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/SmallVector.h"
21a3fe70d2SEugene Zelenko #include "llvm/Support/Casting.h"
2287255e34SAndrew Trick #include "llvm/Support/Debug.h"
239e1deb69SAndrew Trick #include "llvm/Support/Regex.h"
24cbce2f02SBenjamin Kramer #include "llvm/Support/raw_ostream.h"
2591d19d8eSChandler Carruth #include "llvm/TableGen/Error.h"
26a3fe70d2SEugene Zelenko #include <algorithm>
27a3fe70d2SEugene Zelenko #include <iterator>
28a3fe70d2SEugene Zelenko #include <utility>
2987255e34SAndrew Trick
3087255e34SAndrew Trick using namespace llvm;
3187255e34SAndrew Trick
3297acce29SChandler Carruth #define DEBUG_TYPE "subtarget-emitter"
3397acce29SChandler Carruth
3476686496SAndrew Trick #ifndef NDEBUG
dumpIdxVec(ArrayRef<unsigned> V)35e1761952SBenjamin Kramer static void dumpIdxVec(ArrayRef<unsigned> V) {
36e1761952SBenjamin Kramer for (unsigned Idx : V)
37e1761952SBenjamin Kramer dbgs() << Idx << ", ";
3833401e84SAndrew Trick }
3976686496SAndrew Trick #endif
4076686496SAndrew Trick
4105c5a932SJuergen Ributzka namespace {
42a3fe70d2SEugene Zelenko
439e1deb69SAndrew Trick // (instrs a, b, ...) Evaluate and union all arguments. Identical to AddOp.
449e1deb69SAndrew Trick struct InstrsOp : public SetTheory::Operator {
apply__anon4f9dd10d0111::InstrsOp45716b0730SCraig Topper void apply(SetTheory &ST, DagInit *Expr, SetTheory::RecSet &Elts,
46716b0730SCraig Topper ArrayRef<SMLoc> Loc) override {
4770909373SJoerg Sonnenberger ST.evaluate(Expr->arg_begin(), Expr->arg_end(), Elts, Loc);
489e1deb69SAndrew Trick }
4905c5a932SJuergen Ributzka };
509e1deb69SAndrew Trick
519e1deb69SAndrew Trick // (instregex "OpcPat",...) Find all instructions matching an opcode pattern.
529e1deb69SAndrew Trick struct InstRegexOp : public SetTheory::Operator {
539e1deb69SAndrew Trick const CodeGenTarget &Target;
InstRegexOp__anon4f9dd10d0111::InstRegexOp549e1deb69SAndrew Trick InstRegexOp(const CodeGenTarget &t): Target(t) {}
559e1deb69SAndrew Trick
56cbce2f02SBenjamin Kramer /// Remove any text inside of parentheses from S.
removeParens__anon4f9dd10d0111::InstRegexOp57cbce2f02SBenjamin Kramer static std::string removeParens(llvm::StringRef S) {
58cbce2f02SBenjamin Kramer std::string Result;
59cbce2f02SBenjamin Kramer unsigned Paren = 0;
60cbce2f02SBenjamin Kramer // NB: We don't care about escaped parens here.
61cbce2f02SBenjamin Kramer for (char C : S) {
62cbce2f02SBenjamin Kramer switch (C) {
63cbce2f02SBenjamin Kramer case '(':
64cbce2f02SBenjamin Kramer ++Paren;
65cbce2f02SBenjamin Kramer break;
66cbce2f02SBenjamin Kramer case ')':
67cbce2f02SBenjamin Kramer --Paren;
68cbce2f02SBenjamin Kramer break;
69cbce2f02SBenjamin Kramer default:
70cbce2f02SBenjamin Kramer if (Paren == 0)
71cbce2f02SBenjamin Kramer Result += C;
72cbce2f02SBenjamin Kramer }
73cbce2f02SBenjamin Kramer }
74cbce2f02SBenjamin Kramer return Result;
75cbce2f02SBenjamin Kramer }
76cbce2f02SBenjamin Kramer
apply__anon4f9dd10d0111::InstRegexOp7705c5a932SJuergen Ributzka void apply(SetTheory &ST, DagInit *Expr, SetTheory::RecSet &Elts,
78716b0730SCraig Topper ArrayRef<SMLoc> Loc) override {
79d760c20cSRoman Tereshin ArrayRef<const CodeGenInstruction *> Instructions =
80d760c20cSRoman Tereshin Target.getInstructionsByEnumValue();
81d760c20cSRoman Tereshin
82d760c20cSRoman Tereshin unsigned NumGeneric = Target.getNumFixedInstructions();
839e493183SRoman Tereshin unsigned NumPseudos = Target.getNumPseudoInstructions();
84d760c20cSRoman Tereshin auto Generics = Instructions.slice(0, NumGeneric);
859e493183SRoman Tereshin auto Pseudos = Instructions.slice(NumGeneric, NumPseudos);
869e493183SRoman Tereshin auto NonPseudos = Instructions.slice(NumGeneric + NumPseudos);
87d760c20cSRoman Tereshin
886a6e3821SKazu Hirata for (Init *Arg : Expr->getArgs()) {
89fc500041SJaved Absar StringInit *SI = dyn_cast<StringInit>(Arg);
909e1deb69SAndrew Trick if (!SI)
91cbce2f02SBenjamin Kramer PrintFatalError(Loc, "instregex requires pattern string: " +
92cbce2f02SBenjamin Kramer Expr->getAsString());
9375cc2f9eSSimon Pilgrim StringRef Original = SI->getValue();
9475cc2f9eSSimon Pilgrim
95cbce2f02SBenjamin Kramer // Extract a prefix that we can binary search on.
96cbce2f02SBenjamin Kramer static const char RegexMetachars[] = "()^$|*+?.[]\\{}";
9775cc2f9eSSimon Pilgrim auto FirstMeta = Original.find_first_of(RegexMetachars);
9875cc2f9eSSimon Pilgrim
99cbce2f02SBenjamin Kramer // Look for top-level | or ?. We cannot optimize them to binary search.
10075cc2f9eSSimon Pilgrim if (removeParens(Original).find_first_of("|?") != std::string::npos)
101cbce2f02SBenjamin Kramer FirstMeta = 0;
10275cc2f9eSSimon Pilgrim
10375cc2f9eSSimon Pilgrim Optional<Regex> Regexpr = None;
10475cc2f9eSSimon Pilgrim StringRef Prefix = Original.substr(0, FirstMeta);
10534d512ecSSimon Pilgrim StringRef PatStr = Original.substr(FirstMeta);
10634d512ecSSimon Pilgrim if (!PatStr.empty()) {
107cbce2f02SBenjamin Kramer // For the rest use a python-style prefix match.
108adcd0268SBenjamin Kramer std::string pat = std::string(PatStr);
1099e1deb69SAndrew Trick if (pat[0] != '^') {
1109e1deb69SAndrew Trick pat.insert(0, "^(");
1119e1deb69SAndrew Trick pat.insert(pat.end(), ')');
1129e1deb69SAndrew Trick }
11375cc2f9eSSimon Pilgrim Regexpr = Regex(pat);
1149e1deb69SAndrew Trick }
11575cc2f9eSSimon Pilgrim
116d044f9c9SSimon Pilgrim int NumMatches = 0;
117d044f9c9SSimon Pilgrim
118cbce2f02SBenjamin Kramer // The generic opcodes are unsorted, handle them manually.
11975cc2f9eSSimon Pilgrim for (auto *Inst : Generics) {
12075cc2f9eSSimon Pilgrim StringRef InstName = Inst->TheDef->getName();
12175cc2f9eSSimon Pilgrim if (InstName.startswith(Prefix) &&
122d044f9c9SSimon Pilgrim (!Regexpr || Regexpr->match(InstName.substr(Prefix.size())))) {
123cbce2f02SBenjamin Kramer Elts.insert(Inst->TheDef);
124d044f9c9SSimon Pilgrim NumMatches++;
125d044f9c9SSimon Pilgrim }
126cbce2f02SBenjamin Kramer }
127cbce2f02SBenjamin Kramer
1289e493183SRoman Tereshin // Target instructions are split into two ranges: pseudo instructions
1299e493183SRoman Tereshin // first, than non-pseudos. Each range is in lexicographical order
1309e493183SRoman Tereshin // sorted by name. Find the sub-ranges that start with our prefix.
131cbce2f02SBenjamin Kramer struct Comp {
132cbce2f02SBenjamin Kramer bool operator()(const CodeGenInstruction *LHS, StringRef RHS) {
133cbce2f02SBenjamin Kramer return LHS->TheDef->getName() < RHS;
134cbce2f02SBenjamin Kramer }
135cbce2f02SBenjamin Kramer bool operator()(StringRef LHS, const CodeGenInstruction *RHS) {
136cbce2f02SBenjamin Kramer return LHS < RHS->TheDef->getName() &&
137cbce2f02SBenjamin Kramer !RHS->TheDef->getName().startswith(LHS);
138cbce2f02SBenjamin Kramer }
139cbce2f02SBenjamin Kramer };
1409e493183SRoman Tereshin auto Range1 =
1419e493183SRoman Tereshin std::equal_range(Pseudos.begin(), Pseudos.end(), Prefix, Comp());
1429e493183SRoman Tereshin auto Range2 = std::equal_range(NonPseudos.begin(), NonPseudos.end(),
14375cc2f9eSSimon Pilgrim Prefix, Comp());
144cbce2f02SBenjamin Kramer
1459e493183SRoman Tereshin // For these ranges we know that instruction names start with the prefix.
1469e493183SRoman Tereshin // Check if there's a regex that needs to be checked.
147d760c20cSRoman Tereshin const auto HandleNonGeneric = [&](const CodeGenInstruction *Inst) {
14875cc2f9eSSimon Pilgrim StringRef InstName = Inst->TheDef->getName();
149d044f9c9SSimon Pilgrim if (!Regexpr || Regexpr->match(InstName.substr(Prefix.size()))) {
1508a417c1fSCraig Topper Elts.insert(Inst->TheDef);
151d044f9c9SSimon Pilgrim NumMatches++;
1529e1deb69SAndrew Trick }
153d760c20cSRoman Tereshin };
1549e493183SRoman Tereshin std::for_each(Range1.first, Range1.second, HandleNonGeneric);
1559e493183SRoman Tereshin std::for_each(Range2.first, Range2.second, HandleNonGeneric);
156d044f9c9SSimon Pilgrim
157d044f9c9SSimon Pilgrim if (0 == NumMatches)
158d044f9c9SSimon Pilgrim PrintFatalError(Loc, "instregex has no matches: " + Original);
159d044f9c9SSimon Pilgrim }
1609e1deb69SAndrew Trick }
16105c5a932SJuergen Ributzka };
162a3fe70d2SEugene Zelenko
16305c5a932SJuergen Ributzka } // end anonymous namespace
1649e1deb69SAndrew Trick
16576686496SAndrew Trick /// CodeGenModels ctor interprets machine model records and populates maps.
CodeGenSchedModels(RecordKeeper & RK,const CodeGenTarget & TGT)16687255e34SAndrew Trick CodeGenSchedModels::CodeGenSchedModels(RecordKeeper &RK,
16787255e34SAndrew Trick const CodeGenTarget &TGT):
168bf8a28dcSAndrew Trick Records(RK), Target(TGT) {
16987255e34SAndrew Trick
1709e1deb69SAndrew Trick Sets.addFieldExpander("InstRW", "Instrs");
1719e1deb69SAndrew Trick
1729e1deb69SAndrew Trick // Allow Set evaluation to recognize the dags used in InstRW records:
1739e1deb69SAndrew Trick // (instrs Op1, Op1...)
1740eaee545SJonas Devlieghere Sets.addOperator("instrs", std::make_unique<InstrsOp>());
1750eaee545SJonas Devlieghere Sets.addOperator("instregex", std::make_unique<InstRegexOp>(Target));
1769e1deb69SAndrew Trick
17776686496SAndrew Trick // Instantiate a CodeGenProcModel for each SchedMachineModel with the values
17876686496SAndrew Trick // that are explicitly referenced in tablegen records. Resources associated
17976686496SAndrew Trick // with each processor will be derived later. Populate ProcModelMap with the
18076686496SAndrew Trick // CodeGenProcModel instances.
18176686496SAndrew Trick collectProcModels();
18287255e34SAndrew Trick
18376686496SAndrew Trick // Instantiate a CodeGenSchedRW for each SchedReadWrite record explicitly
18476686496SAndrew Trick // defined, and populate SchedReads and SchedWrites vectors. Implicit
18576686496SAndrew Trick // SchedReadWrites that represent sequences derived from expanded variant will
18676686496SAndrew Trick // be inferred later.
18776686496SAndrew Trick collectSchedRW();
18876686496SAndrew Trick
18976686496SAndrew Trick // Instantiate a CodeGenSchedClass for each unique SchedRW signature directly
19076686496SAndrew Trick // required by an instruction definition, and populate SchedClassIdxMap. Set
19176686496SAndrew Trick // NumItineraryClasses to the number of explicit itinerary classes referenced
19276686496SAndrew Trick // by instructions. Set NumInstrSchedClasses to the number of itinerary
19376686496SAndrew Trick // classes plus any classes implied by instructions that derive from class
19476686496SAndrew Trick // Sched and provide SchedRW list. This does not infer any new classes from
19576686496SAndrew Trick // SchedVariant.
19676686496SAndrew Trick collectSchedClasses();
19776686496SAndrew Trick
19876686496SAndrew Trick // Find instruction itineraries for each processor. Sort and populate
1999257b8f8SAndrew Trick // CodeGenProcModel::ItinDefList. (Cycle-to-cycle itineraries). This requires
20076686496SAndrew Trick // all itinerary classes to be discovered.
20176686496SAndrew Trick collectProcItins();
20276686496SAndrew Trick
20376686496SAndrew Trick // Find ItinRW records for each processor and itinerary class.
20476686496SAndrew Trick // (For per-operand resources mapped to itinerary classes).
20576686496SAndrew Trick collectProcItinRW();
20633401e84SAndrew Trick
2075f95c9afSSimon Dardis // Find UnsupportedFeatures records for each processor.
2085f95c9afSSimon Dardis // (For per-operand resources mapped to itinerary classes).
2095f95c9afSSimon Dardis collectProcUnsupportedFeatures();
2105f95c9afSSimon Dardis
21133401e84SAndrew Trick // Infer new SchedClasses from SchedVariant.
21233401e84SAndrew Trick inferSchedClasses();
21333401e84SAndrew Trick
2141e46d488SAndrew Trick // Populate each CodeGenProcModel's WriteResDefs, ReadAdvanceDefs, and
2151e46d488SAndrew Trick // ProcResourceDefs.
216d34e60caSNicola Zaghen LLVM_DEBUG(
217d34e60caSNicola Zaghen dbgs() << "\n+++ RESOURCE DEFINITIONS (collectProcResources) +++\n");
2181e46d488SAndrew Trick collectProcResources();
21917cb5799SMatthias Braun
220c74ad502SAndrea Di Biagio // Collect optional processor description.
221c74ad502SAndrea Di Biagio collectOptionalProcessorInfo();
222c74ad502SAndrea Di Biagio
2239eaf5aa0SAndrea Di Biagio // Check MCInstPredicate definitions.
2249eaf5aa0SAndrea Di Biagio checkMCInstPredicates();
2259eaf5aa0SAndrea Di Biagio
2268b6c314bSAndrea Di Biagio // Check STIPredicate definitions.
2278b6c314bSAndrea Di Biagio checkSTIPredicates();
2288b6c314bSAndrea Di Biagio
2298b6c314bSAndrea Di Biagio // Find STIPredicate definitions for each processor model, and construct
2308b6c314bSAndrea Di Biagio // STIPredicateFunction objects.
2318b6c314bSAndrea Di Biagio collectSTIPredicates();
2328b6c314bSAndrea Di Biagio
233c74ad502SAndrea Di Biagio checkCompleteness();
234c74ad502SAndrea Di Biagio }
235c74ad502SAndrea Di Biagio
checkSTIPredicates() const2368b6c314bSAndrea Di Biagio void CodeGenSchedModels::checkSTIPredicates() const {
2378b6c314bSAndrea Di Biagio DenseMap<StringRef, const Record *> Declarations;
2388b6c314bSAndrea Di Biagio
2398b6c314bSAndrea Di Biagio // There cannot be multiple declarations with the same name.
2408b6c314bSAndrea Di Biagio const RecVec Decls = Records.getAllDerivedDefinitions("STIPredicateDecl");
2418b6c314bSAndrea Di Biagio for (const Record *R : Decls) {
2428b6c314bSAndrea Di Biagio StringRef Name = R->getValueAsString("Name");
2438b6c314bSAndrea Di Biagio const auto It = Declarations.find(Name);
2448b6c314bSAndrea Di Biagio if (It == Declarations.end()) {
2458b6c314bSAndrea Di Biagio Declarations[Name] = R;
2468b6c314bSAndrea Di Biagio continue;
2478b6c314bSAndrea Di Biagio }
2488b6c314bSAndrea Di Biagio
2498b6c314bSAndrea Di Biagio PrintError(R->getLoc(), "STIPredicate " + Name + " multiply declared.");
25088ce9f9bSJon Roelofs PrintFatalNote(It->second->getLoc(), "Previous declaration was here.");
2518b6c314bSAndrea Di Biagio }
2528b6c314bSAndrea Di Biagio
2538b6c314bSAndrea Di Biagio // Disallow InstructionEquivalenceClasses with an empty instruction list.
2548b6c314bSAndrea Di Biagio const RecVec Defs =
2558b6c314bSAndrea Di Biagio Records.getAllDerivedDefinitions("InstructionEquivalenceClass");
2568b6c314bSAndrea Di Biagio for (const Record *R : Defs) {
2578b6c314bSAndrea Di Biagio RecVec Opcodes = R->getValueAsListOfDefs("Opcodes");
2588b6c314bSAndrea Di Biagio if (Opcodes.empty()) {
2598b6c314bSAndrea Di Biagio PrintFatalError(R->getLoc(), "Invalid InstructionEquivalenceClass "
2608b6c314bSAndrea Di Biagio "defined with an empty opcode list.");
2618b6c314bSAndrea Di Biagio }
2628b6c314bSAndrea Di Biagio }
2638b6c314bSAndrea Di Biagio }
2648b6c314bSAndrea Di Biagio
2658b6c314bSAndrea Di Biagio // Used by function `processSTIPredicate` to construct a mask of machine
2668b6c314bSAndrea Di Biagio // instruction operands.
constructOperandMask(ArrayRef<int64_t> Indices)2678b6c314bSAndrea Di Biagio static APInt constructOperandMask(ArrayRef<int64_t> Indices) {
2688b6c314bSAndrea Di Biagio APInt OperandMask;
2698b6c314bSAndrea Di Biagio if (Indices.empty())
2708b6c314bSAndrea Di Biagio return OperandMask;
2718b6c314bSAndrea Di Biagio
2728b6c314bSAndrea Di Biagio int64_t MaxIndex = *std::max_element(Indices.begin(), Indices.end());
2738b6c314bSAndrea Di Biagio assert(MaxIndex >= 0 && "Invalid negative indices in input!");
2748b6c314bSAndrea Di Biagio OperandMask = OperandMask.zext(MaxIndex + 1);
2758b6c314bSAndrea Di Biagio for (const int64_t Index : Indices) {
2768b6c314bSAndrea Di Biagio assert(Index >= 0 && "Invalid negative indices!");
2778b6c314bSAndrea Di Biagio OperandMask.setBit(Index);
2788b6c314bSAndrea Di Biagio }
2798b6c314bSAndrea Di Biagio
2808b6c314bSAndrea Di Biagio return OperandMask;
2818b6c314bSAndrea Di Biagio }
2828b6c314bSAndrea Di Biagio
2838b6c314bSAndrea Di Biagio static void
processSTIPredicate(STIPredicateFunction & Fn,const ProcModelMapTy & ProcModelMap)2848b6c314bSAndrea Di Biagio processSTIPredicate(STIPredicateFunction &Fn,
285993eaf2dSEvgeny Leviant const ProcModelMapTy &ProcModelMap) {
2868b6c314bSAndrea Di Biagio DenseMap<const Record *, unsigned> Opcode2Index;
2878b6c314bSAndrea Di Biagio using OpcodeMapPair = std::pair<const Record *, OpcodeInfo>;
2888b6c314bSAndrea Di Biagio std::vector<OpcodeMapPair> OpcodeMappings;
2898b6c314bSAndrea Di Biagio std::vector<std::pair<APInt, APInt>> OpcodeMasks;
2908b6c314bSAndrea Di Biagio
2918b6c314bSAndrea Di Biagio DenseMap<const Record *, unsigned> Predicate2Index;
2928b6c314bSAndrea Di Biagio unsigned NumUniquePredicates = 0;
2938b6c314bSAndrea Di Biagio
2948b6c314bSAndrea Di Biagio // Number unique predicates and opcodes used by InstructionEquivalenceClass
2958b6c314bSAndrea Di Biagio // definitions. Each unique opcode will be associated with an OpcodeInfo
2968b6c314bSAndrea Di Biagio // object.
