Hirata for (const PredCheck &PC : TI->PredTerm) 2267*643c00f7SKazu Hirata dbgs() << LS << SchedModels.getSchedRW(PC.RWIdx, PC.IsRead).Name << ":" 2268*643c00f7SKazu Hirata << PC.Predicate->getName(); 226933401e84SAndrew Trick dbgs() << "},\n => {"; 227033401e84SAndrew Trick for (SmallVectorImpl<SmallVector<unsigned,4>>::const_iterator 227133401e84SAndrew Trick WSI = TI->WriteSequences.begin(), WSE = TI->WriteSequences.end(); 227233401e84SAndrew Trick WSI != WSE; ++WSI) { 227333401e84SAndrew Trick dbgs() << "("; 2274*643c00f7SKazu Hirata ListSeparator LS; 2275*643c00f7SKazu Hirata for (unsigned N : *WSI) 2276*643c00f7SKazu Hirata dbgs() << LS << SchedModels.getSchedWrite(N).Name; 227733401e84SAndrew Trick dbgs() << "),"; 227833401e84SAndrew Trick } 227933401e84SAndrew Trick dbgs() << "}\n"; 228033401e84SAndrew Trick } 228133401e84SAndrew Trick } 228276686496SAndrew Trick #endif // NDEBUG 2283