2978b6c314bSAndrea Di Biagio for (const Record *Def : Fn.getDefinitions()) {
2988b6c314bSAndrea Di Biagio RecVec Classes = Def->getValueAsListOfDefs("Classes");
2998b6c314bSAndrea Di Biagio for (const Record *EC : Classes) {
3008b6c314bSAndrea Di Biagio const Record *Pred = EC->getValueAsDef("Predicate");
3018b6c314bSAndrea Di Biagio if (Predicate2Index.find(Pred) == Predicate2Index.end())
3028b6c314bSAndrea Di Biagio Predicate2Index[Pred] = NumUniquePredicates++;
3038b6c314bSAndrea Di Biagio
3048b6c314bSAndrea Di Biagio RecVec Opcodes = EC->getValueAsListOfDefs("Opcodes");
3058b6c314bSAndrea Di Biagio for (const Record *Opcode : Opcodes) {
3068b6c314bSAndrea Di Biagio if (Opcode2Index.find(Opcode) == Opcode2Index.end()) {
3078b6c314bSAndrea Di Biagio Opcode2Index[Opcode] = OpcodeMappings.size();
3088b6c314bSAndrea Di Biagio OpcodeMappings.emplace_back(Opcode, OpcodeInfo());
3098b6c314bSAndrea Di Biagio }
3108b6c314bSAndrea Di Biagio }
3118b6c314bSAndrea Di Biagio }
3128b6c314bSAndrea Di Biagio }
3138b6c314bSAndrea Di Biagio
3148b6c314bSAndrea Di Biagio // Initialize vector `OpcodeMasks` with default values. We want to keep track
3158b6c314bSAndrea Di Biagio // of which processors "use" which opcodes. We also want to be able to
3168b6c314bSAndrea Di Biagio // identify predicates that are used by different processors for a same
3178b6c314bSAndrea Di Biagio // opcode.
3188b6c314bSAndrea Di Biagio // This information is used later on by this algorithm to sort OpcodeMapping
3198b6c314bSAndrea Di Biagio // elements based on their processor and predicate sets.
3208b6c314bSAndrea Di Biagio OpcodeMasks.resize(OpcodeMappings.size());
3218b6c314bSAndrea Di Biagio APInt DefaultProcMask(ProcModelMap.size(), 0);
3228b6c314bSAndrea Di Biagio APInt DefaultPredMask(NumUniquePredicates, 0);
3238b6c314bSAndrea Di Biagio for (std::pair<APInt, APInt> &MaskPair : OpcodeMasks)
3248b6c314bSAndrea Di Biagio MaskPair = std::make_pair(DefaultProcMask, DefaultPredMask);
3258b6c314bSAndrea Di Biagio
3268b6c314bSAndrea Di Biagio // Construct a OpcodeInfo object for every unique opcode declared by an
3278b6c314bSAndrea Di Biagio // InstructionEquivalenceClass definition.
3288b6c314bSAndrea Di Biagio for (const Record *Def : Fn.getDefinitions()) {
3298b6c314bSAndrea Di Biagio RecVec Classes = Def->getValueAsListOfDefs("Classes");
3308b6c314bSAndrea Di Biagio const Record *SchedModel = Def->getValueAsDef("SchedModel");
3318b6c314bSAndrea Di Biagio unsigned ProcIndex = ProcModelMap.find(SchedModel)->second;
3328b6c314bSAndrea Di Biagio APInt ProcMask(ProcModelMap.size(), 0);
3338b6c314bSAndrea Di Biagio ProcMask.setBit(ProcIndex);
3348b6c314bSAndrea Di Biagio
3358b6c314bSAndrea Di Biagio for (const Record *EC : Classes) {
3368b6c314bSAndrea Di Biagio RecVec Opcodes = EC->getValueAsListOfDefs("Opcodes");
3378b6c314bSAndrea Di Biagio
3388b6c314bSAndrea Di Biagio std::vector<int64_t> OpIndices =
3398b6c314bSAndrea Di Biagio EC->getValueAsListOfInts("OperandIndices");
3408b6c314bSAndrea Di Biagio APInt OperandMask = constructOperandMask(OpIndices);
3418b6c314bSAndrea Di Biagio
3428b6c314bSAndrea Di Biagio const Record *Pred = EC->getValueAsDef("Predicate");
3438b6c314bSAndrea Di Biagio APInt PredMask(NumUniquePredicates, 0);
3448b6c314bSAndrea Di Biagio PredMask.setBit(Predicate2Index[Pred]);
3458b6c314bSAndrea Di Biagio
3468b6c314bSAndrea Di Biagio for (const Record *Opcode : Opcodes) {
3478b6c314bSAndrea Di Biagio unsigned OpcodeIdx = Opcode2Index[Opcode];
3488b6c314bSAndrea Di Biagio if (OpcodeMasks[OpcodeIdx].first[ProcIndex]) {
3498b6c314bSAndrea Di Biagio std::string Message =
3508b6c314bSAndrea Di Biagio "Opcode " + Opcode->getName().str() +
3518b6c314bSAndrea Di Biagio " used by multiple InstructionEquivalenceClass definitions.";
3528b6c314bSAndrea Di Biagio PrintFatalError(EC->getLoc(), Message);
3538b6c314bSAndrea Di Biagio }
3548b6c314bSAndrea Di Biagio OpcodeMasks[OpcodeIdx].first |= ProcMask;
3558b6c314bSAndrea Di Biagio OpcodeMasks[OpcodeIdx].second |= PredMask;
3568b6c314bSAndrea Di Biagio OpcodeInfo &OI = OpcodeMappings[OpcodeIdx].second;
3578b6c314bSAndrea Di Biagio
3588b6c314bSAndrea Di Biagio OI.addPredicateForProcModel(ProcMask, OperandMask, Pred);
3598b6c314bSAndrea Di Biagio }
3608b6c314bSAndrea Di Biagio }
3618b6c314bSAndrea Di Biagio }
3628b6c314bSAndrea Di Biagio
3638b6c314bSAndrea Di Biagio // Sort OpcodeMappings elements based on their CPU and predicate masks.
3648b6c314bSAndrea Di Biagio // As a last resort, order elements by opcode identifier.
3650cac726aSFangrui Song llvm::sort(OpcodeMappings,
3668b6c314bSAndrea Di Biagio [&](const OpcodeMapPair &Lhs, const OpcodeMapPair &Rhs) {
3678b6c314bSAndrea Di Biagio unsigned LhsIdx = Opcode2Index[Lhs.first];
3688b6c314bSAndrea Di Biagio unsigned RhsIdx = Opcode2Index[Rhs.first];
369f38b0053SAndrew Ng const std::pair<APInt, APInt> &LhsMasks = OpcodeMasks[LhsIdx];
370f38b0053SAndrew Ng const std::pair<APInt, APInt> &RhsMasks = OpcodeMasks[RhsIdx];
3718b6c314bSAndrea Di Biagio
372f38b0053SAndrew Ng auto LessThan = [](const APInt &Lhs, const APInt &Rhs) {
373f38b0053SAndrew Ng unsigned LhsCountPopulation = Lhs.countPopulation();
374f38b0053SAndrew Ng unsigned RhsCountPopulation = Rhs.countPopulation();
375f38b0053SAndrew Ng return ((LhsCountPopulation < RhsCountPopulation) ||
376f38b0053SAndrew Ng ((LhsCountPopulation == RhsCountPopulation) &&
377f38b0053SAndrew Ng (Lhs.countLeadingZeros() > Rhs.countLeadingZeros())));
378f38b0053SAndrew Ng };
3798b6c314bSAndrea Di Biagio
380f38b0053SAndrew Ng if (LhsMasks.first != RhsMasks.first)
381f38b0053SAndrew Ng return LessThan(LhsMasks.first, RhsMasks.first);
382f38b0053SAndrew Ng
383f38b0053SAndrew Ng if (LhsMasks.second != RhsMasks.second)
384f38b0053SAndrew Ng return LessThan(LhsMasks.second, RhsMasks.second);
3858b6c314bSAndrea Di Biagio
3868b6c314bSAndrea Di Biagio return LhsIdx < RhsIdx;
3878b6c314bSAndrea Di Biagio });
3888b6c314bSAndrea Di Biagio
3898b6c314bSAndrea Di Biagio // Now construct opcode groups. Groups are used by the SubtargetEmitter when
3908b6c314bSAndrea Di Biagio // expanding the body of a STIPredicate function. In particular, each opcode
3918b6c314bSAndrea Di Biagio // group is expanded into a sequence of labels in a switch statement.
3928b6c314bSAndrea Di Biagio // It identifies opcodes for which different processors define same predicates
3938b6c314bSAndrea Di Biagio // and same opcode masks.
3948b6c314bSAndrea Di Biagio for (OpcodeMapPair &Info : OpcodeMappings)
3958b6c314bSAndrea Di Biagio Fn.addOpcode(Info.first, std::move(Info.second));
3968b6c314bSAndrea Di Biagio }
3978b6c314bSAndrea Di Biagio
collectSTIPredicates()3988b6c314bSAndrea Di Biagio void CodeGenSchedModels::collectSTIPredicates() {
3998b6c314bSAndrea Di Biagio // Map STIPredicateDecl records to elements of vector
4008b6c314bSAndrea Di Biagio // CodeGenSchedModels::STIPredicates.
4018b6c314bSAndrea Di Biagio DenseMap<const Record *, unsigned> Decl2Index;
4028b6c314bSAndrea Di Biagio
4038b6c314bSAndrea Di Biagio RecVec RV = Records.getAllDerivedDefinitions("STIPredicate");
4048b6c314bSAndrea Di Biagio for (const Record *R : RV) {
4058b6c314bSAndrea Di Biagio const Record *Decl = R->getValueAsDef("Declaration");
4068b6c314bSAndrea Di Biagio
4078b6c314bSAndrea Di Biagio const auto It = Decl2Index.find(Decl);
4088b6c314bSAndrea Di Biagio if (It == Decl2Index.end()) {
4098b6c314bSAndrea Di Biagio Decl2Index[Decl] = STIPredicates.size();
4108b6c314bSAndrea Di Biagio STIPredicateFunction Predicate(Decl);
4118b6c314bSAndrea Di Biagio Predicate.addDefinition(R);
4128b6c314bSAndrea Di Biagio STIPredicates.emplace_back(std::move(Predicate));
4138b6c314bSAndrea Di Biagio continue;
4148b6c314bSAndrea Di Biagio }
4158b6c314bSAndrea Di Biagio
4168b6c314bSAndrea Di Biagio STIPredicateFunction &PreviousDef = STIPredicates[It->second];
4178b6c314bSAndrea Di Biagio PreviousDef.addDefinition(R);
4188b6c314bSAndrea Di Biagio }
4198b6c314bSAndrea Di Biagio
4208b6c314bSAndrea Di Biagio for (STIPredicateFunction &Fn : STIPredicates)
4218b6c314bSAndrea Di Biagio processSTIPredicate(Fn, ProcModelMap);
4228b6c314bSAndrea Di Biagio }
4238b6c314bSAndrea Di Biagio
addPredicateForProcModel(const llvm::APInt & CpuMask,const llvm::APInt & OperandMask,const Record * Predicate)4248b6c314bSAndrea Di Biagio void OpcodeInfo::addPredicateForProcModel(const llvm::APInt &CpuMask,
4258b6c314bSAndrea Di Biagio const llvm::APInt &OperandMask,
4268b6c314bSAndrea Di Biagio const Record *Predicate) {
4278b6c314bSAndrea Di Biagio auto It = llvm::find_if(
4288b6c314bSAndrea Di Biagio Predicates, [&OperandMask, &Predicate](const PredicateInfo &P) {
4298b6c314bSAndrea Di Biagio return P.Predicate == Predicate && P.OperandMask == OperandMask;
4308b6c314bSAndrea Di Biagio });
4318b6c314bSAndrea Di Biagio if (It == Predicates.end()) {
4328b6c314bSAndrea Di Biagio Predicates.emplace_back(CpuMask, OperandMask, Predicate);
4338b6c314bSAndrea Di Biagio return;
4348b6c314bSAndrea Di Biagio }
4358b6c314bSAndrea Di Biagio It->ProcModelMask |= CpuMask;
4368b6c314bSAndrea Di Biagio }
4378b6c314bSAndrea Di Biagio
checkMCInstPredicates() const4389eaf5aa0SAndrea Di Biagio void CodeGenSchedModels::checkMCInstPredicates() const {
4399eaf5aa0SAndrea Di Biagio RecVec MCPredicates = Records.getAllDerivedDefinitions("TIIPredicate");
4409eaf5aa0SAndrea Di Biagio if (MCPredicates.empty())
4419eaf5aa0SAndrea Di Biagio return;
4429eaf5aa0SAndrea Di Biagio
4439eaf5aa0SAndrea Di Biagio // A target cannot have multiple TIIPredicate definitions with a same name.
4449eaf5aa0SAndrea Di Biagio llvm::StringMap<const Record *> TIIPredicates(MCPredicates.size());
4459eaf5aa0SAndrea Di Biagio for (const Record *TIIPred : MCPredicates) {
4469eaf5aa0SAndrea Di Biagio StringRef Name = TIIPred->getValueAsString("FunctionName");
4479eaf5aa0SAndrea Di Biagio StringMap<const Record *>::const_iterator It = TIIPredicates.find(Name);
4489eaf5aa0SAndrea Di Biagio if (It == TIIPredicates.end()) {
4499eaf5aa0SAndrea Di Biagio TIIPredicates[Name] = TIIPred;
4509eaf5aa0SAndrea Di Biagio continue;
4519eaf5aa0SAndrea Di Biagio }
4529eaf5aa0SAndrea Di Biagio
4539eaf5aa0SAndrea Di Biagio PrintError(TIIPred->getLoc(),
4549eaf5aa0SAndrea Di Biagio "TIIPredicate " + Name + " is multiply defined.");
45588ce9f9bSJon Roelofs PrintFatalNote(It->second->getLoc(),
4569eaf5aa0SAndrea Di Biagio " Previous definition of " + Name + " was here.");
4579eaf5aa0SAndrea Di Biagio }
4589eaf5aa0SAndrea Di Biagio }
4599eaf5aa0SAndrea Di Biagio
collectRetireControlUnits()460c74ad502SAndrea Di Biagio void CodeGenSchedModels::collectRetireControlUnits() {
461c74ad502SAndrea Di Biagio RecVec Units = Records.getAllDerivedDefinitions("RetireControlUnit");
462c74ad502SAndrea Di Biagio
463c74ad502SAndrea Di Biagio for (Record *RCU : Units) {
464c74ad502SAndrea Di Biagio CodeGenProcModel &PM = getProcModel(RCU->getValueAsDef("SchedModel"));
465c74ad502SAndrea Di Biagio if (PM.RetireControlUnit) {
466c74ad502SAndrea Di Biagio PrintError(RCU->getLoc(),
467c74ad502SAndrea Di Biagio "Expected a single RetireControlUnit definition");
468c74ad502SAndrea Di Biagio PrintNote(PM.RetireControlUnit->getLoc(),
469c74ad502SAndrea Di Biagio "Previous definition of RetireControlUnit was here");
470c74ad502SAndrea Di Biagio }
471c74ad502SAndrea Di Biagio PM.RetireControlUnit = RCU;
472c74ad502SAndrea Di Biagio }
473c74ad502SAndrea Di Biagio }
474c74ad502SAndrea Di Biagio
collectLoadStoreQueueInfo()475373a4ccfSAndrea Di Biagio void CodeGenSchedModels::collectLoadStoreQueueInfo() {
476373a4ccfSAndrea Di Biagio RecVec Queues = Records.getAllDerivedDefinitions("MemoryQueue");
477373a4ccfSAndrea Di Biagio
478373a4ccfSAndrea Di Biagio for (Record *Queue : Queues) {
479373a4ccfSAndrea Di Biagio CodeGenProcModel &PM = getProcModel(Queue->getValueAsDef("SchedModel"));
480373a4ccfSAndrea Di Biagio if (Queue->isSubClassOf("LoadQueue")) {
481373a4ccfSAndrea Di Biagio if (PM.LoadQueue) {
482373a4ccfSAndrea Di Biagio PrintError(Queue->getLoc(),
483373a4ccfSAndrea Di Biagio "Expected a single LoadQueue definition");
484373a4ccfSAndrea Di Biagio PrintNote(PM.LoadQueue->getLoc(),
485373a4ccfSAndrea Di Biagio "Previous definition of LoadQueue was here");
486373a4ccfSAndrea Di Biagio }
487373a4ccfSAndrea Di Biagio
488373a4ccfSAndrea Di Biagio PM.LoadQueue = Queue;
489373a4ccfSAndrea Di Biagio }
490373a4ccfSAndrea Di Biagio
491373a4ccfSAndrea Di Biagio if (Queue->isSubClassOf("StoreQueue")) {
492373a4ccfSAndrea Di Biagio if (PM.StoreQueue) {
493373a4ccfSAndrea Di Biagio PrintError(Queue->getLoc(),
494373a4ccfSAndrea Di Biagio "Expected a single StoreQueue definition");
495373a4ccfSAndrea Di Biagio PrintNote(PM.LoadQueue->getLoc(),
496373a4ccfSAndrea Di Biagio "Previous definition of StoreQueue was here");
497373a4ccfSAndrea Di Biagio }
498373a4ccfSAndrea Di Biagio
499373a4ccfSAndrea Di Biagio PM.StoreQueue = Queue;
500373a4ccfSAndrea Di Biagio }
501373a4ccfSAndrea Di Biagio }
502373a4ccfSAndrea Di Biagio }
503373a4ccfSAndrea Di Biagio
504c74ad502SAndrea Di Biagio /// Collect optional processor information.
collectOptionalProcessorInfo()505c74ad502SAndrea Di Biagio void CodeGenSchedModels::collectOptionalProcessorInfo() {
5069da4d6dbSAndrea Di Biagio // Find register file definitions for each processor.
5079da4d6dbSAndrea Di Biagio collectRegisterFiles();
5089da4d6dbSAndrea Di Biagio
509c74ad502SAndrea Di Biagio // Collect processor RetireControlUnit descriptors if available.
510c74ad502SAndrea Di Biagio collectRetireControlUnits();
511b449379eSClement Courbet
512373a4ccfSAndrea Di Biagio // Collect information about load/store queues.
513373a4ccfSAndrea Di Biagio collectLoadStoreQueueInfo();
514373a4ccfSAndrea Di Biagio
515b449379eSClement Courbet checkCompleteness();
51687255e34SAndrew Trick }
51787255e34SAndrew Trick
51876686496SAndrew Trick /// Gather all processor models.
collectProcModels()51976686496SAndrew Trick void CodeGenSchedModels::collectProcModels() {
52076686496SAndrew Trick RecVec ProcRecords = Records.getAllDerivedDefinitions("Processor");
5210cac726aSFangrui Song llvm::sort(ProcRecords, LessRecordFieldName());
52287255e34SAndrew Trick
5231aeb3314SCraig Topper // Check for duplicated names.
5241aeb3314SCraig Topper auto I = std::adjacent_find(ProcRecords.begin(), ProcRecords.end(),
5251aeb3314SCraig Topper [](const Record *Rec1, const Record *Rec2) {
5261aeb3314SCraig Topper return Rec1->getValueAsString("Name") == Rec2->getValueAsString("Name");
5271aeb3314SCraig Topper });
5281aeb3314SCraig Topper if (I != ProcRecords.end())
5291aeb3314SCraig Topper PrintFatalError((*I)->getLoc(), "Duplicate processor name " +
5301aeb3314SCraig Topper (*I)->getValueAsString("Name"));
5311aeb3314SCraig Topper
53276686496SAndrew Trick // Reserve space because we can. Reallocation would be ok.
53376686496SAndrew Trick ProcModels.reserve(ProcRecords.size()+1);
53476686496SAndrew Trick
53576686496SAndrew Trick // Use idx=0 for NoModel/NoItineraries.
53676686496SAndrew Trick Record *NoModelDef = Records.getDef("NoSchedModel");
53776686496SAndrew Trick Record *NoItinsDef = Records.getDef("NoItineraries");
538f5e2fc47SBenjamin Kramer ProcModels.emplace_back(0, "NoSchedModel", NoModelDef, NoItinsDef);
53976686496SAndrew Trick ProcModelMap[NoModelDef] = 0;
54076686496SAndrew Trick
54176686496SAndrew Trick // For each processor, find a unique machine model.
542d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "+++ PROCESSOR MODELs (addProcModel) +++\n");
54367b042c2SJaved Absar for (Record *ProcRecord : ProcRecords)
54467b042c2SJaved Absar addProcModel(ProcRecord);
54576686496SAndrew Trick }
54676686496SAndrew Trick
54776686496SAndrew Trick /// Get a unique processor model based on the defined MachineModel and
54876686496SAndrew Trick /// ProcessorItineraries.
addProcModel(Record * ProcDef)54976686496SAndrew Trick void CodeGenSchedModels::addProcModel(Record *ProcDef) {
55076686496SAndrew Trick Record *ModelKey = getModelOrItinDef(ProcDef);
55176686496SAndrew Trick if (!ProcModelMap.insert(std::make_pair(ModelKey, ProcModels.size())).second)
55276686496SAndrew Trick return;
55376686496SAndrew Trick
554adcd0268SBenjamin Kramer std::string Name = std::string(ModelKey->getName());
55576686496SAndrew Trick if (ModelKey->isSubClassOf("SchedMachineModel")) {
55676686496SAndrew Trick Record *ItinsDef = ModelKey->getValueAsDef("Itineraries");
557f5e2fc47SBenjamin Kramer ProcModels.emplace_back(ProcModels.size(), Name, ModelKey, ItinsDef);
55876686496SAndrew Trick }
55976686496SAndrew Trick else {
56076686496SAndrew Trick // An itinerary is defined without a machine model. Infer a new model.
56176686496SAndrew Trick if (!ModelKey->getValueAsListOfDefs("IID").empty())
56276686496SAndrew Trick Name = Name + "Model";
563f5e2fc47SBenjamin Kramer ProcModels.emplace_back(ProcModels.size(), Name,
564f5e2fc47SBenjamin Kramer ProcDef->getValueAsDef("SchedModel"), ModelKey);
56576686496SAndrew Trick }
566d34e60caSNicola Zaghen LLVM_DEBUG(ProcModels.back().dump());
56776686496SAndrew Trick }
56876686496SAndrew Trick
56976686496SAndrew Trick // Recursively find all reachable SchedReadWrite records.
scanSchedRW(Record * RWDef,RecVec & RWDefs,SmallPtrSet<Record *,16> & RWSet)57076686496SAndrew Trick static void scanSchedRW(Record *RWDef, RecVec &RWDefs,
57176686496SAndrew Trick SmallPtrSet<Record*, 16> &RWSet) {
57270573dcdSDavid Blaikie if (!RWSet.insert(RWDef).second)
57376686496SAndrew Trick return;
57476686496SAndrew Trick RWDefs.push_back(RWDef);
57567b042c2SJaved Absar // Reads don't currently have sequence records, but it can be added later.
57676686496SAndrew Trick if (RWDef->isSubClassOf("WriteSequence")) {
57776686496SAndrew Trick RecVec Seq = RWDef->getValueAsListOfDefs("Writes");
57867b042c2SJaved Absar for (Record *WSRec : Seq)
57967b042c2SJaved Absar scanSchedRW(WSRec, RWDefs, RWSet);
58076686496SAndrew Trick }
58176686496SAndrew Trick else if (RWDef->isSubClassOf("SchedVariant")) {
58276686496SAndrew Trick // Visit each variant (guarded by a different predicate).
58376686496SAndrew Trick RecVec Vars = RWDef->getValueAsListOfDefs("Variants");
58467b042c2SJaved Absar for (Record *Variant : Vars) {
58576686496SAndrew Trick // Visit each RW in the sequence selected by the current variant.
58667b042c2SJaved Absar RecVec Selected = Variant->getValueAsListOfDefs("Selected");
58767b042c2SJaved Absar for (Record *SelDef : Selected)
58867b042c2SJaved Absar scanSchedRW(SelDef, RWDefs, RWSet);
58976686496SAndrew Trick }
59076686496SAndrew Trick }
59176686496SAndrew Trick }
59276686496SAndrew Trick
59376686496SAndrew Trick // Collect and sort all SchedReadWrites reachable via tablegen records.
59476686496SAndrew Trick // More may be inferred later when inferring new SchedClasses from variants.
collectSchedRW()59576686496SAndrew Trick void CodeGenSchedModels::collectSchedRW() {
59676686496SAndrew Trick // Reserve idx=0 for invalid writes/reads.
59776686496SAndrew Trick SchedWrites.resize(1);
59876686496SAndrew Trick SchedReads.resize(1);
59976686496SAndrew Trick
60076686496SAndrew Trick SmallPtrSet<Record*, 16> RWSet;
60176686496SAndrew Trick
60276686496SAndrew Trick // Find all SchedReadWrites referenced by instruction defs.
60376686496SAndrew Trick RecVec SWDefs, SRDefs;
6048cc904d6SCraig Topper for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) {
6058a417c1fSCraig Topper Record *SchedDef = Inst->TheDef;
606a4a361dfSJakob Stoklund Olesen if (SchedDef->isValueUnset("SchedRW"))
60776686496SAndrew Trick continue;
60876686496SAndrew Trick RecVec RWs = SchedDef->getValueAsListOfDefs("SchedRW");
60967b042c2SJaved Absar for (Record *RW : RWs) {
61067b042c2SJaved Absar if (RW->isSubClassOf("SchedWrite"))
61167b042c2SJaved Absar scanSchedRW(RW, SWDefs, RWSet);
61276686496SAndrew Trick else {
61367b042c2SJaved Absar assert(RW->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
61467b042c2SJaved Absar scanSchedRW(RW, SRDefs, RWSet);
61576686496SAndrew Trick }
61676686496SAndrew Trick }
61776686496SAndrew Trick }
61876686496SAndrew Trick // Find all ReadWrites referenced by InstRW.
61976686496SAndrew Trick RecVec InstRWDefs = Records.getAllDerivedDefinitions("InstRW");
62067b042c2SJaved Absar for (Record *InstRWDef : InstRWDefs) {
62176686496SAndrew Trick // For all OperandReadWrites.
62267b042c2SJaved Absar RecVec RWDefs = InstRWDef->getValueAsListOfDefs("OperandReadWrites");
62367b042c2SJaved Absar for (Record *RWDef : RWDefs) {
62467b042c2SJaved Absar if (RWDef->isSubClassOf("SchedWrite"))
62567b042c2SJaved Absar scanSchedRW(RWDef, SWDefs, RWSet);
62676686496SAndrew Trick else {
62767b042c2SJaved Absar assert(RWDef->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
62867b042c2SJaved Absar scanSchedRW(RWDef, SRDefs, RWSet);
62976686496SAndrew Trick }
63076686496SAndrew Trick }
63176686496SAndrew Trick }
63276686496SAndrew Trick // Find all ReadWrites referenced by ItinRW.
63376686496SAndrew Trick RecVec ItinRWDefs = Records.getAllDerivedDefinitions("ItinRW");
63467b042c2SJaved Absar for (Record *ItinRWDef : ItinRWDefs) {
63576686496SAndrew Trick // For all OperandReadWrites.
63667b042c2SJaved Absar RecVec RWDefs = ItinRWDef->getValueAsListOfDefs("OperandReadWrites");
63767b042c2SJaved Absar for (Record *RWDef : RWDefs) {
63867b042c2SJaved Absar if (RWDef->isSubClassOf("SchedWrite"))
63967b042c2SJaved Absar scanSchedRW(RWDef, SWDefs, RWSet);
64076686496SAndrew Trick else {
64167b042c2SJaved Absar assert(RWDef->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
64267b042c2SJaved Absar scanSchedRW(RWDef, SRDefs, RWSet);
64376686496SAndrew Trick }
64476686496SAndrew Trick }
64576686496SAndrew Trick }
6469257b8f8SAndrew Trick // Find all ReadWrites referenced by SchedAlias. AliasDefs needs to be sorted
6479257b8f8SAndrew Trick // for the loop below that initializes Alias vectors.
6489257b8f8SAndrew Trick RecVec AliasDefs = Records.getAllDerivedDefinitions("SchedAlias");
6490cac726aSFangrui Song llvm::sort(AliasDefs, LessRecord());
65067b042c2SJaved Absar for (Record *ADef : AliasDefs) {
65167b042c2SJaved Absar Record *MatchDef = ADef->getValueAsDef("MatchRW");
65267b042c2SJaved Absar Record *AliasDef = ADef->getValueAsDef("AliasRW");
6539257b8f8SAndrew Trick if (MatchDef->isSubClassOf("SchedWrite")) {
6549257b8f8SAndrew Trick if (!AliasDef->isSubClassOf("SchedWrite"))
65567b042c2SJaved Absar PrintFatalError(ADef->getLoc(), "SchedWrite Alias must be SchedWrite");
6569257b8f8SAndrew Trick scanSchedRW(AliasDef, SWDefs, RWSet);
6579257b8f8SAndrew Trick }
6589257b8f8SAndrew Trick else {
6599257b8f8SAndrew Trick assert(MatchDef->isSubClassOf("SchedRead") && "Unknown SchedReadWrite");
6609257b8f8SAndrew Trick if (!AliasDef->isSubClassOf("SchedRead"))
66167b042c2SJaved Absar PrintFatalError(ADef->getLoc(), "SchedRead Alias must be SchedRead");
6629257b8f8SAndrew Trick scanSchedRW(AliasDef, SRDefs, RWSet);
6639257b8f8SAndrew Trick }
6649257b8f8SAndrew Trick }
66576686496SAndrew Trick // Sort and add the SchedReadWrites directly referenced by instructions or
66676686496SAndrew Trick // itinerary resources. Index reads and writes in separate domains.
6670cac726aSFangrui Song llvm::sort(SWDefs, LessRecord());
66867b042c2SJaved Absar for (Record *SWDef : SWDefs) {
66967b042c2SJaved Absar assert(!getSchedRWIdx(SWDef, /*IsRead=*/false) && "duplicate SchedWrite");
67067b042c2SJaved Absar SchedWrites.emplace_back(SchedWrites.size(), SWDef);
67176686496SAndrew Trick }
6720cac726aSFangrui Song llvm::sort(SRDefs, LessRecord());
67367b042c2SJaved Absar for (Record *SRDef : SRDefs) {
67467b042c2SJaved Absar assert(!getSchedRWIdx(SRDef, /*IsRead-*/true) && "duplicate SchedWrite");
67567b042c2SJaved Absar SchedReads.emplace_back(SchedReads.size(), SRDef);
67676686496SAndrew Trick }
67776686496SAndrew Trick // Initialize WriteSequence vectors.
67867b042c2SJaved Absar for (CodeGenSchedRW &CGRW : SchedWrites) {
67967b042c2SJaved Absar if (!CGRW.IsSequence)
68076686496SAndrew Trick continue;
68167b042c2SJaved Absar findRWs(CGRW.TheDef->getValueAsListOfDefs("Writes"), CGRW.Sequence,
68276686496SAndrew Trick /*IsRead=*/false);
68376686496SAndrew Trick }
6849257b8f8SAndrew Trick // Initialize Aliases vectors.
68567b042c2SJaved Absar for (Record *ADef : AliasDefs) {
68667b042c2SJaved Absar Record *AliasDef = ADef->getValueAsDef("AliasRW");
6879257b8f8SAndrew Trick getSchedRW(AliasDef).IsAlias = true;
68867b042c2SJaved Absar Record *MatchDef = ADef->getValueAsDef("MatchRW");
6899257b8f8SAndrew Trick CodeGenSchedRW &RW = getSchedRW(MatchDef);
6909257b8f8SAndrew Trick if (RW.IsAlias)
69167b042c2SJaved Absar PrintFatalError(ADef->getLoc(), "Cannot Alias an Alias");
69267b042c2SJaved Absar RW.Aliases.push_back(ADef);
6939257b8f8SAndrew Trick }
694d34e60caSNicola Zaghen LLVM_DEBUG(
6958037233bSJoel Jones dbgs() << "\n+++ SCHED READS and WRITES (collectSchedRW) +++\n";
69676686496SAndrew Trick for (unsigned WIdx = 0, WEnd = SchedWrites.size(); WIdx != WEnd; ++WIdx) {
69776686496SAndrew Trick dbgs() << WIdx << ": ";
69876686496SAndrew Trick SchedWrites[WIdx].dump();
69976686496SAndrew Trick dbgs() << '\n';
700d34e60caSNicola Zaghen } for (unsigned RIdx = 0, REnd = SchedReads.size(); RIdx != REnd;
701d34e60caSNicola Zaghen ++RIdx) {
70276686496SAndrew Trick dbgs() << RIdx << ": ";
70376686496SAndrew Trick SchedReads[RIdx].dump();
70476686496SAndrew Trick dbgs() << '\n';
705d34e60caSNicola Zaghen } RecVec RWDefs = Records.getAllDerivedDefinitions("SchedReadWrite");
706d34e60caSNicola Zaghen for (Record *RWDef
707d34e60caSNicola Zaghen : RWDefs) {
70867b042c2SJaved Absar if (!getSchedRWIdx(RWDef, RWDef->isSubClassOf("SchedRead"))) {
709494d0751SSimon Pilgrim StringRef Name = RWDef->getName();
71076686496SAndrew Trick if (Name != "NoWrite" && Name != "ReadDefault")
711494d0751SSimon Pilgrim dbgs() << "Unused SchedReadWrite " << Name << '\n';
71276686496SAndrew Trick }
71376686496SAndrew Trick });
71476686496SAndrew Trick }
71576686496SAndrew Trick
71676686496SAndrew Trick /// Compute a SchedWrite name from a sequence of writes.
genRWName(ArrayRef<unsigned> Seq,bool IsRead)717e1761952SBenjamin Kramer std::string CodeGenSchedModels::genRWName(ArrayRef<unsigned> Seq, bool IsRead) {
71876686496SAndrew Trick std::string Name("(");
719b16c6b2aSKazu Hirata ListSeparator LS("_");
720b16c6b2aSKazu Hirata for (unsigned I : Seq) {
721b16c6b2aSKazu Hirata Name += LS;
722b16c6b2aSKazu Hirata Name += getSchedRW(I, IsRead).Name;
72376686496SAndrew Trick }
72476686496SAndrew Trick Name += ')';
72576686496SAndrew Trick return Name;
72676686496SAndrew Trick }
72776686496SAndrew Trick
getSchedRWIdx(const Record * Def,bool IsRead) const72838fe227fSAndrea Di Biagio unsigned CodeGenSchedModels::getSchedRWIdx(const Record *Def,
72938fe227fSAndrea Di Biagio bool IsRead) const {
73076686496SAndrew Trick const std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites;
73138fe227fSAndrea Di Biagio const auto I = find_if(
73238fe227fSAndrea Di Biagio RWVec, [Def](const CodeGenSchedRW &RW) { return RW.TheDef == Def; });
73338fe227fSAndrea Di Biagio return I == RWVec.end() ? 0 : std::distance(RWVec.begin(), I);
73476686496SAndrew Trick }
73576686496SAndrew Trick
hasReadOfWrite(Record * WriteDef) const736cfe222c2SAndrew Trick bool CodeGenSchedModels::hasReadOfWrite(Record *WriteDef) const {
73767b042c2SJaved Absar for (const CodeGenSchedRW &Read : SchedReads) {
73867b042c2SJaved Absar Record *ReadDef = Read.TheDef;
739cfe222c2SAndrew Trick if (!ReadDef || !ReadDef->isSubClassOf("ProcReadAdvance"))
740cfe222c2SAndrew Trick continue;
741cfe222c2SAndrew Trick
742cfe222c2SAndrew Trick RecVec ValidWrites = ReadDef->getValueAsListOfDefs("ValidWrites");
7430d955d0bSDavid Majnemer if (is_contained(ValidWrites, WriteDef)) {
744cfe222c2SAndrew Trick return true;
745cfe222c2SAndrew Trick }
746cfe222c2SAndrew Trick }
747cfe222c2SAndrew Trick return false;
748cfe222c2SAndrew Trick }
749cfe222c2SAndrew Trick
splitSchedReadWrites(const RecVec & RWDefs,RecVec & WriteDefs,RecVec & ReadDefs)7506f2cc9b1SCraig Topper static void splitSchedReadWrites(const RecVec &RWDefs,
75176686496SAndrew Trick RecVec &WriteDefs, RecVec &ReadDefs) {
75267b042c2SJaved Absar for (Record *RWDef : RWDefs) {
75367b042c2SJaved Absar if (RWDef->isSubClassOf("SchedWrite"))
75467b042c2SJaved Absar WriteDefs.push_back(RWDef);
75576686496SAndrew Trick else {
75667b042c2SJaved Absar assert(RWDef->isSubClassOf("SchedRead") && "unknown SchedReadWrite");
75767b042c2SJaved Absar ReadDefs.push_back(RWDef);
75876686496SAndrew Trick }
75976686496SAndrew Trick }
76076686496SAndrew Trick }
761a3fe70d2SEugene Zelenko
76276686496SAndrew Trick // Split the SchedReadWrites defs and call findRWs for each list.
findRWs(const RecVec & RWDefs,IdxVec & Writes,IdxVec & Reads) const76376686496SAndrew Trick void CodeGenSchedModels::findRWs(const RecVec &RWDefs,
76476686496SAndrew Trick IdxVec &Writes, IdxVec &Reads) const {
76576686496SAndrew Trick RecVec WriteDefs;
76676686496SAndrew Trick RecVec ReadDefs;
76776686496SAndrew Trick splitSchedReadWrites(RWDefs, WriteDefs, ReadDefs);
76876686496SAndrew Trick findRWs(WriteDefs, Writes, false);
76976686496SAndrew Trick findRWs(ReadDefs, Reads, true);
77076686496SAndrew Trick }
77176686496SAndrew Trick
77276686496SAndrew Trick // Call getSchedRWIdx for all elements in a sequence of SchedRW defs.
findRWs(const RecVec & RWDefs,IdxVec & RWs,bool IsRead) const77376686496SAndrew Trick void CodeGenSchedModels::findRWs(const RecVec &RWDefs, IdxVec &RWs,
77476686496SAndrew Trick bool IsRead) const {
77567b042c2SJaved Absar for (Record *RWDef : RWDefs) {
77667b042c2SJaved Absar unsigned Idx = getSchedRWIdx(RWDef, IsRead);
77776686496SAndrew Trick assert(Idx && "failed to collect SchedReadWrite");
77876686496SAndrew Trick RWs.push_back(Idx);
77976686496SAndrew Trick }
78076686496SAndrew Trick }
78176686496SAndrew Trick
expandRWSequence(unsigned RWIdx,IdxVec & RWSeq,bool IsRead) const78233401e84SAndrew Trick void CodeGenSchedModels::expandRWSequence(unsigned RWIdx, IdxVec &RWSeq,
78333401e84SAndrew Trick bool IsRead) const {
78433401e84SAndrew Trick const CodeGenSchedRW &SchedRW = getSchedRW(RWIdx, IsRead);
78533401e84SAndrew Trick if (!SchedRW.IsSequence) {
78633401e84SAndrew Trick RWSeq.push_back(RWIdx);
78733401e84SAndrew Trick return;
78833401e84SAndrew Trick }
78933401e84SAndrew Trick int Repeat =
79033401e84SAndrew Trick SchedRW.TheDef ? SchedRW.TheDef->getValueAsInt("Repeat") : 1;
79133401e84SAndrew Trick for (int i = 0; i < Repeat; ++i) {
79267b042c2SJaved Absar for (unsigned I : SchedRW.Sequence) {
79367b042c2SJaved Absar expandRWSequence(I, RWSeq, IsRead);
79433401e84SAndrew Trick }
79533401e84SAndrew Trick }
79633401e84SAndrew Trick }
79733401e84SAndrew Trick
798da984b1aSAndrew Trick // Expand a SchedWrite as a sequence following any aliases that coincide with
799da984b1aSAndrew Trick // the given processor model.
expandRWSeqForProc(unsigned RWIdx,IdxVec & RWSeq,bool IsRead,const CodeGenProcModel & ProcModel) const800da984b1aSAndrew Trick void CodeGenSchedModels::expandRWSeqForProc(
801da984b1aSAndrew Trick unsigned RWIdx, IdxVec &RWSeq, bool IsRead,
802da984b1aSAndrew Trick const CodeGenProcModel &ProcModel) const {
803da984b1aSAndrew Trick
804da984b1aSAndrew Trick const CodeGenSchedRW &SchedWrite = getSchedRW(RWIdx, IsRead);
80524064771SCraig Topper Record *AliasDef = nullptr;
80638fe227fSAndrea Di Biagio for (const Record *Rec : SchedWrite.Aliases) {
80738fe227fSAndrea Di Biagio const CodeGenSchedRW &AliasRW = getSchedRW(Rec->getValueAsDef("AliasRW"));
80838fe227fSAndrea Di Biagio if (Rec->getValueInit("SchedModel")->isComplete()) {
80938fe227fSAndrea Di Biagio Record *ModelDef = Rec->getValueAsDef("SchedModel");
810da984b1aSAndrew Trick if (&getProcModel(ModelDef) != &ProcModel)
811da984b1aSAndrew Trick continue;
812da984b1aSAndrew Trick }
813da984b1aSAndrew Trick if (AliasDef)
814635debe8SJoerg Sonnenberger PrintFatalError(AliasRW.TheDef->getLoc(), "Multiple aliases "
815da984b1aSAndrew Trick "defined for processor " + ProcModel.ModelName +
816da984b1aSAndrew Trick " Ensure only one SchedAlias exists per RW.");
817da984b1aSAndrew Trick AliasDef = AliasRW.TheDef;
818da984b1aSAndrew Trick }
819da984b1aSAndrew Trick if (AliasDef) {
820da984b1aSAndrew Trick expandRWSeqForProc(getSchedRWIdx(AliasDef, IsRead),
821da984b1aSAndrew Trick RWSeq, IsRead,ProcModel);
822da984b1aSAndrew Trick return;
823da984b1aSAndrew Trick }
824da984b1aSAndrew Trick if (!SchedWrite.IsSequence) {
825da984b1aSAndrew Trick RWSeq.push_back(RWIdx);
826da984b1aSAndrew Trick return;
827da984b1aSAndrew Trick }
828da984b1aSAndrew Trick int Repeat =
829da984b1aSAndrew Trick SchedWrite.TheDef ? SchedWrite.TheDef->getValueAsInt("Repeat") : 1;
83038fe227fSAndrea Di Biagio for (int I = 0, E = Repeat; I < E; ++I) {
83138fe227fSAndrea Di Biagio for (unsigned Idx : SchedWrite.Sequence) {
83238fe227fSAndrea Di Biagio expandRWSeqForProc(Idx, RWSeq, IsRead, ProcModel);
833da984b1aSAndrew Trick }
834da984b1aSAndrew Trick }
835da984b1aSAndrew Trick }
836da984b1aSAndrew Trick
83733401e84SAndrew Trick // Find the existing SchedWrite that models this sequence of writes.
findRWForSequence(ArrayRef<unsigned> Seq,bool IsRead)838e1761952SBenjamin Kramer unsigned CodeGenSchedModels::findRWForSequence(ArrayRef<unsigned> Seq,
83933401e84SAndrew Trick bool IsRead) {
84033401e84SAndrew Trick std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites;
84133401e84SAndrew Trick
84238fe227fSAndrea Di Biagio auto I = find_if(RWVec, [Seq](CodeGenSchedRW &RW) {
84338fe227fSAndrea Di Biagio return makeArrayRef(RW.Sequence) == Seq;
84438fe227fSAndrea Di Biagio });
84533401e84SAndrew Trick // Index zero reserved for invalid RW.
84638fe227fSAndrea Di Biagio return I == RWVec.end() ? 0 : std::distance(RWVec.begin(), I);
84733401e84SAndrew Trick }
84833401e84SAndrew Trick
84933401e84SAndrew Trick /// Add this ReadWrite if it doesn't already exist.
findOrInsertRW(ArrayRef<unsigned> Seq,bool IsRead)85033401e84SAndrew Trick unsigned CodeGenSchedModels::findOrInsertRW(ArrayRef<unsigned> Seq,
85133401e84SAndrew Trick bool IsRead) {
85233401e84SAndrew Trick assert(!Seq.empty() && "cannot insert empty sequence");
85333401e84SAndrew Trick if (Seq.size() == 1)
85433401e84SAndrew Trick return Seq.back();
85533401e84SAndrew Trick
85633401e84SAndrew Trick unsigned Idx = findRWForSequence(Seq, IsRead);
85733401e84SAndrew Trick if (Idx)
85833401e84SAndrew Trick return Idx;
85933401e84SAndrew Trick
86038fe227fSAndrea Di Biagio std::vector<CodeGenSchedRW> &RWVec = IsRead ? SchedReads : SchedWrites;
86138fe227fSAndrea Di Biagio unsigned RWIdx = RWVec.size();
862da984b1aSAndrew Trick CodeGenSchedRW SchedRW(RWIdx, IsRead, Seq, genRWName(Seq, IsRead));
86338fe227fSAndrea Di Biagio RWVec.push_back(SchedRW);
864da984b1aSAndrew Trick return RWIdx;
86533401e84SAndrew Trick }
86633401e84SAndrew Trick
86776686496SAndrew Trick /// Visit all the instruction definitions for this target to gather and
86876686496SAndrew Trick /// enumerate the itinerary classes. These are the explicitly specified
86976686496SAndrew Trick /// SchedClasses. More SchedClasses may be inferred.
collectSchedClasses()87076686496SAndrew Trick void CodeGenSchedModels::collectSchedClasses() {
87176686496SAndrew Trick
87276686496SAndrew Trick // NoItinerary is always the first class at Idx=0
873281a19cfSCraig Topper assert(SchedClasses.empty() && "Expected empty sched class");
874281a19cfSCraig Topper SchedClasses.emplace_back(0, "NoInstrModel",
875281a19cfSCraig Topper Records.getDef("NoItinerary"));
87676686496SAndrew Trick SchedClasses.back().ProcIndices.push_back(0);
87787255e34SAndrew Trick
878bf8a28dcSAndrew Trick // Create a SchedClass for each unique combination of itinerary class and
879bf8a28dcSAndrew Trick // SchedRW list.
8808cc904d6SCraig Topper for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) {
8818a417c1fSCraig Topper Record *ItinDef = Inst->TheDef->getValueAsDef("Itinerary");
88276686496SAndrew Trick IdxVec Writes, Reads;
8838a417c1fSCraig Topper if (!Inst->TheDef->isValueUnset("SchedRW"))
8848a417c1fSCraig Topper findRWs(Inst->TheDef->getValueAsListOfDefs("SchedRW"), Writes, Reads);
885bf8a28dcSAndrew Trick
88676686496SAndrew Trick // ProcIdx == 0 indicates the class applies to all processors.
887281a19cfSCraig Topper unsigned SCIdx = addSchedClass(ItinDef, Writes, Reads, /*ProcIndices*/{0});
8888a417c1fSCraig Topper InstrClassMap[Inst->TheDef] = SCIdx;
88987255e34SAndrew Trick }
8909257b8f8SAndrew Trick // Create classes for InstRW defs.
89176686496SAndrew Trick RecVec InstRWDefs = Records.getAllDerivedDefinitions("InstRW");
8920cac726aSFangrui Song llvm::sort(InstRWDefs, LessRecord());
893d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\n+++ SCHED CLASSES (createInstRWClass) +++\n");
89467b042c2SJaved Absar for (Record *RWDef : InstRWDefs)
89567b042c2SJaved Absar createInstRWClass(RWDef);
89687255e34SAndrew Trick
89776686496SAndrew Trick NumInstrSchedClasses = SchedClasses.size();
89887255e34SAndrew Trick
89976686496SAndrew Trick bool EnableDump = false;
900d34e60caSNicola Zaghen LLVM_DEBUG(EnableDump = true);
90176686496SAndrew Trick if (!EnableDump)
90287255e34SAndrew Trick return;
903bf8a28dcSAndrew Trick
904d34e60caSNicola Zaghen LLVM_DEBUG(
90538fe227fSAndrea Di Biagio dbgs()
90638fe227fSAndrea Di Biagio << "\n+++ ITINERARIES and/or MACHINE MODELS (collectSchedClasses) +++\n");
9078cc904d6SCraig Topper for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) {
908bcd3c37fSCraig Topper StringRef InstName = Inst->TheDef->getName();
909949437e8SSimon Pilgrim unsigned SCIdx = getSchedClassIdx(*Inst);
910bf8a28dcSAndrew Trick if (!SCIdx) {
911d34e60caSNicola Zaghen LLVM_DEBUG({
9128e0a734fSMatthias Braun if (!Inst->hasNoSchedulingInfo)
9138a417c1fSCraig Topper dbgs() << "No machine model for " << Inst->TheDef->getName() << '\n';
91438fe227fSAndrea Di Biagio });
915bf8a28dcSAndrew Trick continue;
916bf8a28dcSAndrew Trick }
917bf8a28dcSAndrew Trick CodeGenSchedClass &SC = getSchedClass(SCIdx);
918bf8a28dcSAndrew Trick if (SC.ProcIndices[0] != 0)
9198a417c1fSCraig Topper PrintFatalError(Inst->TheDef->getLoc(), "Instruction's sched class "
920bf8a28dcSAndrew Trick "must not be subtarget specific.");
921bf8a28dcSAndrew Trick
922bf8a28dcSAndrew Trick IdxVec ProcIndices;
923bf8a28dcSAndrew Trick if (SC.ItinClassDef->getName() != "NoItinerary") {
924bf8a28dcSAndrew Trick ProcIndices.push_back(0);
925bf8a28dcSAndrew Trick dbgs() << "Itinerary for " << InstName << ": "
926bf8a28dcSAndrew Trick << SC.ItinClassDef->getName() << '\n';
927bf8a28dcSAndrew Trick }
928bf8a28dcSAndrew Trick if (!SC.Writes.empty()) {
929bf8a28dcSAndrew Trick ProcIndices.push_back(0);
930d34e60caSNicola Zaghen LLVM_DEBUG({
93176686496SAndrew Trick dbgs() << "SchedRW machine model for " << InstName;
932e6cf3d64SCoelacanthus for (unsigned int Write : SC.Writes)
933e6cf3d64SCoelacanthus dbgs() << " " << SchedWrites[Write].Name;
934e6cf3d64SCoelacanthus for (unsigned int Read : SC.Reads)
935e6cf3d64SCoelacanthus dbgs() << " " << SchedReads[Read].Name;
93676686496SAndrew Trick dbgs() << '\n';
93738fe227fSAndrea Di Biagio });
93876686496SAndrew Trick }
93976686496SAndrew Trick const RecVec &RWDefs = SchedClasses[SCIdx].InstRWs;
94067b042c2SJaved Absar for (Record *RWDef : RWDefs) {
94176686496SAndrew Trick const CodeGenProcModel &ProcModel =
94267b042c2SJaved Absar getProcModel(RWDef->getValueAsDef("SchedModel"));
943bf8a28dcSAndrew Trick ProcIndices.push_back(ProcModel.Index);
944d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "InstRW on " << ProcModel.ModelName << " for "
945d34e60caSNicola Zaghen << InstName);
94676686496SAndrew Trick IdxVec Writes;
94776686496SAndrew Trick IdxVec Reads;
94867b042c2SJaved Absar findRWs(RWDef->getValueAsListOfDefs("OperandReadWrites"),
94976686496SAndrew Trick Writes, Reads);
950d34e60caSNicola Zaghen LLVM_DEBUG({
95167b042c2SJaved Absar for (unsigned WIdx : Writes)
95267b042c2SJaved Absar dbgs() << " " << SchedWrites[WIdx].Name;
95367b042c2SJaved Absar for (unsigned RIdx : Reads)
95467b042c2SJaved Absar dbgs() << " " << SchedReads[RIdx].Name;
95576686496SAndrew Trick dbgs() << '\n';
95638fe227fSAndrea Di Biagio });
95776686496SAndrew Trick }
958f9df92c9SAndrew Trick // If ProcIndices contains zero, the class applies to all processors.
959d34e60caSNicola Zaghen LLVM_DEBUG({
960e4a23a41SKazu Hirata if (!llvm::is_contained(ProcIndices, 0)) {
96121c75912SJaved Absar for (const CodeGenProcModel &PM : ProcModels) {
962e4a23a41SKazu Hirata if (!llvm::is_contained(ProcIndices, PM.Index))
9638a417c1fSCraig Topper dbgs() << "No machine model for " << Inst->TheDef->getName()
964fc500041SJaved Absar << " on processor " << PM.ModelName << '\n';
96587255e34SAndrew Trick }
96687255e34SAndrew Trick }
96738fe227fSAndrea Di Biagio });
96876686496SAndrew Trick }
969f9df92c9SAndrew Trick }
97076686496SAndrew Trick
97176686496SAndrew Trick // Get the SchedClass index for an instruction.
97238fe227fSAndrea Di Biagio unsigned
getSchedClassIdx(const CodeGenInstruction & Inst) const97338fe227fSAndrea Di Biagio CodeGenSchedModels::getSchedClassIdx(const CodeGenInstruction &Inst) const {
974bf8a28dcSAndrew Trick return InstrClassMap.lookup(Inst.TheDef);
97576686496SAndrew Trick }
97676686496SAndrew Trick
977e1761952SBenjamin Kramer std::string
createSchedClassName(Record * ItinClassDef,ArrayRef<unsigned> OperWrites,ArrayRef<unsigned> OperReads)978e1761952SBenjamin Kramer CodeGenSchedModels::createSchedClassName(Record *ItinClassDef,
979e1761952SBenjamin Kramer ArrayRef<unsigned> OperWrites,
980e1761952SBenjamin Kramer ArrayRef<unsigned> OperReads) {
98176686496SAndrew Trick
98276686496SAndrew Trick std::string Name;
983bf8a28dcSAndrew Trick if (ItinClassDef && ItinClassDef->getName() != "NoItinerary")
984adcd0268SBenjamin Kramer Name = std::string(ItinClassDef->getName());
985e1761952SBenjamin Kramer for (unsigned Idx : OperWrites) {
986bf8a28dcSAndrew Trick if (!Name.empty())
98776686496SAndrew Trick Name += '_';
988e1761952SBenjamin Kramer Name += SchedWrites[Idx].Name;
98976686496SAndrew Trick }
990e1761952SBenjamin Kramer for (unsigned Idx : OperReads) {
99176686496SAndrew Trick Name += '_';
992e1761952SBenjamin Kramer Name += SchedReads[Idx].Name;
99376686496SAndrew Trick }
99476686496SAndrew Trick return Name;
99576686496SAndrew Trick }
99676686496SAndrew Trick
createSchedClassName(const RecVec & InstDefs)99776686496SAndrew Trick std::string CodeGenSchedModels::createSchedClassName(const RecVec &InstDefs) {
99876686496SAndrew Trick
99976686496SAndrew Trick std::string Name;
1000b16c6b2aSKazu Hirata ListSeparator LS("_");
1001b16c6b2aSKazu Hirata for (const Record *InstDef : InstDefs) {
1002b16c6b2aSKazu Hirata Name += LS;
1003b16c6b2aSKazu Hirata Name += InstDef->getName();
100476686496SAndrew Trick }
100576686496SAndrew Trick return Name;
100676686496SAndrew Trick }
100776686496SAndrew Trick
1008bf8a28dcSAndrew Trick /// Add an inferred sched class from an itinerary class and per-operand list of
1009bf8a28dcSAndrew Trick /// SchedWrites and SchedReads. ProcIndices contains the set of IDs of
1010bf8a28dcSAndrew Trick /// processors that may utilize this class.
addSchedClass(Record * ItinClassDef,ArrayRef<unsigned> OperWrites,ArrayRef<unsigned> OperReads,ArrayRef<unsigned> ProcIndices)1011bf8a28dcSAndrew Trick unsigned CodeGenSchedModels::addSchedClass(Record *ItinClassDef,
1012e1761952SBenjamin Kramer ArrayRef<unsigned> OperWrites,
1013e1761952SBenjamin Kramer ArrayRef<unsigned> OperReads,
1014e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) {
101576686496SAndrew Trick assert(!ProcIndices.empty() && "expect at least one ProcIdx");
101676686496SAndrew Trick
101738fe227fSAndrea Di Biagio auto IsKeyEqual = [=](const CodeGenSchedClass &SC) {
101838fe227fSAndrea Di Biagio return SC.isKeyEqual(ItinClassDef, OperWrites, OperReads);
101938fe227fSAndrea Di Biagio };
102038fe227fSAndrea Di Biagio
102138fe227fSAndrea Di Biagio auto I = find_if(make_range(schedClassBegin(), schedClassEnd()), IsKeyEqual);
102238fe227fSAndrea Di Biagio unsigned Idx = I == schedClassEnd() ? 0 : std::distance(schedClassBegin(), I);
1023bf8a28dcSAndrew Trick if (Idx || SchedClasses[0].isKeyEqual(ItinClassDef, OperWrites, OperReads)) {
102476686496SAndrew Trick IdxVec PI;
102576686496SAndrew Trick std::set_union(SchedClasses[Idx].ProcIndices.begin(),
102676686496SAndrew Trick SchedClasses[Idx].ProcIndices.end(),
102776686496SAndrew Trick ProcIndices.begin(), ProcIndices.end(),
102876686496SAndrew Trick std::back_inserter(PI));
102959d13776SCraig Topper SchedClasses[Idx].ProcIndices = std::move(PI);
103076686496SAndrew Trick return Idx;
103176686496SAndrew Trick }
103276686496SAndrew Trick Idx = SchedClasses.size();
1033281a19cfSCraig Topper SchedClasses.emplace_back(Idx,
1034281a19cfSCraig Topper createSchedClassName(ItinClassDef, OperWrites,
1035281a19cfSCraig Topper OperReads),
1036281a19cfSCraig Topper ItinClassDef);
103776686496SAndrew Trick CodeGenSchedClass &SC = SchedClasses.back();
103876686496SAndrew Trick SC.Writes = OperWrites;
103976686496SAndrew Trick SC.Reads = OperReads;
104076686496SAndrew Trick SC.ProcIndices = ProcIndices;
104176686496SAndrew Trick
104276686496SAndrew Trick return Idx;
104376686496SAndrew Trick }
104476686496SAndrew Trick
104576686496SAndrew Trick // Create classes for each set of opcodes that are in the same InstReadWrite
104676686496SAndrew Trick // definition across all processors.
createInstRWClass(Record * InstRWDef)104776686496SAndrew Trick void CodeGenSchedModels::createInstRWClass(Record *InstRWDef) {
104876686496SAndrew Trick // ClassInstrs will hold an entry for each subset of Instrs in InstRWDef that
104976686496SAndrew Trick // intersects with an existing class via a previous InstRWDef. Instrs that do
105076686496SAndrew Trick // not intersect with an existing class refer back to their former class as
105176686496SAndrew Trick // determined from ItinDef or SchedRW.
1052f19eacfeSCraig Topper SmallMapVector<unsigned, SmallVector<Record *, 8>, 4> ClassInstrs;
105376686496SAndrew Trick // Sort Instrs into sets.
10549e1deb69SAndrew Trick const RecVec *InstDefs = Sets.expand(InstRWDef);
10559e1deb69SAndrew Trick if (InstDefs->empty())
1056635debe8SJoerg Sonnenberger PrintFatalError(InstRWDef->getLoc(), "No matching instruction opcodes");
10579e1deb69SAndrew Trick
105893dd77d2SCraig Topper for (Record *InstDef : *InstDefs) {
1059fc500041SJaved Absar InstClassMapTy::const_iterator Pos = InstrClassMap.find(InstDef);
1060bf8a28dcSAndrew Trick if (Pos == InstrClassMap.end())
1061fc500041SJaved Absar PrintFatalError(InstDef->getLoc(), "No sched class for instruction.");
1062bf8a28dcSAndrew Trick unsigned SCIdx = Pos->second;
1063f19eacfeSCraig Topper ClassInstrs[SCIdx].push_back(InstDef);
106476686496SAndrew Trick }
106576686496SAndrew Trick // For each set of Instrs, create a new class if necessary, and map or remap
106676686496SAndrew Trick // the Instrs to it.
1067f19eacfeSCraig Topper for (auto &Entry : ClassInstrs) {
1068f19eacfeSCraig Topper unsigned OldSCIdx = Entry.first;
1069f19eacfeSCraig Topper ArrayRef<Record*> InstDefs = Entry.second;
107076686496SAndrew Trick // If the all instrs in the current class are accounted for, then leave
107176686496SAndrew Trick // them mapped to their old class.
107278a08517SAndrew Trick if (OldSCIdx) {
107378a08517SAndrew Trick const RecVec &RWDefs = SchedClasses[OldSCIdx].InstRWs;
107478a08517SAndrew Trick if (!RWDefs.empty()) {
107578a08517SAndrew Trick const RecVec *OrigInstDefs = Sets.expand(RWDefs[0]);
107606d78376SCraig Topper unsigned OrigNumInstrs =
107706d78376SCraig Topper count_if(*OrigInstDefs, [&](Record *OIDef) {
107806d78376SCraig Topper return InstrClassMap[OIDef] == OldSCIdx;
107906d78376SCraig Topper });
108078a08517SAndrew Trick if (OrigNumInstrs == InstDefs.size()) {
108176686496SAndrew Trick assert(SchedClasses[OldSCIdx].ProcIndices[0] == 0 &&
108276686496SAndrew Trick "expected a generic SchedClass");
1083e1d6a4dfSCraig Topper Record *RWModelDef = InstRWDef->getValueAsDef("SchedModel");
1084e1d6a4dfSCraig Topper // Make sure we didn't already have a InstRW containing this
1085e1d6a4dfSCraig Topper // instruction on this model.
1086e1d6a4dfSCraig Topper for (Record *RWD : RWDefs) {
1087e1d6a4dfSCraig Topper if (RWD->getValueAsDef("SchedModel") == RWModelDef &&
1088e1d6a4dfSCraig Topper RWModelDef->getValueAsBit("FullInstRWOverlapCheck")) {
1089d7888149SNico Weber assert(!InstDefs.empty()); // Checked at function start.
109088ce9f9bSJon Roelofs PrintError(
109188ce9f9bSJon Roelofs InstRWDef->getLoc(),
1092e139a73cSEvandro Menezes "Overlapping InstRW definition for \"" +
1093d7888149SNico Weber InstDefs.front()->getName() +
1094e139a73cSEvandro Menezes "\" also matches previous \"" +
1095e139a73cSEvandro Menezes RWD->getValue("Instrs")->getValue()->getAsString() +
1096e139a73cSEvandro Menezes "\".");
109788ce9f9bSJon Roelofs PrintFatalNote(RWD->getLoc(), "Previous match was here.");
1098e1d6a4dfSCraig Topper }
1099e1d6a4dfSCraig Topper }
1100d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "InstRW: Reuse SC " << OldSCIdx << ":"
110178a08517SAndrew Trick << SchedClasses[OldSCIdx].Name << " on "
1102e1d6a4dfSCraig Topper << RWModelDef->getName() << "\n");
110378a08517SAndrew Trick SchedClasses[OldSCIdx].InstRWs.push_back(InstRWDef);
110476686496SAndrew Trick continue;
110576686496SAndrew Trick }
110678a08517SAndrew Trick }
110778a08517SAndrew Trick }
110876686496SAndrew Trick unsigned SCIdx = SchedClasses.size();
1109281a19cfSCraig Topper SchedClasses.emplace_back(SCIdx, createSchedClassName(InstDefs), nullptr);
111076686496SAndrew Trick CodeGenSchedClass &SC = SchedClasses.back();
1111d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "InstRW: New SC " << SCIdx << ":" << SC.Name << " on "
1112d34e60caSNicola Zaghen << InstRWDef->getValueAsDef("SchedModel")->getName()
1113d34e60caSNicola Zaghen << "\n");
111478a08517SAndrew Trick
111576686496SAndrew Trick // Preserve ItinDef and Writes/Reads for processors without an InstRW entry.
111676686496SAndrew Trick SC.ItinClassDef = SchedClasses[OldSCIdx].ItinClassDef;
111776686496SAndrew Trick SC.Writes = SchedClasses[OldSCIdx].Writes;
111876686496SAndrew Trick SC.Reads = SchedClasses[OldSCIdx].Reads;
111976686496SAndrew Trick SC.ProcIndices.push_back(0);
1120989d94ddSCraig Topper // If we had an old class, copy it's InstRWs to this new class.
1121989d94ddSCraig Topper if (OldSCIdx) {
11229e1deb69SAndrew Trick Record *RWModelDef = InstRWDef->getValueAsDef("SchedModel");
11239fbbe5d9SCraig Topper for (Record *OldRWDef : SchedClasses[OldSCIdx].InstRWs) {
11249fbbe5d9SCraig Topper if (OldRWDef->getValueAsDef("SchedModel") == RWModelDef) {
1125d7888149SNico Weber assert(!InstDefs.empty()); // Checked at function start.
112688ce9f9bSJon Roelofs PrintError(
112788ce9f9bSJon Roelofs InstRWDef->getLoc(),
1128e139a73cSEvandro Menezes "Overlapping InstRW definition for \"" +
112988ce9f9bSJon Roelofs InstDefs.front()->getName() + "\" also matches previous \"" +
1130e139a73cSEvandro Menezes OldRWDef->getValue("Instrs")->getValue()->getAsString() +
1131e139a73cSEvandro Menezes "\".");
113288ce9f9bSJon Roelofs PrintFatalNote(OldRWDef->getLoc(), "Previous match was here.");
11339e1deb69SAndrew Trick }
11349fbbe5d9SCraig Topper assert(OldRWDef != InstRWDef &&
11359fbbe5d9SCraig Topper "SchedClass has duplicate InstRW def");
11369fbbe5d9SCraig Topper SC.InstRWs.push_back(OldRWDef);
11379e1deb69SAndrew Trick }
113876686496SAndrew Trick }
1139989d94ddSCraig Topper // Map each Instr to this new class.
1140989d94ddSCraig Topper for (Record *InstDef : InstDefs)
11419fbbe5d9SCraig Topper InstrClassMap[InstDef] = SCIdx;
114276686496SAndrew Trick SC.InstRWs.push_back(InstRWDef);
114376686496SAndrew Trick }
114487255e34SAndrew Trick }
114587255e34SAndrew Trick
1146bf8a28dcSAndrew Trick // True if collectProcItins found anything.
hasItineraries() const1147bf8a28dcSAndrew Trick bool CodeGenSchedModels::hasItineraries() const {
114838fe227fSAndrea Di Biagio for (const CodeGenProcModel &PM : make_range(procModelBegin(),procModelEnd()))
114967b042c2SJaved Absar if (PM.hasItineraries())
1150bf8a28dcSAndrew Trick return true;
1151bf8a28dcSAndrew Trick return false;
1152bf8a28dcSAndrew Trick }
1153bf8a28dcSAndrew Trick
115487255e34SAndrew Trick // Gather the processor itineraries.
collectProcItins()115576686496SAndrew Trick void CodeGenSchedModels::collectProcItins() {
1156d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\n+++ PROBLEM ITINERARIES (collectProcItins) +++\n");
11578a417c1fSCraig Topper for (CodeGenProcModel &ProcModel : ProcModels) {
1158bf8a28dcSAndrew Trick if (!ProcModel.hasItineraries())
115976686496SAndrew Trick continue;
116087255e34SAndrew Trick
1161bf8a28dcSAndrew Trick RecVec ItinRecords = ProcModel.ItinsDef->getValueAsListOfDefs("IID");
1162bf8a28dcSAndrew Trick assert(!ItinRecords.empty() && "ProcModel.hasItineraries is incorrect");
1163bf8a28dcSAndrew Trick
1164bf8a28dcSAndrew Trick // Populate ItinDefList with Itinerary records.
1165bf8a28dcSAndrew Trick ProcModel.ItinDefList.resize(NumInstrSchedClasses);
116687255e34SAndrew Trick
116787255e34SAndrew Trick // Insert each itinerary data record in the correct position within
116887255e34SAndrew Trick // the processor model's ItinDefList.
1169fc500041SJaved Absar for (Record *ItinData : ItinRecords) {
117038fe227fSAndrea Di Biagio const Record *ItinDef = ItinData->getValueAsDef("TheClass");
1171e7bac5f5SAndrew Trick bool FoundClass = false;
117238fe227fSAndrea Di Biagio
117338fe227fSAndrea Di Biagio for (const CodeGenSchedClass &SC :
117438fe227fSAndrea Di Biagio make_range(schedClassBegin(), schedClassEnd())) {
1175e7bac5f5SAndrew Trick // Multiple SchedClasses may share an itinerary. Update all of them.
117638fe227fSAndrea Di Biagio if (SC.ItinClassDef == ItinDef) {
117738fe227fSAndrea Di Biagio ProcModel.ItinDefList[SC.Index] = ItinData;
1178e7bac5f5SAndrew Trick FoundClass = true;
117987255e34SAndrew Trick }
1180bf8a28dcSAndrew Trick }
1181e7bac5f5SAndrew Trick if (!FoundClass) {
1182d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << ProcModel.ItinsDef->getName()
1183d34e60caSNicola Zaghen << " missing class for itinerary "
1184d34e60caSNicola Zaghen << ItinDef->getName() << '\n');
1185bf8a28dcSAndrew Trick }
118687255e34SAndrew Trick }
118787255e34SAndrew Trick // Check for missing itinerary entries.
118887255e34SAndrew Trick assert(!ProcModel.ItinDefList[0] && "NoItinerary class can't have rec");
1189d34e60caSNicola Zaghen LLVM_DEBUG(
119087255e34SAndrew Trick for (unsigned i = 1, N = ProcModel.ItinDefList.size(); i < N; ++i) {
119187255e34SAndrew Trick if (!ProcModel.ItinDefList[i])
119276686496SAndrew Trick dbgs() << ProcModel.ItinsDef->getName()
1193d34e60caSNicola Zaghen << " missing itinerary for class " << SchedClasses[i].Name
1194d34e60caSNicola Zaghen << '\n';
119576686496SAndrew Trick });
119687255e34SAndrew Trick }
119787255e34SAndrew Trick }
119876686496SAndrew Trick
119976686496SAndrew Trick // Gather the read/write types for each itinerary class.
collectProcItinRW()120076686496SAndrew Trick void CodeGenSchedModels::collectProcItinRW() {
120176686496SAndrew Trick RecVec ItinRWDefs = Records.getAllDerivedDefinitions("ItinRW");
12020cac726aSFangrui Song llvm::sort(ItinRWDefs, LessRecord());
120321c75912SJaved Absar for (Record *RWDef : ItinRWDefs) {
1204f45d0b98SJaved Absar if (!RWDef->getValueInit("SchedModel")->isComplete())
1205f45d0b98SJaved Absar PrintFatalError(RWDef->getLoc(), "SchedModel is undefined");
1206f45d0b98SJaved Absar Record *ModelDef = RWDef->getValueAsDef("SchedModel");
120776686496SAndrew Trick ProcModelMapTy::const_iterator I = ProcModelMap.find(ModelDef);
120876686496SAndrew Trick if (I == ProcModelMap.end()) {
1209f45d0b98SJaved Absar PrintFatalError(RWDef->getLoc(), "Undefined SchedMachineModel "
121076686496SAndrew Trick + ModelDef->getName());
121176686496SAndrew Trick }
1212f45d0b98SJaved Absar ProcModels[I->second].ItinRWDefs.push_back(RWDef);
121376686496SAndrew Trick }
121476686496SAndrew Trick }
121576686496SAndrew Trick
12165f95c9afSSimon Dardis // Gather the unsupported features for processor models.
collectProcUnsupportedFeatures()12175f95c9afSSimon Dardis void CodeGenSchedModels::collectProcUnsupportedFeatures() {
12185d3f3d3aSKazu Hirata for (CodeGenProcModel &ProcModel : ProcModels)
12195d3f3d3aSKazu Hirata append_range(
12205d3f3d3aSKazu Hirata ProcModel.UnsupportedFeaturesDefs,
12215d3f3d3aSKazu Hirata ProcModel.ModelDef->getValueAsListOfDefs("UnsupportedFeatures"));
12225f95c9afSSimon Dardis }
12235f95c9afSSimon Dardis
122433401e84SAndrew Trick /// Infer new classes from existing classes. In the process, this may create new
122533401e84SAndrew Trick /// SchedWrites from sequences of existing SchedWrites.
inferSchedClasses()122633401e84SAndrew Trick void CodeGenSchedModels::inferSchedClasses() {
1227d34e60caSNicola Zaghen LLVM_DEBUG(
1228d34e60caSNicola Zaghen dbgs() << "\n+++ INFERRING SCHED CLASSES (inferSchedClasses) +++\n");
1229d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << NumInstrSchedClasses << " instr sched classes.\n");
1230bf8a28dcSAndrew Trick
123133401e84SAndrew Trick // Visit all existing classes and newly created classes.
123233401e84SAndrew Trick for (unsigned Idx = 0; Idx != SchedClasses.size(); ++Idx) {
1233bf8a28dcSAndrew Trick assert(SchedClasses[Idx].Index == Idx && "bad SCIdx");
1234bf8a28dcSAndrew Trick
123533401e84SAndrew Trick if (SchedClasses[Idx].ItinClassDef)
123633401e84SAndrew Trick inferFromItinClass(SchedClasses[Idx].ItinClassDef, Idx);
1237bf8a28dcSAndrew Trick if (!SchedClasses[Idx].InstRWs.empty())
123833401e84SAndrew Trick inferFromInstRWs(Idx);
1239bf8a28dcSAndrew Trick if (!SchedClasses[Idx].Writes.empty()) {
124033401e84SAndrew Trick inferFromRW(SchedClasses[Idx].Writes, SchedClasses[Idx].Reads,
124133401e84SAndrew Trick Idx, SchedClasses[Idx].ProcIndices);
124233401e84SAndrew Trick }
124333401e84SAndrew Trick assert(SchedClasses.size() < (NumInstrSchedClasses*6) &&
124433401e84SAndrew Trick "too many SchedVariants");
124533401e84SAndrew Trick }
124633401e84SAndrew Trick }
124733401e84SAndrew Trick
124833401e84SAndrew Trick /// Infer classes from per-processor itinerary resources.
inferFromItinClass(Record * ItinClassDef,unsigned FromClassIdx)124933401e84SAndrew Trick void CodeGenSchedModels::inferFromItinClass(Record *ItinClassDef,
125033401e84SAndrew Trick unsigned FromClassIdx) {
125133401e84SAndrew Trick for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) {
125233401e84SAndrew Trick const CodeGenProcModel &PM = ProcModels[PIdx];
125333401e84SAndrew Trick // For all ItinRW entries.
125433401e84SAndrew Trick bool HasMatch = false;
125538fe227fSAndrea Di Biagio for (const Record *Rec : PM.ItinRWDefs) {
125638fe227fSAndrea Di Biagio RecVec Matched = Rec->getValueAsListOfDefs("MatchedItinClasses");
1257e4a23a41SKazu Hirata if (!llvm::is_contained(Matched, ItinClassDef))
125833401e84SAndrew Trick continue;
125933401e84SAndrew Trick if (HasMatch)
126038fe227fSAndrea Di Biagio PrintFatalError(Rec->getLoc(), "Duplicate itinerary class "
126133401e84SAndrew Trick + ItinClassDef->getName()
126233401e84SAndrew Trick + " in ItinResources for " + PM.ModelName);
126333401e84SAndrew Trick HasMatch = true;
126433401e84SAndrew Trick IdxVec Writes, Reads;
126538fe227fSAndrea Di Biagio findRWs(Rec->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads);
12669f3293a9SCraig Topper inferFromRW(Writes, Reads, FromClassIdx, PIdx);
126733401e84SAndrew Trick }
126833401e84SAndrew Trick }
126933401e84SAndrew Trick }
127033401e84SAndrew Trick
127133401e84SAndrew Trick /// Infer classes from per-processor InstReadWrite definitions.
inferFromInstRWs(unsigned SCIdx)127233401e84SAndrew Trick void CodeGenSchedModels::inferFromInstRWs(unsigned SCIdx) {
127358bd79c4SBenjamin Kramer for (unsigned I = 0, E = SchedClasses[SCIdx].InstRWs.size(); I != E; ++I) {
1274b22643a4SBenjamin Kramer assert(SchedClasses[SCIdx].InstRWs.size() == E && "InstrRWs was mutated!");
127558bd79c4SBenjamin Kramer Record *Rec = SchedClasses[SCIdx].InstRWs[I];
127658bd79c4SBenjamin Kramer const RecVec *InstDefs = Sets.expand(Rec);
12779e1deb69SAndrew Trick RecIter II = InstDefs->begin(), IE = InstDefs->end();
127833401e84SAndrew Trick for (; II != IE; ++II) {
127933401e84SAndrew Trick if (InstrClassMap[*II] == SCIdx)
128033401e84SAndrew Trick break;
128133401e84SAndrew Trick }
128233401e84SAndrew Trick // If this class no longer has any instructions mapped to it, it has become
128333401e84SAndrew Trick // irrelevant.
128433401e84SAndrew Trick if (II == IE)
128533401e84SAndrew Trick continue;
128633401e84SAndrew Trick IdxVec Writes, Reads;
128758bd79c4SBenjamin Kramer findRWs(Rec->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads);
128858bd79c4SBenjamin Kramer unsigned PIdx = getProcModel(Rec->getValueAsDef("SchedModel")).Index;
12899f3293a9SCraig Topper inferFromRW(Writes, Reads, SCIdx, PIdx); // May mutate SchedClasses.
12906e56046fSEvgeny Leviant SchedClasses[SCIdx].InstRWProcIndices.insert(PIdx);
129133401e84SAndrew Trick }
129233401e84SAndrew Trick }
129333401e84SAndrew Trick
129433401e84SAndrew Trick namespace {
1295a3fe70d2SEugene Zelenko
12969257b8f8SAndrew Trick // Helper for substituteVariantOperand.
12979257b8f8SAndrew Trick struct TransVariant {
1298da984b1aSAndrew Trick Record *VarOrSeqDef; // Variant or sequence.
1299da984b1aSAndrew Trick unsigned RWIdx; // Index of this variant or sequence's matched type.
13009257b8f8SAndrew Trick unsigned ProcIdx; // Processor model index or zero for any.
13019257b8f8SAndrew Trick unsigned TransVecIdx; // Index into PredTransitions::TransVec.
13029257b8f8SAndrew Trick
TransVariant__anon4f9dd10d0b11::TransVariant13039257b8f8SAndrew Trick TransVariant(Record *def, unsigned rwi, unsigned pi, unsigned ti):
1304da984b1aSAndrew Trick VarOrSeqDef(def), RWIdx(rwi), ProcIdx(pi), TransVecIdx(ti) {}
13059257b8f8SAndrew Trick };
13069257b8f8SAndrew Trick
130733401e84SAndrew Trick // Associate a predicate with the SchedReadWrite that it guards.
130833401e84SAndrew Trick // RWIdx is the index of the read/write variant.
130933401e84SAndrew Trick struct PredCheck {
131033401e84SAndrew Trick bool IsRead;
131133401e84SAndrew Trick unsigned RWIdx;
131233401e84SAndrew Trick Record *Predicate;
131333401e84SAndrew Trick
PredCheck__anon4f9dd10d0b11::PredCheck131433401e84SAndrew Trick PredCheck(bool r, unsigned w, Record *p): IsRead(r), RWIdx(w), Predicate(p) {}
131533401e84SAndrew Trick };
131633401e84SAndrew Trick
131733401e84SAndrew Trick // A Predicate transition is a list of RW sequences guarded by a PredTerm.
131833401e84SAndrew Trick struct PredTransition {
131933401e84SAndrew Trick // A predicate term is a conjunction of PredChecks.
132033401e84SAndrew Trick SmallVector<PredCheck, 4> PredTerm;
132133401e84SAndrew Trick SmallVector<SmallVector<unsigned,4>, 16> WriteSequences;
132233401e84SAndrew Trick SmallVector<SmallVector<unsigned,4>, 16> ReadSequences;
132353401e8eSEvgeny Leviant unsigned ProcIndex = 0;
1324cc96a822SEvgeny Leviant
1325cc96a822SEvgeny Leviant PredTransition() = default;
PredTransition__anon4f9dd10d0b11::PredTransition132653401e8eSEvgeny Leviant PredTransition(ArrayRef<PredCheck> PT, unsigned ProcId) {
1327cc96a822SEvgeny Leviant PredTerm.assign(PT.begin(), PT.end());
132853401e8eSEvgeny Leviant ProcIndex = ProcId;
1329cc96a822SEvgeny Leviant }
133033401e84SAndrew Trick };
133133401e84SAndrew Trick
133233401e84SAndrew Trick // Encapsulate a set of partially constructed transitions.
133333401e84SAndrew Trick // The results are built by repeated calls to substituteVariants.
133433401e84SAndrew Trick class PredTransitions {
133533401e84SAndrew Trick CodeGenSchedModels &SchedModels;
133633401e84SAndrew Trick
133733401e84SAndrew Trick public:
133833401e84SAndrew Trick std::vector<PredTransition> TransVec;
133933401e84SAndrew Trick
PredTransitions(CodeGenSchedModels & sm)134033401e84SAndrew Trick PredTransitions(CodeGenSchedModels &sm): SchedModels(sm) {}
134133401e84SAndrew Trick
13424c419c45SEvgeny Leviant bool substituteVariantOperand(const SmallVectorImpl<unsigned> &RWSeq,
1343993eaf2dSEvgeny Leviant bool IsRead, unsigned StartIdx);
134433401e84SAndrew Trick
13454c419c45SEvgeny Leviant bool substituteVariants(const PredTransition &Trans);
134633401e84SAndrew Trick
134733401e84SAndrew Trick #ifndef NDEBUG
134833401e84SAndrew Trick void dump() const;
134933401e84SAndrew Trick #endif
135033401e84SAndrew Trick
135133401e84SAndrew Trick private:
135250bd6866SEvgeny Leviant bool mutuallyExclusive(Record *PredDef, ArrayRef<Record *> Preds,
135350bd6866SEvgeny Leviant ArrayRef<PredCheck> Term);
1354da984b1aSAndrew Trick void getIntersectingVariants(
1355da984b1aSAndrew Trick const CodeGenSchedRW &SchedRW, unsigned TransIdx,
1356da984b1aSAndrew Trick std::vector<TransVariant> &IntersectingVariants);
13579257b8f8SAndrew Trick void pushVariant(const TransVariant &VInfo, bool IsRead);
135833401e84SAndrew Trick };
1359a3fe70d2SEugene Zelenko
1360a3fe70d2SEugene Zelenko } // end anonymous namespace
136133401e84SAndrew Trick
136233401e84SAndrew Trick // Return true if this predicate is mutually exclusive with a PredTerm. This
136333401e84SAndrew Trick // degenerates into checking if the predicate is mutually exclusive with any
136433401e84SAndrew Trick // predicate in the Term's conjunction.
136533401e84SAndrew Trick //
136633401e84SAndrew Trick // All predicates associated with a given SchedRW are considered mutually
136733401e84SAndrew Trick // exclusive. This should work even if the conditions expressed by the
136833401e84SAndrew Trick // predicates are not exclusive because the predicates for a given SchedWrite
136933401e84SAndrew Trick // are always checked in the order they are defined in the .td file. Later
137033401e84SAndrew Trick // conditions implicitly negate any prior condition.
mutuallyExclusive(Record * PredDef,ArrayRef<Record * > Preds,ArrayRef<PredCheck> Term)137133401e84SAndrew Trick bool PredTransitions::mutuallyExclusive(Record *PredDef,
137250bd6866SEvgeny Leviant ArrayRef<Record *> Preds,
137333401e84SAndrew Trick ArrayRef<PredCheck> Term) {
137421c75912SJaved Absar for (const PredCheck &PC: Term) {
1375fc500041SJaved Absar if (PC.Predicate == PredDef)
137633401e84SAndrew Trick return false;
137733401e84SAndrew Trick
1378fc500041SJaved Absar const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(PC.RWIdx, PC.IsRead);
137933401e84SAndrew Trick assert(SchedRW.HasVariants && "PredCheck must refer to a SchedVariant");
138033401e84SAndrew Trick RecVec Variants = SchedRW.TheDef->getValueAsListOfDefs("Variants");
138138fe227fSAndrea Di Biagio if (any_of(Variants, [PredDef](const Record *R) {
138238fe227fSAndrea Di Biagio return R->getValueAsDef("Predicate") == PredDef;
138350bd6866SEvgeny Leviant })) {
138450bd6866SEvgeny Leviant // To check if PredDef is mutually exclusive with PC we also need to
138550bd6866SEvgeny Leviant // check that PC.Predicate is exclusive with all predicates from variant
138650bd6866SEvgeny Leviant // we're expanding. Consider following RW sequence with two variants
138750bd6866SEvgeny Leviant // (1 & 2), where A, B and C are predicates from corresponding SchedVars:
138850bd6866SEvgeny Leviant //
138950bd6866SEvgeny Leviant // 1:A/B - 2:C/B
139050bd6866SEvgeny Leviant //
139150bd6866SEvgeny Leviant // Here C is not mutually exclusive with variant (1), because A doesn't
139250bd6866SEvgeny Leviant // exist in variant (2). This means we have possible transitions from A
139350bd6866SEvgeny Leviant // to C and from A to B, and fully expanded sequence would look like:
139450bd6866SEvgeny Leviant //
139550bd6866SEvgeny Leviant // if (A & C) return ...;
139650bd6866SEvgeny Leviant // if (A & B) return ...;
139750bd6866SEvgeny Leviant // if (B) return ...;
139850bd6866SEvgeny Leviant //
139950bd6866SEvgeny Leviant // Now let's consider another sequence:
140050bd6866SEvgeny Leviant //
140150bd6866SEvgeny Leviant // 1:A/B - 2:A/B
140250bd6866SEvgeny Leviant //
140350bd6866SEvgeny Leviant // Here A in variant (2) is mutually exclusive with variant (1), because
140450bd6866SEvgeny Leviant // A also exists in (2). This means A->B transition is impossible and
140550bd6866SEvgeny Leviant // expanded sequence would look like:
140650bd6866SEvgeny Leviant //
140750bd6866SEvgeny Leviant // if (A) return ...;
140850bd6866SEvgeny Leviant // if (B) return ...;
140936b8a4f9SKazu Hirata if (!llvm::is_contained(Preds, PC.Predicate))
141050bd6866SEvgeny Leviant continue;
141133401e84SAndrew Trick return true;
141233401e84SAndrew Trick }
141350bd6866SEvgeny Leviant }
141433401e84SAndrew Trick return false;
141533401e84SAndrew Trick }
141633401e84SAndrew Trick
getAllPredicates(ArrayRef<TransVariant> Variants,unsigned ProcId)141778caf4f1SEvgeny Leviant static std::vector<Record *> getAllPredicates(ArrayRef<TransVariant> Variants,
141853401e8eSEvgeny Leviant unsigned ProcId) {
141950bd6866SEvgeny Leviant std::vector<Record *> Preds;
142050bd6866SEvgeny Leviant for (auto &Variant : Variants) {
1421d8f22c77SEvgeny Leviant if (!Variant.VarOrSeqDef->isSubClassOf("SchedVar"))
1422d8f22c77SEvgeny Leviant continue;
142350bd6866SEvgeny Leviant Preds.push_back(Variant.VarOrSeqDef->getValueAsDef("Predicate"));
142450bd6866SEvgeny Leviant }
142550bd6866SEvgeny Leviant return Preds;
142650bd6866SEvgeny Leviant }
142750bd6866SEvgeny Leviant
1428da984b1aSAndrew Trick // Populate IntersectingVariants with any variants or aliased sequences of the
1429da984b1aSAndrew Trick // given SchedRW whose processor indices and predicates are not mutually
1430d97ff1fcSAndrew Trick // exclusive with the given transition.
getIntersectingVariants(const CodeGenSchedRW & SchedRW,unsigned TransIdx,std::vector<TransVariant> & IntersectingVariants)1431da984b1aSAndrew Trick void PredTransitions::getIntersectingVariants(
1432da984b1aSAndrew Trick const CodeGenSchedRW &SchedRW, unsigned TransIdx,
1433da984b1aSAndrew Trick std::vector<TransVariant> &IntersectingVariants) {
1434da984b1aSAndrew Trick
1435d97ff1fcSAndrew Trick bool GenericRW = false;
1436d97ff1fcSAndrew Trick
1437da984b1aSAndrew Trick std::vector<TransVariant> Variants;
1438da984b1aSAndrew Trick if (SchedRW.HasVariants) {
1439da984b1aSAndrew Trick unsigned VarProcIdx = 0;
1440da984b1aSAndrew Trick if (SchedRW.TheDef->getValueInit("SchedModel")->isComplete()) {
1441da984b1aSAndrew Trick Record *ModelDef = SchedRW.TheDef->getValueAsDef("SchedModel");
1442da984b1aSAndrew Trick VarProcIdx = SchedModels.getProcModel(ModelDef).Index;
1443da984b1aSAndrew Trick }
144453401e8eSEvgeny Leviant if (VarProcIdx == 0 || VarProcIdx == TransVec[TransIdx].ProcIndex) {
1445da984b1aSAndrew Trick // Push each variant. Assign TransVecIdx later.
1446da984b1aSAndrew Trick const RecVec VarDefs = SchedRW.TheDef->getValueAsListOfDefs("Variants");
1447f45d0b98SJaved Absar for (Record *VarDef : VarDefs)
144838fe227fSAndrea Di Biagio Variants.emplace_back(VarDef, SchedRW.Index, VarProcIdx, 0);
1449d97ff1fcSAndrew Trick if (VarProcIdx == 0)
1450d97ff1fcSAndrew Trick GenericRW = true;
1451da984b1aSAndrew Trick }
145253401e8eSEvgeny Leviant }
1453da984b1aSAndrew Trick for (RecIter AI = SchedRW.Aliases.begin(), AE = SchedRW.Aliases.end();
1454da984b1aSAndrew Trick AI != AE; ++AI) {
1455da984b1aSAndrew Trick // If either the SchedAlias itself or the SchedReadWrite that it aliases
1456da984b1aSAndrew Trick // to is defined within a processor model, constrain all variants to
1457da984b1aSAndrew Trick // that processor.
1458da984b1aSAndrew Trick unsigned AliasProcIdx = 0;
1459da984b1aSAndrew Trick if ((*AI)->getValueInit("SchedModel")->isComplete()) {
1460da984b1aSAndrew Trick Record *ModelDef = (*AI)->getValueAsDef("SchedModel");
1461da984b1aSAndrew Trick AliasProcIdx = SchedModels.getProcModel(ModelDef).Index;
1462da984b1aSAndrew Trick }
146353401e8eSEvgeny Leviant if (AliasProcIdx && AliasProcIdx != TransVec[TransIdx].ProcIndex)
146453401e8eSEvgeny Leviant continue;
146553401e8eSEvgeny Leviant if (!Variants.empty()) {
146653401e8eSEvgeny Leviant const CodeGenProcModel &PM =
146753401e8eSEvgeny Leviant *(SchedModels.procModelBegin() + AliasProcIdx);
146853401e8eSEvgeny Leviant PrintFatalError((*AI)->getLoc(),
146953401e8eSEvgeny Leviant "Multiple variants defined for processor " +
147053401e8eSEvgeny Leviant PM.ModelName +
147153401e8eSEvgeny Leviant " Ensure only one SchedAlias exists per RW.");
147253401e8eSEvgeny Leviant }
147353401e8eSEvgeny Leviant
1474da984b1aSAndrew Trick const CodeGenSchedRW &AliasRW =
1475da984b1aSAndrew Trick SchedModels.getSchedRW((*AI)->getValueAsDef("AliasRW"));
1476da984b1aSAndrew Trick
1477da984b1aSAndrew Trick if (AliasRW.HasVariants) {
1478da984b1aSAndrew Trick const RecVec VarDefs = AliasRW.TheDef->getValueAsListOfDefs("Variants");
14799003dd78SJaved Absar for (Record *VD : VarDefs)
148038fe227fSAndrea Di Biagio Variants.emplace_back(VD, AliasRW.Index, AliasProcIdx, 0);
1481da984b1aSAndrew Trick }
148238fe227fSAndrea Di Biagio if (AliasRW.IsSequence)
148338fe227fSAndrea Di Biagio Variants.emplace_back(AliasRW.TheDef, SchedRW.Index, AliasProcIdx, 0);
1484d97ff1fcSAndrew Trick if (AliasProcIdx == 0)
1485d97ff1fcSAndrew Trick GenericRW = true;
1486da984b1aSAndrew Trick }
148778caf4f1SEvgeny Leviant std::vector<Record *> AllPreds =
148853401e8eSEvgeny Leviant getAllPredicates(Variants, TransVec[TransIdx].ProcIndex);
1489f45d0b98SJaved Absar for (TransVariant &Variant : Variants) {
1490da984b1aSAndrew Trick // Don't expand variants if the processor models don't intersect.
1491da984b1aSAndrew Trick // A zero processor index means any processor.
1492d8f22c77SEvgeny Leviant if (Variant.VarOrSeqDef->isSubClassOf("SchedVar")) {
1493da984b1aSAndrew Trick Record *PredDef = Variant.VarOrSeqDef->getValueAsDef("Predicate");
149450bd6866SEvgeny Leviant if (mutuallyExclusive(PredDef, AllPreds, TransVec[TransIdx].PredTerm))
1495da984b1aSAndrew Trick continue;
1496d8f22c77SEvgeny Leviant }
149750bd6866SEvgeny Leviant
1498da984b1aSAndrew Trick if (IntersectingVariants.empty()) {
1499da984b1aSAndrew Trick // The first variant builds on the existing transition.
1500da984b1aSAndrew Trick Variant.TransVecIdx = TransIdx;
1501da984b1aSAndrew Trick IntersectingVariants.push_back(Variant);
1502da984b1aSAndrew Trick }
1503da984b1aSAndrew Trick else {
1504da984b1aSAndrew Trick // Push another copy of the current transition for more variants.
1505da984b1aSAndrew Trick Variant.TransVecIdx = TransVec.size();
1506da984b1aSAndrew Trick IntersectingVariants.push_back(Variant);
1507f6169d02SDan Gohman TransVec.push_back(TransVec[TransIdx]);
1508da984b1aSAndrew Trick }
1509da984b1aSAndrew Trick }
1510d97ff1fcSAndrew Trick if (GenericRW && IntersectingVariants.empty()) {
1511d97ff1fcSAndrew Trick PrintFatalError(SchedRW.TheDef->getLoc(), "No variant of this type has "
1512d97ff1fcSAndrew Trick "a matching predicate on any processor");
1513d97ff1fcSAndrew Trick }
1514da984b1aSAndrew Trick }
1515da984b1aSAndrew Trick
15169257b8f8SAndrew Trick // Push the Reads/Writes selected by this variant onto the PredTransition
15179257b8f8SAndrew Trick // specified by VInfo.
15189257b8f8SAndrew Trick void PredTransitions::
pushVariant(const TransVariant & VInfo,bool IsRead)15199257b8f8SAndrew Trick pushVariant(const TransVariant &VInfo, bool IsRead) {
15209257b8f8SAndrew Trick PredTransition &Trans = TransVec[VInfo.TransVecIdx];
15219257b8f8SAndrew Trick
15229257b8f8SAndrew Trick // If this operand transition is reached through a processor-specific alias,
15239257b8f8SAndrew Trick // then the whole transition is specific to this processor.
152433401e84SAndrew Trick IdxVec SelectedRWs;
1525da984b1aSAndrew Trick if (VInfo.VarOrSeqDef->isSubClassOf("SchedVar")) {
1526da984b1aSAndrew Trick Record *PredDef = VInfo.VarOrSeqDef->getValueAsDef("Predicate");
152738fe227fSAndrea Di Biagio Trans.PredTerm.emplace_back(IsRead, VInfo.RWIdx,PredDef);
1528da984b1aSAndrew Trick RecVec SelectedDefs = VInfo.VarOrSeqDef->getValueAsListOfDefs("Selected");
152933401e84SAndrew Trick SchedModels.findRWs(SelectedDefs, SelectedRWs, IsRead);
1530da984b1aSAndrew Trick }
1531da984b1aSAndrew Trick else {
1532da984b1aSAndrew Trick assert(VInfo.VarOrSeqDef->isSubClassOf("WriteSequence") &&
1533da984b1aSAndrew Trick "variant must be a SchedVariant or aliased WriteSequence");
1534da984b1aSAndrew Trick SelectedRWs.push_back(SchedModels.getSchedRWIdx(VInfo.VarOrSeqDef, IsRead));
1535da984b1aSAndrew Trick }
153633401e84SAndrew Trick
15379257b8f8SAndrew Trick const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(VInfo.RWIdx, IsRead);
153833401e84SAndrew Trick
153933401e84SAndrew Trick SmallVectorImpl<SmallVector<unsigned,4>> &RWSequences = IsRead
154033401e84SAndrew Trick ? Trans.ReadSequences : Trans.WriteSequences;
154133401e84SAndrew Trick if (SchedRW.IsVariadic) {
154233401e84SAndrew Trick unsigned OperIdx = RWSequences.size()-1;
154333401e84SAndrew Trick // Make N-1 copies of this transition's last sequence.
15445abf76fbSDuncan P. N. Exon Smith RWSequences.reserve(RWSequences.size() + SelectedRWs.size() - 1);
154538fe227fSAndrea Di Biagio RWSequences.insert(RWSequences.end(), SelectedRWs.size() - 1,
154638fe227fSAndrea Di Biagio RWSequences[OperIdx]);
154733401e84SAndrew Trick // Push each of the N elements of the SelectedRWs onto a copy of the last
154833401e84SAndrew Trick // sequence (split the current operand into N operands).
154933401e84SAndrew Trick // Note that write sequences should be expanded within this loop--the entire
155033401e84SAndrew Trick // sequence belongs to a single operand.
155133401e84SAndrew Trick for (IdxIter RWI = SelectedRWs.begin(), RWE = SelectedRWs.end();
155233401e84SAndrew Trick RWI != RWE; ++RWI, ++OperIdx) {
155333401e84SAndrew Trick IdxVec ExpandedRWs;
155433401e84SAndrew Trick if (IsRead)
155533401e84SAndrew Trick ExpandedRWs.push_back(*RWI);
155633401e84SAndrew Trick else
155733401e84SAndrew Trick SchedModels.expandRWSequence(*RWI, ExpandedRWs, IsRead);
1558f7f42e64SKazu Hirata llvm::append_range(RWSequences[OperIdx], ExpandedRWs);
155933401e84SAndrew Trick }
156033401e84SAndrew Trick assert(OperIdx == RWSequences.size() && "missed a sequence");
156133401e84SAndrew Trick }
156233401e84SAndrew Trick else {
156333401e84SAndrew Trick // Push this transition's expanded sequence onto this transition's last
156433401e84SAndrew Trick // sequence (add to the current operand's sequence).
156533401e84SAndrew Trick SmallVectorImpl<unsigned> &Seq = RWSequences.back();
156633401e84SAndrew Trick IdxVec ExpandedRWs;
1567e6cf3d64SCoelacanthus for (unsigned int SelectedRW : SelectedRWs) {
156833401e84SAndrew Trick if (IsRead)
1569e6cf3d64SCoelacanthus ExpandedRWs.push_back(SelectedRW);
157033401e84SAndrew Trick else
1571e6cf3d64SCoelacanthus SchedModels.expandRWSequence(SelectedRW, ExpandedRWs, IsRead);
157233401e84SAndrew Trick }
1573f7f42e64SKazu Hirata llvm::append_range(Seq, ExpandedRWs);
157433401e84SAndrew Trick }
157533401e84SAndrew Trick }
157633401e84SAndrew Trick
157733401e84SAndrew Trick // RWSeq is a sequence of all Reads or all Writes for the next read or write
157833401e84SAndrew Trick // operand. StartIdx is an index into TransVec where partial results
15799257b8f8SAndrew Trick // starts. RWSeq must be applied to all transitions between StartIdx and the end
158033401e84SAndrew Trick // of TransVec.
substituteVariantOperand(const SmallVectorImpl<unsigned> & RWSeq,bool IsRead,unsigned StartIdx)15814c419c45SEvgeny Leviant bool PredTransitions::substituteVariantOperand(
1582993eaf2dSEvgeny Leviant const SmallVectorImpl<unsigned> &RWSeq, bool IsRead, unsigned StartIdx) {
15834c419c45SEvgeny Leviant bool Subst = false;
158433401e84SAndrew Trick // Visit each original RW within the current sequence.
1585e6cf3d64SCoelacanthus for (unsigned int RWI : RWSeq) {
1586e6cf3d64SCoelacanthus const CodeGenSchedRW &SchedRW = SchedModels.getSchedRW(RWI, IsRead);
158733401e84SAndrew Trick // Push this RW on all partial PredTransitions or distribute variants.
158833401e84SAndrew Trick // New PredTransitions may be pushed within this loop which should not be
158933401e84SAndrew Trick // revisited (TransEnd must be loop invariant).
159033401e84SAndrew Trick for (unsigned TransIdx = StartIdx, TransEnd = TransVec.size();
159133401e84SAndrew Trick TransIdx != TransEnd; ++TransIdx) {
1592993eaf2dSEvgeny Leviant // Distribute this partial PredTransition across intersecting variants.
1593993eaf2dSEvgeny Leviant // This will push a copies of TransVec[TransIdx] on the back of TransVec.
1594993eaf2dSEvgeny Leviant std::vector<TransVariant> IntersectingVariants;
1595993eaf2dSEvgeny Leviant getIntersectingVariants(SchedRW, TransIdx, IntersectingVariants);
1596993eaf2dSEvgeny Leviant // Now expand each variant on top of its copy of the transition.
1597993eaf2dSEvgeny Leviant for (const TransVariant &IV : IntersectingVariants)
1598993eaf2dSEvgeny Leviant pushVariant(IV, IsRead);
1599993eaf2dSEvgeny Leviant if (IntersectingVariants.empty()) {
160033401e84SAndrew Trick if (IsRead)
1601e6cf3d64SCoelacanthus TransVec[TransIdx].ReadSequences.back().push_back(RWI);
160233401e84SAndrew Trick else
1603e6cf3d64SCoelacanthus TransVec[TransIdx].WriteSequences.back().push_back(RWI);
160433401e84SAndrew Trick continue;
1605993eaf2dSEvgeny Leviant } else {
1606993eaf2dSEvgeny Leviant Subst = true;
160733401e84SAndrew Trick }
160833401e84SAndrew Trick }
160933401e84SAndrew Trick }
16104c419c45SEvgeny Leviant return Subst;
161133401e84SAndrew Trick }
161233401e84SAndrew Trick
161333401e84SAndrew Trick // For each variant of a Read/Write in Trans, substitute the sequence of
161433401e84SAndrew Trick // Read/Writes guarded by the variant. This is exponential in the number of
161533401e84SAndrew Trick // variant Read/Writes, but in practice detection of mutually exclusive
161633401e84SAndrew Trick // predicates should result in linear growth in the total number variants.
161733401e84SAndrew Trick //
161833401e84SAndrew Trick // This is one step in a breadth-first search of nested variants.
substituteVariants(const PredTransition & Trans)16194c419c45SEvgeny Leviant bool PredTransitions::substituteVariants(const PredTransition &Trans) {
162033401e84SAndrew Trick // Build up a set of partial results starting at the back of
162133401e84SAndrew Trick // PredTransitions. Remember the first new transition.
162233401e84SAndrew Trick unsigned StartIdx = TransVec.size();
16234c419c45SEvgeny Leviant bool Subst = false;
162453401e8eSEvgeny Leviant assert(Trans.ProcIndex != 0);
162553401e8eSEvgeny Leviant TransVec.emplace_back(Trans.PredTerm, Trans.ProcIndex);
162633401e84SAndrew Trick
162733401e84SAndrew Trick // Visit each original write sequence.
1628e6cf3d64SCoelacanthus for (const auto &WriteSequence : Trans.WriteSequences) {
162933401e84SAndrew Trick // Push a new (empty) write sequence onto all partial Transitions.
163033401e84SAndrew Trick for (std::vector<PredTransition>::iterator I =
163133401e84SAndrew Trick TransVec.begin() + StartIdx, E = TransVec.end(); I != E; ++I) {
1632195aaaf5SCraig Topper I->WriteSequences.emplace_back();
163333401e84SAndrew Trick }
1634e6cf3d64SCoelacanthus Subst |=
1635e6cf3d64SCoelacanthus substituteVariantOperand(WriteSequence, /*IsRead=*/false, StartIdx);
163633401e84SAndrew Trick }
163733401e84SAndrew Trick // Visit each original read sequence.
1638e6cf3d64SCoelacanthus for (const auto &ReadSequence : Trans.ReadSequences) {
163933401e84SAndrew Trick // Push a new (empty) read sequence onto all partial Transitions.
164033401e84SAndrew Trick for (std::vector<PredTransition>::iterator I =
164133401e84SAndrew Trick TransVec.begin() + StartIdx, E = TransVec.end(); I != E; ++I) {
1642195aaaf5SCraig Topper I->ReadSequences.emplace_back();
164333401e84SAndrew Trick }
1644e6cf3d64SCoelacanthus Subst |= substituteVariantOperand(ReadSequence, /*IsRead=*/true, StartIdx);
164533401e84SAndrew Trick }
16464c419c45SEvgeny Leviant return Subst;
164733401e84SAndrew Trick }
164833401e84SAndrew Trick
addSequences(CodeGenSchedModels & SchedModels,const SmallVectorImpl<SmallVector<unsigned,4>> & Seqs,IdxVec & Result,bool IsRead)16496e56046fSEvgeny Leviant static void addSequences(CodeGenSchedModels &SchedModels,
16506e56046fSEvgeny Leviant const SmallVectorImpl<SmallVector<unsigned, 4>> &Seqs,
16516e56046fSEvgeny Leviant IdxVec &Result, bool IsRead) {
16526e56046fSEvgeny Leviant for (const auto &S : Seqs)
16536e56046fSEvgeny Leviant if (!S.empty())
16546e56046fSEvgeny Leviant Result.push_back(SchedModels.findOrInsertRW(S, IsRead));
16556e56046fSEvgeny Leviant }
16566e56046fSEvgeny Leviant
1657a2b59048SEvgeny Leviant #ifndef NDEBUG
dumpRecVec(const RecVec & RV)1658a2b59048SEvgeny Leviant static void dumpRecVec(const RecVec &RV) {
1659a2b59048SEvgeny Leviant for (const Record *R : RV)
1660a2b59048SEvgeny Leviant dbgs() << R->getName() << ", ";
1661a2b59048SEvgeny Leviant }
1662a2b59048SEvgeny Leviant #endif
1663a2b59048SEvgeny Leviant
dumpTransition(const CodeGenSchedModels & SchedModels,const CodeGenSchedClass & FromSC,const CodeGenSchedTransition & SCTrans,const RecVec & Preds)16646e56046fSEvgeny Leviant static void dumpTransition(const CodeGenSchedModels &SchedModels,
16656e56046fSEvgeny Leviant const CodeGenSchedClass &FromSC,
1666a2b59048SEvgeny Leviant const CodeGenSchedTransition &SCTrans,
1667a2b59048SEvgeny Leviant const RecVec &Preds) {
16686e56046fSEvgeny Leviant LLVM_DEBUG(dbgs() << "Adding transition from " << FromSC.Name << "("
16696e56046fSEvgeny Leviant << FromSC.Index << ") to "
16706e56046fSEvgeny Leviant << SchedModels.getSchedClass(SCTrans.ToClassIdx).Name << "("
1671a2b59048SEvgeny Leviant << SCTrans.ToClassIdx << ") on pred term: (";
167253401e8eSEvgeny Leviant dumpRecVec(Preds);
167353401e8eSEvgeny Leviant dbgs() << ") on processor (" << SCTrans.ProcIndex << ")\n");
16746e56046fSEvgeny Leviant }
167533401e84SAndrew Trick // Create a new SchedClass for each variant found by inferFromRW. Pass
inferFromTransitions(ArrayRef<PredTransition> LastTransitions,unsigned FromClassIdx,CodeGenSchedModels & SchedModels)167633401e84SAndrew Trick static void inferFromTransitions(ArrayRef<PredTransition> LastTransitions,
16779257b8f8SAndrew Trick unsigned FromClassIdx,
167833401e84SAndrew Trick CodeGenSchedModels &SchedModels) {
167933401e84SAndrew Trick // For each PredTransition, create a new CodeGenSchedTransition, which usually
168033401e84SAndrew Trick // requires creating a new SchedClass.
1681e6cf3d64SCoelacanthus for (const auto &LastTransition : LastTransitions) {
1682993eaf2dSEvgeny Leviant // Variant expansion (substituteVariants) may create unconditional
1683993eaf2dSEvgeny Leviant // transitions. We don't need to build sched classes for them.
1684e6cf3d64SCoelacanthus if (LastTransition.PredTerm.empty())
1685993eaf2dSEvgeny Leviant continue;
16866e56046fSEvgeny Leviant IdxVec OperWritesVariant, OperReadsVariant;
1687e6cf3d64SCoelacanthus addSequences(SchedModels, LastTransition.WriteSequences, OperWritesVariant,
1688e6cf3d64SCoelacanthus false);
1689e6cf3d64SCoelacanthus addSequences(SchedModels, LastTransition.ReadSequences, OperReadsVariant,
1690e6cf3d64SCoelacanthus true);
169133401e84SAndrew Trick CodeGenSchedTransition SCTrans;
16926e56046fSEvgeny Leviant
16936e56046fSEvgeny Leviant // Transition should not contain processor indices already assigned to
16946e56046fSEvgeny Leviant // InstRWs in this scheduling class.
1695836d0addSEvgeny Leviant const CodeGenSchedClass &FromSC = SchedModels.getSchedClass(FromClassIdx);
1696e6cf3d64SCoelacanthus if (FromSC.InstRWProcIndices.count(LastTransition.ProcIndex))
16976e56046fSEvgeny Leviant continue;
1698e6cf3d64SCoelacanthus SCTrans.ProcIndex = LastTransition.ProcIndex;
169933401e84SAndrew Trick SCTrans.ToClassIdx =
170024064771SCraig Topper SchedModels.addSchedClass(/*ItinClassDef=*/nullptr, OperWritesVariant,
1701e6cf3d64SCoelacanthus OperReadsVariant, LastTransition.ProcIndex);
1702a2b59048SEvgeny Leviant
170333401e84SAndrew Trick // The final PredTerm is unique set of predicates guarding the transition.
170433401e84SAndrew Trick RecVec Preds;
1705e6cf3d64SCoelacanthus transform(LastTransition.PredTerm, std::back_inserter(Preds),
1706e6cf3d64SCoelacanthus [](const PredCheck &P) { return P.Predicate; });
1707b5ed2750SCraig Topper Preds.erase(std::unique(Preds.begin(), Preds.end()), Preds.end());
1708a2b59048SEvgeny Leviant dumpTransition(SchedModels, FromSC, SCTrans, Preds);
170918cfa2c7SCraig Topper SCTrans.PredTerm = std::move(Preds);
171018cfa2c7SCraig Topper SchedModels.getSchedClass(FromClassIdx)
171118cfa2c7SCraig Topper .Transitions.push_back(std::move(SCTrans));
171233401e84SAndrew Trick }
171333401e84SAndrew Trick }
171433401e84SAndrew Trick
getAllProcIndices() const1715993eaf2dSEvgeny Leviant std::vector<unsigned> CodeGenSchedModels::getAllProcIndices() const {
1716993eaf2dSEvgeny Leviant std::vector<unsigned> ProcIdVec;
1717993eaf2dSEvgeny Leviant for (const auto &PM : ProcModelMap)
1718993eaf2dSEvgeny Leviant if (PM.second != 0)
1719993eaf2dSEvgeny Leviant ProcIdVec.push_back(PM.second);
17209c978dd6SFangrui Song // The order of the keys (Record pointers) of ProcModelMap are not stable.
17219c978dd6SFangrui Song // Sort to stabalize the values.
17229c978dd6SFangrui Song llvm::sort(ProcIdVec);
1723993eaf2dSEvgeny Leviant return ProcIdVec;
1724993eaf2dSEvgeny Leviant }
1725993eaf2dSEvgeny Leviant
1726993eaf2dSEvgeny Leviant static std::vector<PredTransition>
makePerProcessorTransitions(const PredTransition & Trans,ArrayRef<unsigned> ProcIndices)1727993eaf2dSEvgeny Leviant makePerProcessorTransitions(const PredTransition &Trans,
1728993eaf2dSEvgeny Leviant ArrayRef<unsigned> ProcIndices) {
1729993eaf2dSEvgeny Leviant std::vector<PredTransition> PerCpuTransVec;
1730993eaf2dSEvgeny Leviant for (unsigned ProcId : ProcIndices) {
1731993eaf2dSEvgeny Leviant assert(ProcId != 0);
1732993eaf2dSEvgeny Leviant PerCpuTransVec.push_back(Trans);
173353401e8eSEvgeny Leviant PerCpuTransVec.back().ProcIndex = ProcId;
1734993eaf2dSEvgeny Leviant }
1735993eaf2dSEvgeny Leviant return PerCpuTransVec;
1736993eaf2dSEvgeny Leviant }
1737993eaf2dSEvgeny Leviant
17389257b8f8SAndrew Trick // Create new SchedClasses for the given ReadWrite list. If any of the
17399257b8f8SAndrew Trick // ReadWrites refers to a SchedVariant, create a new SchedClass for each variant
17409257b8f8SAndrew Trick // of the ReadWrite list, following Aliases if necessary.
inferFromRW(ArrayRef<unsigned> OperWrites,ArrayRef<unsigned> OperReads,unsigned FromClassIdx,ArrayRef<unsigned> ProcIndices)1741e1761952SBenjamin Kramer void CodeGenSchedModels::inferFromRW(ArrayRef<unsigned> OperWrites,
1742e1761952SBenjamin Kramer ArrayRef<unsigned> OperReads,
174333401e84SAndrew Trick unsigned FromClassIdx,
1744e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) {
1745d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "INFER RW proc("; dumpIdxVec(ProcIndices);
1746d34e60caSNicola Zaghen dbgs() << ") ");
174733401e84SAndrew Trick // Create a seed transition with an empty PredTerm and the expanded sequences
174833401e84SAndrew Trick // of SchedWrites for the current SchedClass.
174933401e84SAndrew Trick std::vector<PredTransition> LastTransitions;
1750195aaaf5SCraig Topper LastTransitions.emplace_back();
17519257b8f8SAndrew Trick
1752e1761952SBenjamin Kramer for (unsigned WriteIdx : OperWrites) {
175333401e84SAndrew Trick IdxVec WriteSeq;
1754e1761952SBenjamin Kramer expandRWSequence(WriteIdx, WriteSeq, /*IsRead=*/false);
1755195aaaf5SCraig Topper LastTransitions[0].WriteSequences.emplace_back();
1756195aaaf5SCraig Topper SmallVectorImpl<unsigned> &Seq = LastTransitions[0].WriteSequences.back();
17571f57456cSCraig Topper Seq.append(WriteSeq.begin(), WriteSeq.end());
1758d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "("; dumpIdxVec(Seq); dbgs() << ") ");
175933401e84SAndrew Trick }
1760d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << " Reads: ");
1761e1761952SBenjamin Kramer for (unsigned ReadIdx : OperReads) {
176233401e84SAndrew Trick IdxVec ReadSeq;
1763e1761952SBenjamin Kramer expandRWSequence(ReadIdx, ReadSeq, /*IsRead=*/true);
1764195aaaf5SCraig Topper LastTransitions[0].ReadSequences.emplace_back();
1765195aaaf5SCraig Topper SmallVectorImpl<unsigned> &Seq = LastTransitions[0].ReadSequences.back();
17661f57456cSCraig Topper Seq.append(ReadSeq.begin(), ReadSeq.end());
1767d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "("; dumpIdxVec(Seq); dbgs() << ") ");
176833401e84SAndrew Trick }
1769d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << '\n');
177033401e84SAndrew Trick
1771993eaf2dSEvgeny Leviant LastTransitions = makePerProcessorTransitions(
1772e4a23a41SKazu Hirata LastTransitions[0], llvm::is_contained(ProcIndices, 0)
1773993eaf2dSEvgeny Leviant ? ArrayRef<unsigned>(getAllProcIndices())
1774993eaf2dSEvgeny Leviant : ProcIndices);
177533401e84SAndrew Trick // Collect all PredTransitions for individual operands.
177633401e84SAndrew Trick // Iterate until no variant writes remain.
17774c419c45SEvgeny Leviant bool SubstitutedAny;
17784c419c45SEvgeny Leviant do {
17794c419c45SEvgeny Leviant SubstitutedAny = false;
178033401e84SAndrew Trick PredTransitions Transitions(*this);
1781f6114259SCraig Topper for (const PredTransition &Trans : LastTransitions)
17824c419c45SEvgeny Leviant SubstitutedAny |= Transitions.substituteVariants(Trans);
1783d34e60caSNicola Zaghen LLVM_DEBUG(Transitions.dump());
178433401e84SAndrew Trick LastTransitions.swap(Transitions.TransVec);
17854c419c45SEvgeny Leviant } while (SubstitutedAny);
178633401e84SAndrew Trick
178733401e84SAndrew Trick // WARNING: We are about to mutate the SchedClasses vector. Do not refer to
178833401e84SAndrew Trick // OperWrites, OperReads, or ProcIndices after calling inferFromTransitions.
17899257b8f8SAndrew Trick inferFromTransitions(LastTransitions, FromClassIdx, *this);
179033401e84SAndrew Trick }
179133401e84SAndrew Trick
1792cf398b22SAndrew Trick // Check if any processor resource group contains all resource records in
1793cf398b22SAndrew Trick // SubUnits.
hasSuperGroup(RecVec & SubUnits,CodeGenProcModel & PM)1794cf398b22SAndrew Trick bool CodeGenSchedModels::hasSuperGroup(RecVec &SubUnits, CodeGenProcModel &PM) {
1795e6cf3d64SCoelacanthus for (Record *ProcResourceDef : PM.ProcResourceDefs) {
1796e6cf3d64SCoelacanthus if (!ProcResourceDef->isSubClassOf("ProcResGroup"))
1797cf398b22SAndrew Trick continue;
1798e6cf3d64SCoelacanthus RecVec SuperUnits = ProcResourceDef->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.
verifyProcResourceGroups(CodeGenProcModel & PM)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.
collectRegisterFiles()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.
collectProcResources()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(
1954e6cf3d64SCoelacanthus PM.dump(); dbgs() << "WriteResDefs: "; for (auto WriteResDef
1955e6cf3d64SCoelacanthus : PM.WriteResDefs) {
1956e6cf3d64SCoelacanthus if (WriteResDef->isSubClassOf("WriteRes"))
1957e6cf3d64SCoelacanthus dbgs() << WriteResDef->getValueAsDef("WriteType")->getName() << " ";
19581e46d488SAndrew Trick else
1959e6cf3d64SCoelacanthus dbgs() << WriteResDef->getName() << " ";
1960d34e60caSNicola Zaghen } dbgs() << "\nReadAdvanceDefs: ";
1961e6cf3d64SCoelacanthus for (Record *ReadAdvanceDef
1962e6cf3d64SCoelacanthus : PM.ReadAdvanceDefs) {
1963e6cf3d64SCoelacanthus if (ReadAdvanceDef->isSubClassOf("ReadAdvance"))
1964e6cf3d64SCoelacanthus dbgs() << ReadAdvanceDef->getValueAsDef("ReadType")->getName()
1965e6cf3d64SCoelacanthus << " ";
19661e46d488SAndrew Trick else
1967e6cf3d64SCoelacanthus dbgs() << ReadAdvanceDef->getName() << " ";
1968d34e60caSNicola Zaghen } dbgs()
1969d34e60caSNicola Zaghen << "\nProcResourceDefs: ";
1970e6cf3d64SCoelacanthus for (Record *ProcResourceDef
1971e6cf3d64SCoelacanthus : PM.ProcResourceDefs) {
1972e6cf3d64SCoelacanthus dbgs() << ProcResourceDef->getName() << " ";
1973e6cf3d64SCoelacanthus } dbgs()
1974d34e60caSNicola Zaghen << '\n');
1975cf398b22SAndrew Trick verifyProcResourceGroups(PM);
19761e46d488SAndrew Trick }
19776b1fd9aaSMatthias Braun
19786b1fd9aaSMatthias Braun ProcResourceDefs.clear();
19796b1fd9aaSMatthias Braun ProcResGroups.clear();
19801e46d488SAndrew Trick }
19811e46d488SAndrew Trick
checkCompleteness()198217cb5799SMatthias Braun void CodeGenSchedModels::checkCompleteness() {
198317cb5799SMatthias Braun bool Complete = true;
198417cb5799SMatthias Braun for (const CodeGenProcModel &ProcModel : procModels()) {
19851d793b8aSSimon Pilgrim const bool HasItineraries = ProcModel.hasItineraries();
198617cb5799SMatthias Braun if (!ProcModel.ModelDef->getValueAsBit("CompleteModel"))
198717cb5799SMatthias Braun continue;
198817cb5799SMatthias Braun for (const CodeGenInstruction *Inst : Target.getInstructionsByEnumValue()) {
198917cb5799SMatthias Braun if (Inst->hasNoSchedulingInfo)
199017cb5799SMatthias Braun continue;
19915f95c9afSSimon Dardis if (ProcModel.isUnsupported(*Inst))
19925f95c9afSSimon Dardis continue;
199317cb5799SMatthias Braun unsigned SCIdx = getSchedClassIdx(*Inst);
199417cb5799SMatthias Braun if (!SCIdx) {
1995*16978d85SJonas Paulsson if (Inst->TheDef->isValueUnset("SchedRW")) {
1996dff673bbSDaniel Sanders PrintError(Inst->TheDef->getLoc(),
1997dff673bbSDaniel Sanders "No schedule information for instruction '" +
1998301ed1cbSSimon Tatham Inst->TheDef->getName() + "' in SchedMachineModel '" +
1999301ed1cbSSimon Tatham ProcModel.ModelDef->getName() + "'");
200017cb5799SMatthias Braun Complete = false;
200117cb5799SMatthias Braun }
200217cb5799SMatthias Braun continue;
200317cb5799SMatthias Braun }
200417cb5799SMatthias Braun
200517cb5799SMatthias Braun const CodeGenSchedClass &SC = getSchedClass(SCIdx);
200617cb5799SMatthias Braun if (!SC.Writes.empty())
200717cb5799SMatthias Braun continue;
20081d793b8aSSimon Pilgrim if (HasItineraries && SC.ItinClassDef != nullptr &&
200975cda2f2SUlrich Weigand SC.ItinClassDef->getName() != "NoItinerary")
201042d9ad9cSMatthias Braun continue;
201117cb5799SMatthias Braun
201217cb5799SMatthias Braun const RecVec &InstRWs = SC.InstRWs;
2013562e8294SDavid Majnemer auto I = find_if(InstRWs, [&ProcModel](const Record *R) {
2014562e8294SDavid Majnemer return R->getValueAsDef("SchedModel") == ProcModel.ModelDef;
201517cb5799SMatthias Braun });
201617cb5799SMatthias Braun if (I == InstRWs.end()) {
2017dff673bbSDaniel Sanders PrintError(Inst->TheDef->getLoc(), "'" + ProcModel.ModelName +
2018dff673bbSDaniel Sanders "' lacks information for '" +
201917cb5799SMatthias Braun Inst->TheDef->getName() + "'");
202017cb5799SMatthias Braun Complete = false;
202117cb5799SMatthias Braun }
202217cb5799SMatthias Braun }
202317cb5799SMatthias Braun }
2024a939bd07SMatthias Braun if (!Complete) {
2025a939bd07SMatthias Braun errs() << "\n\nIncomplete schedule models found.\n"
2026a939bd07SMatthias Braun << "- Consider setting 'CompleteModel = 0' while developing new models.\n"
2027a939bd07SMatthias Braun << "- Pseudo instructions can be marked with 'hasNoSchedulingInfo = 1'.\n"
2028a939bd07SMatthias Braun << "- Instructions should usually have Sched<[...]> as a superclass, "
20295f95c9afSSimon Dardis "you may temporarily use an empty list.\n"
20305f95c9afSSimon Dardis << "- Instructions related to unsupported features can be excluded with "
20315f95c9afSSimon Dardis "list<Predicate> UnsupportedFeatures = [HasA,..,HasY]; in the "
20325f95c9afSSimon Dardis "processor model.\n\n";
203317cb5799SMatthias Braun PrintFatalError("Incomplete schedule model");
203417cb5799SMatthias Braun }
2035a939bd07SMatthias Braun }
203617cb5799SMatthias Braun
20371e46d488SAndrew Trick // Collect itinerary class resources for each processor.
collectItinProcResources(Record * ItinClassDef)20381e46d488SAndrew Trick void CodeGenSchedModels::collectItinProcResources(Record *ItinClassDef) {
20391e46d488SAndrew Trick for (unsigned PIdx = 0, PEnd = ProcModels.size(); PIdx != PEnd; ++PIdx) {
20401e46d488SAndrew Trick const CodeGenProcModel &PM = ProcModels[PIdx];
20411e46d488SAndrew Trick // For all ItinRW entries.
20421e46d488SAndrew Trick bool HasMatch = false;
20431e46d488SAndrew Trick for (RecIter II = PM.ItinRWDefs.begin(), IE = PM.ItinRWDefs.end();
20441e46d488SAndrew Trick II != IE; ++II) {
20451e46d488SAndrew Trick RecVec Matched = (*II)->getValueAsListOfDefs("MatchedItinClasses");
2046e4a23a41SKazu Hirata if (!llvm::is_contained(Matched, ItinClassDef))
20471e46d488SAndrew Trick continue;
20481e46d488SAndrew Trick if (HasMatch)
2049635debe8SJoerg Sonnenberger PrintFatalError((*II)->getLoc(), "Duplicate itinerary class "
20501e46d488SAndrew Trick + ItinClassDef->getName()
20511e46d488SAndrew Trick + " in ItinResources for " + PM.ModelName);
20521e46d488SAndrew Trick HasMatch = true;
20531e46d488SAndrew Trick IdxVec Writes, Reads;
20541e46d488SAndrew Trick findRWs((*II)->getValueAsListOfDefs("OperandReadWrites"), Writes, Reads);
20559f3293a9SCraig Topper collectRWResources(Writes, Reads, PIdx);
20561e46d488SAndrew Trick }
20571e46d488SAndrew Trick }
20581e46d488SAndrew Trick }
20591e46d488SAndrew Trick
collectRWResources(unsigned RWIdx,bool IsRead,ArrayRef<unsigned> ProcIndices)2060d0b9c445SAndrew Trick void CodeGenSchedModels::collectRWResources(unsigned RWIdx, bool IsRead,
2061e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) {
2062d0b9c445SAndrew Trick const CodeGenSchedRW &SchedRW = getSchedRW(RWIdx, IsRead);
2063d0b9c445SAndrew Trick if (SchedRW.TheDef) {
2064d0b9c445SAndrew Trick if (!IsRead && SchedRW.TheDef->isSubClassOf("SchedWriteRes")) {
2065e1761952SBenjamin Kramer for (unsigned Idx : ProcIndices)
2066e1761952SBenjamin Kramer addWriteRes(SchedRW.TheDef, Idx);
2067d0b9c445SAndrew Trick }
2068d0b9c445SAndrew Trick else if (IsRead && SchedRW.TheDef->isSubClassOf("SchedReadAdvance")) {
2069e1761952SBenjamin Kramer for (unsigned Idx : ProcIndices)
2070e1761952SBenjamin Kramer addReadAdvance(SchedRW.TheDef, Idx);
2071d0b9c445SAndrew Trick }
2072d0b9c445SAndrew Trick }
2073e6cf3d64SCoelacanthus for (auto *Alias : SchedRW.Aliases) {
2074d0b9c445SAndrew Trick IdxVec AliasProcIndices;
2075e6cf3d64SCoelacanthus if (Alias->getValueInit("SchedModel")->isComplete()) {
2076d0b9c445SAndrew Trick AliasProcIndices.push_back(
2077e6cf3d64SCoelacanthus getProcModel(Alias->getValueAsDef("SchedModel")).Index);
2078e6cf3d64SCoelacanthus } else
2079d0b9c445SAndrew Trick AliasProcIndices = ProcIndices;
2080e6cf3d64SCoelacanthus const CodeGenSchedRW &AliasRW = getSchedRW(Alias->getValueAsDef("AliasRW"));
2081d0b9c445SAndrew Trick assert(AliasRW.IsRead == IsRead && "cannot alias reads to writes");
2082d0b9c445SAndrew Trick
2083d0b9c445SAndrew Trick IdxVec ExpandedRWs;
2084d0b9c445SAndrew Trick expandRWSequence(AliasRW.Index, ExpandedRWs, IsRead);
2085e6cf3d64SCoelacanthus for (unsigned int ExpandedRW : ExpandedRWs) {
2086e6cf3d64SCoelacanthus collectRWResources(ExpandedRW, IsRead, AliasProcIndices);
2087d0b9c445SAndrew Trick }
2088d0b9c445SAndrew Trick }
2089d0b9c445SAndrew Trick }
20901e46d488SAndrew Trick
20911e46d488SAndrew Trick // Collect resources for a set of read/write types and processor indices.
collectRWResources(ArrayRef<unsigned> Writes,ArrayRef<unsigned> Reads,ArrayRef<unsigned> ProcIndices)2092e1761952SBenjamin Kramer void CodeGenSchedModels::collectRWResources(ArrayRef<unsigned> Writes,
2093e1761952SBenjamin Kramer ArrayRef<unsigned> Reads,
2094e1761952SBenjamin Kramer ArrayRef<unsigned> ProcIndices) {
2095e1761952SBenjamin Kramer for (unsigned Idx : Writes)
2096e1761952SBenjamin Kramer collectRWResources(Idx, /*IsRead=*/false, ProcIndices);
2097d0b9c445SAndrew Trick
2098e1761952SBenjamin Kramer for (unsigned Idx : Reads)
2099e1761952SBenjamin Kramer collectRWResources(Idx, /*IsRead=*/true, ProcIndices);
21001e46d488SAndrew Trick }
2101d0b9c445SAndrew Trick
21021e46d488SAndrew Trick // Find the processor's resource units for this kind of resource.
findProcResUnits(Record * ProcResKind,const CodeGenProcModel & PM,ArrayRef<SMLoc> Loc) const21031e46d488SAndrew Trick Record *CodeGenSchedModels::findProcResUnits(Record *ProcResKind,
21049dc54e25SEvandro Menezes const CodeGenProcModel &PM,
21059dc54e25SEvandro Menezes ArrayRef<SMLoc> Loc) const {
21061e46d488SAndrew Trick if (ProcResKind->isSubClassOf("ProcResourceUnits"))
21071e46d488SAndrew Trick return ProcResKind;
21081e46d488SAndrew Trick
210924064771SCraig Topper Record *ProcUnitDef = nullptr;
21106b1fd9aaSMatthias Braun assert(!ProcResourceDefs.empty());
21116b1fd9aaSMatthias Braun assert(!ProcResGroups.empty());
21121e46d488SAndrew Trick
211367b042c2SJaved Absar for (Record *ProcResDef : ProcResourceDefs) {
211467b042c2SJaved Absar if (ProcResDef->getValueAsDef("Kind") == ProcResKind
211567b042c2SJaved Absar && ProcResDef->getValueAsDef("SchedModel") == PM.ModelDef) {
21161e46d488SAndrew Trick if (ProcUnitDef) {
21179dc54e25SEvandro Menezes PrintFatalError(Loc,
21181e46d488SAndrew Trick "Multiple ProcessorResourceUnits associated with "
21191e46d488SAndrew Trick + ProcResKind->getName());
21201e46d488SAndrew Trick }
212167b042c2SJaved Absar ProcUnitDef = ProcResDef;
21221e46d488SAndrew Trick }
21231e46d488SAndrew Trick }
212467b042c2SJaved Absar for (Record *ProcResGroup : ProcResGroups) {
212567b042c2SJaved Absar if (ProcResGroup == ProcResKind
212667b042c2SJaved Absar && ProcResGroup->getValueAsDef("SchedModel") == PM.ModelDef) {
21274e67cba8SAndrew Trick if (ProcUnitDef) {
21289dc54e25SEvandro Menezes PrintFatalError(Loc,
21294e67cba8SAndrew Trick "Multiple ProcessorResourceUnits associated with "
21304e67cba8SAndrew Trick + ProcResKind->getName());
21314e67cba8SAndrew Trick }
213267b042c2SJaved Absar ProcUnitDef = ProcResGroup;
21334e67cba8SAndrew Trick }
21344e67cba8SAndrew Trick }
21351e46d488SAndrew Trick if (!ProcUnitDef) {
21369dc54e25SEvandro Menezes PrintFatalError(Loc,
21371e46d488SAndrew Trick "No ProcessorResources associated with "
21381e46d488SAndrew Trick + ProcResKind->getName());
21391e46d488SAndrew Trick }
21401e46d488SAndrew Trick return ProcUnitDef;
21411e46d488SAndrew Trick }
21421e46d488SAndrew Trick
21431e46d488SAndrew Trick // Iteratively add a resource and its super resources.
addProcResource(Record * ProcResKind,CodeGenProcModel & PM,ArrayRef<SMLoc> Loc)21441e46d488SAndrew Trick void CodeGenSchedModels::addProcResource(Record *ProcResKind,
21459dc54e25SEvandro Menezes CodeGenProcModel &PM,
21469dc54e25SEvandro Menezes ArrayRef<SMLoc> Loc) {
2147a3fe70d2SEugene Zelenko while (true) {
21489dc54e25SEvandro Menezes Record *ProcResUnits = findProcResUnits(ProcResKind, PM, Loc);
21491e46d488SAndrew Trick
21501e46d488SAndrew Trick // See if this ProcResource is already associated with this processor.
215142531260SDavid Majnemer if (is_contained(PM.ProcResourceDefs, ProcResUnits))
21521e46d488SAndrew Trick return;
21531e46d488SAndrew Trick
21541e46d488SAndrew Trick PM.ProcResourceDefs.push_back(ProcResUnits);
21554e67cba8SAndrew Trick if (ProcResUnits->isSubClassOf("ProcResGroup"))
21564e67cba8SAndrew Trick return;
21574e67cba8SAndrew Trick
21581e46d488SAndrew Trick if (!ProcResUnits->getValueInit("Super")->isComplete())
21591e46d488SAndrew Trick return;
21601e46d488SAndrew Trick
21611e46d488SAndrew Trick ProcResKind = ProcResUnits->getValueAsDef("Super");
21621e46d488SAndrew Trick }
21631e46d488SAndrew Trick }
21641e46d488SAndrew Trick
21651e46d488SAndrew Trick // Add resources for a SchedWrite to this processor if they don't exist.
addWriteRes(Record * ProcWriteResDef,unsigned PIdx)21661e46d488SAndrew Trick void CodeGenSchedModels::addWriteRes(Record *ProcWriteResDef, unsigned PIdx) {
21679257b8f8SAndrew Trick assert(PIdx && "don't add resources to an invalid Processor model");
21689257b8f8SAndrew Trick
21691e46d488SAndrew Trick RecVec &WRDefs = ProcModels[PIdx].WriteResDefs;
217042531260SDavid Majnemer if (is_contained(WRDefs, ProcWriteResDef))
21711e46d488SAndrew Trick return;
21721e46d488SAndrew Trick WRDefs.push_back(ProcWriteResDef);
21731e46d488SAndrew Trick
21741e46d488SAndrew Trick // Visit ProcResourceKinds referenced by the newly discovered WriteRes.
21751e46d488SAndrew Trick RecVec ProcResDefs = ProcWriteResDef->getValueAsListOfDefs("ProcResources");
2176e6cf3d64SCoelacanthus for (auto *ProcResDef : ProcResDefs) {
2177e6cf3d64SCoelacanthus addProcResource(ProcResDef, ProcModels[PIdx], ProcWriteResDef->getLoc());
21781e46d488SAndrew Trick }
21791e46d488SAndrew Trick }
21801e46d488SAndrew Trick
21811e46d488SAndrew Trick // Add resources for a ReadAdvance to this processor if they don't exist.
addReadAdvance(Record * ProcReadAdvanceDef,unsigned PIdx)21821e46d488SAndrew Trick void CodeGenSchedModels::addReadAdvance(Record *ProcReadAdvanceDef,
21831e46d488SAndrew Trick unsigned PIdx) {
21841e46d488SAndrew Trick RecVec &RADefs = ProcModels[PIdx].ReadAdvanceDefs;
218542531260SDavid Majnemer if (is_contained(RADefs, ProcReadAdvanceDef))
21861e46d488SAndrew Trick return;
21871e46d488SAndrew Trick RADefs.push_back(ProcReadAdvanceDef);
21881e46d488SAndrew Trick }
21891e46d488SAndrew Trick
getProcResourceIdx(Record * PRDef) const21908fa00f50SAndrew Trick unsigned CodeGenProcModel::getProcResourceIdx(Record *PRDef) const {
21910d955d0bSDavid Majnemer RecIter PRPos = find(ProcResourceDefs, PRDef);
21928fa00f50SAndrew Trick if (PRPos == ProcResourceDefs.end())
2193635debe8SJoerg Sonnenberger PrintFatalError(PRDef->getLoc(), "ProcResource def is not included in "
21948fa00f50SAndrew Trick "the ProcResources list for " + ModelName);
21958fa00f50SAndrew Trick // Idx=0 is reserved for invalid.
21967296139dSRafael Espindola return 1 + (PRPos - ProcResourceDefs.begin());
21978fa00f50SAndrew Trick }
21988fa00f50SAndrew Trick
isUnsupported(const CodeGenInstruction & Inst) const21995f95c9afSSimon Dardis bool CodeGenProcModel::isUnsupported(const CodeGenInstruction &Inst) const {
22005f95c9afSSimon Dardis for (const Record *TheDef : UnsupportedFeaturesDefs) {
22015f95c9afSSimon Dardis for (const Record *PredDef : Inst.TheDef->getValueAsListOfDefs("Predicates")) {
22025f95c9afSSimon Dardis if (TheDef->getName() == PredDef->getName())
22035f95c9afSSimon Dardis return true;
22045f95c9afSSimon Dardis }
22055f95c9afSSimon Dardis }
22065f95c9afSSimon Dardis return false;
22075f95c9afSSimon Dardis }
22085f95c9afSSimon Dardis
220976686496SAndrew Trick #ifndef NDEBUG
dump() const221076686496SAndrew Trick void CodeGenProcModel::dump() const {
221176686496SAndrew Trick dbgs() << Index << ": " << ModelName << " "
221276686496SAndrew Trick << (ModelDef ? ModelDef->getName() : "inferred") << " "
221376686496SAndrew Trick << (ItinsDef ? ItinsDef->getName() : "no itinerary") << '\n';
221476686496SAndrew Trick }
221576686496SAndrew Trick
dump() const221676686496SAndrew Trick void CodeGenSchedRW::dump() const {
221776686496SAndrew Trick dbgs() << Name << (IsVariadic ? " (V) " : " ");
221876686496SAndrew Trick if (IsSequence) {
221976686496SAndrew Trick dbgs() << "(";
222076686496SAndrew Trick dumpIdxVec(Sequence);
222176686496SAndrew Trick dbgs() << ")";
222276686496SAndrew Trick }
222376686496SAndrew Trick }
222476686496SAndrew Trick
dump(const CodeGenSchedModels * SchedModels) const222576686496SAndrew Trick void CodeGenSchedClass::dump(const CodeGenSchedModels* SchedModels) const {
2226bf8a28dcSAndrew Trick dbgs() << "SCHEDCLASS " << Index << ":" << Name << '\n'
222776686496SAndrew Trick << " Writes: ";
222876686496SAndrew Trick for (unsigned i = 0, N = Writes.size(); i < N; ++i) {
222976686496SAndrew Trick SchedModels->getSchedWrite(Writes[i]).dump();
223076686496SAndrew Trick if (i < N-1) {
223176686496SAndrew Trick dbgs() << '\n';
223276686496SAndrew Trick dbgs().indent(10);
223376686496SAndrew Trick }
223476686496SAndrew Trick }
223576686496SAndrew Trick dbgs() << "\n Reads: ";
223676686496SAndrew Trick for (unsigned i = 0, N = Reads.size(); i < N; ++i) {
223776686496SAndrew Trick SchedModels->getSchedRead(Reads[i]).dump();
223876686496SAndrew Trick if (i < N-1) {
223976686496SAndrew Trick dbgs() << '\n';
224076686496SAndrew Trick dbgs().indent(10);
224176686496SAndrew Trick }
224276686496SAndrew Trick }
2243f2741f2aSDavid Green dbgs() << "\n ProcIdx: "; dumpIdxVec(ProcIndices);
2244e97978f9SAndrew Trick if (!Transitions.empty()) {
2245e97978f9SAndrew Trick dbgs() << "\n Transitions for Proc ";
224667b042c2SJaved Absar for (const CodeGenSchedTransition &Transition : Transitions) {
224753401e8eSEvgeny Leviant dbgs() << Transition.ProcIndex << ", ";
2248e97978f9SAndrew Trick }
2249e97978f9SAndrew Trick }
2250f2741f2aSDavid Green dbgs() << '\n';
225176686496SAndrew Trick }
225233401e84SAndrew Trick
dump() const225333401e84SAndrew Trick void PredTransitions::dump() const {
225433401e84SAndrew Trick dbgs() << "Expanded Variants:\n";
2255e6cf3d64SCoelacanthus for (const auto &TI : TransVec) {
225633401e84SAndrew Trick dbgs() << "{";
2257643c00f7SKazu Hirata ListSeparator LS;
2258e6cf3d64SCoelacanthus for (const PredCheck &PC : TI.PredTerm)
2259643c00f7SKazu Hirata dbgs() << LS << SchedModels.getSchedRW(PC.RWIdx, PC.IsRead).Name << ":"
2260643c00f7SKazu Hirata << PC.Predicate->getName();
226133401e84SAndrew Trick dbgs() << "},\n => {";
226233401e84SAndrew Trick for (SmallVectorImpl<SmallVector<unsigned, 4>>::const_iterator
2263e6cf3d64SCoelacanthus WSI = TI.WriteSequences.begin(),
2264e6cf3d64SCoelacanthus WSE = TI.WriteSequences.end();
226533401e84SAndrew Trick WSI != WSE; ++WSI) {
226633401e84SAndrew Trick dbgs() << "(";
2267643c00f7SKazu Hirata ListSeparator LS;
2268643c00f7SKazu Hirata for (unsigned N : *WSI)
2269643c00f7SKazu Hirata dbgs() << LS << SchedModels.getSchedWrite(N).Name;
227033401e84SAndrew Trick dbgs() << "),";
227133401e84SAndrew Trick }
227233401e84SAndrew Trick dbgs() << "}\n";
227333401e84SAndrew Trick }
227433401e84SAndrew Trick }
227576686496SAndrew Trick #endif // NDEBUG
2276